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Author SHA1 Message Date
Eric Yu 563620b1e0 overcomplicate it 2024-03-06 17:34:40 -08:00
Eric Yu b986b112ce manually add stuff 2024-03-06 13:15:07 -08:00
55 changed files with 31535 additions and 2 deletions

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*.log
*.jou
*.ini
*.wlf
*.vstf
wlft*
work
transcript
prj
.Xil
wave_values.txt
*.ini

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{
"digital-ide.dont-show-again.propose.issue": true
}

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# QLASER_V_EYHC
# QLASER_PULSE_CHANNEL
## Do NOT "merge" any branches. Each branch is a separate thing!!!!
RAM tables for a single QLaser pulse channel. There are two tables, one defined the pulse shape and envelope, and another stores the waveform data.
Do NOT "merge" any branches in this repository. The branches are used to keep track of the different versions of the project.
## Build and Run
First, make sure Vivado is in PATH. Then, run the following commands to build the project:
```bash
vivado -mode tcl -source tools/build_src/build.tcl
```
The build project will be in `prj` directory. If you modified the IP core, you need to close Vivado and run the above commands again.
## Simulate in ModelSim
Make sure you have ModelSim in PATH. Also make sure you already compiled the project and Xilinx libraries in Vivado. Make sure the `modelsim.ini` file is in `tools/sim` directory Then, run the following commands to simulate the project:
```bash
cd tools/sim
modelsim -do run.do
```
#### Compile only (no simulation)
```bash
cd tools/sim
vsim -c -quiet -do compile.do
```

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---------------------------------------------------------------
-- File : qlaser_dacs_pulse_channel.vhd
-- Description : Single channel of pulse output
----------------------------------------------------------------
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.qlaser_pkg.all;
use work.qlaser_dacs_pulse_channel_pkg.all;
entity qlaser_dacs_pulse_channel is
port (
reset : in std_logic;
clk : in std_logic;
enable : in std_logic; -- Set when DAC interface is running
start : in std_logic; -- Set when pulse generation sequence begins (trigger)
cnt_time : in std_logic_vector(23 downto 0); -- Time since trigger.
busy : out std_logic; -- Status signal
done_seq : in std_logic; -- Status signal to terminate sequence
-- TODO: Add another status signal to indicate any errors?
-- CPU interface
cpu_addr : in std_logic_vector(11 downto 0); -- Address input
cpu_wdata : in std_logic_vector(31 downto 0); -- Data input
cpu_wr : in std_logic; -- Write enable
cpu_sel : in std_logic; -- Block select
cpu_rdata : out std_logic_vector(31 downto 0); -- Data output
cpu_rdata_dv : out std_logic; -- Acknowledge output
-- AXI-stream output
axis_tready : in std_logic; -- axi_stream ready from downstream module
axis_tdata : out std_logic_vector(15 downto 0); -- axi stream output data
axis_tvalid : out std_logic; -- axi_stream output data valid
axis_tlast : out std_logic -- axi_stream output set on last data
);
end entity;
---------------------------------------------------------------------------
-- Single channel pulse generator with two RAMs
---------------------------------------------------------------------------
architecture channel of qlaser_dacs_pulse_channel is
-- Signal declarations for pulse RAM
signal ram_pulse_we : std_logic_vector( 0 downto 0); -- Write enable for pulse RAM
signal ram_pulse_addra : std_logic_vector( 9 downto 0); -- Address for pulse RAM
signal ram_pulse_dina : std_logic_vector(31 downto 0); -- Data for pulse RAM
signal ram_pulse_douta : std_logic_vector(31 downto 0); -- Data out from pulse RAM
signal ram_pulse_addrb : std_logic_vector( 9 downto 0); -- Address for pulse RAM
signal ram_pulse_doutb : std_logic_vector(31 downto 0); -- Data out from pulse RAM
-- Signal declarations for waveform RAM
signal ram_waveform_wea : std_logic_vector( 0 downto 0); -- Write enable for waveform RAM
signal ram_waveform_addra : std_logic_vector(10 downto 0); -- Address for waveform RAM
signal ram_waveform_dina : std_logic_vector(31 downto 0); -- Data for waveform RAM
signal ram_waveform_douta : std_logic_vector(31 downto 0); -- Data out from waveform RAM
signal ram_waveform_addrb : std_logic_vector(19 downto 0); -- Address for waveform RAM
signal ram_waveform_doutb : std_logic_vector(15 downto 0); -- Data out from waveform RAM
-- State variable type declaration for main state machine
type t_sm_state is (
S_RESET, -- Wait for 'enable'. Stay here until JESD interface is up and running,
S_IDLE, -- Wait for 'start'
S_WAIT, -- Wait for cnt_time, external input, to match pulse position RAM output
S_LOAD, -- Load the pulse channel RAM addresses and start the waveform output
S_HOLD, -- Hold the last pulse definition address and output its data
S_WAVE_UP, -- Output the rising edge of a waveform
S_WAVE_FLAT,-- Output the flat top part of a waveform
S_WAVE_DOWN -- Output the falling edge of a waveform
);
signal sm_state : t_sm_state;
signal sm_wavedata : std_logic_vector(15 downto 0); -- Waveform RAM data
signal sm_wavedata_dv : std_logic; -- Signal to indicate that waveform RAM data is valid
signal sm_busy : std_logic; -- Signal to indicate that s.m. is not idle
signal cnt_wave_len : unsigned(C_BITS_ADDR_LENGTH - 1 downto 0); -- Counter used for incremnet/decrement wave table addresses
signal cnt_wave_top : unsigned(C_BITS_ADDR_TOP - 1 downto 0); -- Counter for the flat top of the waveform
signal cnt_addr : unsigned(C_BITS_ADDR_START - 1 downto 0); -- Counter to keep track of address increments
signal wave_last_addr : std_logic_vector(C_BITS_ADDR_FULL - 1 downto 0); -- Last address of the waveform table
-- Misc signals
signal cpu_rdata_dv_e1 : std_logic;
signal cpu_rdata_dv_e2 : std_logic;
signal cpu_rdata_ramsel_d1 : std_logic;
signal cpu_rdata_ramsel_d2 : std_logic;
signal pc : std_logic_vector(C_BITS_ADDR_PULSE - 1 downto 0); -- pulse counter, used to count the number of pulses generated
----------------------------------------------------------------
-- Assign values from the pulse definition ram to regfiles (?) with the following:
-- 1. Start time 24 bits. [23:0]
-- 2. Wave start addr 12 bit at [11:0]
-- Wave length 10-bit at [25:16]
-- 3. Scale factors 16, 16. [31:16] [15:0]
-- 4. Flat-top 17-bit. [16:0]
----------------------------------------------------------------
signal reg_pulse_time : std_logic_vector(31 downto 0); -- first register which stores the pulse's start time
signal reg_wave_start_addr : std_logic_vector(C_BITS_ADDR_START - 1 downto 0); -- the start address of the wavetable
signal reg_wave_length : unsigned(C_BITS_ADDR_LENGTH - 1 downto 0); -- the length of the wavetable
signal reg_wave_end_addr : unsigned(C_BITS_ADDR_FULL - 1 downto 0); -- the end address of the wavetable
signal reg_scale_gain : unsigned(C_BITS_TIME_FACTOR - 1 downto 0); -- scale factor for the gain, amplitude
signal reg_scale_time : unsigned(C_BITS_TIME_FACTOR - 1 downto 0); -- scale factor for the time, length
signal reg_pulse_flattop : unsigned(C_BITS_ADDR_TOP - 1 downto 0); -- fourth register which stores the pulse's flat top value
-- Pipeline delays
signal sm_state_d1 : t_sm_state;
signal start_d1 : std_logic;
signal enable_d1 : std_logic;
-- error signal
signal err_addr_of : std_logic;
begin
----------------------------------------------------------------
-- Pulse Definition Block RAM.
-- Synch write, Synch read
-- Port A is for CPU read/write. 1024x32-bit
-- Port B is for pulse time data output. 1024x32-bit
----------------------------------------------------------------
u_ram_pulse : entity work.bram_pulse_definition
port map(
-- Port A CPU Bus
clka => clk, -- input std_logic
wea => ram_pulse_we, -- input slv( 0 to 0 )
addra => ram_pulse_addra, -- input slv( 9 downto 0 )
dina => ram_pulse_dina, -- input slv( 31 downto 0 )
douta => ram_pulse_douta, -- output slv( 31 downto 0 ),
-- Port B waveform input
clkb => clk,
web => (others=>'0'),
addrb => ram_pulse_addrb, -- input slv( 9 downto 0 )
dinb => (others=>'0'),
doutb => ram_pulse_doutb -- output slv( 31 downto 0 )
);
----------------------------------------------------------------
-- Waveform table Block RAM.
-- Synch write, Synch read
-- Port A is for CPU read/write. 2048x32-bit
-- Port B is for waveform data. 4096x16-bit
----------------------------------------------------------------
u_ram_waveform : entity work.bram_waveform
port map (
-- Port A CPU Bus
clka => clk , -- input std_logic
wea => ram_waveform_wea , -- input slv(0 downto 0)
addra => ram_waveform_addra , -- input slv(10 downto 0)
dina => ram_waveform_dina , -- input slv(31 downto 0)
douta => ram_waveform_douta , -- output slv(31 downto 0)
-- Port B waveform output
clkb => clk , -- input std_logic
web => (others=>'0') , -- input slv(0 downto 0)
addrb => ram_waveform_addrb(19 downto 8) , -- input slv(11 downto 0)
dinb => (others=>'0') , -- input slv(15 downto 0)
doutb => ram_waveform_doutb -- output slv(15 downto 0)
);
----------------------------------------------------------------
-- CPU Read/Write RAM
-- MSB of cpu_addr is used to select one of the two RAMs
-- to read/write, and the remainder are a 9-bit or 4-bit RAM address.
----------------------------------------------------------------
pr_ram_rw : process (reset, clk)
begin
if (reset = '1') then
ram_pulse_addra <= (others=>'0');
ram_pulse_dina <= (others=>'0');
ram_pulse_we <= (others=>'0');
ram_waveform_wea <= (others=>'0');
ram_waveform_addra <= (others=>'0');
ram_waveform_dina <= (others=>'0');
cpu_rdata <= (others=>'0');
cpu_rdata_dv <= '0';
cpu_rdata_dv_e1 <= '0';
cpu_rdata_dv_e2 <= '0';
cpu_rdata_ramsel_d1 <= '0';
cpu_rdata_ramsel_d2 <= '0';
elsif rising_edge(clk) then
-------------------------------------------------
-- CPU writing RAM
-------------------------------------------------
if (cpu_wr = '1') and (cpu_sel = '1') then
-- 0 for pulse definition, 1 for waveform table
if (cpu_addr(C_RAM_SELECT) = '1') then
ram_pulse_addra <= (others=>'0');
ram_pulse_dina <= (others=>'0');
ram_pulse_we <= (others=>'0');
ram_waveform_wea(0) <= '1';
ram_waveform_addra <= cpu_addr(10 downto 0);
ram_waveform_dina <= cpu_wdata;
else
ram_pulse_addra <= cpu_addr(9 downto 0);
ram_pulse_dina <= cpu_wdata;
ram_pulse_we(0) <= '1';
ram_waveform_wea <= (others=>'0');
ram_waveform_addra <= (others=>'0');
ram_waveform_dina <= (others=>'0');
end if;
cpu_rdata_dv_e1 <= '0';
cpu_rdata_dv_e2 <= '0';
cpu_rdata_ramsel_d1 <= '0';
cpu_rdata_ramsel_d2 <= '0';
-------------------------------------------------
-- CPU read
-------------------------------------------------
elsif (cpu_wr = '0') and (cpu_sel = '1') then
if (cpu_addr(C_RAM_SELECT) = '1') then -- Waveform
ram_pulse_addra <= (others=>'0');
ram_waveform_addra <= cpu_addr(10 downto 0);
else -- Pulse
ram_pulse_addra <= cpu_addr(9 downto 0);
ram_waveform_addra <= (others=>'0');
end if;
ram_pulse_we <= (others=>'0');
ram_waveform_wea(0) <= '0';
cpu_rdata_dv_e2 <= '1'; -- DV for cycle, when RAM output occurs
cpu_rdata_dv_e1 <= cpu_rdata_dv_e2; -- DV for next cycle
cpu_rdata_ramsel_d1 <= cpu_addr(C_RAM_SELECT); -- Save the select bit one cycle later
cpu_rdata_ramsel_d2 <= cpu_rdata_ramsel_d1;
else
ram_pulse_addra <= (others=>'0');
ram_pulse_we <= (others=>'0');
ram_waveform_addra <= (others=>'0');
ram_waveform_wea(0) <= '0';
cpu_rdata_dv_e2 <= '0';
cpu_rdata_dv_e1 <= cpu_rdata_dv_e2; -- DV for next cycle
cpu_rdata_ramsel_d1 <= '0';
cpu_rdata_ramsel_d2 <= cpu_rdata_ramsel_d1;
end if;
-------------------------------------------------
-- Output the delayed RAM data
-- This adds a pipeline delay to the cpu_rdata_dv to account for
-- the delay in reading data from the RAM
-------------------------------------------------
if (cpu_rdata_dv_e1 = '1') then
cpu_rdata_dv <= '1';
-- Select source of output data
if (cpu_rdata_ramsel_d2 = '1') then -- Output is from waveform table
cpu_rdata <= ram_waveform_douta;
elsif (cpu_rdata_ramsel_d2 = '0') then
cpu_rdata <= ram_pulse_douta;
end if;
else
cpu_rdata <= (others=>'0');
cpu_rdata_dv <= '0';
end if;
end if;
end process;
----------------------------------------------------------------
-- State machine:
-- Compares cnt_time input against current output from pulse position RAM.
-- When values match iti incremnts the pulse postion RAM address to
-- retrieve the next pulse position and also starts reading the
-- entire waveform table, one value every clock cycle, until it reaches the end.
-- Once the pulse is complete it waits for the next cnt_time match.
-- Repeat until all pulse position RAM times have triggered a pulse output
-- or until the maximum counter time has been reached.
----------------------------------------------------------------
pr_sm : process (reset, clk)
-- Temp variables for waveform output
variable v_ram_waveform_doutb_multiplied : std_logic_vector(C_BITS_GAIN_FACTOR + 15 downto 0);
variable v_ram_waveform_addrb_scaled : std_logic_vector(C_BITS_ADDR_START + 15 downto 0);
variable v_ram_waveform_addrb_raw : unsigned(C_BITS_ADDR_START - 1 downto 0);
begin
if (reset = '1') then
sm_state <= S_IDLE; -- TODO: Eric: Should this be S_RESET since we reset the JEDS interface as well?
ram_pulse_addrb <= (others=>'0');
ram_waveform_addrb <= (others=>'0');
cnt_addr <= (others=>'0');
wave_last_addr <= (others=>'0');
sm_wavedata <= (others=>'0');
sm_wavedata_dv <= '0';
sm_busy <= '0';
reg_wave_start_addr <= (others=>'0');
reg_wave_length <= (others=>'0');
reg_scale_gain <= (others=>'0');
reg_scale_time <= (others=>'0');
reg_wave_end_addr <= (others=>'0');
reg_pulse_time <= (others=>'0');
reg_pulse_flattop <= (others=>'0');
pc <= (others=>'0');
cnt_wave_len <= (others=>'0');
cnt_wave_top <= (others=>'0');
elsif rising_edge(clk) then
-- Pipeline delays to use for rising edge detection
enable_d1 <= enable;
start_d1 <= start;
sm_state_d1 <= sm_state;
-- Default
sm_wavedata <= (others=>'0');
sm_wavedata_dv <= '0';
------------------------------------------------------------------------
-- Main state machine
------------------------------------------------------------------------
case sm_state is
------------------------------------------------------------------------
-- Wait for rising edge of enable
-- This is set when the JESD interface is aligned and functional.
-- Send a zero value to initialize the DAC then go to idle.
------------------------------------------------------------------------
when S_RESET =>
if (enable = '1') and (enable_d1 = '0') then
sm_wavedata <= (others=>'0');
sm_wavedata_dv <= '1';
sm_state <= S_IDLE;
end if;
sm_busy <= '0';
------------------------------------------------------------------------
-- Wait for rising edge of 'start'.
-- No data output.
------------------------------------------------------------------------
when S_IDLE =>
if (start = '1') and (start_d1 = '0') then
sm_state <= S_LOAD;
sm_busy <= '1';
else
sm_busy <= '0';
end if;
------------------------------------------------------------------------
-- Load four addresses from pulse definition RAM into four 32 bits regesters
------------------------------------------------------------------------
when S_LOAD =>
-- TODO: FromEric: does is needed here? or should be inside the if-else loops
-- Load the pulse channel RAM addresses and start the waveform output
sm_busy <= '1';
if (sm_state_d1 = S_WAVE_DOWN) then -- output the last pulse definition address for one more clock cycle
v_ram_waveform_doutb_multiplied := std_logic_vector(unsigned(ram_waveform_doutb) * reg_scale_gain);
sm_wavedata <= v_ram_waveform_doutb_multiplied(30 downto 15);
-- ram_waveform_addrb <= (others=>'0'); -- reset the address for the next waveform
sm_wavedata_dv <= '1';
end if;
-- Pipline the pulse definition address
if (unsigned(ram_pulse_addrb) mod 4 = 0) then
ram_pulse_addrb <= std_logic_vector(unsigned(pc) + 1);
sm_state <= S_LOAD;
-- first quarter of the pulse definition, no register is loaded
elsif (unsigned(ram_pulse_addrb) mod 4 = 1) then
ram_pulse_addrb <= std_logic_vector(unsigned(pc) + 2);
sm_state <= S_LOAD;
-- second quarter of the pulse definition, the start time is loaded
reg_pulse_time <= ram_pulse_doutb;
elsif (unsigned(ram_pulse_addrb) mod 4 = 2) then
ram_pulse_addrb <= std_logic_vector(unsigned(pc) + 3);
sm_state <= S_LOAD;
-- third quarter of the pulse definition, the length and start address of the wavetable are loaded
reg_wave_start_addr <= ram_pulse_doutb(C_BITS_ADDR_START - 1 downto 0);
reg_wave_length <= unsigned(ram_pulse_doutb(25 downto 16)); -- TODO: make this a constant
elsif (unsigned(ram_pulse_addrb) mod 4 = 3) then
sm_state <= S_WAIT; -- address is on the forth word of the entry, the loading process is complete. Moving onto the next state
-- hold the last pulse definition address as it will be used in the next state
pc <= std_logic_vector(unsigned(pc) + C_PC_INCR); -- incremnet the pulse counter and start waiting to output the wave
-- forth quarter of the pulse definition, the scale factors are loaded
reg_scale_gain <= unsigned(ram_pulse_doutb(31 downto 16));
reg_scale_time <= unsigned(ram_pulse_doutb(15 downto 0));
reg_wave_end_addr <= resize(unsigned(reg_wave_start_addr) + reg_wave_length, 20) sll 8; -- get the supposed last value of the wavetable
end if;
------------------------------------------------------------------------
-- Wait for cnt_time, external input, to match pulse position RAM output
-- Return to idle state if max time is reached. Output waveform value zero.
------------------------------------------------------------------------
when S_WAIT =>
-- read the last word of the pulse definition, the flat top value
reg_pulse_flattop <= unsigned(ram_pulse_doutb(C_BITS_ADDR_TOP - 1 downto 0));
-- Start to output wave and increment pulse position RAM address
if (reg_pulse_time(C_START_TIME - 1 downto 0) = cnt_time) then
sm_state <= S_WAVE_UP;
ram_waveform_addrb <= reg_wave_start_addr & std_logic_vector(to_unsigned(0, 8)); -- set the wavetable's address to the starting address defined from the pulse ram
-- cnt_addr <= unsigned(reg_wave_start_addr);
-- reset the wave lenth counter
cnt_wave_len <= (others=>'0');
elsif (cnt_time = X"FFFFFF") or (done_seq = '1') then
sm_state <= S_IDLE;
end if;
------------------------------------------------------------------------
-- Output the raising edge of a waveform
-- Hold the last address when complete
------------------------------------------------------------------------
when S_WAVE_UP =>
-- Check if is end of rise of the waveform, next address >= end address. if so pad the address pointer to the end address and move to next state
-- TODO: convert the numbers below to constaint. right now just make sure I'm not confused
if (unsigned(ram_waveform_addrb) + reg_scale_time >= reg_wave_end_addr) then
-- ram_waveform_addrb <= std_logic_vector(reg_wave_end_addr); -- pad the address pointer to the end address
if (sm_state_d1 = S_WAVE_UP) then
ram_waveform_addrb <= std_logic_vector(reg_wave_end_addr); -- pad the address pointer to the end address
end if;
wave_last_addr <= std_logic_vector(unsigned(ram_waveform_addrb)); -- hold the last address of the wavetable
-- skip the flat top state if the flat top value is zero
if (reg_pulse_flattop = 0) then
sm_state <= S_WAVE_DOWN;
-- reset the counter for the next transition
cnt_wave_len <= (others=>'0');
else
sm_state <= S_WAVE_FLAT;
-- reset the counter for the next transition
cnt_wave_len <= (others=>'0');
cnt_wave_top <= (others=>'0');
end if;
else
cnt_wave_len <= cnt_wave_len + 1;
cnt_addr <= cnt_addr + 1;
ram_waveform_addrb <= std_logic_vector(unsigned(ram_waveform_addrb) + reg_scale_time);
wave_last_addr <= std_logic_vector(unsigned(ram_waveform_addrb) + reg_scale_time); -- hold the last address of the wavetable
end if;
-- sm_wavedata <= std_logic_vector(unsigned(ram_waveform_doutb) * reg_scale_gain)(31 downto 16);
-- Modelsim Cannot synthesize this above line, so we *have to* seperate them into two lines
-- # ** Error: Prefix of slice name cannot be type conversion (STD_LOGIC_VECTOR) expression.
v_ram_waveform_doutb_multiplied := std_logic_vector(unsigned(ram_waveform_doutb) * reg_scale_gain);
sm_wavedata <= v_ram_waveform_doutb_multiplied(30 downto 15);
if (sm_state_d1 = S_WAIT) then -- data valid is delayed by one clock cycle
sm_wavedata_dv <= '0';
else
sm_wavedata_dv <= '1';
end if;
------------------------------------------------------------------------
-- Hold the last address and output its data
-- decrement from this address when finished waiting
------------------------------------------------------------------------
when S_WAVE_FLAT =>
-- count the 17-bit flat top, if the counter reaches the flat top value, then go to the next state
if (cnt_wave_top = reg_pulse_flattop) then
sm_state <= S_WAVE_DOWN;
cnt_wave_top <= (others=>'0'); -- reset the counter for the next transition
else
cnt_wave_top <= cnt_wave_top + 1;
end if;
v_ram_waveform_doutb_multiplied := std_logic_vector(unsigned(ram_waveform_doutb) * reg_scale_gain);
sm_wavedata <= v_ram_waveform_doutb_multiplied(30 downto 15);
sm_wavedata_dv <= '1';
------------------------------------------------------------------------
-- Output the falling edge of a waveform
-- Hold the start address when complete
------------------------------------------------------------------------
when S_WAVE_DOWN =>
-- End of waveform?
-- TODO: convert the numbers below to constaint. right now just make sure I'm not confused
if (unsigned(ram_waveform_addrb) - reg_scale_time < (resize(unsigned(reg_wave_start_addr), 20) sll 8)) or (unsigned(ram_waveform_addrb) = 0) then
ram_waveform_addrb <= (others=>'0'); -- reset the address for the next waveform
cnt_addr <= (others=>'0');
-- If the end of the pulse table is reached then go to idle, increment pulse address for the next waveform otherwise
if (ram_pulse_addrb = std_logic_vector(to_unsigned(C_LEN_PULSE-1, C_BITS_ADDR_PULSE))) then
ram_pulse_addrb <= (others=>'0');
pc <= (others=>'0');
sm_state <= S_IDLE;
else -- increment pulse address for the next waveform
ram_pulse_addrb <= pc;
sm_state <= S_LOAD;
end if;
-- Output waveform from RAM with decremented address
else
cnt_wave_len <= cnt_wave_len + 1;
-- ram_waveform_addrb <= std_logic_vector(unsigned(ram_waveform_addrb) - reg_scale_time);
-- TODO: replace the above line with the following code if fall should be EXACTLY the same as rise
if (sm_state_d1 = S_WAVE_FLAT) or (sm_state_d1 = S_WAVE_UP) then -- previous state was either S_WAVE_UP or S_WAVE_FLAT, so the ram_waveform_addrb should be whatever it was in the S_WAVE_UP state
ram_waveform_addrb <= wave_last_addr; -- get the last address of the wavetable
else
ram_waveform_addrb <= std_logic_vector(unsigned(ram_waveform_addrb) - reg_scale_time);
end if;
cnt_addr <= cnt_addr - 1;
end if;
v_ram_waveform_doutb_multiplied := std_logic_vector(unsigned(ram_waveform_doutb) * reg_scale_gain);
sm_wavedata <= v_ram_waveform_doutb_multiplied(30 downto 15);
sm_wavedata_dv <= '1';
------------------------------------------------------------------------
-- Default
------------------------------------------------------------------------
when others =>
sm_state <= S_IDLE;
end case;
end if;
end process;
busy <= sm_busy;
-- AXI-Stream output.
-- TBD: This should come from a FIFO
-- TODO: the bits are not correct, should be top bits (C_BITS_GAIN_FACTOR + 16 downto C_BITS_GAIN_FACTOR), but for now just make it this way so modelsim can simulate
axis_tdata <= sm_wavedata; -- axi stream output data, this output should be multiplied by the gain factor, then take the top 16 bits
axis_tvalid <= sm_wavedata_dv; -- axi_stream output data valid
-- TBD : Generate in state machine?
axis_tlast <= '0'; -- axi_stream output last
end channel;

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----------------------------------------------------------------------------------------
-- Project : qlaser FPGA
-- File : qlaser_dac_dc_pkg.vhd
-- Description : Version package file.
-- Author : akozyra
----------------------------------------------------------------------------------------
library ieee;
use ieee.std_logic_1164.all;
package qlaser_dac_dc_pkg is
----------------------------------------------------------------------------------------
-- Constants
----------------------------------------------------------------------------------------
-- Addresses
constant C_ADDR_SPI0 : std_logic_vector(2 downto 0) := "000";
constant C_ADDR_SPI1 : std_logic_vector(2 downto 0) := "001";
constant C_ADDR_SPI2 : std_logic_vector(2 downto 0) := "010";
constant C_ADDR_SPI3 : std_logic_vector(2 downto 0) := "011";
constant C_ADDR_SPI_ALL : std_logic_vector(2 downto 0) := "100";
constant C_ADDR_INTERNAL_REF : std_logic_vector(2 downto 0) := "101";
constant C_ADDR_POWER_ON : std_logic_vector(2 downto 0) := "110";
-- Commands
constant C_CMD_DAC_DC_WR : std_logic_vector(3 downto 0) := "0011";
constant C_CMD_DAC_DC_INTERNAL_REF : std_logic_vector(3 downto 0) := "1000";
constant C_CMD_DAC_DC_POWER : std_logic_vector(3 downto 0) := "0100";
end package qlaser_dac_dc_pkg;

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----------------------------------------------------------------------------------------
-- Project : qlaser FPGA
-- File : qlaser_dacs_pulse_channel.vhd
-- Description : Pulse Channel package file specifying constants
-- Author : eyhc
----------------------------------------------------------------------------------------
library ieee;
use ieee.std_logic_1164.all;
package qlaser_dacs_pulse_channel_pkg is
-- Constants declearations
constant C_RAM_SELECT : integer := 11; -- Select bit for which RAM for CPU read/write
-- constant C_NUM_PULSE : integer := 16; -- Number of output data values from pulse RAM (16x24-bit)
constant C_START_TIME : integer := 24; -- Start time for pulse generation
constant C_BITS_ADDR_START : integer := 12; -- Number of bits for starting address
constant C_BITS_ADDR_LENGTH : integer := 10; -- Number of bits for length address used by an edge of a pulse
constant C_BITS_GAIN_FACTOR : integer := 16; -- Number of bits in gain table
constant C_BITS_TIME_FACTOR : integer := 16; -- Number of bits in time table
constant C_BITS_TIME_INT : integer := 14; -- Starting bit for time integer part of the time factor, counting from MSB
constant C_BITS_TIME_FRAC : integer := 5; -- Starting bit for time fractional part of the time factor, counting from MSB
constant C_BITS_ADDR_TOP : integer := 17; -- Number of bits for the "flat top", the top of the pulse
constant C_BITS_ADDR_FULL : integer := 20; -- Number of bits for the untruncated address, should be C_BITS_ADDR_LENGTH + fractional bits of time factor
constant C_LENGTH_WAVEFORM : integer := 4096; -- Number of output data values from waveform RAM (4kx16-bit)
constant C_BITS_ADDR_WAVE : integer := 16; -- Number of bits in address for waveform RAM
constant C_BITS_ADDR_PULSE : integer := 10; -- Number of bits in address for pulse definition RAM
constant C_LEN_PULSE : integer := 2**C_BITS_ADDR_PULSE; -- Numbers of address for pulse definition RAM
constant C_PC_INCR : integer := 4;
-- Width of pulse counter increment
constant BIT_FRAC : integer := 8; -- Define the number of fractional bits
constant BIT_FRAC_GAIN : integer := C_BITS_GAIN_FACTOR - 1; -- Define the number of fractional bits of the gain
type real_array is array (natural range <>) of real;
type int_array is array (natural range <>) of integer;
end package qlaser_dacs_pulse_channel_pkg;

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-------------------------------------------------------------------------------
-- Filename : qlaser_pkg.vhd
-------------------------------------------------------------------------------
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.qlaser_dac_dc_pkg.all;
-- use work.qlaser_dac_ac_pkg.all;
--------------------------------------------------------------------------------
-- FPGA constant definitions
-------------------------------------------------------------------------------
package qlaser_pkg is
-- FPGA internal (PLL) clock freq expressed in MHz
constant C_CLK_FREQ_MHZ : real := 100.0;
-- Clock period
constant C_CLK_PERIOD : time := integer(1.0E+6/(C_CLK_FREQ_MHZ)) * 1 ps;
constant C_NUM_CHAN_DC : integer := 32; -- Number of DC channels
constant C_NUM_CHAN_AC : integer := 32; -- Number of AC (pulse) channels
--------------------------------------------------------------------------------
-- FPGA Addresses
-- Main blocks. Decoded from upper 4 bits of address [15:12]
--------------------------------------------------------------------------------
constant ADR_BASE_DC : std_logic_vector( 3 downto 0) := X"0"; -- Registers to load DC DAC values
constant ADR_BASE_PULSE : std_logic_vector( 3 downto 0) := X"1"; -- RAMs for Pulse output start/stop times
constant ADR_BASE_MISC : std_logic_vector( 3 downto 0) := X"2"; -- Misc, LEDs, switches, power control
--------------------------------------------------------------------------------
-- Define the number of internal blocks that are addressed by the CPU
--------------------------------------------------------------------------------
constant C_NUM_BLOCKS : integer := 3;
type t_arr_cpu_dout is array (0 to C_NUM_BLOCKS-1) of std_logic_vector(31 downto 0);
type t_arr_dout_ac is array (0 to C_NUM_CHAN_AC-1) of std_logic_vector(15 downto 0);
--------------------------------------------------------------------------------------------------------------------------
-- 'DC' DAC block registers. 32 16-bit DAC outputs [5:3]
constant C_ADDR_CH_SPI0 : std_logic_vector(2 downto 0) := "000";
constant C_ADDR_CH_SPI1 : std_logic_vector(2 downto 0) := "001";
constant C_ADDR_CH_SPI2 : std_logic_vector(2 downto 0) := "010";
constant C_ADDR_CH_SPI3 : std_logic_vector(2 downto 0) := "011";
constant C_ADDR_CH_SPI_ALL : std_logic_vector(2 downto 0) := "100";
constant C_ADDR_INTERNAL_REF : std_logic_vector(2 downto 0) := "101";
constant C_ADDR_POWER_ON : std_logic_vector(2 downto 0) := "110";
--------------------------------------------------------------------------------------------------------------------------
-- Individual DAC data registers
constant ADR_DAC_DC0 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI0 & "000"; --
constant ADR_DAC_DC1 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI0 & "001"; --
constant ADR_DAC_DC2 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI0 & "010"; --
constant ADR_DAC_DC3 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI0 & "011"; --
constant ADR_DAC_DC4 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI0 & "100"; --
constant ADR_DAC_DC5 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI0 & "101"; --
constant ADR_DAC_DC6 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI0 & "110"; --
constant ADR_DAC_DC7 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI0 & "111"; --
constant ADR_DAC_DC8 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI1 & "000"; --
constant ADR_DAC_DC9 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI1 & "001"; --
-- constant ADR_DAC_DC6 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI2 & "000"; --
-- constant ADR_DAC_DC7 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI2 & "001"; --
-- etc. etc.
-- constant ADR_DAC_DC6 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI3 & "110"; --
-- constant ADR_DAC_DC7 : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_SPI3 & "111"; --
constant ADR_DAC_DC30 : std_logic_vector(15 downto 0) := ADR_BASE_DC & X"01E"; --
constant ADR_DAC_DC31 : std_logic_vector(15 downto 0) := ADR_BASE_DC & X"01F"; --
constant ADR_DAC_DC_ALL : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_CH_SPI_ALL & "000"; -- Write all channels
constant ADR_DAC_DC_IREF : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_INTERNAL_REF & "000"; --
constant ADR_DAC_DC_POWER_ON : std_logic_vector(15 downto 0) := ADR_BASE_DC & "000000" & C_ADDR_POWER_ON & "000"; --
constant ADR_DAC_DC_STATUS : std_logic_vector(15 downto 0) := ADR_BASE_DC & X"000"; -- Reading any address returns SPI interface busy status (this was 32 bit, but decleared as 16, so I changed to 16)
--------------------------------------------------------------------------------------------------------------------------
-- 'Pulse' DAC block registers.
-- The block has a set of block registers and contains 16 'channels'
-- Each channel has a 40-bit memory to specify 24-bit time and a 16-bit level.
-- Initially just using the MSB of the level to drive a single pin output
--
--------------------------------------------------------------------------------------------------------------------------
-- Block-level registers
-- CPU_ADDR(11) = '0' selects local regs
-- CPU_ADDR(11) = '1' selects the channel specified in reg_ctrl(3 :0)
-- Then CPU_ADDR(10:1) selects RAM word address (1024 address MAX)
-- CPU_ADDR(0) selects MSB or LSB of 40-bit RAM word (time or amplitude)
--------------------------------------------------------------------------------------------------------------------------
-- Addresses for block-level registers.
-------------------------------------------------------------------------------------------------------------------------
constant ADR_DAC_PULSE_CTRL : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"800"; -- 4:0 select channel RAM for CPU read/write. Bit 8 is rising edge internal trigger
constant ADR_DAC_PULSE_STATUS : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"801"; -- R/O Level status for output of each channel
constant ADR_DAC_PULSE_RUNTIME : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"802"; -- Max time for pulse train
constant ADR_DAC_PULSE_CH_EN : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"803"; -- Enable bit for each individual channel
constant ADR_DAC_PULSE_TIMER : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"804"; -- R/O Current timer value (used by all channels)
-------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------
-- Pulse Channel offsets
--------------------------------------------------------------------------------------------------------------------------
constant ADR_DAC_PULSE0 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"000"; -- Base address of a 16-word x 40-bit RAM
constant ADR_DAC_PULSE1 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"040"; --
constant ADR_DAC_PULSE2 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"080"; --
constant ADR_DAC_PULSE3 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"0C0"; --
--
constant ADR_DAC_PULSE4 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"100"; --
constant ADR_DAC_PULSE5 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"140"; --
constant ADR_DAC_PULSE6 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"180"; --
constant ADR_DAC_PULSE7 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"1C0"; --
--
constant ADR_DAC_PULSE8 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"200"; --
constant ADR_DAC_PULSE9 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"240"; --
constant ADR_DAC_PULSE10 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"280"; --
constant ADR_DAC_PULSE11 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"2C0"; --
--
constant ADR_DAC_PULSE12 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"300"; --
constant ADR_ADC_PULSE13 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"340"; --
constant ADR_DAC_PULSE14 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"380"; --
constant ADR_DAC_PULSE15 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"3C0"; --
--
-- etc. etc.
constant ADR_DAC_PULSE28 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"700"; --
constant ADR_DAC_PULSE29 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"740"; --
constant ADR_DAC_PULSE30 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"780"; --
constant ADR_DAC_PULSE31 : std_logic_vector(15 downto 0) := ADR_BASE_PULSE & X"7C0"; --
--------------------------------------------------------------------------------------------------------------------------
-- Misc block registers
--------------------------------------------------------------------------------------------------------------------------
constant ADR_MISC_VERSION : std_logic_vector(15 downto 0) := ADR_BASE_MISC & X"000"; -- HDL code version
constant ADR_MISC_LEDS : std_logic_vector(15 downto 0) := ADR_BASE_MISC & X"001"; -- LEDs
constant ADR_MISC_LEDS_EN : std_logic_vector(15 downto 0) := ADR_BASE_MISC & X"002"; -- LEDs enable
constant ADR_MISC_SW_IN : std_logic_vector(15 downto 0) := ADR_BASE_MISC & X"003"; -- Read board switch settings (if present)
constant ADR_MISC_DEBUG_CTRL : std_logic_vector(15 downto 0) := ADR_BASE_MISC & X"004"; -- Select debug output from top level to pins
end package;
package body qlaser_pkg is
end package body;

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-----------------------------------------------------------
-- File : poly_gen_nonsynth.vhdl
-----------------------------------------------------------
--
-- Simulation-only module of a floating point polynomial calculator
--
-- Description : Calculates the value of a polynomial at a given time, using the coefficients
--
----------------------------------------------------------
library ieee;
use ieee.numeric_std.all;
use ieee.std_logic_1164.all;
use std.textio.all;
use ieee.math_real.uniform;
use ieee.math_real.floor;
use work.std_iopak.all;
use work.qlaser_dacs_pulse_channel_pkg.all;
entity poly_gen is
generic (
degrees : natural := 5 -- n-th degree polynomial
);
port (
clk : in std_logic;
direction : in std_logic; -- 0 = rising, 1 = falling
times : in integer; -- time stamp
coeffs : in real_array(0 to degrees-1); -- coefficients coeffs_array : real_array(0 to degrees-1);
poly_out : out real
);
end entity poly_gen;
architecture nonsynth of poly_gen is
-- type real_array is array (0 to degrees-1) of real;
-- signal coeffs_array : real_array;
-- variable poly_sum : real := 0.0;
begin
-- wait until clk'event and clk='0';
-- for i in 0 to degrees loop
-- poly_sum := poly_sum + coeffs_array(i) * times**i;
-- end loop;
-- poly_out <= poly_sum;
end architecture nonsynth;

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-----------------------------------------------------------
-- File : tb_cpubus_dacs_pulse_channel.vhd
-----------------------------------------------------------
--
-- Testbench for CPU bus peripheral.
--
-- Description : Pulse output control of Qlaser FPGA
-- Block drives AXI-stream to JESD DACs
--
----------------------------------------------------------
library ieee;
use ieee.numeric_std.all;
use ieee.std_logic_1164.all;
use std.textio.all;
use work.std_iopak.all;
use work.qlaser_dacs_pulse_channel_pkg.all;
entity tb_cpubus_dacs_pulse_channel is
end tb_cpubus_dacs_pulse_channel;
architecture behave of tb_cpubus_dacs_pulse_channel is
signal clk : std_logic;
signal reset : std_logic;
signal enable : std_logic;
signal start : std_logic;
signal cnt_time : std_logic_vector(23 downto 0);
signal busy : std_logic;
signal done_seq : std_logic;
signal cpu_wr : std_logic;
signal cpu_sel : std_logic;
signal cpu_addr : std_logic_vector(15 downto 0);
signal cpu_wdata : std_logic_vector(31 downto 0);
signal cpu_rdata : std_logic_vector(31 downto 0);
signal cpu_rdata_dv : std_logic;
-- AXI-stream output interface
signal axis_tready : std_logic := '1'; -- Always ready
signal axis_tdata : std_logic_vector(15 downto 0);
signal axis_tvalid : std_logic;
signal axis_tlast : std_logic;
-- Halts simulation by stopping clock when set true
signal sim_done : boolean := false;
-- Crystal clock freq expressed in MHz
constant CLK_FREQ_MHZ : real := 100.0;
-- Clock period
constant CLK_PER : time := integer(1.0E+6/(CLK_FREQ_MHZ)) * 1 ps;
-- Block registers
-- constant ADR_RAM_PULSE : integer := to_integer(unsigned(X"0000")); -- TODO: Modelsim cannot compile this
-- constant ADR_RAM_WAVE : integer := to_integer(unsigned(X"0200")); -- TODO: Modelsim cannot compile this
constant ADR_RAM_PULSE : integer := 0; -- TODO: Modelsim cannot compile this
constant ADR_RAM_WAVE : integer := 2048; -- TODO: Modelsim cannot compile this
-------------------------------------------------------------
-- CPU write procedure. Address in decimal. Data in hex
-------------------------------------------------------------
procedure cpu_write(
signal clk : in std_logic;
constant a : in integer;
constant d : in std_logic_vector(31 downto 0);
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
begin
wait until clk'event and clk='0';
cpu_sel <= '1';
cpu_wr <= '1';
cpu_addr <= std_logic_vector(to_unsigned(a, 16));
cpu_wdata <= std_logic_vector(d);
wait until clk'event and clk='0';
cpu_sel <= '0';
cpu_wr <= '0';
cpu_addr <= (others=>'0');
cpu_wdata <= (others=>'0');
wait until clk'event and clk='0';
end;
-------------------------------------------------------------
-- CPU write procedure. Address and Data in decimal
-------------------------------------------------------------
procedure cpu_write(
signal clk : in std_logic;
constant a : in integer;
constant d : in integer;
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
begin
cpu_write(clk, a , std_logic_vector(to_unsigned(d,32)), cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
end;
-------------------------------------------------------------
-- CPU write pulse definition RAM
-- Make fore 32-bit data write
-------------------------------------------------------------
procedure cpu_write_pulsedef(
signal clk : in std_logic;
constant num_entry : in integer;
-- TODO: Partial ? list of parameters, there could be more if need more features
constant pulsetime : in integer; -- Pulse time in clock cycles
constant timefactor : in real; -- Fixed point time scale factor
constant gainfactor : in real; -- Fixed point gain value. Max value 1.0 is hex X"8000". Gain 0.5 is therefore X"4000"
constant wavestartaddr : in integer; -- Start address in waveform RAM
constant wavesteps : in integer; -- Number of steps in waveform rise and fall
constant wavetopwidth : in integer; -- Number of clock cycles in waveform top between end of rise and start of fall
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
-- Vectors for converted values
variable slv_pulsetime : std_logic_vector(23 downto 0); -- For 24-bit pulse time
variable slv_timefactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point timestep
variable slv_gainfactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point gain
variable slv_wavestartaddr : std_logic_vector(11 downto 0); -- For 12-bit address i.e. 1024 point waveform RAM
variable slv_wavesteps : std_logic_vector( 9 downto 0); -- For 10-bit number of steps i.e. 0 = 1 step, X"3FF" = 1024 points
variable slv_wavetopwidth : std_logic_vector(16 downto 0); -- For 17-bit number of clock cycles in top of waveform
-- constant ADR_PULSE_DEF : integer := to_integer(unsigned(X"?????")); -- Use address of pulse definition RAM from qlaser_pkg
-- Define the number of fractional bits
begin
-- Convert each field into its std_logic_vector equivalent
slv_pulsetime := std_logic_vector(to_unsigned(pulsetime, 24));
slv_timefactor := std_logic_vector(to_unsigned(integer(timefactor * real(2**BIT_FRAC)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_gainfactor := std_logic_vector(to_unsigned(integer(gainfactor * real(2**BIT_FRAC_GAIN)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_wavestartaddr := std_logic_vector(to_unsigned(wavestartaddr, 12));
slv_wavesteps := std_logic_vector(to_unsigned(wavesteps, 10));
slv_wavetopwidth := std_logic_vector(to_unsigned(wavetopwidth, 17));
--etc, etc.
-- 4 writes. (Address is an integer)
cpu_write(clk, ADR_RAM_PULSE+num_entry , x"00" & slv_pulsetime, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_write(clk, ADR_RAM_PULSE+(num_entry+1) , "00" & x"0" & slv_wavesteps & x"0" & slv_wavestartaddr, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_write(clk, ADR_RAM_PULSE+(num_entry+2) , slv_gainfactor & slv_timefactor, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_write(clk, ADR_RAM_PULSE+(num_entry+3) , "0000000" & x"00" & slv_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
end;
-------------------------------------------------------------
-- CPU read procedure
-------------------------------------------------------------
procedure cpu_read(
signal clk : in std_logic;
constant a : in integer;
constant exp_d : in std_logic_vector(31 downto 0);
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0);
signal cpu_rdata : in std_logic_vector(31 downto 0);
signal cpu_rdata_dv : in std_logic
) is
variable v_bdone : boolean := false;
variable str_out : string(1 to 256);
begin
wait until clk'event and clk='0';
cpu_sel <= '1';
cpu_wr <= '0';
cpu_addr <= std_logic_vector(to_unsigned(a, 16));
cpu_wdata <= (others=>'0');
while (v_bdone = false) loop
wait until clk'event and clk='0';
cpu_sel <= '1';
if (cpu_rdata_dv = '1') then
if (cpu_rdata /= exp_d) then
fprint(str_out, "Read exp: 0x%s actual: 0x%s\n", to_string(to_bitvector(exp_d),"%08X"), to_string(to_bitvector(cpu_rdata),"%08X"));
report str_out severity error;
end if;
v_bdone := true;
cpu_sel <= '0';
cpu_addr <= (others=>'0');
end if;
end loop;
wait until clk'event and clk='0';
wait until clk'event and clk='0';
end;
-------------------------------------------------------------
-- CPU read pulse definition RAM
-- make four 32-bit reads
-------------------------------------------------------------
procedure cpu_read_pulsedef(
signal clk : in std_logic;
constant num_entry : in integer;
-- TODO: Partial ? list of parameters, there could be more if need more features
constant pulsetime : in integer; -- Pulse time in clock cycles
constant timefactor : in real; -- Fixed point time scale factor
constant gainfactor : in real; -- Fixed point gain value. Max value 1.0 is hex X"8000". Gain 0.5 is therefore X"4000"
constant wavestartaddr : in integer; -- Start address in waveform RAM
constant wavesteps : in integer; -- Number of steps in waveform rise and fall
constant wavetopwidth : in integer; -- Number of clock cycles in waveform top between end of rise and start of fall
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
-- Vectors for converted values
variable slv_pulsetime : std_logic_vector(23 downto 0); -- For 24-bit pulse time
variable slv_timefactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point timestep
variable slv_gainfactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point gain
variable slv_wavestartaddr : std_logic_vector(11 downto 0); -- For 12-bit address i.e. 1024 point waveform RAM
variable slv_wavesteps : std_logic_vector( 9 downto 0); -- For 10-bit number of steps i.e. 0 = 1 step, X"3FF" = 1024 points
variable slv_wavetopwidth : std_logic_vector(16 downto 0); -- For 17-bit number of clock cycles in top of waveform
-- constant ADR_PULSE_DEF : integer := to_integer(unsigned(X"?????")); -- Use address of pulse definition RAM from qlaser_pkg
-- Define the number of fractional bits
begin
-- Convert each field into its std_logic_vector equivalent
slv_pulsetime := std_logic_vector(to_unsigned(pulsetime, 24));
slv_timefactor := std_logic_vector(to_unsigned(integer(timefactor * real(2**BIT_FRAC)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_gainfactor := std_logic_vector(to_unsigned(integer(gainfactor * real(2**BIT_FRAC_GAIN)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_wavestartaddr := std_logic_vector(to_unsigned(wavestartaddr, 12));
slv_wavesteps := std_logic_vector(to_unsigned(wavesteps, 10));
slv_wavetopwidth := std_logic_vector(to_unsigned(wavetopwidth, 17));
--etc, etc.
-- 4 writes. (Address is an integer)
cpu_read(clk, ADR_RAM_PULSE+num_entry, x"00" & slv_pulsetime, cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
cpu_read(clk, ADR_RAM_PULSE+(num_entry+1), "00" & x"00" & slv_wavesteps & slv_wavestartaddr, cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
cpu_read(clk, ADR_RAM_PULSE+(num_entry+2), slv_gainfactor & slv_timefactor, cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
cpu_read(clk, ADR_RAM_PULSE+(num_entry+3), "0000000" & x"00" & slv_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
end;
-------------------------------------------------------------
-- Delay
-------------------------------------------------------------
procedure clk_delay(
constant nclks : in integer
) is
begin
for I in 0 to nclks loop
wait until clk'event and clk ='0';
end loop;
end;
----------------------------------------------------------------
-- Print a string with no time or instance path.
----------------------------------------------------------------
procedure cpu_print_msg(
constant msg : in string
) is
variable line_out : line;
begin
write(line_out, msg);
writeline(output, line_out);
end procedure cpu_print_msg;
begin
-------------------------------------------------------------
-- Unit Under Test
-------------------------------------------------------------
u_dac_pulse : entity work.qlaser_dacs_pulse_channel
port map (
clk => clk , -- in std_logic;
reset => reset , -- in std_logic;
enable => enable , -- out std_logic;
start => start , -- out std_logic;
cnt_time => cnt_time , -- out std_logic_vector(23 downto 0); -- Set to '1' while SPI interface is busy
busy => busy , -- out std_logic; -- Set to '1' while SPI interface is busy
done_seq => done_seq , -- in std_logic; -- Set to '1' when SPI sequence is done
-- CPU interface
cpu_wr => cpu_wr , -- in std_logic;
cpu_sel => cpu_sel , -- in std_logic;
cpu_addr => cpu_addr(11 downto 0) , -- in std_logic_vector(11 downto 0);
cpu_wdata => cpu_wdata , -- in std_logic_vector(31 downto 0);
cpu_rdata => cpu_rdata , -- out std_logic_vector(31 downto 0);
cpu_rdata_dv => cpu_rdata_dv , -- out std_logic;
-- AXI-Stream interface
axis_tready => axis_tready , -- in std_logic; -- Clock (50 MHz max)
axis_tdata => axis_tdata , -- out std_logic_vector(15 downto 0);
axis_tvalid => axis_tvalid , -- out std_logic; -- Master out, Slave in. (Data to DAC)
axis_tlast => axis_tlast -- out std_logic; -- Active low chip select (sync_n)
);
-------------------------------------------------------------
-- Generate system clock. Halt when sim_done is true.
-------------------------------------------------------------
pr_clk : process
begin
clk <= '0';
wait for (CLK_PER/2);
clk <= '1';
wait for (CLK_PER-CLK_PER/2);
if (sim_done=true) then
wait;
end if;
end process;
-------------------------------------------------------------
-- Reset and drive CPU bus
-------------------------------------------------------------
pr_main : process
variable v_ndata32 : integer := 0;
variable v_ndata16 : integer := 0;
-- "global" variables for base definitions of each pulses, all pulses are based on these but scaled/offset a bit
variable v_pulseaddr : integer := 0; -- manually set the pulse address, 0 to 255
variable v_waveaddr : integer := 0; -- manually set the wave address, 0 to 2047
variable v_pulsetime : integer := 0; -- For 24-bit pulse time
variable v_timefactor : real := 0.0; -- For 16-bit fixed point timestep
variable v_gainfactor : real := 0.0; -- For 16-bit fixed point gain
variable v_wavestartaddr : integer := 0; -- For 12-bit address i.e. 1024 point waveform RAM
variable v_wavesteps : integer := 0; -- For 10-bit number of steps i.e. 0 = 1 step, X"3FF" = 1024 points
variable v_wavetopwidth : integer := 0; -- For 17-bit number of clock cycles in top of waveform
begin
-- Reset
reset <= '1';
enable <= '0';
start <= '0';
done_seq <= '0';
cnt_time <= (others=>'0');
cpu_sel <= '0';
cpu_wr <= '0';
cpu_wdata <= (others=>'0');
cpu_addr <= (others=>'0');
cpu_print_msg("Simulation start");
clk_delay(5);
reset <= '0';
clk_delay(5);
enable <= '1';
clk_delay(20);
----------------------------------------------------------------
-- Load pulse RAM with a series of pulse start times
----------------------------------------------------------------
-- v_ndata32 := 128; -- Time for first pulse
v_pulsetime := 128;
cpu_print_msg("Load pulse RAM");
-- for NADDR in 0 to 255 loop
-- -- TODO: In the real setting should we have the python script to check those parameters to make sure they are valid and non-overlapping?
-- -- v_pulsetime := v_ndata32 + (NADDR*(1024+32)); -- todo: what is this math doing?
-- v_timefactor := 1.0;
-- v_gainfactor := 1.0;
-- v_wavestartaddr := v_wavesteps + v_wavestartaddr; -- TODO: EricToGeoff/Sara: I assume we want starting address of each wave to be different and non-overlapping, right?
-- v_wavesteps := NADDR;
-- v_wavetopwidth := 114;
-- v_pulsetime := (v_pulsetime + v_wavesteps + v_wavetopwidth + v_wavesteps + 4 + 3);
-- -- cpu_write_pulsedef(clk, NADDR*4, v_ndata32 + (NADDR*(1024+32)), 1.0, 1.0, 0, NADDR*32, 128, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- cpu_write_pulsedef(clk, NADDR*4, v_pulsetime, v_timefactor, v_gainfactor, v_wavestartaddr, v_wavesteps, v_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- end loop;
----------------------------------------------------------------
-- Load pulse RAM with a series of pulse start times MANUALLY
---------------------------------------------------------------
v_pulseaddr := 0;
v_pulsetime := 4;
v_timefactor := 1.0;
v_gainfactor := 1.0;
v_wavestartaddr := 1; -- TODO: EricToGeoff/Sara: I assume we want starting address of each wave to be different and non-overlapping, right?
v_wavesteps := 4;
v_wavetopwidth := 1;
cpu_write_pulsedef(clk, v_pulseaddr*4, v_pulsetime, v_timefactor, v_gainfactor, v_wavestartaddr, v_wavesteps, v_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
v_pulseaddr := 1;
v_timefactor := 1.0;
v_gainfactor := 1.0;
v_wavestartaddr := 4; -- TODO: EricToGeoff/Sara: I assume we want starting address of each wave to be different and non-overlapping, right?
v_wavesteps := 6;
v_wavetopwidth := 9;
v_pulsetime := v_pulsetime + v_wavesteps + v_wavetopwidth + v_wavesteps + 4 + 3;
cpu_write_pulsedef(clk, v_pulseaddr*4, v_pulsetime, v_timefactor, v_gainfactor, v_wavestartaddr, v_wavesteps, v_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_print_msg("Pulse RAM loaded");
clk_delay(20);
----------------------------------------------------------------
-- Load waveform RAM with a simple ramp
-- Write two 16-bit values with each write
----------------------------------------------------------------
cpu_print_msg("Load waveform RAM");
v_ndata16 := 1; -- first waveform value
for NADDR in 0 to 2047 loop
v_ndata32 := (((v_ndata16) * 2**C_BITS_ADDR_WAVE) + (v_ndata16 - 1)); -- Write two 16-bit values with each write
cpu_write(clk, (ADR_RAM_WAVE + NADDR) , v_ndata32, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
v_ndata16 := v_ndata16 + 2;
end loop;
-- ----------------------------------------------------------------
-- -- Read back Pulse RAM.
-- -- Comment out if not needed to check CPU R/W
-- ----------------------------------------------------------------
-- v_ndata32 := 128; -- Time for first pulse
-- for NADDR in 0 to 255 loop
-- v_pulsetime := v_ndata32 + (NADDR*(1024+32));
-- v_timefactor := 1.0;
-- v_gainfactor := 1.0;
-- v_wavestartaddr := 0;
-- v_wavesteps := NADDR*32;
-- v_wavetopwidth := 0;
-- cpu_read_pulsedef(clk, NADDR*4, v_pulsetime, v_timefactor, v_gainfactor, v_wavestartaddr, v_wavesteps, v_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- end loop;
-- clk_delay(20);
-- ----------------------------------------------------------------
-- -- Read back Waveform RAM
-- ----------------------------------------------------------------
-- v_ndata16 := 1; -- first waveform value
-- for NADDR in 0 to 2047 loop
-- v_ndata32 := (((v_ndata16) * 2**C_BITS_ADDR_WAVE) + (v_ndata16 - 1));
-- cpu_read (clk, ADR_RAM_WAVE + NADDR , std_logic_vector(to_unsigned(v_ndata32, 32)) , cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
-- v_ndata16 := v_ndata16 + 2;
-- end loop;
-- -- Done reg write/read check
-- cpu_print_msg("RAM readback completed");
-- clk_delay(20);
----------------------------------------------------------------
-- Start the pulse outputs
----------------------------------------------------------------
done_seq <= '0';
clk_delay(5);
start <= '1';
clk_delay(5);
start <= '0';
-- TODO: we may need to modify the for loop to make sure the simulation time is long enough to cover all the pulses
-- Wait for cnt_time to reach last pulse start time + waveform size
for NCNT in 1 to v_pulsetime + 100 loop -- TODO: EricToGeoff/Sara: in the real settings do we have a constant amount of time or the total time also vary? if so, how much?
-- for NCNT in 1 to 128 loop -- count the time shorter for now so it won't take too long to simulate
cnt_time <= std_logic_vector(unsigned(cnt_time) + 1);
-- if (NCNT = v_pulsetime + v_wavesteps + v_wavetopwidth + v_wavesteps + 8) then -- Stop simulation when last pulse is done
-- done_seq <= '1';
-- end if;
clk_delay(0);
end loop;
wait for 10 us;
cpu_print_msg("Simulation done");
clk_delay(5);
sim_done <= true;
wait;
end process;
end behave;

View File

@ -0,0 +1,514 @@
-----------------------------------------------------------
-- File : tb_cpubus_dacs_pulse_channel.vhd
-----------------------------------------------------------
--
-- Testbench for CPU bus peripheral.
--
-- Description : Pulse output control of Qlaser FPGA
-- Block drives AXI-stream to JESD DACs
--
----------------------------------------------------------
library ieee;
use ieee.numeric_std.all;
use ieee.std_logic_1164.all;
use std.textio.all;
use ieee.math_real.uniform;
use ieee.math_real.floor;
use work.std_iopak.all;
use work.qlaser_dacs_pulse_channel_pkg.all;
entity tb_cpubus_dacs_pulse_channel is
end tb_cpubus_dacs_pulse_channel;
architecture behave of tb_cpubus_dacs_pulse_channel is
signal clk : std_logic;
signal reset : std_logic;
signal enable : std_logic;
signal start : std_logic;
signal cnt_time : std_logic_vector(23 downto 0);
signal busy : std_logic;
signal done_seq : std_logic;
signal cpu_wr : std_logic;
signal cpu_sel : std_logic;
signal cpu_addr : std_logic_vector(15 downto 0);
signal cpu_wdata : std_logic_vector(31 downto 0);
signal cpu_rdata : std_logic_vector(31 downto 0);
signal cpu_rdata_dv : std_logic;
-- AXI-stream output interface
signal axis_tready : std_logic := '1'; -- Always ready
signal axis_tdata : std_logic_vector(15 downto 0);
signal axis_tvalid : std_logic;
signal axis_tlast : std_logic;
-- Halts simulation by stopping clock when set true
signal sim_done : boolean := false;
-- Crystal clock freq expressed in MHz
constant CLK_FREQ_MHZ : real := 100.0;
-- Clock period
constant CLK_PER : time := integer(1.0E+6/(CLK_FREQ_MHZ)) * 1 ps;
-- Block registers
-- constant ADR_RAM_PULSE : integer := to_integer(unsigned(X"0000")); -- TODO: Modelsim cannot compile this
-- constant ADR_RAM_WAVE : integer := to_integer(unsigned(X"0200")); -- TODO: Modelsim cannot compile this
constant ADR_RAM_PULSE : integer := 0; -- TODO: Modelsim cannot compile this
constant ADR_RAM_WAVE : integer := 2048; -- TODO: Modelsim cannot compile this
-------------------------------------------------------------
-- CPU write procedure. Address in decimal. Data in hex
-------------------------------------------------------------
procedure cpu_write(
signal clk : in std_logic;
constant a : in integer;
constant d : in std_logic_vector(31 downto 0);
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
begin
wait until clk'event and clk='0';
cpu_sel <= '1';
cpu_wr <= '1';
cpu_addr <= std_logic_vector(to_unsigned(a, 16));
cpu_wdata <= std_logic_vector(d);
wait until clk'event and clk='0';
cpu_sel <= '0';
cpu_wr <= '0';
cpu_addr <= (others=>'0');
cpu_wdata <= (others=>'0');
wait until clk'event and clk='0';
end;
-------------------------------------------------------------
-- CPU write procedure. Address and Data in decimal
-------------------------------------------------------------
procedure cpu_write(
signal clk : in std_logic;
constant a : in integer;
constant d : in integer;
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
begin
cpu_write(clk, a , std_logic_vector(to_unsigned(d,32)), cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
end;
-------------------------------------------------------------
-- CPU write pulse definition RAM
-- Make fore 32-bit data write
-------------------------------------------------------------
procedure cpu_write_pulsedef(
signal clk : in std_logic;
constant num_entry : in integer;
-- TODO: Partial ? list of parameters, there could be more if need more features
constant pulsetime : in integer; -- Pulse time in clock cycles
constant timefactor : in real; -- Fixed point time scale factor
constant gainfactor : in real; -- Fixed point gain value. Max value 1.0 is hex X"8000". Gain 0.5 is therefore X"4000"
constant wavestartaddr : in integer; -- Start address in waveform RAM
constant wavesteps : in integer; -- Number of steps in waveform rise and fall
constant wavetopwidth : in integer; -- Number of clock cycles in waveform top between end of rise and start of fall
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
-- Vectors for converted values
variable slv_pulsetime : std_logic_vector(23 downto 0); -- For 24-bit pulse time
variable slv_timefactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point timestep
variable slv_gainfactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point gain
variable slv_wavestartaddr : std_logic_vector(11 downto 0); -- For 12-bit address i.e. 1024 point waveform RAM
variable slv_wavesteps : std_logic_vector( 9 downto 0); -- For 10-bit number of steps i.e. 0 = 1 step, X"3FF" = 1024 points
variable slv_wavetopwidth : std_logic_vector(16 downto 0); -- For 17-bit number of clock cycles in top of waveform
-- Define the number of fractional bits
begin
-- Convert each field into its std_logic_vector equivalent
slv_pulsetime := std_logic_vector(to_unsigned(pulsetime, 24));
slv_timefactor := std_logic_vector(to_unsigned(integer(timefactor * real(2**BIT_FRAC)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_gainfactor := std_logic_vector(to_unsigned(integer(gainfactor * real(2**BIT_FRAC_GAIN)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_wavestartaddr := std_logic_vector(to_unsigned(wavestartaddr, 12));
slv_wavesteps := std_logic_vector(to_unsigned(wavesteps, 10));
slv_wavetopwidth := std_logic_vector(to_unsigned(wavetopwidth, 17));
--etc, etc.
-- 4 writes. (Address is an integer)
cpu_write(clk, ADR_RAM_PULSE+num_entry , x"00" & slv_pulsetime, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_write(clk, ADR_RAM_PULSE+(num_entry+1) , "00" & x"0" & slv_wavesteps & x"0" & slv_wavestartaddr, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_write(clk, ADR_RAM_PULSE+(num_entry+2) , slv_gainfactor & slv_timefactor, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_write(clk, ADR_RAM_PULSE+(num_entry+3) , "0000000" & x"00" & slv_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
end;
-------------------------------------------------------------
-- CPU read procedure
-------------------------------------------------------------
procedure cpu_read(
signal clk : in std_logic;
constant a : in integer;
constant exp_d : in std_logic_vector(31 downto 0);
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0);
signal cpu_rdata : in std_logic_vector(31 downto 0);
signal cpu_rdata_dv : in std_logic
) is
variable v_bdone : boolean := false;
variable str_out : string(1 to 256);
variable diff : integer;
begin
wait until clk'event and clk='0';
cpu_sel <= '1';
cpu_wr <= '0';
cpu_addr <= std_logic_vector(to_unsigned(a, 16));
cpu_wdata <= (others=>'0');
while (v_bdone = false) loop
wait until clk'event and clk='0';
cpu_sel <= '1';
if (cpu_rdata_dv = '1') then
if (cpu_rdata /= exp_d) then
diff := abs(to_integer(unsigned(exp_d)) - to_integer(unsigned(cpu_rdata)));
fprint(str_out, "Read exp: 0x%s actual: 0x%s\n", to_string(to_bitvector(exp_d),"%08X"), to_string(to_bitvector(cpu_rdata),"%08X"));
report str_out severity warning;
-- TODO: this is not working, need to fix it
-- fprint(str_out, "Absolute difference: 0x%s\n", to_string(to_bitvector(diff),"%08X"));
report str_out severity warning;
end if;
v_bdone := true;
cpu_sel <= '0';
cpu_addr <= (others=>'0');
end if;
end loop;
wait until clk'event and clk='0';
wait until clk'event and clk='0';
end;
-- TODO: implement the checker method for the the output of the entier wave
-------------------------------------------------------------
-- CPU read pulse definition RAM
-- make four 32-bit reads
-------------------------------------------------------------
procedure cpu_read_pulsedef(
signal clk : in std_logic;
constant num_entry : in integer;
-- TODO: Partial ? list of parameters, there could be more if need more features
constant pulsetime : in integer; -- Pulse time in clock cycles
constant timefactor : in real; -- Fixed point time scale factor
constant gainfactor : in real; -- Fixed point gain value. Max value 1.0 is hex X"8000". Gain 0.5 is therefore X"4000"
constant wavestartaddr : in integer; -- Start address in waveform RAM
constant wavesteps : in integer; -- Number of steps in waveform rise and fall
constant wavetopwidth : in integer; -- Number of clock cycles in waveform top between end of rise and start of fall
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
-- Vectors for converted values
variable slv_pulsetime : std_logic_vector(23 downto 0); -- For 24-bit pulse time
variable slv_timefactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point timestep
variable slv_gainfactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point gain
variable slv_wavestartaddr : std_logic_vector(11 downto 0); -- For 12-bit address i.e. 1024 point waveform RAM
variable slv_wavesteps : std_logic_vector( 9 downto 0); -- For 10-bit number of steps i.e. 0 = 1 step, X"3FF" = 1024 points
variable slv_wavetopwidth : std_logic_vector(16 downto 0); -- For 17-bit number of clock cycles in top of waveform
-- constant ADR_PULSE_DEF : integer := to_integer(unsigned(X"?????")); -- Use address of pulse definition RAM from qlaser_pkg
-- Define the number of fractional bits
begin
-- Convert each field into its std_logic_vector equivalent
slv_pulsetime := std_logic_vector(to_unsigned(pulsetime, 24));
slv_timefactor := std_logic_vector(to_unsigned(integer(timefactor * real(2**BIT_FRAC)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_gainfactor := std_logic_vector(to_unsigned(integer(gainfactor * real(2**BIT_FRAC_GAIN)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_wavestartaddr := std_logic_vector(to_unsigned(wavestartaddr, 12));
slv_wavesteps := std_logic_vector(to_unsigned(wavesteps, 10));
slv_wavetopwidth := std_logic_vector(to_unsigned(wavetopwidth, 17));
--etc, etc.
-- 4 writes. (Address is an integer)
cpu_read(clk, ADR_RAM_PULSE+num_entry, x"00" & slv_pulsetime, cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
cpu_read(clk, ADR_RAM_PULSE+(num_entry+1), "00" & x"00" & slv_wavesteps & slv_wavestartaddr, cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
cpu_read(clk, ADR_RAM_PULSE+(num_entry+2), slv_gainfactor & slv_timefactor, cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
cpu_read(clk, ADR_RAM_PULSE+(num_entry+3), "0000000" & x"00" & slv_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
end;
-------------------------------------------------------------
-- Delay
-------------------------------------------------------------
procedure clk_delay(
constant nclks : in integer
) is
begin
for I in 0 to nclks loop
wait until clk'event and clk ='0';
end loop;
end;
----------------------------------------------------------------
-- Print a string with no time or instance path.
----------------------------------------------------------------
procedure cpu_print_msg(
constant msg : in string
) is
variable line_out : line;
begin
write(line_out, msg);
writeline(output, line_out);
end procedure cpu_print_msg;
begin
-------------------------------------------------------------
-- Unit Under Test
-------------------------------------------------------------
u_dac_pulse : entity work.qlaser_dacs_pulse_channel
port map (
clk => clk , -- in std_logic;
reset => reset , -- in std_logic;
enable => enable , -- out std_logic;
start => start , -- out std_logic;
cnt_time => cnt_time , -- out std_logic_vector(23 downto 0); -- Set to '1' while SPI interface is busy
busy => busy , -- out std_logic; -- Set to '1' while SPI interface is busy
done_seq => done_seq , -- in std_logic; -- Set to '1' when SPI sequence is done
-- CPU interface
cpu_wr => cpu_wr , -- in std_logic;
cpu_sel => cpu_sel , -- in std_logic;
cpu_addr => cpu_addr(11 downto 0) , -- in std_logic_vector(11 downto 0);
cpu_wdata => cpu_wdata , -- in std_logic_vector(31 downto 0);
cpu_rdata => cpu_rdata , -- out std_logic_vector(31 downto 0);
cpu_rdata_dv => cpu_rdata_dv , -- out std_logic;
-- AXI-Stream interface
axis_tready => axis_tready , -- in std_logic; -- Clock (50 MHz max)
axis_tdata => axis_tdata , -- out std_logic_vector(15 downto 0);
axis_tvalid => axis_tvalid , -- out std_logic; -- Master out, Slave in. (Data to DAC)
axis_tlast => axis_tlast -- out std_logic; -- Active low chip select (sync_n)
);
-------------------------------------------------------------
-- Generate system clock. Halt when sim_done is true.
-------------------------------------------------------------
pr_clk : process
begin
clk <= '0';
wait for (CLK_PER/2);
clk <= '1';
wait for (CLK_PER-CLK_PER/2);
if (sim_done=true) then
wait;
end if;
end process;
-------------------------------------------------------------
-- Reset and drive CPU bus
-------------------------------------------------------------
pr_main : process
variable v_ndata32 : integer := 0;
variable v_ndata16 : integer := 0;
-- "global" variables for base definitions of each pulses, all pulses are based on these but scaled/offset a bit
variable v_pulseaddr : integer := 0; -- manually set the pulse address, 0 to 255
variable v_waveaddr : integer := 0; -- manually set the wave address, 0 to 2047
variable v_pulsetime : integer := 0; -- For 24-bit pulse time
variable v_timefactor : real := 0.0; -- For 16-bit fixed point timestep
variable v_gainfactor : real := 0.0; -- For 16-bit fixed point gain
variable v_wavestartaddr : integer := 0; -- For 12-bit address i.e. 1024 point waveform RAM
variable v_wavesteps : integer := 0; -- For 10-bit number of steps i.e. 0 = 1 step, X"3FF" = 1024 points
variable v_wavetopwidth : integer := 0; -- For 17-bit number of clock cycles in top of waveform
variable seed1 : positive;
variable seed2 : positive;
variable x : real;
variable y : real;
begin
-- Reset
reset <= '1';
enable <= '0';
start <= '0';
done_seq <= '0';
cnt_time <= (others=>'0');
cpu_sel <= '0';
cpu_wr <= '0';
cpu_wdata <= (others=>'0');
cpu_addr <= (others=>'0');
cpu_print_msg("Simulation start");
clk_delay(5);
reset <= '0';
clk_delay(5);
enable <= '1';
clk_delay(20);
seed1 := 2045;
seed2 := 1024;
----------------------------------------------------------------
-- Load pulse RAM with a series of pulse start times
----------------------------------------------------------------
-- v_ndata32 := 128; -- Time for first pulse
v_pulsetime := 128;
cpu_print_msg("Load pulse RAM");
-- for NADDR in 0 to 255 loop
-- -- TODO: In the real setting should we have the python script to check those parameters to make sure they are valid and non-overlapping?
-- -- v_pulsetime := v_ndata32 + (NADDR*(1024+32)); -- todo: what is this math doing?
-- v_timefactor := 1.0;
-- v_gainfactor := 1.0;
-- v_wavesteps := NADDR;
-- v_wavetopwidth := 114;
-- v_wavestartaddr := v_wavesteps + v_wavestartaddr; -- TODO: EricToGeoff/Sara: I assume we want starting address of each wave to be different and non-overlapping, right?
-- v_pulsetime := (v_pulsetime + v_wavesteps + v_wavetopwidth + v_wavesteps + 4 + 3 + 1);
-- -- cpu_write_pulsedef(clk, NADDR*4, v_ndata32 + (NADDR*(1024+32)), 1.0, 1.0, 0, NADDR*32, 128, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- cpu_write_pulsedef(clk, NADDR*4, v_pulsetime, v_timefactor, v_gainfactor, v_wavestartaddr, v_wavesteps, v_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- end loop;
----------------------------------------------------------------
-- Load pulse RAM with a series of pulse start times MANUALLY
---------------------------------------------------------------
v_pulseaddr := 0;
v_timefactor := 1.0;
v_gainfactor := 1.0;
v_wavestartaddr := 4; -- TODO: EricToGeoff/Sara: I assume we want starting address of each wave to be different and non-overlapping, right?
v_wavesteps := 10;
v_wavetopwidth := 6;
v_pulsetime := 4;
cpu_write_pulsedef(clk, v_pulseaddr*4, v_pulsetime, v_timefactor, v_gainfactor, v_wavestartaddr, v_wavesteps, v_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- Same pulse but scaled addr
v_pulseaddr := 1;
v_timefactor := 2.25;
v_gainfactor := 1.0;
v_wavestartaddr := 4;
v_wavesteps := 10;
v_wavetopwidth := 9;
v_pulsetime := v_pulsetime + v_wavesteps + v_wavetopwidth + v_wavesteps + 4 + 3 + 1;
cpu_write_pulsedef(clk, v_pulseaddr*4, v_pulsetime, v_timefactor, v_gainfactor, v_wavestartaddr, v_wavesteps, v_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- Same pulse but scaled gain
v_pulseaddr := 2;
v_timefactor := 1.0;
v_gainfactor := 0.25;
v_wavestartaddr := 4;
v_wavesteps := 10;
v_wavetopwidth := 0;
v_pulsetime := v_pulsetime + v_wavesteps + v_wavetopwidth + v_wavesteps + 4 + 3 + 1;
cpu_write_pulsedef(clk, v_pulseaddr*4, v_pulsetime, v_timefactor, v_gainfactor, v_wavestartaddr, v_wavesteps, v_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_print_msg("Pulse RAM loaded");
clk_delay(20);
----------------------------------------------------------------
-- Load waveform RAM with a simple ramp
-- Write two 16-bit values with each write
----------------------------------------------------------------
cpu_print_msg("Load waveform RAM");
v_ndata16 := 1; -- first waveform value
for NADDR in 0 to 2047 loop
uniform(seed1, seed2, x);
uniform(seed1, seed2, y);
v_ndata32 := ((v_ndata16 * 2**C_BITS_ADDR_WAVE) + (v_ndata16 - 1)); -- Write two 16-bit values with each write
cpu_write(clk, (ADR_RAM_WAVE + NADDR) , v_ndata32, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
v_ndata16 := v_ndata16 + 2;
end loop;
-- ----------------------------------------------------------------
-- -- Read back Pulse RAM.
-- -- Comment out if not needed to check CPU R/W
-- ----------------------------------------------------------------
-- v_ndata32 := 128; -- Time for first pulse
-- for NADDR in 0 to 255 loop
-- v_pulsetime := v_ndata32 + (NADDR*(1024+32));
-- v_timefactor := 1.0;
-- v_gainfactor := 1.0;
-- v_wavestartaddr := 0;
-- v_wavesteps := NADDR*32;
-- v_wavetopwidth := 0;
-- cpu_read_pulsedef(clk, NADDR*4, v_pulsetime, v_timefactor, v_gainfactor, v_wavestartaddr, v_wavesteps, v_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- end loop;
-- clk_delay(20);
-- ----------------------------------------------------------------
-- -- Read back Waveform RAM
-- ----------------------------------------------------------------
-- v_ndata16 := 1; -- first waveform value
-- for NADDR in 0 to 2047 loop
-- v_ndata32 := (((v_ndata16) * 2**C_BITS_ADDR_WAVE) + (v_ndata16 - 1));
-- cpu_read (clk, ADR_RAM_WAVE + NADDR , std_logic_vector(to_unsigned(v_ndata32, 32)) , cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
-- v_ndata16 := v_ndata16 + 2;
-- end loop;
-- -- Done reg write/read check
-- cpu_print_msg("RAM readback completed");
-- clk_delay(20);
----------------------------------------------------------------
-- Start the pulse outputs
----------------------------------------------------------------
clk_delay(5);
start <= '1';
clk_delay(5);
start <= '0';
-- TODO: we may need to modify the for loop to make sure the simulation time is long enough to cover all the pulses
-- Wait for cnt_time to reach last pulse start time + waveform size
for NCNT in 1 to v_pulsetime loop -- TODO: EricToGeoff/Sara: in the real settings do we have a constant amount of time or the total time also vary? if so, how much?
-- for NCNT in 1 to 128 loop -- count the time shorter for now so it won't take too long to simulate
cnt_time <= std_logic_vector(unsigned(cnt_time) + 1);
-- if (NCNT = 32) then -- Stop simulation at some point
-- done_seq <= '1';
-- end if;
clk_delay(0);
end loop;
wait for 10 us;
cpu_print_msg("Simulation done");
clk_delay(5);
done_seq <= '1';
sim_done <= true;
wait;
end process;
end behave;

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-----------------------------------------------------------
-- File : tb_pulse_channel_random_polynomials.vhd
-----------------------------------------------------------
--
-- More complex testbench for the pulse channel.
--
-- Description : Generates random polynomials and tests the pulse channel
-- Compare the output of the pulse channel with the output of a
-- floating-point reference model.
--
----------------------------------------------------------
library ieee;
use ieee.numeric_std.all;
use ieee.std_logic_1164.all;
use ieee.std_logic_textio.all;
use std.textio.all;
use ieee.math_real.all;
use work.std_iopak.all;
use work.qlaser_dacs_pulse_channel_pkg.all;
entity tb_pulse_channel_random_polynomials is
end tb_pulse_channel_random_polynomials;
architecture verify of tb_pulse_channel_random_polynomials is
------------------------------------------------------------------------
-- Pulse Channel DUT signals
------------------------------------------------------------------------
signal clk : std_logic;
signal reset : std_logic;
signal enable : std_logic;
signal start : std_logic;
signal cnt_time : std_logic_vector(23 downto 0);
signal busy : std_logic;
signal done_seq : std_logic;
signal cpu_wr : std_logic;
signal cpu_sel : std_logic;
signal cpu_addr : std_logic_vector(15 downto 0);
signal cpu_wdata : std_logic_vector(31 downto 0);
signal cpu_rdata : std_logic_vector(31 downto 0);
signal cpu_rdata_dv : std_logic;
-- AXI-stream output interface
signal axis_tready : std_logic := '1'; -- Always ready
signal axis_tdata : std_logic_vector(15 downto 0);
signal axis_tvalid : std_logic;
signal axis_tlast : std_logic;
------------------------------------------------------------------------
-- Simulation signals
------------------------------------------------------------------------
-- Halts simulation by stopping clock when set true
signal sim_done : boolean := false;
-- Crystal clock freq expressed in MHz
constant CLK_FREQ_MHZ : real := 100.0;
-- Clock period
constant CLK_PER : time := integer(1.0E+6/(CLK_FREQ_MHZ)) * 1 ps;
-- Block registers
constant ADR_RAM_PULSE : integer := 0;
constant ADR_RAM_WAVE : integer := 2048;
signal direction : std_logic := '0';
signal degrees : integer := 0;
signal times : integer := 0;
-- signal wave_values : real_array(0 to degrees-1);
signal wave_values : real;
signal wave_values_next : real;
-------------------------------------------------------------
-- Delay
-------------------------------------------------------------
procedure clk_delay(
constant nclks : in integer
) is
begin
for I in 0 to nclks loop
wait until clk'event and clk ='0';
end loop;
end;
----------------------------------------------------------------
-- Print a string with no time or instance path.
----------------------------------------------------------------
procedure cpu_print_msg(
constant msg : in string
) is
variable line_out : line;
begin
write(line_out, msg);
writeline(output, line_out);
end procedure cpu_print_msg;
-------------------------------------------------------------
-- CPU write procedure. Address in decimal. Data in hex
-------------------------------------------------------------
procedure cpu_write(
signal clk : in std_logic;
constant a : in integer;
constant d : in std_logic_vector(31 downto 0);
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
begin
wait until clk'event and clk='0';
cpu_sel <= '1';
cpu_wr <= '1';
cpu_addr <= std_logic_vector(to_unsigned(a, 16));
cpu_wdata <= std_logic_vector(d);
wait until clk'event and clk='0';
cpu_sel <= '0';
cpu_wr <= '0';
cpu_addr <= (others=>'0');
cpu_wdata <= (others=>'0');
wait until clk'event and clk='0';
end;
-------------------------------------------------------------
-- CPU write procedure. Address and Data in decimal
-------------------------------------------------------------
procedure cpu_write(
signal clk : in std_logic;
constant a : in integer;
constant d : in integer;
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
begin
cpu_write(clk, a , std_logic_vector(to_unsigned(d,32)), cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
end;
-------------------------------------------------------------
-- CPU write pulse definition RAM
-- Make fore 32-bit data write
-------------------------------------------------------------
procedure cpu_write_pulsedef(
signal clk : in std_logic;
constant num_entry : in integer;
-- TODO: Partial ? list of parameters, there could be more if need more features
constant pulsetime : in integer; -- Pulse time in clock cycles
constant timefactor : in real; -- Fixed point time scale factor
constant gainfactor : in real; -- Fixed point gain value. Max value 1.0 is hex X"8000". Gain 0.5 is therefore X"4000"
constant wavestartaddr : in integer; -- Start address in waveform RAM
constant wavesteps : in integer; -- Number of steps in waveform rise and fall
constant wavetopwidth : in integer; -- Number of clock cycles in waveform top between end of rise and start of fall
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
-- Vectors for converted values
variable slv_pulsetime : std_logic_vector(23 downto 0); -- For 24-bit pulse time
variable slv_timefactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point timestep
variable slv_gainfactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point gain
variable slv_wavestartaddr : std_logic_vector(11 downto 0); -- For 12-bit address i.e. 1024 point waveform RAM
variable slv_wavesteps : std_logic_vector( 9 downto 0); -- For 10-bit number of steps i.e. 0 = 1 step, X"3FF" = 1024 points
variable slv_wavetopwidth : std_logic_vector(16 downto 0); -- For 17-bit number of clock cycles in top of waveform
begin
-- Convert each field into its std_logic_vector equivalent
slv_pulsetime := std_logic_vector(to_unsigned(pulsetime, 24));
slv_timefactor := std_logic_vector(to_unsigned(integer(timefactor * real(2**BIT_FRAC)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_gainfactor := std_logic_vector(to_unsigned(integer(gainfactor * real(2**BIT_FRAC_GAIN)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_wavestartaddr := std_logic_vector(to_unsigned(wavestartaddr, 12));
slv_wavesteps := std_logic_vector(to_unsigned(wavesteps, 10));
slv_wavetopwidth := std_logic_vector(to_unsigned(wavetopwidth, 17));
--etc, etc.
-- 4 writes. (Address is an integer)
cpu_write(clk, ADR_RAM_PULSE+num_entry , x"00" & slv_pulsetime, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_write(clk, ADR_RAM_PULSE+(num_entry+1) , "00" & x"0" & slv_wavesteps & x"0" & slv_wavestartaddr, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_write(clk, ADR_RAM_PULSE+(num_entry+2) , slv_gainfactor & slv_timefactor, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
cpu_write(clk, ADR_RAM_PULSE+(num_entry+3) , "0000000" & x"00" & slv_wavetopwidth, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
end;
-------------------------------------------------------------
-- Output comparison
-------------------------------------------------------------
procedure pulse_check(
signal clk : in std_logic;
-- TODO: should this be real so that it can take the floating point value from the reference model?
constant exp_d : in real;
signal axis_tdata : in std_logic_vector(15 downto 0); -- axi stream output data
signal axis_tvalid : in std_logic; -- axi_stream output data valid
signal axis_tlast : in std_logic; -- axi_stream output set on last data
signal axis_tready : out std_logic -- axi_stream ready from downstream module
) is
variable v_bdone : boolean := false;
variable str_out : string(1 to 256);
variable diff : integer;
begin
wait until clk'event and clk='0';
-- TODO: determine if we need any additional signals here
while (v_bdone = false) loop
wait until clk'event and clk='0';
if (axis_tvalid = '1') then
if (real(to_integer(unsigned(axis_tdata))) /= exp_d) then
-- diff := abs(exp_d - real(to_integer(unsigned(axis_tdata))));
fprint(str_out, "Read exp: 0x%s actual: 0x%s\n", to_string(exp_d,"%08X"), to_string(to_bitvector(axis_tdata),"%08X"));
report str_out severity error;
end if;
end if;
end loop;
wait until clk'event and clk='0';
wait until clk'event and clk='0';
end;
-- TODO: Add reference model for pulse channel
-- TODO: write polynomial generator/solver
-------------------------------------------------------------
-- Polynomial Solver
-- Given a set of random coefficients and time stamps, output values for the polynomial
-- Assume the numbers of coefficients is the same as the number of time stamps which is the degrees number
-------------------------------------------------------------
-- procedure poly_gen(
-- signal clk : in std_logic;
-- constant degrees : in integer; -- number of coefficients
-- signal direction : in std_logic; -- 0 = rising, 1 = falling
-- constant times : in integer; -- time stamp
-- constant coeff : in real -- coefficient
-- -- signal coeffs : real_array(0 to degrees-1);
-- ) is
-- variable poly_sum : real := 0.0;
-- begin
-- -- wait until clk'event and clk='0';
-- -- for i in 0 to degrees loop
-- -- poly_sum := poly_sum + coeffs(i) * times**i;
-- -- end loop;
-- -- poly_out <= poly_sum;
-- end;
procedure poly_gen(
signal clk : in std_logic;
signal direction : in std_logic; -- 0 = rising, 1 = falling
constant degrees : in integer; -- number of coefficients
constant times : in integer; -- time stamp (should be real?)
constant coeff : in real_array; -- coefficient
constant offset : in real; -- offset, or the constant C in the polynomial. This value should be 0.0 for the first term
signal wave_values : out real
) is
variable poly_sum : real := 0.0;
variable time_prime : real := real(times) / 4096.0; -- x' = x/4096
begin
wait until rising_edge(clk);
-- add from first to the Nth term. We always assume the zeroth term is 0
for i in 1 to degrees loop
-- poly_sum := poly_sum + coeff(i - 1)*real(times)**i;
poly_sum := poly_sum + coeff(i - 1)*time_prime**i;
end loop;
-- wave_values <= poly_sum;
-- wave_values <= ((coeff(2)*real(times**2) + coeff(1)*real(times))/(real(degrees-1))) * real(2**16); -- for smaller test
wave_values <= ((poly_sum)/(real(degrees-1))) * real(2**16) + offset; -- out = (f{x'} / (N-1)) * ADC height
-- wave_values <= SIN(real(times)); -- possible to use sine wave for testing
end;
begin
-------------------------------------------------------------
-- Unit Under Test
-------------------------------------------------------------
u_dac_pulse : entity work.qlaser_dacs_pulse_channel
port map (
clk => clk , -- in std_logic;
reset => reset , -- in std_logic;
enable => enable , -- out std_logic;
start => start , -- out std_logic;
cnt_time => cnt_time , -- out std_logic_vector(23 downto 0); -- Set to '1' while SPI interface is busy
busy => busy , -- out std_logic; -- Set to '1' while SPI interface is busy
done_seq => done_seq , -- in std_logic; -- Set to '1' when SPI sequence is done
-- CPU interface
cpu_wr => cpu_wr , -- in std_logic;
cpu_sel => cpu_sel , -- in std_logic;
cpu_addr => cpu_addr(11 downto 0) , -- in std_logic_vector(11 downto 0);
cpu_wdata => cpu_wdata , -- in std_logic_vector(31 downto 0);
cpu_rdata => cpu_rdata , -- out std_logic_vector(31 downto 0);
cpu_rdata_dv => cpu_rdata_dv , -- out std_logic;
-- AXI-Stream interface
axis_tready => axis_tready , -- in std_logic; -- Clock (50 MHz max)
axis_tdata => axis_tdata , -- out std_logic_vector(15 downto 0);
axis_tvalid => axis_tvalid , -- out std_logic; -- Master out, Slave in. (Data to DAC)
axis_tlast => axis_tlast -- out std_logic; -- Active low chip select (sync_n)
);
-------------------------------------------------------------
-- Generate system clock. Halt when sim_done is true.
-------------------------------------------------------------
pr_clk : process
begin
clk <= '0';
wait for (CLK_PER/2);
clk <= '1';
wait for (CLK_PER-CLK_PER/2);
if (sim_done=true) then
wait;
end if;
end process;
-------------------------------------------------------------
-- Reset and drive CPU bus
-------------------------------------------------------------
pr_main : process
-- Write to files
file f_out : text open write_mode is "wave_values.txt";
variable line_var : line;
-- "global" variables for base definitions of each pulses, all pulses are based on these but scaled/offset a bit
variable v_pulseaddr : integer := 0; -- manually set the pulse address, 0 to 255
variable v_waveaddr : integer := 0; -- manually set the wave address, 0 to 2047
variable v_pulsetime : integer := 0; -- For 24-bit pulse time
variable v_timefactor : real := 0.0; -- For 16-bit fixed point timestep
variable v_gainfactor : real := 0.0; -- For 16-bit fixed point gain
variable v_wavestartaddr : integer := 0; -- For 12-bit address i.e. 1024 point waveform RAM
variable v_wavesteps : integer := 0; -- For 10-bit number of steps i.e. 0 = 1 step, X"3FF" = 1024 points
variable v_wavetopwidth : integer := 0; -- For 17-bit number of clock cycles in top of waveform
-- for RNG's
variable seed1 : positive;
variable seed2 : positive;
variable x : real;
variable y : real;
variable offset : real;
variable v_coeffs : real_array(0 to 4095);
begin
-- Reset
reset <= '1';
enable <= '0';
start <= '0';
done_seq <= '0';
cnt_time <= (others=>'0');
cpu_sel <= '0';
cpu_wr <= '0';
cpu_wdata <= (others=>'0');
cpu_addr <= (others=>'0');
wave_values <= 0.0;
wave_values_next <= 0.0;
cpu_print_msg("Simulation start");
clk_delay(5);
reset <= '0';
clk_delay(5);
enable <= '1';
clk_delay(20);
v_coeffs := (others => 0.0);
seed1 := 2045;
seed2 := 1024;
-- TODO: write to the pulse definition RAM
degrees <= 2;
-- construct an array contains random coefficients
for i in 0 to 4095 loop
uniform(seed1, seed2, x);
v_coeffs(i) := x;
end loop;
offset := 0.0;
for i in 0 to 2047 loop
times <= i;
poly_gen(clk, direction, degrees, times, v_coeffs, offset, wave_values);
write(line_var, real'image(wave_values));
writeline(f_out, line_var);
end loop;
degrees <= 3;
clk_delay(1);
poly_gen(clk, direction, degrees, times + 1, v_coeffs, offset, wave_values_next);
clk_delay(1);
-- -- construct an array contains random coefficients
-- for i in 0 to degrees loop
-- uniform(seed1, seed2, x);
-- v_coeffs(i) := x;
-- end loop;
offset := wave_values - wave_values_next; -- offset is the difference between the last two values
for i in 2048 to 4095 loop
times <= i;
poly_gen(clk, direction, degrees, times, v_coeffs, offset, wave_values);
write(line_var, real'image(wave_values));
writeline(f_out, line_var);
end loop;
-- End of test
cpu_print_msg("Simulation done");
clk_delay(5);
done_seq <= '1';
sim_done <= true;
wait;
end process;
end verify;

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src/python/genwave.py Normal file
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import matplotlib.pyplot as plt
import numpy as np
def generate_wave(length=100, amplitude=1, num_waves=3):
x = np.linspace(0, 10, length) # Create a linearly spaced array
wave = np.zeros(length) # Initialize wave array
for _ in range(num_waves):
phase = np.random.rand() * 2 * np.pi # Random phase
frequency = np.random.rand() * 2 # Random frequency
amplitude = np.random.rand() * amplitude # Random amplitude
wave += amplitude * np.sin(2 * np.pi * frequency * x + phase) # Add random sine wave
return wave
def plot_wave(wave):
plt.plot(wave)
plt.xlabel('Time')
plt.ylabel('Amplitude')
plt.title('Randomly Generated Wave')
plt.show()
if __name__ == "__main__":
wave = generate_wave()
plot_wave(wave)

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src/python/polytest.py Normal file
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import matplotlib
import matplotlib.pyplot as plt
import numpy as np
matplotlib.use("WXAgg") # force use wxPython as backend UI for plotting
def generate_polynomial(coefficients, times, degree):
"""Generate polynomial values.
Args:
coefficients (list): List of coefficients for the polynomial, from highest degree to constant term.
times (list): List of x-values at which to evaluate the polynomial.
degree (int): Degree of the polynomial (not used in computation but included for clarity).
Returns:
list: Polynomial values at the given times.
"""
# Calculate polynomial value for each time
polynomial_values = []
for t in times:
value = 0
for i, coeff in enumerate(coefficients):
value += coeff * (t ** (degree - i))
polynomial_values.append(value)
return polynomial_values
def plot_wave(wave):
plt.plot(wave)
plt.xlabel('Time')
plt.ylabel('Amplitude')
plt.title('Randomly Generated Wave')
plt.show()
wavesize = 10
inputData = np.random.rand(wavesize)*10
times = np.arange(0, wavesize, 1)
degree = 3
# plot_wave(inputData)

34
src/python/scalecheck.py Normal file
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# simple calculation of the scale factor
import numpy as np
START = 1
LENGTH = 10
FACTOR = 2.25
END = START+LENGTH
addr_raw = np.arange(START, END)
addr_scaled = np.zeros(len(addr_raw))
addr = START
# for i in range(len(addr_raw)):
# addr_scaled[i] = addr_raw[i] * FACTOR
# print(np.floor(addr_scaled))
for i in range(LENGTH):
print(i * FACTOR, end=" ")
# addr_scaled[i] = (addr + i) * FACTOR
# addr += 1
print()
# now decrement it back
for i in range(LENGTH - 1, 0, -1):
# addr -= 1
# addr_scaled[i] = (addr - i) * FACTOR
print(i * FACTOR, end=" ")
print()

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---------------------------------------------------------------
-- File : qlaser_dacs_pulse_channel.vhd
-- Description : Single channel of pulse output
----------------------------------------------------------------
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.qlaser_pkg.all;
use work.qlaser_dacs_pulse_channel_pkg.all;
entity qlaser_dacs_pulse_channel is
port (
reset : in std_logic;
clk : in std_logic;
enable : in std_logic; -- Set when DAC interface is running
start : in std_logic; -- Set when pulse generation sequence begins (trigger)
cnt_time : in std_logic_vector(23 downto 0); -- Time since trigger.
busy : out std_logic; -- Status signal
-- CPU interface
cpu_addr : in std_logic_vector(11 downto 0); -- Address input
cpu_wdata : in std_logic_vector(31 downto 0); -- Data input
cpu_wr : in std_logic; -- Write enable
cpu_sel : in std_logic; -- Block select
cpu_rdata : out std_logic_vector(31 downto 0); -- Data output
cpu_rdata_dv : out std_logic; -- Acknowledge output
-- AXI-stream output
axis_tready : in std_logic; -- axi_stream ready from downstream module
axis_tdata : out std_logic_vector(15 downto 0); -- axi stream output data
axis_tvalid : out std_logic; -- axi_stream output data valid
axis_tlast : out std_logic -- axi_stream output set on last data
);
end entity;
---------------------------------------------------------------------------
-- Single channel pulse generator with two RAMs
---------------------------------------------------------------------------
architecture channel of qlaser_dacs_pulse_channel is
-- Signal declarations for pulse RAM
signal ram_pulse_we : std_logic_vector( 0 downto 0); -- Write enable for pulse RAM
signal ram_pulse_addra : std_logic_vector( 9 downto 0); -- Address for pulse RAM
signal ram_pulse_dina : std_logic_vector(31 downto 0); -- Data for pulse RAM
signal ram_pulse_douta : std_logic_vector(31 downto 0); -- Data out from pulse RAM
signal ram_pulse_addrb : std_logic_vector( 9 downto 0); -- Address for pulse RAM
signal ram_pulse_doutb : std_logic_vector(31 downto 0); -- Data out from pulse RAM
-- Signal declarations for waveform RAM
signal ram_waveform_wea : std_logic_vector( 0 downto 0); -- Write enable for waveform RAM
signal ram_waveform_addra : std_logic_vector(10 downto 0); -- Address for waveform RAM
signal ram_waveform_dina : std_logic_vector(31 downto 0); -- Data for waveform RAM
signal ram_waveform_douta : std_logic_vector(31 downto 0); -- Data out from waveform RAM
signal ram_waveform_addrb : std_logic_vector(11 downto 0); -- Address for waveform RAM
signal ram_waveform_doutb : std_logic_vector(15 downto 0); -- Data out from waveform RAM
-- State variable type declaration for main state machine
-- TODO: add a fetch state to get four address from pd ram?
type t_sm_state is (
S_RESET, -- Wait for 'enable'. Stay here until JESD interface is up and running,
S_IDLE, -- Wait for 'start'
S_WAIT, -- Wait for cnt_time, external input, to match pulse position RAM output
S_LOAD, -- Load the pulse channel RAM addresses and start the waveform output
S_HOLD, -- Hold the last pulse definition address and output its data
S_WAVE_UP, -- Output the rising edge of a waveform
S_WAVE_FLAT,-- Output the flat top part of a waveform
S_WAVE_DOWN -- Output the falling edge of a waveform
);
signal sm_state : t_sm_state;
signal sm_wavedata : std_logic_vector(15 downto 0); -- Waveform RAM data
signal sm_wavedata_dv : std_logic; -- Signal to indicate that waveform RAM data is valid
signal sm_busy : std_logic; -- Signal to indicate that s.m. is not idle
signal cnt_wave_len : unsigned(C_BITS_ADDR_LENGTH - 1 downto 0); -- Counter used for incremnet/decrement wave table addresses
signal cnt_wave_top : unsigned(C_BITS_ADDR_TOP - 1 downto 0); -- Counter for the flat top of the waveform
-- Misc signals
signal cpu_rdata_dv_e1 : std_logic;
signal cpu_rdata_dv_e2 : std_logic;
signal cpu_rdata_ramsel_d1 : std_logic;
signal cpu_rdata_ramsel_d2 : std_logic;
signal pc : std_logic_vector(C_BITS_ADDR_PULSE - 1 downto 0); -- pulse counter, used to count the number of pulses generated
----------------------------------------------------------------
-- Assign values from the pulse definition ram to regfiles (?) with the following:
-- 1. Start time 24 bits. [23:0]
-- 2. Wave start addr 12 bit at [11:0]
-- Wave length 10-bit at [25:16]
-- 3. Scale factors 16, 16. [31:16] [15:0]
-- 4. Flat-top 17-bit. [16:0]
----------------------------------------------------------------
signal reg_start_time : std_logic_vector(23 downto 0); -- first register which stores the pulse's start time
signal reg_pulse_sizes : std_logic_vector(31 downto 0); -- second register which stores the pulse's length, the bit width should increase with the amount of addresses the wavetable has, and its start address
-- TODO: replace the above one w/ below two
signal reg_wave_start_addr : std_logic_vector(11 downto 0); -- the start address of the wavetable
signal reg_wave_length : unsigned(9 downto 0); -- the length of the wavetable
signal reg_pulse_factors : std_logic_vector(31 downto 0); -- third register which stores the pulse's amplitude and time scale factors
-- TODO: replace the above one w/ below two
signal reg_scale_gain : unsigned(15 downto 0); -- scale factor for the gain, amplitude
signal reg_scale_time : unsigned(15 downto 0); -- scale factor for the time, length
signal reg_flattop : std_logic_vector(16 downto 0); -- fourth register which stores the pulse's flat top value
-- Pipeline delays
signal start_d1 : std_logic;
signal enable_d1 : std_logic;
begin
----------------------------------------------------------------
-- Pulse Definition Block RAM.
-- Synch write, Synch read
-- Port A is for CPU read/write. 1024x32-bit
-- Port B is for pulse time data output. 1024x32-bit
----------------------------------------------------------------
u_ram_pulse : entity work.bram_pulse_definition
port map(
-- Port A CPU Bus
clka => clk, -- input std_logic
wea => ram_pulse_we, -- input slv( 0 to 0 )
addra => ram_pulse_addra, -- input slv( 9 downto 0 )
dina => ram_pulse_dina, -- input slv( 31 downto 0 )
douta => ram_pulse_douta, -- output slv( 31 downto 0 ),
-- Port B waveform input
clkb => clk,
web => (others=>'0'),
addrb => ram_pulse_addrb, -- input slv( 9 downto 0 )
dinb => (others=>'0'),
doutb => ram_pulse_doutb -- output slv( 31 downto 0 )
);
----------------------------------------------------------------
-- Waveform table Block RAM.
-- Synch write, Synch read
-- Port A is for CPU read/write. 2048x32-bit
-- Port B is for waveform data. 4096x16-bit
----------------------------------------------------------------
u_ram_waveform : entity work.bram_waveform
port map (
-- Port A CPU Bus
clka => clk , -- input std_logic
wea => ram_waveform_wea , -- input slv(0 downto 0)
addra => ram_waveform_addra , -- input slv(10 downto 0)
dina => ram_waveform_dina , -- input slv(31 downto 0)
douta => ram_waveform_douta , -- output slv(31 downto 0)
-- Port B waveform output
clkb => clk , -- input std_logic
web => (others=>'0') , -- input slv(0 downto 0)
addrb => ram_waveform_addrb , -- input slv(11 downto 0)
dinb => (others=>'0') , -- input slv(15 downto 0)
doutb => ram_waveform_doutb -- output slv(15 downto 0)
);
----------------------------------------------------------------
-- CPU Read/Write RAM
-- MSB of cpu_addr is used to select one of the two RAMs
-- to read/write, and the remainder are a 9-bit or 4-bit RAM address.
----------------------------------------------------------------
pr_ram_rw : process (reset, clk)
begin
if (reset = '1') then
ram_pulse_addra <= (others=>'0');
ram_pulse_dina <= (others=>'0');
ram_pulse_we <= (others=>'0');
ram_waveform_wea <= (others=>'0');
ram_waveform_addra <= (others=>'0');
ram_waveform_dina <= (others=>'0');
cpu_rdata <= (others=>'0');
cpu_rdata_dv <= '0';
cpu_rdata_dv_e1 <= '0';
cpu_rdata_dv_e2 <= '0';
cpu_rdata_ramsel_d1 <= '0';
cpu_rdata_ramsel_d2 <= '0';
elsif rising_edge(clk) then
-------------------------------------------------
-- CPU writing RAM
-------------------------------------------------
if (cpu_wr = '1') and (cpu_sel = '1') then
-- 0 for pulse definition, 1 for waveform table
if (cpu_addr(C_RAM_SELECT) = '1') then
ram_pulse_addra <= (others=>'0');
ram_pulse_dina <= (others=>'0');
ram_pulse_we <= (others=>'0');
ram_waveform_wea(0) <= '1';
ram_waveform_addra <= cpu_addr(10 downto 0);
ram_waveform_dina <= cpu_wdata;
else
ram_pulse_addra <= cpu_addr(9 downto 0);
ram_pulse_dina <= cpu_wdata;
ram_pulse_we(0) <= '1';
ram_waveform_wea <= (others=>'0');
ram_waveform_addra <= (others=>'0');
ram_waveform_dina <= (others=>'0');
end if;
cpu_rdata_dv_e1 <= '0';
cpu_rdata_dv_e2 <= '0';
cpu_rdata_ramsel_d1 <= '0';
cpu_rdata_ramsel_d2 <= '0';
-------------------------------------------------
-- CPU read
-------------------------------------------------
elsif (cpu_wr = '0') and (cpu_sel = '1') then
if (cpu_addr(C_RAM_SELECT) = '1') then -- Waveform
ram_pulse_addra <= (others=>'0');
ram_waveform_addra <= cpu_addr(10 downto 0);
else -- Pulse
ram_pulse_addra <= cpu_addr(9 downto 0);
ram_waveform_addra <= (others=>'0');
end if;
ram_pulse_we <= (others=>'0');
ram_waveform_wea(0) <= '0';
cpu_rdata_dv_e2 <= '1'; -- DV for cycle, when RAM output occurs
cpu_rdata_dv_e1 <= cpu_rdata_dv_e2; -- DV for next cycle
cpu_rdata_ramsel_d1 <= cpu_addr(C_RAM_SELECT); -- Save the select bit one cycle later
cpu_rdata_ramsel_d2 <= cpu_rdata_ramsel_d1;
else
ram_pulse_addra <= (others=>'0');
ram_pulse_we <= (others=>'0');
ram_waveform_addra <= (others=>'0');
ram_waveform_wea(0) <= '0';
cpu_rdata_dv_e2 <= '0';
cpu_rdata_dv_e1 <= cpu_rdata_dv_e2; -- DV for next cycle
cpu_rdata_ramsel_d1 <= '0';
cpu_rdata_ramsel_d2 <= cpu_rdata_ramsel_d1;
end if;
-------------------------------------------------
-- Output the delayed RAM data
-- This adds a pipeline delay to the cpu_rdata_dv to account for
-- the delay in reading data from the RAM
-------------------------------------------------
if (cpu_rdata_dv_e1 = '1') then
cpu_rdata_dv <= '1';
-- Select source of output data
if (cpu_rdata_ramsel_d2 = '1') then -- Output is from waveform table
cpu_rdata <= ram_waveform_douta;
elsif (cpu_rdata_ramsel_d2 = '0') then
cpu_rdata <= ram_pulse_douta;
end if;
else
cpu_rdata <= (others=>'0');
cpu_rdata_dv <= '0';
end if;
end if;
end process;
----------------------------------------------------------------
-- State machine:
-- Compares cnt_time input against current output from pulse position RAM.
-- When values match iti incremnts the pulse postion RAM address to
-- retrieve the next pulse position and also starts reading the
-- entire waveform table, one value every clock cycle, until it reaches the end.
-- Once the pulse is complete it waits for the next cnt_time match.
-- Repeat until all pulse position RAM times have triggered a pulse output
-- or until the maximum counter time has been reached.
----------------------------------------------------------------
pr_sm : process (reset, clk)
variable v_amp_factor : std_logic_vector(C_BITS_GAIN_FACTOR - 1 downto 0);
variable v_time_factor : std_logic_vector(C_BITS_TIME_FACTOR - 1 downto 0);
-- Temp variables for waveform output
variable v_ram_waveform_doutb_multiplied : std_logic_vector(C_BITS_GAIN_FACTOR + 15 downto 0);
begin
if (reset = '1') then
sm_state <= S_IDLE; -- TODO: Eric: Should this be S_RESET since we reset the JEDS interface as well?
ram_pulse_addrb <= (others=>'0');
ram_waveform_addrb <= (others=>'0');
sm_wavedata <= (others=>'0');
sm_wavedata_dv <= '0';
sm_busy <= '0';
reg_start_time <= (others=>'0');
reg_pulse_sizes <= (others=>'0');
reg_pulse_factors <= (others=>'0');
reg_flattop <= (others=>'0');
reg_scale_gain <= (others=>'0');
reg_scale_time <= (others=>'0');
pc <= (others=>'0');
cnt_wave_len <= (others=>'0');
cnt_wave_top <= (others=>'0');
elsif rising_edge(clk) then
-- Pipeline delays to use for rising edge detection
enable_d1 <= enable;
start_d1 <= start;
-- Default
sm_wavedata <= (others=>'0');
sm_wavedata_dv <= '0';
------------------------------------------------------------------------
-- Main state machine
------------------------------------------------------------------------
case sm_state is
------------------------------------------------------------------------
-- Wait for rising edge of enable
-- This is set when the JESD interface is aligned and functional.
-- Send a zero value to initialize the DAC then go to idle.
------------------------------------------------------------------------
when S_RESET =>
if (enable = '1') and (enable_d1 = '0') then
sm_wavedata <= (others=>'0');
sm_wavedata_dv <= '1';
sm_state <= S_IDLE;
end if;
sm_busy <= '0';
------------------------------------------------------------------------
-- Wait for rising edge of 'start'.
-- No data output.
------------------------------------------------------------------------
when S_IDLE =>
if (start = '1') and (start_d1 = '0') then
sm_state <= S_LOAD;
sm_busy <= '1';
else
sm_busy <= '0';
end if;
------------------------------------------------------------------------
-- Load four addresses from pulse definition RAM into four 32 bits regesters
------------------------------------------------------------------------
when S_LOAD =>
-- TODO: Eric: does is needed here? or should be inside the if-else loops
-- Load the pulse channel RAM addresses and start the waveform output
sm_busy <= '1';
-- Pipline the pulse definition address
-- TODO: is it better to make a counter to count the quarter or just mod 4?
-- TODO: maybe C-slow around the pulse ram to get it down to 1 cycle??
if (unsigned(ram_pulse_addrb) mod 4 = 0) then
ram_pulse_addrb <= std_logic_vector(unsigned(pc) + 1);
sm_state <= S_LOAD;
-- first quarter of the pulse definition, no register is loaded
-- reg_start_time <= ram_pulse_doutb;
elsif (unsigned(ram_pulse_addrb) mod 4 = 1) then
ram_pulse_addrb <= std_logic_vector(unsigned(pc) + 2);
sm_state <= S_LOAD;
-- reg_pulse_sizes <= ram_pulse_doutb;
-- second quarter of the pulse definition, the start time is loaded
reg_start_time <= ram_pulse_doutb;
elsif (unsigned(ram_pulse_addrb) mod 4 = 2) then
ram_pulse_addrb <= std_logic_vector(unsigned(pc) + 3);
sm_state <= S_LOAD;
-- reg_pulse_factors <= ram_pulse_doutb;
-- third quarter of the pulse definition, the length and start address of the wavetable are loaded
reg_pulse_sizes <= ram_pulse_doutb;
elsif (unsigned(ram_pulse_addrb) mod 4 = 3) then
-- ram_pulse_addrb <= std_logic_vector(unsigned(pc) + 4);
sm_state <= S_WAIT; -- address is on the forth word of the entry, the loading process is complete. Moving onto the next state
-- hold the last pulse definition address as it will be used in the next state
-- reg_flattop <= ram_pulse_doutb;
pc <= std_logic_vector(unsigned(pc) + C_PC_INCR); -- incremnet the pulse counter and start waiting to output the wave
-- forth quarter of the pulse definition, the scale factors are loaded
reg_pulse_factors <= ram_pulse_doutb;
reg_scale_gain <= unsigned(ram_pulse_doutb(31 downto 16));
reg_scale_time <= unsigned(ram_pulse_doutb(15 downto 0));
end if;
-- ------------------------------------------------------------------------
-- -- Hold the last pulse definition address and output its data for one more clock cycle
-- ------------------------------------------------------------------------
-- when S_HOLD =>
-- sm_state <= S_LOAD;
------------------------------------------------------------------------
-- Wait for cnt_time, external input, to match pulse position RAM output
-- Return to idle state if max time is reached. Output waveform value zero.
------------------------------------------------------------------------
when S_WAIT =>
-- read the last word of the pulse definition, the flat top value
reg_flattop <= ram_pulse_doutb;
-- Start to output wave and increment pulse position RAM address
if (reg_start_time(C_START_TIME - 1 downto 0) = cnt_time) then
sm_state <= S_WAVE_UP;
-- set the wavetable's address to the starting address defined from the pulse ram
ram_waveform_addrb <= reg_pulse_sizes(C_BITS_ADDR_START - 1 downto 0);
-- reset the wave lenth counter
cnt_wave_len <= (others=>'0');
-- parse the scale factors from reg_pulse_factors register
v_time_factor := reg_pulse_factors(C_BITS_TIME_FACTOR - 1 downto 0);
v_amp_factor := reg_pulse_factors(31 downto 16);
elsif (cnt_time = X"FFFFFF") then
sm_state <= S_IDLE;
end if;
------------------------------------------------------------------------
-- Output the raising edge of a waveform
-- Hold the last address when complete
------------------------------------------------------------------------
when S_WAVE_UP =>
-- Check if is end of rise of the waveform, and hold the address
-- TODO: convert the numbers below to constaint. right now just make sure I'm not confused
if (cnt_wave_len = reg_wave_length) then
sm_state <= S_WAVE_FLAT;
-- reset counters for transitions
cnt_wave_len <= (others=>'0');
cnt_wave_top <= (others=>'0');
-- TODO: toSara: do we need to consider the even of no flat top?
else
cnt_wave_len <= cnt_wave_len + 1;
ram_waveform_addrb <= std_logic_vector(unsigned(ram_waveform_addrb) + 1);
end if;
v_ram_waveform_doutb_multiplied := std_logic_vector(unsigned(ram_waveform_doutb) * reg_scale_gain);
sm_wavedata <= std_logic_vector(unsigned(ram_waveform_doutb) * reg_scale_gain)(31 downto 16);
sm_wavedata_dv <= '1';
------------------------------------------------------------------------
-- Hold the last address and output its data
-- decrement from this address when finished waiting
------------------------------------------------------------------------
when S_WAVE_FLAT =>
-- count the 17-bit flat top, if the counter reaches the flat top value, then go to the next state
if (cnt_wave_top = reg_flattop(C_BITS_ADDR_TOP - 1 downto 0)) then
sm_state <= S_WAVE_DOWN;
-- reset the counter for the next transition
cnt_wave_top <= (others=>'0');
else
cnt_wave_top <= std_logic_vector(unsigned(cnt_wave_top) + 1);
end if;
v_ram_waveform_doutb_multiplied := std_logic_vector(unsigned(ram_waveform_doutb) * unsigned(v_amp_factor));
sm_wavedata <= std_logic_vector(unsigned(ram_waveform_doutb) * reg_scale_gain)(31 downto 16); ;
sm_wavedata_dv <= '1';
------------------------------------------------------------------------
-- Output the falling edge of a waveform
-- Hold the start address when complete
------------------------------------------------------------------------
when S_WAVE_DOWN =>
-- End of waveform?
-- TODO: convert the numbers below to constaint. right now just make sure I'm not confused
if (cnt_wave_len = reg_wave_length) then
-- If the end of the pulse table is reached then go to idle, increment pulse address for the next waveform otherwise
if (ram_pulse_addrb = std_logic_vector(to_unsigned(C_LEN_PULSE-1, C_BITS_ADDR_PULSE))) then
ram_pulse_addrb <= (others=>'0');
pc <= (others=>'0');
sm_state <= S_IDLE;
else -- increment pulse address for the next waveform
ram_pulse_addrb <= pc;
-- the above line will now happen in the load state
-- pc <= std_logic_vector(unsigned(pc) + C_PC_INCR);
sm_state <= S_LOAD;
end if;
-- Output waveform from RAM with decremented address
else
cnt_wave_len <= cnt_wave_len + 1;
ram_waveform_addrb <= std_logic_vector(unsigned(ram_waveform_addrb) - 1);
end if;
sm_wavedata <= std_logic_vector(unsigned(ram_waveform_doutb) * reg_scale_gain)(31 downto 16);
sm_wavedata_dv <= '1';
------------------------------------------------------------------------
-- Default
------------------------------------------------------------------------
when others =>
sm_state <= S_IDLE;
end case;
end if;
end process;
-- AXI-Stream output.
-- TBD: This should come from a FIFO
-- TODO: the bits are not correct, should be top bits (C_BITS_GAIN_FACTOR + 16 downto C_BITS_GAIN_FACTOR), but for now just make it this way so modelsim can simulate
-- TODO: apply scaling factor to the output
axis_tdata <= sm_wavedata; -- axi stream output data, this output should be multiplied by the gain factor, then take the top 16 bits
axis_tvalid <= sm_wavedata_dv; -- axi_stream output data valid
-- TBD : Generate in state machine?
axis_tlast <= '0'; -- axi_stream output last
end channel;

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@ -0,0 +1,606 @@
---------------------------------------------------------------
-- File : qlaser_dacs_pulse_channel.vhd
-- Description : Single channel of pulse output
----------------------------------------------------------------
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.qlaser_pkg.all;
entity qlaser_dacs_pulse_channel is
port (
reset : in std_logic;
clk : in std_logic;
enable : in std_logic; -- Set when DAC interface is running
start : in std_logic; -- Set when pulse generation sequence begins (trigger)
cnt_time : in std_logic_vector(23 downto 0); -- Time since trigger.
busy : out std_logic; -- Status signal
-- CPU interface
cpu_addr : in std_logic_vector( 9 downto 0); -- Address input
cpu_wdata : in std_logic_vector(31 downto 0); -- Data input
cpu_wr : in std_logic; -- Write enable
cpu_sel : in std_logic; -- Block select
cpu_rdata : out std_logic_vector(31 downto 0); -- Data output
cpu_rdata_dv : out std_logic; -- Acknowledge output
-- AXI-stream output
axis_tready : in std_logic; -- axi_stream ready from downstream module
axis_tdata : out std_logic_vector(15 downto 0); -- axi stream output data
axis_tvalid : out std_logic; -- axi_stream output data valid
axis_tlast : out std_logic -- axi_stream output set on last data
);
end entity;
----------------------------------------------------------------
-- Single channel pulse generator with two RAMs and a FIFO
----------------------------------------------------------------
architecture rtl of qlaser_dacs_pulse_channel is
-- RAM, pulse position, CPU port, read/write
constant C_NUM_PULSE : integer := 16; -- Number of output data values from pulse RAM (16x24-bit)
signal ram_pulse_addra : std_logic_vector( 3 downto 0); -- 16 entry RAM
signal ram_pulse_dina : std_logic_vector(95 downto 0);
signal ram_pulse_douta : std_logic_vector(95 downto 0);
signal ram_pulse_douta_d1 : std_logic_vector(95 downto 0); -- Delay distrib RAM output to match pipeline of Block RAM
signal ram_pulse_we : std_logic;
-- RAM, pulse position, from state machine
constant C_BITS_GAIN_FACTOR : integer := 16; -- Number of bits in gain table
constant C_BITS_TIME_FACTOR : integer := 16; -- Number of bits in time table
constant C_BITS_TIME_INT : integer := 14; -- Starting bit for time integer part of the time factor, counting from MSB
constant C_BITS_TIME_FRAC : integer := 5; -- Starting bit for time fractional part of the time factor, counting from MSB
constant C_BITS_ADDR_START : integer := 10; -- Number of bits for starting address
constant C_BITS_ADDR_LENGTH : integer := 10; -- Number of bits for length address used by an edge of a pulse
constant C_BITS_ADDR_TOP : integer := 17; -- Number of bits for the "flat top", the top of the pulse
signal cnt_wave_top : std_logic_vector( C_BITS_ADDR_TOP - 1 downto 0); -- Counter for the top of the waveform
signal ram_pulse_addrb : std_logic_vector( 3 downto 0);
signal ram_pulse_doutb : std_logic_vector(95 downto 0);
signal cpu_rdata_dv_e1 : std_logic;
signal cpu_rdata_dv_e2 : std_logic;
signal cpu_rdata_ramsel_d1 : std_logic;
signal cpu_rdata_ramsel_d2 : std_logic;
signal cpu_wdata_top : std_logic_vector(31 downto 0); -- Top 32 bits of CPU write data (95:64)
signal cpu_wdata_mid : std_logic_vector(31 downto 0); -- Middle 32 bits of CPU write data (63:32)
-- Waveform RAM port connections.
-- NOTE: Port A is 32-bit data, port B is 16-bit
constant C_LENGTH_WAVEFORM : integer := 1024; -- Number of output data values from waveform RAM (1024x16-bit)
constant C_BITS_ADDR_WAVE : integer := 10; -- Number of bits in address for waveform RAM
signal ram_waveform_ena : std_logic;
signal ram_waveform_wea : std_logic_vector( 0 downto 0);
signal ram_waveform_addra : std_logic_vector( 8 downto 0);
signal ram_waveform_dina : std_logic_vector(31 downto 0);
signal ram_waveform_douta : std_logic_vector(31 downto 0);
signal ram_waveform_enb : std_logic := '0';
signal ram_waveform_web : std_logic_vector( 0 downto 0) := (others=>'0');
signal ram_waveform_addrb : std_logic_vector( 9 downto 0);
signal ram_waveform_dinb : std_logic_vector(15 downto 0) := (others=>'0');
signal ram_waveform_doutb : std_logic_vector(15 downto 0);
-- State variable type declaration for main state machine
type t_sm_state is (
S_RESET, -- Wait for 'enable'. Stay here until JESD interface is up and running,
S_IDLE, -- Wait for 'start'
S_WAIT, -- Wait for cnt_time, external input, to match pulse position RAM output
S_WAVE_UP, -- Output the rising edge of a waveform
S_WAVE_FLAT,-- Output the flat top part of a waveform
S_WAVE_DOWN -- Output the falling edge of a waveform
);
signal sm_state : t_sm_state;
signal sm_wavedata : std_logic_vector(15 downto 0); -- Waveform RAM data
signal sm_wavedata_dv : std_logic; -- Signal to indicate that waveform RAM data is valid
signal sm_busy : std_logic; -- Signal to indicate that s.m. is not idle
---- FIFO port connections
--signal fifo_wr_en : std_logic;
--signal fifo_full : std_logic;
--signal fifo_empty : std_logic;
--signal fifo_wr_rst_busy : std_logic;
--signal fifo_rd_rst_busy : std_logic;
--signal fifo_rd_en : std_logic;
---- FIFO status signals for debug purpose
--signal fifo_wr_ack : std_logic;
--signal fifo_overflow : std_logic;
--signal fifo_valid : std_logic;
--signal fifo_underflow : std_logic;
-- Pipeline delays
signal start_d1 : std_logic;
signal enable_d1 : std_logic;
begin
busy <= sm_busy;
----------------------------------------------------------------
-- Distributed RAM to hold 16 24-bit Pulse start times.
-- Synch write, Asynch read
-- Port A is for CPU read/write. 16x24-bit
-- Port B is for pulse time data output. 16x24-bit
----------------------------------------------------------------
u_ram_pulse : entity work.bram_pulseposition
port map(
clk => clk , -- input std_logic
a => ram_pulse_addra , -- input slv[3:0]
d => ram_pulse_dina , -- input slv[95 downto 0]
we => ram_pulse_we ,
spo => ram_pulse_douta , -- output slv(95 downto 0]
dpra => ram_pulse_addrb , -- input slv[3:0]
dpo => ram_pulse_doutb -- output slv(95 downto 0)
);
----------------------------------------------------------------
-- Waveform table Block RAM.
-- Synch write, Synch read
-- Port A is for CPU read/write. 512x32-bit
-- Port B is for waveform data. 1024x16-bit
----------------------------------------------------------------
u_ram_waveform : entity work.bram_waveform
port map (
-- Port A CPU Bus
clka => clk , -- input std_logic
ena => ram_waveform_ena , -- input std_logic
wea => ram_waveform_wea , -- input slv(0 downto 0)
addra => ram_waveform_addra , -- input slv(8 downto 0)
dina => ram_waveform_dina , -- input slv(31 downto 0)
douta => ram_waveform_douta , -- output slv(31 downto 0)
-- Port B waveform output
clkb => clk , -- input std_logic
enb => ram_waveform_enb , -- input std_logic
web => (others=>'0') , -- input slv(0 downto 0)
addrb => ram_waveform_addrb , -- input slv(9 downto 0)
dinb => (others=>'0') , -- input slv(15 downto 0)
doutb => ram_waveform_doutb -- output slv(15 downto 0)
);
----------------------------------------------------------------
-- State machine:
-- Compares cnt_time input against current output from pulse position RAM.
-- When values match iti incremnts the pulse postion RAM address to
-- retrieve the next pulse position and also starts reading the
-- entire waveform table, one value every clock cycle, until it reaches the end.
-- Once the pulse is complete it waits for the next cnt_time match.
-- Repeat until all pulse position RAM times have triggered a pulse output
-- or until the maximum counter time has been reached.
----------------------------------------------------------------
pr_sm : process (reset, clk)
-- TODO: those bitwidth are not correct, we could optimize it later and find out how many bits each variable should be. But for now just make it big
variable v_flattop : std_logic_vector(C_BITS_ADDR_TOP - 1 downto 0); -- wait times (flat_top), managed by an internal counter process sm_top_counter unter state S_WAVE_TOP
variable v_addr_length : std_logic_vector(C_BITS_ADDR_LENGTH - 1 downto 0); -- number of points/addresses used by the pulse edge, the bit width should increase with the amount of addresses the wavetable has
variable v_addr_start : std_logic_vector(C_BITS_ADDR_START - 1 downto 0); -- start address of the pulse edge data in the Waveform RAM, the bit width should increase with the amount of address the wavetable has.
variable v_addr_end : std_logic_vector(C_BITS_ADDR_START - 1 downto 0); -- end address of the pulse edge data in the Waveform RAM, the bit width should align with the bit width of v_addr_start
variable v_amplitude_factor : std_logic_vector(C_BITS_GAIN_FACTOR - 1 downto 0); -- pulse edge amplitude scale factor
variable v_time_factor : std_logic_vector(C_BITS_TIME_FACTOR - 1 downto 0); -- pulse edge time scale factor
variable v_cnt_time : std_logic_vector(23 downto 0); -- counter for the time, the bit width should increase with the amount of addresses the wavetable has
variable v_ram_waveform_addrb : unsigned(95 downto 0);
begin
if (reset = '1') then
sm_state <= S_IDLE; -- TODO: Eric: Should this be S_RESET since we reset the JEDS interface as well?
ram_pulse_addrb <= (others=>'0');
ram_waveform_addrb <= (others=>'0');
sm_wavedata <= (others=>'0');
sm_wavedata_dv <= '0';
sm_busy <= '0';
ram_waveform_enb <= '0';
elsif rising_edge(clk) then
-- Pipeline delays to use for rising edge detection
enable_d1 <= enable;
start_d1 <= start;
-- Default
sm_wavedata <= (others=>'0');
sm_wavedata_dv <= '0';
-- Actively read pulse definition RAM and update the variables
v_flattop := ram_pulse_doutb(C_BITS_ADDR_TOP - 1 downto 0);
v_addr_length := ram_pulse_doutb(C_BITS_ADDR_LENGTH + C_BITS_ADDR_TOP - 1 downto C_BITS_ADDR_TOP);
v_addr_start := ram_pulse_doutb(C_BITS_ADDR_START + C_BITS_ADDR_LENGTH + C_BITS_ADDR_TOP - 1 downto C_BITS_ADDR_LENGTH + C_BITS_ADDR_TOP);
v_addr_end := std_logic_vector(unsigned(v_addr_start) + unsigned(v_addr_length) - 1);
v_amplitude_factor := ram_pulse_doutb(C_BITS_GAIN_FACTOR + C_BITS_ADDR_START + C_BITS_ADDR_LENGTH + C_BITS_ADDR_TOP - 1 downto C_BITS_ADDR_START + C_BITS_ADDR_LENGTH + C_BITS_ADDR_TOP);
v_time_factor := ram_pulse_doutb(C_BITS_TIME_FACTOR + C_BITS_GAIN_FACTOR + C_BITS_ADDR_START + C_BITS_ADDR_LENGTH + C_BITS_ADDR_TOP - 1 downto C_BITS_GAIN_FACTOR + C_BITS_ADDR_START + C_BITS_ADDR_LENGTH + C_BITS_ADDR_TOP);
v_cnt_time := ram_pulse_doutb(24 + C_BITS_TIME_FACTOR + C_BITS_GAIN_FACTOR + C_BITS_ADDR_START + C_BITS_ADDR_LENGTH + C_BITS_ADDR_TOP - 1 downto C_BITS_TIME_FACTOR + C_BITS_GAIN_FACTOR + C_BITS_ADDR_START + C_BITS_ADDR_LENGTH + C_BITS_ADDR_TOP);
------------------------------------------------------------------------
-- Main state machine
------------------------------------------------------------------------
case sm_state is
------------------------------------------------------------------------
-- Wait for rising edge of enable
-- This is set when the JESD interface is aligned and functional.
-- Send a zero value to initialize the DAC then go to idle.
------------------------------------------------------------------------
when S_RESET =>
if (enable = '1') and (enable_d1 = '0') then
sm_wavedata <= (others=>'0');
sm_wavedata_dv <= '1';
sm_state <= S_IDLE;
end if;
sm_busy <= '0';
ram_waveform_enb <= '0';
------------------------------------------------------------------------
-- Wait for rising edge of 'start'.
-- No data output.
------------------------------------------------------------------------
when S_IDLE =>
if (start = '1') and (start_d1 = '0') then
sm_state <= S_WAIT;
sm_busy <= '1';
else
sm_busy <= '0';
end if;
ram_waveform_enb <= '0';
------------------------------------------------------------------------
-- Wait for cnt_time, external input, to match pulse position RAM output
-- Return to idle state if max time is reached. Output waveform value zero.
------------------------------------------------------------------------
when S_WAIT =>
-- Start to output wave and increment pulse position RAM address
if (v_cnt_time = cnt_time) then
sm_state <= S_WAVE_UP;
-- set the wavetable's address to the starting address defined from the pulse ram
ram_waveform_addrb <= v_addr_start;
elsif (cnt_time = X"FFFFFF") then
sm_state <= S_IDLE;
end if;
ram_waveform_enb <= '1';
------------------------------------------------------------------------
-- Output the raising edge of a waveform
-- Hold the last address when complete
------------------------------------------------------------------------
when S_WAVE_UP =>
-- Check if is end of rise of the waveform, and hold the address
if (ram_waveform_addrb = v_addr_end) then
sm_state <= S_WAVE_FLAT;
-- initialize the counter for the flat top of the waveform
cnt_wave_top <= std_logic_vector(to_unsigned(0, C_BITS_ADDR_TOP));
else
-- Output waveform from RAM , and increment the address
-- TODO: apply scaling factor to the address and then to the output
ram_waveform_addrb <= std_logic_vector(unsigned(ram_waveform_addrb) + 1);
end if;
sm_wavedata <= ram_waveform_doutb;
sm_wavedata_dv <= '1';
------------------------------------------------------------------------
-- Hold the last address and output its data
-- decrement from this address when finished waiting
------------------------------------------------------------------------
when S_WAVE_FLAT =>
if (cnt_wave_top = v_flattop) then
sm_state <= S_WAVE_DOWN;
else
cnt_wave_top <= std_logic_vector(unsigned(cnt_wave_top) + 1);
end if;
sm_wavedata <= ram_waveform_doutb;
sm_wavedata_dv <= '1';
------------------------------------------------------------------------
-- Output the falling edge of a waveform
-- Hold the start address when complete
------------------------------------------------------------------------
when S_WAVE_DOWN =>
-- End of waveform?
if (ram_waveform_addrb = v_addr_start) then
-- If the end of the pulse table is reached then go to idle
if (ram_pulse_addrb = std_logic_vector(to_unsigned(C_NUM_PULSE-1,4))) then
ram_pulse_addrb <= (others=>'0');
sm_state <= S_IDLE;
else -- increment pulse address for the next waveform
ram_pulse_addrb <= std_logic_vector(unsigned(ram_pulse_addrb) + 1);
sm_state <= S_WAIT;
end if;
-- Output waveform from RAM with decremented address
else
ram_waveform_addrb <= std_logic_vector(unsigned(ram_waveform_addrb) - 1);
end if;
sm_wavedata <= ram_waveform_doutb;
sm_wavedata_dv <= '1';
------------------------------------------------------------------------
-- Default
------------------------------------------------------------------------
when others =>
sm_state <= S_IDLE;
end case;
end if;
end process;
-- AXI-Stream output.
-- TBD: This should come from a FIFO
-- TODO: the bits are not correct, should be top bits (C_BITS_GAIN_FACTOR + 16 downto C_BITS_GAIN_FACTOR), but for now just make it this way so modelsim can simulate
-- TODO: apply scaling factor to the output
axis_tdata <= sm_wavedata; -- axi stream output data, this output should be multiplied by the gain factor, then take the top 16 bits
axis_tvalid <= sm_wavedata_dv; -- axi_stream output data valid
-- TBD : Generate in state machine?
axis_tlast <= '0'; -- axi_stream output last
----------------------------------------------------------------
-- **** TBD : ADD FIFO ****
----------------------------------------------------------------
-- FIFO for waveform data
-- connect to external output to whatever we want to connect
----------------------------------------------------------------
--u_data_to_stream : entity work.fifo_data_to_stream
--port map (
-- clk => clk, -- input std_logic
-- srst => reset, -- input std_logic
-- rd_en => fifo_rd_en, -- input std_logic
-- wr_en => fifo_wr_en, -- input std_logic
-- empty => fifo_empty, -- output std_logic
-- full => fifo_full, -- output std_logic
-- din => ram_waveform_doutb, -- input slv(15 downto 0)
-- dout => fifo_dout, -- output slv(15 downto 0)
--
-- -- FIFO signals, some of then are for debug purpose
-- wr_ack => fifo_wr_ack, -- output std_logic
-- overflow => fifo_overflow, -- output std_logic
-- valid => fifo_valid, -- output std_logic
-- underflow => fifo_underflow, -- output std_logic
-- wr_rst_busy => fifo_wr_rst_busy, -- output std_logic
-- rd_rst_busy => fifo_rd_rst_busy -- output std_logic
--);
----------------------------------------------------------------
-- CPU Read/Write RAM
-- MSB of cpu_addr is used to select one of the two RAMs
-- to read/write, and the remainder are a 9-bit or 4-bit RAM address.
----------------------------------------------------------------
pr_ram_rw : process (reset, clk)
begin
if (reset = '1') then
ram_pulse_addra <= (others=>'0');
ram_pulse_dina <= (others=>'0');
ram_pulse_we <= '0';
ram_waveform_ena <= '0';
ram_waveform_wea <= (others=>'0');
ram_waveform_addra <= (others=>'0');
ram_waveform_dina <= (others=>'0');
cpu_rdata <= (others=>'0');
cpu_rdata_dv <= '0';
cpu_rdata_dv_e1 <= '0';
cpu_rdata_dv_e2 <= '0';
cpu_rdata_ramsel_d1 <= '0';
cpu_rdata_ramsel_d2 <= '0';
elsif rising_edge(clk) then
ram_waveform_ena <= '0';
-------------------------------------------------
-- CPU writing RAM
-------------------------------------------------
if (cpu_wr = '1') and (cpu_sel = '1') then
-- 0 for pulse position, 1 for waveform table
if (cpu_addr(9) = '1') then
ram_pulse_addra <= (others=>'0');
ram_pulse_dina <= (others=>'0');
ram_pulse_we <= '0';
ram_waveform_wea(0) <= '1';
ram_waveform_ena <= '1';
ram_waveform_addra <= cpu_addr(8 downto 0);
ram_waveform_dina <= cpu_wdata;
else
ram_pulse_addra <= cpu_addr(5 downto 2);
-- select which part of the 96-bit data to write
if (cpu_addr(1 downto 0) = "00") then
ram_pulse_dina(31 downto 0) <= cpu_wdata;
elsif (cpu_addr(1 downto 0) = "01") then
ram_pulse_dina(63 downto 32) <= cpu_wdata;
elsif (cpu_addr(1 downto 0) = "10") then
ram_pulse_dina(95 downto 64) <= cpu_wdata;
ram_pulse_we <= '1'; -- Write on the thrid cycle
end if;
ram_waveform_ena <= '0';
ram_waveform_wea <= (others=>'0');
ram_waveform_addra <= (others=>'0');
ram_waveform_dina <= (others=>'0');
end if;
cpu_rdata_dv_e1 <= '0';
cpu_rdata_dv_e2 <= '0';
cpu_rdata_ramsel_d1 <= '0';
cpu_rdata_ramsel_d2 <= '0';
-------------------------------------------------
-- CPU read
-------------------------------------------------
elsif (cpu_wr = '0') and (cpu_sel = '1') then
if (cpu_addr(9) = '1') then -- Waveform
ram_waveform_ena <= '1';
ram_pulse_addra <= (others=>'0');
ram_waveform_addra <= cpu_addr(8 downto 0);
else -- Pulse
ram_pulse_addra <= cpu_addr(5 downto 2);
ram_pulse_douta_d1 <= ram_pulse_douta; -- Delay distrib RAM output to match pipeline of Block RAM
ram_waveform_addra <= (others=>'0');
end if;
ram_pulse_we <= '0';
ram_waveform_wea(0) <= '0';
cpu_rdata_dv_e2 <= '1'; -- DV for cycle, when RAM output occurs
cpu_rdata_dv_e1 <= cpu_rdata_dv_e2; -- DV for next cycle
cpu_rdata_ramsel_d1 <= cpu_addr(9); -- Save the select bit one cycle later
cpu_rdata_ramsel_d2 <= cpu_rdata_ramsel_d1;
else
ram_pulse_addra <= (others=>'0');
ram_pulse_we <= '0';
ram_waveform_addra <= (others=>'0');
ram_waveform_wea(0) <= '0';
cpu_rdata_dv_e2 <= '0';
cpu_rdata_dv_e1 <= cpu_rdata_dv_e2; -- DV for next cycle
cpu_rdata_ramsel_d1 <= '0';
cpu_rdata_ramsel_d2 <= cpu_rdata_ramsel_d1;
end if;
-------------------------------------------------
-- Output the delayed RAM data
-- This adds a pipeline delay to the cpu_rdata_dv to account for
-- the delay in reading data from the RAM
-------------------------------------------------
if (cpu_rdata_dv_e1 = '1') then
cpu_rdata_dv <= '1';
-- Select source of output data
if (cpu_rdata_ramsel_d2 = '1') then -- Output is from waveform table
cpu_rdata <= ram_waveform_douta;
elsif (cpu_rdata_ramsel_d2 = '0') then
-- cpu_rdata <= X"00" & ram_pulse_douta_d1;
-- select which part of the 96-bit data to read
if (cpu_addr(1 downto 0) = "00") then
cpu_rdata <= ram_pulse_douta_d1(31 downto 0);
elsif (cpu_addr(1 downto 0) = "01") then
cpu_rdata <= ram_pulse_douta_d1(63 downto 32);
elsif (cpu_addr(1 downto 0) = "10") then
cpu_rdata <= ram_pulse_douta_d1(95 downto 64);
end if;
end if;
else
cpu_rdata <= (others=>'0');
cpu_rdata_dv <= '0';
end if;
end if;
end process;
-- ----------------------------------------------------------------
-- -- Read time from RAM to generate pulses
-- -- When input cnt_time equals RAM time output then set dout
-- -- to RAM amplitude output and read next set of RAM data.
-- -- Keep reading waveform RAM every clock cycle until the end of the RAM
-- ----------------------------------------------------------------
-- pr_ram_pulse : process(reset, clk)
-- begin
-- if (reset = '1') then
--
-- ram_pulse_addrb <= (others => '0');
-- start_pulse <= '0';
-- dout_dv <= '0';
--
-- elsif rising_edge(clk) then
--
-- -- dout <= ram_amplitude;
--
-- if (cnt_time = X"000000") then -- Not triggered
-- ram_pulse_addrb <= (others=>'0');
-- dout_dv <= '0';
-- start_pulse <= '0';
--
-- elsif (ram_time = cnt_time) then
--
-- ram_pulse_addrb <= std_logic_vector(unsigned(ram_pulse_addrb) + 1);
-- dout_dv <= '1';
-- start_pulse <= '1';
--
-- else
-- dout_dv <= '0';
-- start_pulse <= '0';
-- end if;
--
-- end if;
--
-- end process;
--
--
-- ----------------------------------------------------------------
-- -- Read amplitude from Waveform RAM to generate pulses
-- -- When start_pulse is asserted, and when FIFO is not full, write
-- -- amplitude to FIFO.
-- ----------------------------------------------------------------
-- pr_ram_wavetable : process(reset, clk)
-- begin
-- if (reset = '1') then
-- fifo_wr_en <= '0';
-- ram_waveform_addrb <= (others => '0');
-- ram_waveform_enb <= '0';
-- busy <= '0';
-- elsif rising_edge(clk) then
-- if (read_table = '1') then -- start_pulse get asserted
-- busy <= '1';
-- -- TODO EricToGeoff : This condition may not satisfy all cases of a fifo_ready, maybe also utilize fifo_wr_ack or just a simple FSM?
-- if (fifo_full = '0') then
-- fifo_wr_en <= '1';
-- ram_waveform_addrb <= std_logic_vector(unsigned(ram_waveform_addrb) + 1);
-- ram_waveform_enb <= '1';
-- else
-- fifo_wr_en <= '0';
-- -- FIFO is full, wait
-- ram_waveform_addrb <= ram_waveform_addrb;
-- ram_waveform_enb <= '0';
-- end if;
-- else
-- fifo_wr_en <= '0';
-- ram_waveform_addrb <= (others => '0');
-- ram_waveform_enb <= '0';
-- end if;
-- end if;
--
-- end process;
--
-- -- For new versions, ram_doutb are differnt RAMs b port outputs, ram_amplitude should go thought a FIFO first from RAM
-- ram_time <= ram_doutb;
-- read_table <= start_pulse;
--
-- fifo_rd_en <= axi_tready and fifo_full;
end rtl;

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@ -0,0 +1,395 @@
-----------------------------------------------------------
-- File : tb_cpubus_dacs_pulse_channel.vhd
-----------------------------------------------------------
--
-- Testbench for CPU bus peripheral.
--
-- Description : Pulse output control of Qlaser FPGA
-- Block drives AXI-stream to JESD DACs
--
----------------------------------------------------------
library ieee;
use ieee.numeric_std.all;
use ieee.std_logic_1164.all;
use std.textio.all;
use work.std_iopak.all;
entity tb_cpubus_dacs_pulse_channel is
end tb_cpubus_dacs_pulse_channel;
architecture behave of tb_cpubus_dacs_pulse_channel is
signal clk : std_logic;
signal reset : std_logic;
signal enable : std_logic;
signal start : std_logic;
signal cnt_time : std_logic_vector(23 downto 0);
signal busy : std_logic;
signal cpu_wr : std_logic;
signal cpu_sel : std_logic;
signal cpu_addr : std_logic_vector(15 downto 0);
signal cpu_wdata : std_logic_vector(31 downto 0);
signal cpu_rdata : std_logic_vector(31 downto 0);
signal cpu_rdata_dv : std_logic;
-- AXI-stream output interface
signal axis_tready : std_logic := '1'; -- Always ready
signal axis_tdata : std_logic_vector(15 downto 0);
signal axis_tvalid : std_logic;
signal axis_tlast : std_logic;
-- Halts simulation by stopping clock when set true
signal sim_done : boolean := false;
-- Crystal clock freq expressed in MHz
constant CLK_FREQ_MHZ : real := 100.0;
-- Clock period
constant CLK_PER : time := integer(1.0E+6/(CLK_FREQ_MHZ)) * 1 ps;
-- Block registers
constant ADR_RAM_PULSE : integer := 0; -- base address for pulse RAM, TODO: this constant should eventually go to qlaser_pkg
constant ADR_RAM_WAVE : integer := 512; --
-------------------------------------------------------------
-- CPU write procedure. Address in decimal. Data in hex
-------------------------------------------------------------
procedure cpu_write(
signal clk : in std_logic;
constant a : in integer;
constant d : in std_logic_vector(31 downto 0);
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
begin
wait until clk'event and clk='0';
cpu_sel <= '1';
cpu_wr <= '1';
cpu_addr <= std_logic_vector(to_unsigned(a, 16));
cpu_wdata <= std_logic_vector(d);
wait until clk'event and clk='0';
cpu_sel <= '0';
cpu_wr <= '0';
cpu_addr <= (others=>'0');
cpu_wdata <= (others=>'0');
wait until clk'event and clk='0';
end;
-------------------------------------------------------------
-- CPU write pulse definition RAM
-- Use 96 bit data to make three 32-bit writes
-------------------------------------------------------------
procedure cpu_write_pulsedef(
signal clk : in std_logic;
constant num_entry : in integer;
-- TODO: Partial ? list of parameters
constant pulsetime : in integer; -- Pulse time in clock cycles
constant timefactor : in real; -- Fixed point time scale factor
constant gainfactor : in real; -- Fixed point gain value. Max value 1.0 is hex X"8000". Gain 0.5 is therefore X"4000"
constant wavestartaddr : in integer; -- Start address in waveform RAM
constant wavesteps : in integer; -- Number of steps in waveform rise and fall
constant wavetopwidth : in integer; -- Number of clock cycles in waveform top between end of rise and start of fall
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
-- Vectors for converted values
variable slv_pulsetime : std_logic_vector(26 downto 0); -- For 27-bit pulse time
variable slv_timefactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point timestep
variable slv_gainfactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point gain
variable slv_wavestartaddr : std_logic_vector(11 downto 0); -- For 12-bit address i.e. 1024 point waveform RAM
variable slv_wavesteps : std_logic_vector( 9 downto 0); -- For 10-bit number of steps i.e. 0 = 1 step, X"3FF" = 1024 points
variable slv_wavetopwidth : std_logic_vector(16 downto 0); -- For 17-bit number of clock cycles in top of waveform
variable slv_entry_data : std_logic_vector(95 downto 0); -- Vector for entire memory entry
-- constant ADR_PULSE_DEF : integer := to_integer(unsigned(X"?????")); -- Use address of pulse definition RAM from qlaser_pkg
-- Define the number of fractional bits
constant BIT_FRAC : integer := 4; -- TODO: this should be defined in qlaser_pkg
begin
-- Convert each field into its std_logic_vector equivalent
slv_pulsetime := std_logic_vector(to_unsigned(pulsetime, 27));
slv_timefactor := std_logic_vector(to_unsigned(integer(timefactor * real(2**BIT_FRAC)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_gainfactor := std_logic_vector(to_unsigned(integer(gainfactor * real(2**BIT_FRAC)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_wavestartaddr := std_logic_vector(to_unsigned(wavestartaddr, 12));
slv_wavesteps := std_logic_vector(to_unsigned(wavesteps, 10));
slv_wavetopwidth := std_logic_vector(to_unsigned(wavetopwidth, 17));
--etc, etc.
-- Build full entry out of component fields. Final length should be 96 bits.
-- slv_entry_data := "000" & slv_pulsetime & slv_timefactor & slv_gainfactor & slv_wavestartaddr & slv_wavesteps & slv_wavetopwidth; -- This might not correct
-- -- Write 96-bit entry in 3 writes. (Address is an integer)
-- cpu_write(clk, ADR_RAM_PULSE+(4*num_entry) , slv_entry_data(31 downto 0), cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- cpu_write(clk, ADR_RAM_PULSE+(4*num_entry)+1 , slv_entry_data(63 downto 32), cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- cpu_write(clk, ADR_RAM_PULSE+(4*num_entry)+2 , slv_entry_data(95 downto 64), cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
-- Write 32-bit entry in
end;
-------------------------------------------------------------
-- CPU write procedure. Address and Data in decimal
-------------------------------------------------------------
procedure cpu_write(
signal clk : in std_logic;
constant a : in integer;
constant d : in integer;
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
begin
cpu_write(clk, a , std_logic_vector(to_unsigned(d,32)), cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
end;
-------------------------------------------------------------
-- CPU read procedure
-------------------------------------------------------------
procedure cpu_read(
signal clk : in std_logic;
constant a : in integer;
constant exp_d : in std_logic_vector(31 downto 0);
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0);
signal cpu_rdata : in std_logic_vector(31 downto 0);
signal cpu_rdata_dv : in std_logic
) is
variable v_bdone : boolean := false;
variable str_out : string(1 to 256);
begin
wait until clk'event and clk='0';
cpu_sel <= '1';
cpu_wr <= '0';
cpu_addr <= std_logic_vector(to_unsigned(a, 16));
cpu_wdata <= (others=>'0');
while (v_bdone = false) loop
wait until clk'event and clk='0';
cpu_sel <= '1';
if (cpu_rdata_dv = '1') then
if (cpu_rdata /= exp_d) then
fprint(str_out, "Read exp: 0x%s actual: 0x%s\n", to_string(to_bitvector(exp_d),"%08X"), to_string(to_bitvector(cpu_rdata),"%08X"));
report str_out severity error;
end if;
v_bdone := true;
cpu_sel <= '0';
cpu_addr <= (others=>'0');
end if;
end loop;
wait until clk'event and clk='0';
wait until clk'event and clk='0';
end;
-------------------------------------------------------------
-- CPU read pulse definition RAM
-- Use 96 bit data to make three 32-bit writes
-------------------------------------------------------------
procedure cpu_read_pulsedef(
signal clk : in std_logic;
constant num_entry : in integer;
-- TODO: Partial ? list of parameters
constant pulsetime : in integer; -- Pulse time in clock cycles
constant timefactor : in real; -- Fixed point time scale factor
constant gainfactor : in real; -- Fixed point gain value. Max value 1.0 is hex X"8000". Gain 0.5 is therefore X"4000"
constant wavestartaddr : in integer; -- Start address in waveform RAM
constant wavesteps : in integer; -- Number of steps in waveform rise and fall
constant wavetopwidth : in integer; -- Number of clock cycles in waveform top between end of rise and start of fall
signal cpu_sel : out std_logic;
signal cpu_wr : out std_logic;
signal cpu_addr : out std_logic_vector(15 downto 0);
signal cpu_wdata : out std_logic_vector(31 downto 0)
) is
-- Vectors for converted values
variable slv_pulsetime : std_logic_vector(23 downto 0); -- For 24-bit pulse time
variable slv_timefactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point timestep
variable slv_gainfactor : std_logic_vector(15 downto 0); -- For 16-bit fixed point gain
variable slv_wavestartaddr : std_logic_vector( 9 downto 0); -- For 10-bit address i.e. 1024 point waveform RAM
variable slv_wavesteps : std_logic_vector( 9 downto 0); -- For 10-bit number of steps i.e. 0 = 1 step, X"3FF" = 1024 points
variable slv_wavetopwidth : std_logic_vector(16 downto 0); -- For 17-bit number of clock cycles in top of waveform
variable slv_entry_data : std_logic_vector(95 downto 0); -- Vector for entire memory entry
-- constant ADR_PULSE_DEF : integer := to_integer(unsigned(X"?????")); -- Use address of pulse definition RAM from qlaser_pkg
-- Define the number of fractional bits
constant BIT_FRAC : integer := 4; -- TODO: this should be defined in qlaser_pkg
begin
-- Convert each field into its std_logic_vector equivalent
slv_pulsetime := std_logic_vector(to_unsigned(pulsetime, 24));
slv_timefactor := std_logic_vector(to_unsigned(integer(timefactor * real(2**BIT_FRAC)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_gainfactor := std_logic_vector(to_unsigned(integer(gainfactor * real(2**BIT_FRAC)), 16)); -- Convert real to std_logic_vector keeping the fractional part
slv_wavestartaddr := std_logic_vector(to_unsigned(wavestartaddr, 10));
slv_wavesteps := std_logic_vector(to_unsigned(wavesteps, 10));
slv_wavetopwidth := std_logic_vector(to_unsigned(wavetopwidth, 17));
--etc, etc.
-- Build full entry out of component fields. Final length should be 96 bits.
slv_entry_data := "000" & slv_pulsetime & slv_timefactor & slv_gainfactor & slv_wavestartaddr & slv_wavesteps & slv_wavetopwidth; -- This might not correct
-- Write 96-bit entry in 3 writes. (Address is an integer)
cpu_read(clk, ADR_RAM_PULSE+(4*num_entry), slv_entry_data(31 downto 0), cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
cpu_read(clk, ADR_RAM_PULSE+(4*num_entry) + 1, slv_entry_data(63 downto 32), cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
cpu_read(clk, ADR_RAM_PULSE+(4*num_entry) + 2, slv_entry_data(95 downto 64), cpu_sel, cpu_wr, cpu_addr, cpu_wdata, cpu_rdata, cpu_rdata_dv);
end;
-------------------------------------------------------------
-- Delay
-------------------------------------------------------------
procedure clk_delay(
constant nclks : in integer
) is
begin
for I in 0 to nclks loop
wait until clk'event and clk ='0';
end loop;
end;
----------------------------------------------------------------
-- Print a string with no time or instance path.
----------------------------------------------------------------
procedure cpu_print_msg(
constant msg : in string
) is
variable line_out : line;
begin
write(line_out, msg);
writeline(output, line_out);
end procedure cpu_print_msg;
begin
-------------------------------------------------------------
-- Unit Under Test
-------------------------------------------------------------
u_dac_pulse : entity work.qlaser_dacs_pulse_channel
port map (
clk => clk , -- in std_logic;
reset => reset , -- in std_logic;
enable => enable , -- out std_logic;
start => start , -- out std_logic;
cnt_time => cnt_time , -- out std_logic_vector(23 downto 0); -- Set to '1' while SPI interface is busy
busy => busy , -- out std_logic; -- Set to '1' while SPI interface is busy
-- CPU interface
cpu_wr => cpu_wr , -- in std_logic;
cpu_sel => cpu_sel , -- in std_logic;
cpu_addr => cpu_addr(11 downto 0) , -- in std_logic_vector(11 downto 0);
cpu_wdata => cpu_wdata , -- in std_logic_vector(31 downto 0);
cpu_rdata => cpu_rdata , -- out std_logic_vector(31 downto 0);
cpu_rdata_dv => cpu_rdata_dv , -- out std_logic;
-- AXI-Stream interface
axis_tready => axis_tready , -- in std_logic; -- Clock (50 MHz max)
axis_tdata => axis_tdata , -- out std_logic_vector(15 downto 0);
axis_tvalid => axis_tvalid , -- out std_logic; -- Master out, Slave in. (Data to DAC)
axis_tlast => axis_tlast -- out std_logic; -- Active low chip select (sync_n)
);
-------------------------------------------------------------
-- Generate system clock. Halt when sim_done is true.
-------------------------------------------------------------
pr_clk : process
begin
clk <= '0';
wait for (CLK_PER/2);
clk <= '1';
wait for (CLK_PER-CLK_PER/2);
if (sim_done=true) then
wait;
end if;
end process;
-------------------------------------------------------------
-- Reset and drive CPU bus
-------------------------------------------------------------
pr_main : process
variable v_ndata32 : integer := 0;
variable v_ndata16 : integer := 0;
begin
-- Reset
reset <= '1';
enable <= '0';
start <= '0';
cnt_time <= (others=>'0');
cpu_sel <= '0';
cpu_wr <= '0';
cpu_wdata <= (others=>'0');
cpu_addr <= (others=>'0');
cpu_print_msg("Simulation start");
clk_delay(5);
reset <= '0';
clk_delay(5);
enable <= '1';
clk_delay(20);
----------------------------------------------------------------
-- Load pulse RAM with a series of pulse start times
----------------------------------------------------------------
v_ndata32 := 128; -- Time for first pulse
cpu_print_msg("Load pulse RAM");
for NADDR in 0 to 15 loop
-- cpu_write(clk, ADR_RAM_PULSE + NADDR , v_ndata32 + (NADDR*(1024+32)), cpu_sel, cpu_wr, cpu_addr, cpu_wdata); -- TODO: rn don't know how to make it write three difference places, for now I', just gonna manually write it
cpu_write_pulsedef(clk, NADDR, v_ndata32 + (NADDR*(1024+32)), 1.0, 1.0, 0, NADDR*32, 512, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
end loop;
cpu_print_msg("Pulse RAM loaded");
clk_delay(20);
----------------------------------------------------------------
-- Read back Pulse RAM.
----------------------------------------------------------------
v_ndata32 := 128; -- Time for first pulse
for NADDR in 0 to 15 loop
cpu_read_pulsedef(clk, NADDR, v_ndata32 + (NADDR*(1024+32)), 1.0, 1.0, 0, NADDR*32, 512, cpu_sel, cpu_wr, cpu_addr, cpu_wdata);
end loop;
clk_delay(20);
wait for 10 us;
cpu_print_msg("Simulation done");
clk_delay(5);
sim_done <= true;
wait;
end process;
end behave;

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tools/build_src/build.tcl Normal file
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# "cd" to the directory where this script is located
cd [file dirname [info script]]
create_project zcu_pulse_channel ../../prj -force
set_property board_part xilinx.com:zcu102:part0:3.4 [current_project]
add_files {..\..\src\hdl\modules\qlaser_dacs_pulse_channel.vhdl}
add_files -fileset sim_1 {..\..\src\hdl\tb\tb_cpubus_dacs_pulse_channel.vhdl}
add_files {..\..\src\hdl\pkg\qlaser_dacs_pulse_channel_pkg.vhd}
add_files {..\..\src\hdl\pkg\qlaser_dac_dc_pkg.vhd}
add_files {..\..\src\hdl\pkg\qlaser_pkg.vhd}
add_files {..\..\src\hdl\pkg\iopakp.vhd}
add_files {..\..\src\hdl\pkg\iopakb.vhd}
read_ip {..\xilinx-zcu\bram_pulseposition\bram_pulseposition.xci}
read_ip {..\xilinx-zcu\bram_waveform\bram_waveform.xci}
read_ip {..\xilinx-zcu\fifo_data_to_stream\fifo_data_to_stream.xci}
read_ip {..\xilinx-zcu\bram_pulse_definition\bram_pulse_definition.xci}
# upgrade_ip [get_ips -filter {SCOPE !~ "*.bd"}]
generate_target all [get_ips -filter {SCOPE !~ "*.bd"}]
# Run the synthesis and generate the IP output products
launch_runs synth_1
# Wait for the synthesis to complete
wait_on_run synth_1
# Generate the simulation models
proc recursive_glob {dir} {
set files [glob -nocomplain -type f -directory $dir *_sim_netlist.vhdl]
foreach subdir [glob -nocomplain -type d -directory $dir *] {
lappend files {*}[recursive_glob $subdir]
}
return $files
}
set src_dir ../../prj/zcu_pulse_channel.gen/sources_1/ip/
set files [recursive_glob $src_dir]
foreach file $files {
file copy -force $file ../../src/hdl/ip_gen
}
exit

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@ -1 +1,2 @@
Please put your modelsim.ini file in this directory and compile modelsim in this directory.

2
tools/sim/compile.bat Normal file
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@ -0,0 +1,2 @@
echo off
vsim -c -quiet -do compile.do

8
tools/sim/compile.do Normal file
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@ -0,0 +1,8 @@
vlib work
vcom ../../src/hdl/ip_gen/*.vhd*
vcom ../../src/hdl/pkg/*pkg.vhd
vcom ../../src/hdl/pkg/iopakp.vhd
vcom ../../src/hdl/pkg/iopakb.vhd
vcom ../../src/hdl/modules/*.vhd*
vcom ../../src/hdl/tb/*.vhd*

22
tools/sim/graphit.py Normal file
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# take wave_values.txt and plot it
import matplotlib
import matplotlib.pyplot as plt
import numpy as np
import sys
matplotlib.use('wxAgg')
f = open('wave_values.txt', 'r')
lines = f.readlines()
f.close()
# convert to float
vals = np.array([float(x) for x in lines])
times = np.arange(0, len(vals), 1)/4096.0
# plot. range is 0 to 1
plt.plot(times, vals)
plt.show()

762
tools/sim/modelsim.ini Normal file
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@ -0,0 +1,762 @@
; Copyright 1991-2009 Mentor Graphics Corporation
;
; All Rights Reserved.
;
; THIS WORK CONTAINS TRADE SECRET AND PROPRIETARY INFORMATION WHICH IS THE PROPERTY OF
; MENTOR GRAPHICS CORPORATION OR ITS LICENSORS AND IS SUBJECT TO LICENSE TERMS.
;
[Library]
others = $MODEL_TECH/../modelsim.ini
; Altera Primitive libraries
;
; VHDL Section
;
;
; Verilog Section
;
secureip = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/secureip
unisim = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/unisim
unimacro = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/unimacro
unifast = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/unifast
unisims_ver = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/unisims_ver
unimacro_ver = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/unimacro_ver
unifast_ver = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/unifast_ver
simprims_ver = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/simprims_ver
xpm = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xpm
xilinx_vip = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xilinx_vip
adc_dac_if_phy_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/adc_dac_if_phy_v1_0_0
advanced_io_wizard_phy_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/advanced_io_wizard_phy_v1_0_0
advanced_io_wizard_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/advanced_io_wizard_v1_0_7
ahblite_axi_bridge_v3_0_21 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ahblite_axi_bridge_v3_0_21
ai_noc = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ai_noc
ai_pl_trig = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ai_pl_trig
ai_pl = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ai_pl
an_lt_v1_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/an_lt_v1_0_6
audio_clock_recovery_unit_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/audio_clock_recovery_unit_v1_0_2
audio_tpg_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/audio_tpg_v1_0_0
av_pat_gen_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/av_pat_gen_v1_0_1
av_pat_gen_v2_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/av_pat_gen_v2_0_0
axis_cap_ctrl_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_cap_ctrl_v1_0_0
axis_dbg_stub_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_dbg_stub_v1_0_0
axis_dbg_sync_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_dbg_sync_v1_0_0
axis_ila_adv_trig_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_ila_adv_trig_v1_0_0
axis_ila_ct_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_ila_ct_v1_0_0
axis_ila_pp_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_ila_pp_v1_0_0
axis_ila_txns_cntr_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_ila_txns_cntr_v1_0_0
axis_infrastructure_v1_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_infrastructure_v1_1_0
axis_itct_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_itct_v1_0_0
axis_mem_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_mem_v1_0_0
axis_mu_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_mu_v1_0_0
axis_protocol_checker_v2_0_10 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_protocol_checker_v2_0_10
axi_ahblite_bridge_v3_0_23 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_ahblite_bridge_v3_0_23
axi_amm_bridge_v1_0_16 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_amm_bridge_v1_0_16
axi_bram_ctrl_v4_1_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_bram_ctrl_v4_1_6
axi_chip2chip_v5_0_15 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_chip2chip_v5_0_15
axi_dbg_hub = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_dbg_hub
axi_infrastructure_v1_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_infrastructure_v1_1_0
axi_jtag_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_jtag_v1_0_0
axi_lite_ipif_v3_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_lite_ipif_v3_0_4
axi_lmb_bridge_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_lmb_bridge_v1_0_0
axi_pcie3_v3_0_22 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_pcie3_v3_0_22
axi_perf_mon_v5_0_28 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_perf_mon_v5_0_28
axi_pmon_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_pmon_v1_0_0
axi_remapper_rx_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_remapper_rx_v1_0_0
axi_remapper_tx_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_remapper_tx_v1_0_0
blk_mem_gen_v8_3_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/blk_mem_gen_v8_3_6
blk_mem_gen_v8_4_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/blk_mem_gen_v8_4_5
bsip_v1_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/bsip_v1_1_0
bs_mux_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/bs_mux_v1_0_0
cam_v2_3_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/cam_v2_3_0
clk_gen_sim_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/clk_gen_sim_v1_0_2
clk_vip_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/clk_vip_v1_0_2
cmac_usplus_v3_1_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/cmac_usplus_v3_1_9
cmac_v2_6_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/cmac_v2_6_7
compact_gt_v1_0_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/compact_gt_v1_0_12
cpm4_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/cpm4_v1_0_7
cpm5_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/cpm5_v1_0_7
dcmac_v2_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dcmac_v2_0_0
ddr4_pl_phy_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ddr4_pl_phy_v1_0_0
ddr4_pl_v1_0_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ddr4_pl_v1_0_8
displayport_v8_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/displayport_v8_1_5
dist_mem_gen_v8_0_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dist_mem_gen_v8_0_13
dprx_fec_8b10b_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dprx_fec_8b10b_v1_0_1
dp_videoaxi4s_bridge_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dp_videoaxi4s_bridge_v1_0_1
ecc_v2_0_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ecc_v2_0_13
emb_fifo_gen_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/emb_fifo_gen_v1_0_2
emb_mem_gen_v1_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/emb_mem_gen_v1_0_6
emc_common_v3_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/emc_common_v3_0_5
ethernet_1_10_25g_v2_7_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ethernet_1_10_25g_v2_7_5
fast_adapter_v1_0_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/fast_adapter_v1_0_3
fifo_generator_v13_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/fifo_generator_v13_0_6
fifo_generator_v13_1_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/fifo_generator_v13_1_4
fifo_generator_v13_2_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/fifo_generator_v13_2_7
fit_timer_v2_0_10 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/fit_timer_v2_0_10
generic_baseblocks_v2_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/generic_baseblocks_v2_1_0
gigantic_mux = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/gigantic_mux
gig_ethernet_pcs_pma_v16_2_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/gig_ethernet_pcs_pma_v16_2_8
gmii_to_rgmii_v4_1_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/gmii_to_rgmii_v4_1_4
gtwizard_ultrascale_v1_5_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/gtwizard_ultrascale_v1_5_4
gtwizard_ultrascale_v1_6_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/gtwizard_ultrascale_v1_6_13
gtwizard_ultrascale_v1_7_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/gtwizard_ultrascale_v1_7_13
hbm2e_pl_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/hbm2e_pl_v1_0_0
hbm_v1_0_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/hbm_v1_0_12
hdcp22_cipher_dp_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/hdcp22_cipher_dp_v1_0_0
hdcp22_cipher_v1_0_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/hdcp22_cipher_v1_0_3
hdcp22_rng_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/hdcp22_rng_v1_0_1
hdcp_keymngmt_blk_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/hdcp_keymngmt_blk_v1_0_0
hdcp_v1_0_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/hdcp_v1_0_3
hdmi_acr_ctrl_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/hdmi_acr_ctrl_v1_0_0
hdmi_gt_controller_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/hdmi_gt_controller_v1_0_7
high_speed_selectio_wiz_v3_6_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/high_speed_selectio_wiz_v3_6_3
i2s_receiver_v1_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/i2s_receiver_v1_0_5
i2s_transmitter_v1_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/i2s_transmitter_v1_0_5
ibert_lib_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ibert_lib_v1_0_7
ieee802d3_clause74_fec_v1_0_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ieee802d3_clause74_fec_v1_0_13
ilknf_v1_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ilknf_v1_1_0
interlaken_v2_4_11 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/interlaken_v2_4_11
in_system_ibert_v1_0_16 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/in_system_ibert_v1_0_16
iomodule_v3_1_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/iomodule_v3_1_8
jesd204c_v4_2_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/jesd204c_v4_2_8
jesd204_v7_2_15 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/jesd204_v7_2_15
jtag_axi = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/jtag_axi
lib_cdc_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lib_cdc_v1_0_2
lib_pkg_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lib_pkg_v1_0_2
ll_compress_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ll_compress_v1_0_0
ll_compress_v1_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ll_compress_v1_1_0
ll_compress_v2_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ll_compress_v2_0_1
ll_compress_v2_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ll_compress_v2_1_0
lmb_bram_if_cntlr_v4_0_21 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lmb_bram_if_cntlr_v4_0_21
lmb_v10_v3_0_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lmb_v10_v3_0_12
ltlib_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ltlib_v1_0_0
lut_buffer_v2_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lut_buffer_v2_0_0
l_ethernet_v3_3_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/l_ethernet_v3_3_0
mammoth_transcode_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mammoth_transcode_v1_0_0
mem_pl_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mem_pl_v1_0_0
microblaze_v11_0_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/microblaze_v11_0_9
microblaze_v9_5_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/microblaze_v9_5_4
mipi_csi2_rx_ctrl_v1_0_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mipi_csi2_rx_ctrl_v1_0_8
mipi_csi2_tx_ctrl_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mipi_csi2_tx_ctrl_v1_0_4
mipi_dphy_v4_3_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mipi_dphy_v4_3_4
mipi_dsi_tx_ctrl_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mipi_dsi_tx_ctrl_v1_0_7
mpegtsmux_v1_1_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mpegtsmux_v1_1_4
mrmac_v1_6_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mrmac_v1_6_0
multi_channel_25g_rs_fec_v1_0_18 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/multi_channel_25g_rs_fec_v1_0_18
mutex_v2_1_11 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mutex_v2_1_11
axi_tg_lib = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_tg_lib
noc_hbm_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/noc_hbm_v1_0_0
noc_ncrb_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/noc_ncrb_v1_0_0
noc_nidb_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/noc_nidb_v1_0_0
noc_nmu_phydir_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/noc_nmu_phydir_v1_0_0
noc_npp_rptr_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/noc_npp_rptr_v1_0_0
noc_nps4_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/noc_nps4_v1_0_0
noc_nps6_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/noc_nps6_v1_0_0
noc_nps_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/noc_nps_v1_0_0
noc_nsu_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/noc_nsu_v1_0_0
nvmeha_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/nvmeha_v1_0_7
nvme_tc_v3_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/nvme_tc_v3_0_1
oddr_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/oddr_v1_0_2
oran_radio_if_v2_2_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/oran_radio_if_v2_2_0
pci32_v5_0_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/pci32_v5_0_12
pci64_v5_0_11 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/pci64_v5_0_11
pcie_axi4lite_tap_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/pcie_axi4lite_tap_v1_0_1
pcie_dma_versal_v2_0_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/pcie_dma_versal_v2_0_9
pcie_jtag_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/pcie_jtag_v1_0_0
pcie_qdma_mailbox_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/pcie_qdma_mailbox_v1_0_0
pc_cfr_v6_4_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/pc_cfr_v6_4_2
pc_cfr_v7_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/pc_cfr_v7_0_1
pc_cfr_v7_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/pc_cfr_v7_1_0
picxo = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/picxo
ptp_1588_timer_syncer_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ptp_1588_timer_syncer_v1_0_2
ptp_1588_timer_syncer_v2_0_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ptp_1588_timer_syncer_v2_0_3
qdma_v4_0_11 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/qdma_v4_0_11
qdriv_pl_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/qdriv_pl_v1_0_7
rama_v1_1_12_lib = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/rama_v1_1_12_lib
rld3_pl_phy_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/rld3_pl_phy_v1_0_0
rld3_pl_v1_0_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/rld3_pl_v1_0_9
roe_framer_v3_0_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/roe_framer_v3_0_3
rst_vip_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/rst_vip_v1_0_4
smartconnect_v1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/smartconnect_v1_0
sem_ultra_v3_1_23 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/sem_ultra_v3_1_23
sem_v4_1_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/sem_v4_1_13
shell_utils_msp432_bsl_crc_gen_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/shell_utils_msp432_bsl_crc_gen_v1_0_0
sim_clk_gen_v1_0_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/sim_clk_gen_v1_0_3
sim_rst_gen_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/sim_rst_gen_v1_0_2
sim_trig_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/sim_trig_v1_0_7
stm_v1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/stm_v1_0
stm_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/stm_v1_0_0
system_cache_v5_0_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/system_cache_v5_0_8
ta_dma_v1_0_10 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ta_dma_v1_0_10
tcc_decoder_3gpplte_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tcc_decoder_3gpplte_v3_0_6
ten_gig_eth_mac_v15_1_10 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ten_gig_eth_mac_v15_1_10
ten_gig_eth_pcs_pma_v6_0_22 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ten_gig_eth_pcs_pma_v6_0_22
timer_sync_1588_v1_2_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/timer_sync_1588_v1_2_4
tmr_inject_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tmr_inject_v1_0_4
tmr_manager_v1_0_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tmr_manager_v1_0_9
tmr_voter_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tmr_voter_v1_0_4
trace_s2mm_v1_2_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/trace_s2mm_v1_2_0
tsn_endpoint_ethernet_mac_block_v1_0_11 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tsn_endpoint_ethernet_mac_block_v1_0_11
uhdsdi_gt_v2_0_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/uhdsdi_gt_v2_0_8
uram_rd_back_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/uram_rd_back_v1_0_2
usxgmii_v1_2_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/usxgmii_v1_2_7
util_ff_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/util_ff_v1_0_0
util_idelay_ctrl_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/util_idelay_ctrl_v1_0_2
util_reduced_logic_v2_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/util_reduced_logic_v2_0_4
util_vector_logic_v2_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/util_vector_logic_v2_0_2
vfb_v1_0_20 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/vfb_v1_0_20
video_frame_crc_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/video_frame_crc_v1_0_4
vid_edid_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/vid_edid_v1_0_0
vid_phy_controller_v2_1_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/vid_phy_controller_v2_1_13
vid_phy_controller_v2_2_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/vid_phy_controller_v2_2_13
vitis_deadlock_detector_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/vitis_deadlock_detector_v1_0_1
v_axi4s_remap_v1_0_19 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_axi4s_remap_v1_0_19
v_axi4s_remap_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_axi4s_remap_v1_1_5
v_csc_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_csc_v1_1_5
v_deinterlacer_v5_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_deinterlacer_v5_1_0
v_demosaic_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_demosaic_v1_1_5
v_frmbuf_rd_v2_2_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_frmbuf_rd_v2_2_5
v_frmbuf_wr_v2_2_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_frmbuf_wr_v2_2_5
v_gamma_lut_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_gamma_lut_v1_1_5
v_hcresampler_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_hcresampler_v1_1_5
v_hdmi_phy1_v1_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_hdmi_phy1_v1_0_6
v_hdmi_rx_v3_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_hdmi_rx_v3_0_0
v_hdmi_tx_v3_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_hdmi_tx_v3_0_0
v_hscaler_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_hscaler_v1_1_5
v_letterbox_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_letterbox_v1_1_5
v_mix_v5_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_mix_v5_1_5
v_scenechange_v1_1_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_scenechange_v1_1_4
v_sdi_rx_vid_bridge_v2_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_sdi_rx_vid_bridge_v2_0_0
v_smpte_sdi_v3_0_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_smpte_sdi_v3_0_9
v_smpte_uhdsdi_rx_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_smpte_uhdsdi_rx_v1_0_1
v_smpte_uhdsdi_tx_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_smpte_uhdsdi_tx_v1_0_1
v_smpte_uhdsdi_v1_0_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_smpte_uhdsdi_v1_0_9
v_tpg_v8_0_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_tpg_v8_0_9
v_tpg_v8_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_tpg_v8_1_5
v_tpg_v8_2_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_tpg_v8_2_1
v_uhdsdi_audio_v2_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_uhdsdi_audio_v2_0_6
v_uhdsdi_vidgen_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_uhdsdi_vidgen_v1_0_1
v_vcresampler_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_vcresampler_v1_1_5
v_vid_in_axi4s_v4_0_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_vid_in_axi4s_v4_0_9
v_vid_in_axi4s_v5_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_vid_in_axi4s_v5_0_1
v_vscaler_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_vscaler_v1_1_5
v_warp_filter_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_warp_filter_v1_0_2
v_warp_init_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_warp_init_v1_0_2
xbip_dsp48_wrapper_v3_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_dsp48_wrapper_v3_0_4
xbip_utils_v3_0_10 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_utils_v3_0_10
xdfe_nlf_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xdfe_nlf_v1_0_0
xdfe_resampler_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xdfe_resampler_v1_0_4
xdma_v4_1_17 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xdma_v4_1_17
xlconcat_v2_1_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xlconcat_v2_1_4
xlconstant_v1_1_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xlconstant_v1_1_7
xlslice_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xlslice_v1_0_2
xpm_cdc_gen_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xpm_cdc_gen_v1_0_1
xsdbm_v3_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xsdbm_v3_0_0
xxv_ethernet_v4_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xxv_ethernet_v4_1_0
aurora_8b10b_versal_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/aurora_8b10b_versal_v1_0_1
axi_c2c_v1_0_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_c2c_v1_0_3
lib_srl_fifo_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lib_srl_fifo_v1_0_2
lib_fifo_v1_0_16 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lib_fifo_v1_0_16
axi_datamover_v5_1_28 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_datamover_v5_1_28
amm_axi_bridge_v1_0_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/amm_axi_bridge_v1_0_12
axis_register_slice_v1_1_26 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_register_slice_v1_1_26
axis_switch_v1_1_26 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_switch_v1_1_26
axis_clock_converter_v1_1_27 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_clock_converter_v1_1_27
axis_data_fifo_v2_0_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_data_fifo_v2_0_8
ats_switch_v1_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ats_switch_v1_0_5
audio_formatter_v1_0_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/audio_formatter_v1_0_8
axi4stream_vip_v1_1_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi4stream_vip_v1_1_12
v_tc_v6_2_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_tc_v6_2_4
v_dp_axi4s_vid_out_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_dp_axi4s_vid_out_v1_0_4
v_tc_v6_1_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_tc_v6_1_13
v_axi4s_vid_out_v4_0_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_axi4s_vid_out_v4_0_14
axi4svideo_bridge_v1_0_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi4svideo_bridge_v1_0_14
axis_accelerator_adapter_v2_1_16 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_accelerator_adapter_v2_1_16
axis_broadcaster_v1_1_25 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_broadcaster_v1_1_25
axis_combiner_v1_1_24 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_combiner_v1_1_24
axis_data_fifo_v1_1_27 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_data_fifo_v1_1_27
axis_dwidth_converter_v1_1_25 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_dwidth_converter_v1_1_25
axis_ila_intf_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_ila_intf_v1_0_0
axis_interconnect_v1_1_20 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_interconnect_v1_1_20
axis_subset_converter_v1_1_26 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_subset_converter_v1_1_26
axis_vio_v1_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axis_vio_v1_0_6
axi_apb_bridge_v3_0_17 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_apb_bridge_v3_0_17
axi_bram_ctrl_v4_0_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_bram_ctrl_v4_0_14
axi_sg_v4_1_15 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_sg_v4_1_15
axi_cdma_v4_1_26 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_cdma_v4_1_26
axi_clock_converter_v2_1_25 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_clock_converter_v2_1_25
axi_data_fifo_v2_1_25 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_data_fifo_v2_1_25
axi_register_slice_v2_1_26 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_register_slice_v2_1_26
axi_crossbar_v2_1_27 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_crossbar_v2_1_27
axi_dma_v7_1_27 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_dma_v7_1_27
axi_protocol_converter_v2_1_26 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_protocol_converter_v2_1_26
axi_dwidth_converter_v2_1_26 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_dwidth_converter_v2_1_26
axi_emc_v3_0_26 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_emc_v3_0_26
axi_epc_v2_0_29 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_epc_v2_0_29
lib_bmg_v1_0_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lib_bmg_v1_0_14
axi_ethernetlite_v3_0_25 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_ethernetlite_v3_0_25
axi_ethernet_buffer_v2_0_24 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_ethernet_buffer_v2_0_24
axi_fifo_mm_s_v4_2_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_fifo_mm_s_v4_2_8
axi_firewall_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_firewall_v1_1_5
axi_firewall_v1_2_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_firewall_v1_2_1
interrupt_control_v3_1_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/interrupt_control_v3_1_4
axi_gpio_v2_0_28 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_gpio_v2_0_28
axi_hbicap_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_hbicap_v1_0_4
axi_hwicap_v3_0_30 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_hwicap_v3_0_30
axi_iic_v2_1_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_iic_v2_1_2
axi_intc_v4_1_17 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_intc_v4_1_17
axi_interconnect_v1_7_20 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_interconnect_v1_7_20
axi_master_burst_v2_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_master_burst_v2_0_7
axi_msg_v1_0_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_msg_v1_0_8
axi_mcdma_v1_1_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_mcdma_v1_1_7
axi_memory_init_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_memory_init_v1_0_7
axi_mm2s_mapper_v1_1_25 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_mm2s_mapper_v1_1_25
axi_mmu_v2_1_24 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_mmu_v2_1_24
axi_pcie_v2_9_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_pcie_v2_9_7
axi_protocol_checker_v2_0_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_protocol_checker_v2_0_12
axi_quad_spi_v3_2_25 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_quad_spi_v3_2_25
axi_sideband_util_v1_0_10 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_sideband_util_v1_0_10
axi_tft_v2_0_25 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_tft_v2_0_25
axi_timebase_wdt_v3_0_18 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_timebase_wdt_v3_0_18
axi_timer_v2_0_28 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_timer_v2_0_28
axi_traffic_gen_v3_0_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_traffic_gen_v3_0_12
axi_uart16550_v2_0_28 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_uart16550_v2_0_28
axi_uartlite_v2_0_30 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_uartlite_v2_0_30
axi_usb2_device_v5_0_27 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_usb2_device_v5_0_27
axi_utils_v2_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_utils_v2_0_6
axi_vdma_v6_3_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_vdma_v6_3_14
xbip_pipe_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_pipe_v3_0_6
xbip_dsp48_addsub_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_dsp48_addsub_v3_0_6
xbip_addsub_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_addsub_v3_0_6
c_reg_fd_v12_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/c_reg_fd_v12_0_6
c_addsub_v12_0_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/c_addsub_v12_0_14
axi_vfifo_ctrl_v2_0_28 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_vfifo_ctrl_v2_0_28
axi_vip_v1_1_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_vip_v1_1_12
bs_switch_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/bs_switch_v1_0_0
canfd_v3_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/canfd_v3_0_5
can_v5_0_29 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/can_v5_0_29
cic_compiler_v4_0_16 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/cic_compiler_v4_0_16
xbip_bram18k_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_bram18k_v3_0_6
mult_gen_v12_0_18 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mult_gen_v12_0_18
cmpy_v6_0_21 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/cmpy_v6_0_21
c_mux_bit_v12_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/c_mux_bit_v12_0_6
c_shift_ram_v12_0_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/c_shift_ram_v12_0_14
c_mux_bus_v12_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/c_mux_bus_v12_0_6
c_gate_bit_v12_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/c_gate_bit_v12_0_6
xbip_counter_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_counter_v3_0_6
c_counter_binary_v12_0_15 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/c_counter_binary_v12_0_15
c_compare_v12_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/c_compare_v12_0_6
convolution_v9_0_16 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/convolution_v9_0_16
cordic_v6_0_18 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/cordic_v6_0_18
cpri_v8_11_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/cpri_v8_11_12
xbip_dsp48_acc_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_dsp48_acc_v3_0_6
xbip_accum_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_accum_v3_0_6
c_accum_v12_0_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/c_accum_v12_0_14
dbg_intf = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dbg_intf
xbip_dsp48_multadd_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_dsp48_multadd_v3_0_6
dds_compiler_v6_0_22 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dds_compiler_v6_0_22
dft_v4_0_16 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dft_v4_0_16
dft_v4_2_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dft_v4_2_3
dfx_axi_shutdown_manager_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dfx_axi_shutdown_manager_v1_0_0
dfx_bitstream_monitor_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dfx_bitstream_monitor_v1_0_1
dfx_controller_v1_0_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dfx_controller_v1_0_3
dfx_decoupler_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dfx_decoupler_v1_0_4
displayport_v7_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/displayport_v7_0_0
displayport_v9_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/displayport_v9_0_5
xbip_dsp48_mult_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_dsp48_mult_v3_0_6
floating_point_v7_0_20 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/floating_point_v7_0_20
div_gen_v5_1_19 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/div_gen_v5_1_19
dsp_macro_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/dsp_macro_v1_0_2
ernic_v3_1_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ernic_v3_1_2
etrnic_v1_1_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/etrnic_v1_1_5
fc32_rs_fec_v1_0_21 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/fc32_rs_fec_v1_0_21
fec_5g_common_v1_1_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/fec_5g_common_v1_1_1
fir_compiler_v5_2_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/fir_compiler_v5_2_6
fir_compiler_v7_2_18 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/fir_compiler_v7_2_18
flexo_100g_rs_fec_v1_0_21 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/flexo_100g_rs_fec_v1_0_21
floating_point_v7_1_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/floating_point_v7_1_14
g709_rs_encoder_v2_2_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/g709_rs_encoder_v2_2_8
rs_toolbox_v9_0_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/rs_toolbox_v9_0_9
g709_rs_decoder_v2_2_10 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/g709_rs_decoder_v2_2_10
g709_fec_v2_4_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/g709_fec_v2_4_5
g975_efec_i4_v1_0_18 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/g975_efec_i4_v1_0_18
g975_efec_i7_v2_0_18 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/g975_efec_i7_v2_0_18
hw_trace = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/hw_trace
icap_arb_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/icap_arb_v1_0_1
ieee802d3_200g_rs_fec_v2_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ieee802d3_200g_rs_fec_v2_0_5
ieee802d3_25g_rs_fec_v1_0_23 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ieee802d3_25g_rs_fec_v1_0_23
ieee802d3_400g_rs_fec_v2_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ieee802d3_400g_rs_fec_v2_0_7
ieee802d3_50g_rs_fec_v1_0_19 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ieee802d3_50g_rs_fec_v1_0_19
ieee802d3_50g_rs_fec_v2_0_11 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ieee802d3_50g_rs_fec_v2_0_11
ieee802d3_rs_fec_v2_0_15 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ieee802d3_rs_fec_v2_0_15
ldpc_v2_0_10 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/ldpc_v2_0_10
xfft_v7_2_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xfft_v7_2_13
lte_fft_v2_0_22 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lte_fft_v2_0_22
xfft_v9_1_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xfft_v9_1_8
lte_fft_v2_1_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lte_fft_v2_1_6
mailbox_v2_1_15 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mailbox_v2_1_15
mdm_v3_2_23 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mdm_v3_2_23
mem_tg_v1_0_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mem_tg_v1_0_8
iomodule_v3_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/iomodule_v3_0
lmb_bram_if_cntlr_v4_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lmb_bram_if_cntlr_v4_0
lmb_v10_v3_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/lmb_v10_v3_0
axi_lite_ipif_v3_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/axi_lite_ipif_v3_0
mdm_v3_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/mdm_v3_2
microblaze_mcs_v2_3_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/microblaze_mcs_v2_3_6
perf_axi_tg_v1_0_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/perf_axi_tg_v1_0_8
polar_v1_0_10 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/polar_v1_0_10
polar_v1_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/polar_v1_1_0
processing_system7_vip_v1_0_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/processing_system7_vip_v1_0_14
proc_sys_reset_v5_0_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/proc_sys_reset_v5_0_13
pr_decoupler_v1_0_10 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/pr_decoupler_v1_0_10
qdriv_pl_phy_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/qdriv_pl_phy_v1_0_0
quadsgmii_v3_5_8 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/quadsgmii_v3_5_8
rs_decoder_v9_0_18 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/rs_decoder_v9_0_18
rs_encoder_v9_0_17 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/rs_encoder_v9_0_17
sd_fec_v1_1_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/sd_fec_v1_1_9
shell_utils_addr_remap_v1_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/shell_utils_addr_remap_v1_0_5
sid_v8_0_17 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/sid_v8_0_17
soft_ecc_proxy_v1_0_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/soft_ecc_proxy_v1_0_1
spdif_v2_0_26 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/spdif_v2_0_26
srio_gen2_v4_1_14 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/srio_gen2_v4_1_14
switch_core_top_v1_0_11 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/switch_core_top_v1_0_11
tcc_decoder_3gppmm_v2_0_23 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tcc_decoder_3gppmm_v2_0_23
tcc_encoder_3gpplte_v4_0_16 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tcc_encoder_3gpplte_v4_0_16
tcc_encoder_3gpp_v5_0_18 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tcc_encoder_3gpp_v5_0_18
tmr_comparator_v1_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tmr_comparator_v1_0_5
tmr_sem_v1_0_22 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tmr_sem_v1_0_22
tri_mode_ethernet_mac_v9_0_22 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tri_mode_ethernet_mac_v9_0_22
tsn_temac_v1_0_7 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/tsn_temac_v1_0_7
vby1hs_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/vby1hs_v1_0_2
versal_cips_ps_vip_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/versal_cips_ps_vip_v1_0_4
videoaxi4s_bridge_v1_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/videoaxi4s_bridge_v1_0_5
viterbi_v9_1_13 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/viterbi_v9_1_13
v_dual_splitter_v1_0_9 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_dual_splitter_v1_0_9
v_frmbuf_rd_v2_3_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_frmbuf_rd_v2_3_1
v_frmbuf_rd_v2_4_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_frmbuf_rd_v2_4_0
v_frmbuf_wr_v2_3_1 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_frmbuf_wr_v2_3_1
v_frmbuf_wr_v2_4_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_frmbuf_wr_v2_4_0
v_hdmi_rx1_v1_0_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_hdmi_rx1_v1_0_3
v_hdmi_tx1_v1_0_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_hdmi_tx1_v1_0_3
v_mix_v5_2_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_mix_v5_2_3
v_multi_scaler_v1_2_3 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_multi_scaler_v1_2_3
v_vid_gt_bridge_v1_0_5 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_vid_gt_bridge_v1_0_5
v_vid_sdi_tx_bridge_v2_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_vid_sdi_tx_bridge_v2_0_0
v_warp_filter_v1_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_warp_filter_v1_1_0
v_warp_init_v1_1_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/v_warp_init_v1_1_0
xbip_dsp48_multacc_v3_0_6 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_dsp48_multacc_v3_0_6
xbip_multadd_v3_0_17 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xbip_multadd_v3_0_17
xdfe_common_v1_0_0 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xdfe_common_v1_0_0
xdfe_cc_filter_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xdfe_cc_filter_v1_0_4
xdfe_cc_mixer_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xdfe_cc_mixer_v1_0_4
xdfe_equalizer_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xdfe_equalizer_v1_0_4
xdfe_fft_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xdfe_fft_v1_0_4
xdfe_nr_prach_v1_0_4 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xdfe_nr_prach_v1_0_4
xsdbs_v1_0_2 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/xsdbs_v1_0_2
zynq_ultra_ps_e_vip_v1_0_12 = C:/Users/yuhc2/AppData/Roaming/Xilinx/Vivado/modelsim_simlib/zynq_ultra_ps_e_vip_v1_0_12
[vcom]
; VHDL93 variable selects language version as the default.
; Default is VHDL-2002.
; Value of 0 or 1987 for VHDL-1987.
; Value of 1 or 1993 for VHDL-1993.
; Default or value of 2 or 2002 for VHDL-2002.
; Default or value of 3 or 2008 for VHDL-2008.
VHDL93 = 2002
; Show source line containing error. Default is off.
; Show_source = 1
; Turn off unbound-component warnings. Default is on.
; Show_Warning1 = 0
; Turn off process-without-a-wait-statement warnings. Default is on.
; Show_Warning2 = 0
; Turn off null-range warnings. Default is on.
; Show_Warning3 = 0
; Turn off no-space-in-time-literal warnings. Default is on.
; Show_Warning4 = 0
; Turn off multiple-drivers-on-unresolved-signal warnings. Default is on.
; Show_Warning5 = 0
; Turn off optimization for IEEE std_logic_1164 package. Default is on.
; Optimize_1164 = 0
; Turn on resolving of ambiguous function overloading in favor of the
; "explicit" function declaration (not the one automatically created by
; the compiler for each type declaration). Default is off.
; The .ini file has Explicit enabled so that std_logic_signed/unsigned
; will match the behavior of synthesis tools.
Explicit = 1
; Turn off acceleration of the VITAL packages. Default is to accelerate.
; NoVital = 1
; Turn off VITAL compliance checking. Default is checking on.
; NoVitalCheck = 1
; Ignore VITAL compliance checking errors. Default is to not ignore.
; IgnoreVitalErrors = 1
; Turn off VITAL compliance checking warnings. Default is to show warnings.
; Show_VitalChecksWarnings = 0
; Keep silent about case statement static warnings.
; Default is to give a warning.
; NoCaseStaticError = 1
; Keep silent about warnings caused by aggregates that are not locally static.
; Default is to give a warning.
; NoOthersStaticError = 1
; Turn off inclusion of debugging info within design units.
; Default is to include debugging info.
; NoDebug = 1
; Turn off "Loading..." messages. Default is messages on.
; Quiet = 1
; Turn on some limited synthesis rule compliance checking. Checks only:
; -- signals used (read) by a process must be in the sensitivity list
; CheckSynthesis = 1
; Activate optimizations on expressions that do not involve signals,
; waits, or function/procedure/task invocations. Default is off.
; ScalarOpts = 1
; Require the user to specify a configuration for all bindings,
; and do not generate a compile time default binding for the
; component. This will result in an elaboration error of
; 'component not bound' if the user fails to do so. Avoids the rare
; issue of a false dependency upon the unused default binding.
; RequireConfigForAllDefaultBinding = 1
; Inhibit range checking on subscripts of arrays. Range checking on
; scalars defined with subtypes is inhibited by default.
; NoIndexCheck = 1
; Inhibit range checks on all (implicit and explicit) assignments to
; scalar objects defined with subtypes.
; NoRangeCheck = 1
[vlog]
; Turn off inclusion of debugging info within design units.
; Default is to include debugging info.
; NoDebug = 1
; Turn off "loading..." messages. Default is messages on.
; Quiet = 1
; Turn on Verilog hazard checking (order-dependent accessing of global vars).
; Default is off.
; Hazard = 1
; Turn on converting regular Verilog identifiers to uppercase. Allows case
; insensitivity for module names. Default is no conversion.
; UpCase = 1
; Turn on incremental compilation of modules. Default is off.
; Incremental = 1
; Turns on lint-style checking.
; Show_Lint = 1
[vsim]
; Simulator resolution
; Set to fs, ps, ns, us, ms, or sec with optional prefix of 1, 10, or 100.
Resolution = fs
; User time unit for run commands
; Set to default, fs, ps, ns, us, ms, or sec. The default is to use the
; unit specified for Resolution. For example, if Resolution is 100ps,
; then UserTimeUnit defaults to ps.
; Should generally be set to default.
UserTimeUnit = default
; Default run length
RunLength = 100
; Maximum iterations that can be run without advancing simulation time
IterationLimit = 5000
; Directive to license manager:
; vhdl Immediately reserve a VHDL license
; vlog Immediately reserve a Verilog license
; plus Immediately reserve a VHDL and Verilog license
; nomgc Do not look for Mentor Graphics Licenses
; nomti Do not look for Model Technology Licenses
; noqueue Do not wait in the license queue when a license isn't available
; viewsim Try for viewer license but accept simulator license(s) instead
; of queuing for viewer license
; License = plus
; Stop the simulator after a VHDL/Verilog assertion message
; 0 = Note 1 = Warning 2 = Error 3 = Failure 4 = Fatal
BreakOnAssertion = 3
; Assertion Message Format
; %S - Severity Level
; %R - Report Message
; %T - Time of assertion
; %D - Delta
; %I - Instance or Region pathname (if available)
; %% - print '%' character
; AssertionFormat = "** %S: %R\n Time: %T Iteration: %D%I\n"
; Assertion File - alternate file for storing VHDL/Verilog assertion messages
; AssertFile = assert.log
; Default radix for all windows and commands...
; Set to symbolic, ascii, binary, octal, decimal, hex, unsigned
DefaultRadix = symbolic
; VSIM Startup command
; Startup = do startup.do
; File for saving command transcript
TranscriptFile = transcript
; File for saving command history
; CommandHistory = cmdhist.log
; Specify whether paths in simulator commands should be described
; in VHDL or Verilog format.
; For VHDL, PathSeparator = /
; For Verilog, PathSeparator = .
; Must not be the same character as DatasetSeparator.
PathSeparator = /
; Specify the dataset separator for fully rooted contexts.
; The default is ':'. For example, sim:/top
; Must not be the same character as PathSeparator.
DatasetSeparator = :
; Disable VHDL assertion messages
; IgnoreNote = 1
; IgnoreWarning = 1
; IgnoreError = 1
; IgnoreFailure = 1
; Default force kind. May be freeze, drive, deposit, or default
; or in other terms, fixed, wired, or charged.
; A value of "default" will use the signal kind to determine the
; force kind, drive for resolved signals, freeze for unresolved signals
; DefaultForceKind = freeze
; If zero, open files when elaborated; otherwise, open files on
; first read or write. Default is 0.
; DelayFileOpen = 1
; Control VHDL files opened for write.
; 0 = Buffered, 1 = Unbuffered
UnbufferedOutput = 0
; Control the number of VHDL files open concurrently.
; This number should always be less than the current ulimit
; setting for max file descriptors.
; 0 = unlimited
ConcurrentFileLimit = 40
; Control the number of hierarchical regions displayed as
; part of a signal name shown in the Wave window.
; A value of zero tells VSIM to display the full name.
; The default is 0.
; WaveSignalNameWidth = 0
; Turn off warnings from the std_logic_arith, std_logic_unsigned
; and std_logic_signed packages.
; StdArithNoWarnings = 1
; Turn off warnings from the IEEE numeric_std and numeric_bit packages.
; NumericStdNoWarnings = 1
; Control the format of the (VHDL) FOR generate statement label
; for each iteration. Do not quote it.
; The format string here must contain the conversion codes %s and %d,
; in that order, and no other conversion codes. The %s represents
; the generate_label; the %d represents the generate parameter value
; at a particular generate iteration (this is the position number if
; the generate parameter is of an enumeration type). Embedded whitespace
; is allowed (but discouraged); leading and trailing whitespace is ignored.
; Application of the format must result in a unique scope name over all
; such names in the design so that name lookup can function properly.
; GenerateFormat = %s__%d
; Specify whether checkpoint files should be compressed.
; The default is 1 (compressed).
; CheckpointCompressMode = 0
; List of dynamically loaded objects for Verilog PLI applications
; Veriuser = veriuser.sl
; Specify default options for the restart command. Options can be one
; or more of: -force -nobreakpoint -nolist -nolog -nowave
; DefaultRestartOptions = -force
; HP-UX 10.20 ONLY - Enable memory locking to speed up large designs
; (> 500 megabyte memory footprint). Default is disabled.
; Specify number of megabytes to lock.
; LockedMemory = 1000
; Turn on (1) or off (0) WLF file compression.
; The default is 1 (compress WLF file).
; WLFCompress = 0
; Specify whether to save all design hierarchy (1) in the WLF file
; or only regions containing logged signals (0).
; The default is 0 (save only regions with logged signals).
; WLFSaveAllRegions = 1
; WLF file time limit. Limit WLF file by time, as closely as possible,
; to the specified amount of simulation time. When the limit is exceeded
; the earliest times get truncated from the file.
; If both time and size limits are specified the most restrictive is used.
; UserTimeUnits are used if time units are not specified.
; The default is 0 (no limit). Example: WLFTimeLimit = {100 ms}
; WLFTimeLimit = 0
; WLF file size limit. Limit WLF file size, as closely as possible,
; to the specified number of megabytes. If both time and size limits
; are specified then the most restrictive is used.
; The default is 0 (no limit).
; WLFSizeLimit = 1000
; Specify whether or not a WLF file should be deleted when the
; simulation ends. A value of 1 will cause the WLF file to be deleted.
; The default is 0 (do not delete WLF file when simulation ends).
; WLFDeleteOnQuit = 1
; Automatic SDF compilation
; Disables automatic compilation of SDF files in flows that support it.
; Default is on, uncomment to turn off.
; NoAutoSDFCompile = 1
[lmc]
[msg_system]
; Change a message severity or suppress a message.
; The format is: <msg directive> = <msg number>[,<msg number>...]
; Examples:
; note = 3009
; warning = 3033
; error = 3010,3016
; fatal = 3016,3033
; suppress = 3009,3016,3043
; The command verror <msg number> can be used to get the complete
; description of a message.
; Control transcripting of elaboration/runtime messages.
; The default is to have messages appear in the transcript and
; recorded in the wlf file (messages that are recorded in the
; wlf file can be viewed in the MsgViewer). The other settings
; are to send messages only to the transcript or only to the
; wlf file. The valid values are
; both {default}
; tran {transcript only}
; wlf {wlf file only}
; msgmode = both

2
tools/sim/run.bat Normal file
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@ -0,0 +1,2 @@
echo off
modelsim -do run.do

13
tools/sim/run.do Normal file
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@ -0,0 +1,13 @@
do compile.do
vsim -voptargs="+acc" -lib work tb_pulse_channel_random_polynomials
do waves_do/pp_polyrandom.do
view wave
view structure
view signals
run -all
# End

13
tools/sim/run_qlaser.do Normal file
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@ -0,0 +1,13 @@
do compile.do
vsim -voptargs="+acc" -lib work qlaser_dacs_pulse_tb
do waves_do/pp_qlaser_wavetables.do
view wave
view structure
view signals
run -all
# End

BIN
tools/sim/vsim.wlf Normal file

Binary file not shown.

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@ -0,0 +1,26 @@
onerror {resume}
quietly WaveActivateNextPane {} 0
add wave -noupdate /tb_pulse_channel_random_polynomials/clk
add wave -noupdate /tb_pulse_channel_random_polynomials/degrees
add wave -noupdate /tb_pulse_channel_random_polynomials/times
add wave -noupdate /tb_pulse_channel_random_polynomials/direction
add wave -noupdate -format Analog-Backstep -height 100 -max 10280.0 -radix decimal /tb_pulse_channel_random_polynomials/wave_values
add wave -noupdate /tb_pulse_channel_random_polynomials/wave_values_next
TreeUpdate [SetDefaultTree]
WaveRestoreCursors {{Cursor 1} {20865000000 fs} 0}
quietly wave cursor active 1
configure wave -namecolwidth 150
configure wave -valuecolwidth 100
configure wave -justifyvalue left
configure wave -signalnamewidth 1
configure wave -snapdistance 10
configure wave -datasetprefix 0
configure wave -rowmargin 4
configure wave -childrowmargin 2
configure wave -gridoffset 0
configure wave -gridperiod 1
configure wave -griddelta 40
configure wave -timeline 0
configure wave -timelineunits ns
update
WaveRestoreZoom {0 fs} {42845964444 fs}

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@ -0,0 +1,59 @@
onerror {resume}
quietly virtual signal -install /qlaser_dacs_pulse_tb/u_dac_pulse { /qlaser_dacs_pulse_tb/u_dac_pulse/reg_pulse_time(31 downto 16)} reg_pulse_time_31_16
quietly virtual signal -install /qlaser_dacs_pulse_tb/u_dac_pulse { /qlaser_dacs_pulse_tb/u_dac_pulse/reg_pulse_time(15 downto 0)} reg_pulse_time_15_0
quietly WaveActivateNextPane {} 0
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/clk
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/start
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/reset
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/busy
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/cnt_time
add wave -noupdate -radix binary /qlaser_dacs_pulse_tb/u_dac_pulse/cpu_addr
add wave -noupdate -radix hexadecimal /qlaser_dacs_pulse_tb/u_dac_pulse/cpu_wdata
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/cpu_wr
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/cpu_sel
add wave -noupdate -radix hexadecimal /qlaser_dacs_pulse_tb/u_dac_pulse/cpu_rdata
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/cpu_rdata_dv
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/ram_pulse_addra
add wave -noupdate -radix hexadecimal /qlaser_dacs_pulse_tb/u_dac_pulse/ram_pulse_dina
add wave -noupdate -radix hexadecimal /qlaser_dacs_pulse_tb/u_dac_pulse/ram_pulse_douta
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/ram_pulse_we
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/sm_state
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/pc
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/ram_pulse_addrb
add wave -noupdate -radix hexadecimal /qlaser_dacs_pulse_tb/u_dac_pulse/ram_pulse_doutb
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/reg_pulse_time
add wave -noupdate -radix hexadecimal /qlaser_dacs_pulse_tb/u_dac_pulse/reg_scale_gain
add wave -noupdate -radix hexadecimal /qlaser_dacs_pulse_tb/u_dac_pulse/reg_scale_time
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/reg_wave_start_addr
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/reg_wave_length
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/reg_pulse_flattop
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/ram_waveform_wea
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/ram_waveform_addra
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/ram_waveform_dina
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/ram_waveform_douta
add wave -noupdate -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/ram_waveform_addrb
add wave -noupdate -radix hexadecimal /qlaser_dacs_pulse_tb/u_dac_pulse/ram_waveform_doutb
add wave -noupdate -radix hexadecimal /qlaser_dacs_pulse_tb/u_dac_pulse/sm_wavedata
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/sm_wavedata_dv
add wave -noupdate -format Analog-Step -height 74 -max 204.0 -radix unsigned /qlaser_dacs_pulse_tb/u_dac_pulse/axis_tdata
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/axis_tvalid
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/axis_tlast
add wave -noupdate /qlaser_dacs_pulse_tb/u_dac_pulse/axis_tready
TreeUpdate [SetDefaultTree]
WaveRestoreCursors {{Cursor 2} {62275000000 fs} 0}
quietly wave cursor active 1
configure wave -namecolwidth 163
configure wave -valuecolwidth 99
configure wave -justifyvalue left
configure wave -signalnamewidth 1
configure wave -snapdistance 10
configure wave -datasetprefix 0
configure wave -rowmargin 4
configure wave -childrowmargin 2
configure wave -gridoffset 0
configure wave -gridperiod 1
configure wave -griddelta 40
configure wave -timeline 0
configure wave -timelineunits fs
update
WaveRestoreZoom {61852729312 fs} {62817270688 fs}

View File

@ -0,0 +1,34 @@
onerror {resume}
quietly WaveActivateNextPane {} 0
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reset
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/clk
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cnt_time
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/busy
add wave -noupdate -radix binary /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_addr
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_wdata
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_wr
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_sel
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_rdata
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_rdata_dv
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_addra
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_dina
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_douta
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_we
TreeUpdate [SetDefaultTree]
WaveRestoreCursors {{Cursor 1} {480433536 fs} 0}
quietly wave cursor active 1
configure wave -namecolwidth 150
configure wave -valuecolwidth 172
configure wave -justifyvalue left
configure wave -signalnamewidth 1
configure wave -snapdistance 10
configure wave -datasetprefix 0
configure wave -rowmargin 4
configure wave -childrowmargin 2
configure wave -gridoffset 0
configure wave -gridperiod 1
configure wave -griddelta 40
configure wave -timeline 0
configure wave -timelineunits fs
update
WaveRestoreZoom {0 fs} {1953088753 fs}

View File

@ -0,0 +1,42 @@
onerror {resume}
quietly WaveActivateNextPane {} 0
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/clk
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reset
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/busy
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cnt_time
add wave -noupdate -radix binary /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_addr
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_wdata
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_wr
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_sel
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_rdata
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_rdata_dv
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_addra
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_dina
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_douta
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_we
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/sm_state
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/pc
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_addrb
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_doutb
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_pulse_time
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_pulse_sizes
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_pulse_factors
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_pulse_flattop
TreeUpdate [SetDefaultTree]
WaveRestoreCursors {{Cursor 1} {277726970613 fs} 0}
quietly wave cursor active 1
configure wave -namecolwidth 150
configure wave -valuecolwidth 99
configure wave -justifyvalue left
configure wave -signalnamewidth 1
configure wave -snapdistance 10
configure wave -datasetprefix 0
configure wave -rowmargin 4
configure wave -childrowmargin 2
configure wave -gridoffset 0
configure wave -gridperiod 1
configure wave -griddelta 40
configure wave -timeline 0
configure wave -timelineunits fs
update
WaveRestoreZoom {277686713216 fs} {277803286784 fs}

View File

@ -0,0 +1,66 @@
onerror {resume}
quietly virtual signal -install /tb_cpubus_dacs_pulse_channel/u_dac_pulse { /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_pulse_time(31 downto 16)} reg_pulse_time_31_16
quietly virtual signal -install /tb_cpubus_dacs_pulse_channel/u_dac_pulse { /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_pulse_time(15 downto 0)} reg_pulse_time_15_0
quietly WaveActivateNextPane {} 0
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/clk
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/start
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reset
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/busy
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cnt_time
add wave -noupdate -radix binary /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_addr
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_wdata
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_wr
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_sel
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_rdata
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cpu_rdata_dv
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_addra
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_dina
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_douta
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_we
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/sm_state
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/sm_state_d1
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/pc
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_addrb
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_pulse_doutb
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_pulse_time
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_scale_gain
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_scale_time
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_wave_start_addr
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_wave_length
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_wave_end_addr
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/reg_pulse_flattop
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_waveform_wea
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_waveform_addra
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_waveform_dina
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_waveform_douta
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cnt_addr
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cnt_wave_top
add wave -noupdate -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/cnt_wave_len
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/wave_last_addr
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_waveform_addrb
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/ram_waveform_doutb
add wave -noupdate -radix hexadecimal /tb_cpubus_dacs_pulse_channel/u_dac_pulse/sm_wavedata
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/sm_wavedata_dv
add wave -noupdate -format Analog-Step -height 74 -max 70.0 -radix unsigned /tb_cpubus_dacs_pulse_channel/u_dac_pulse/axis_tdata
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/axis_tvalid
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/axis_tlast
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/axis_tready
add wave -noupdate /tb_cpubus_dacs_pulse_channel/u_dac_pulse/done_seq
TreeUpdate [SetDefaultTree]
WaveRestoreCursors {{Cursor 2} {62521930491 fs} 0}
quietly wave cursor active 1
configure wave -namecolwidth 163
configure wave -valuecolwidth 99
configure wave -justifyvalue left
configure wave -signalnamewidth 1
configure wave -snapdistance 10
configure wave -datasetprefix 0
configure wave -rowmargin 4
configure wave -childrowmargin 2
configure wave -gridoffset 0
configure wave -gridperiod 1
configure wave -griddelta 40
configure wave -timeline 0
configure wave -timelineunits fs
update
WaveRestoreZoom {62366292805 fs} {63694887423 fs}

View File

@ -0,0 +1,422 @@
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<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.AXILITE_SLAVE_S_AXI.RUSER_BITS_PER_BYTE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.AXILITE_SLAVE_S_AXI.RUSER_WIDTH">0</spirit:configurableElementValue>
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View File

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View File

@ -0,0 +1,422 @@
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<spirit:vendorExtensions>
<xilinx:componentInstanceExtensions>
<xilinx:configElementInfos>
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&quot;schema&quot;: &quot;xilinx.com:schema:json_boundary:1.0&quot;,
&quot;boundary&quot;: {
&quot;ports&quot;: {
&quot;clka&quot;: [ { &quot;direction&quot;: &quot;in&quot;, &quot;driver_value&quot;: &quot;0&quot; } ],
&quot;wea&quot;: [ { &quot;direction&quot;: &quot;in&quot;, &quot;size_left&quot;: &quot;0&quot;, &quot;size_right&quot;: &quot;0&quot;, &quot;driver_value&quot;: &quot;0&quot; } ],
&quot;addra&quot;: [ { &quot;direction&quot;: &quot;in&quot;, &quot;size_left&quot;: &quot;10&quot;, &quot;size_right&quot;: &quot;0&quot;, &quot;driver_value&quot;: &quot;0&quot; } ],
&quot;dina&quot;: [ { &quot;direction&quot;: &quot;in&quot;, &quot;size_left&quot;: &quot;31&quot;, &quot;size_right&quot;: &quot;0&quot;, &quot;driver_value&quot;: &quot;0&quot; } ],
&quot;douta&quot;: [ { &quot;direction&quot;: &quot;out&quot;, &quot;size_left&quot;: &quot;31&quot;, &quot;size_right&quot;: &quot;0&quot; } ],
&quot;clkb&quot;: [ { &quot;direction&quot;: &quot;in&quot;, &quot;driver_value&quot;: &quot;0&quot; } ],
&quot;web&quot;: [ { &quot;direction&quot;: &quot;in&quot;, &quot;size_left&quot;: &quot;0&quot;, &quot;size_right&quot;: &quot;0&quot;, &quot;driver_value&quot;: &quot;0&quot; } ],
&quot;addrb&quot;: [ { &quot;direction&quot;: &quot;in&quot;, &quot;size_left&quot;: &quot;11&quot;, &quot;size_right&quot;: &quot;0&quot;, &quot;driver_value&quot;: &quot;0&quot; } ],
&quot;dinb&quot;: [ { &quot;direction&quot;: &quot;in&quot;, &quot;size_left&quot;: &quot;15&quot;, &quot;size_right&quot;: &quot;0&quot;, &quot;driver_value&quot;: &quot;0&quot; } ],
&quot;doutb&quot;: [ { &quot;direction&quot;: &quot;out&quot;, &quot;size_left&quot;: &quot;15&quot;, &quot;size_right&quot;: &quot;0&quot; } ]
},
&quot;interfaces&quot;: {
&quot;CLK.ACLK&quot;: {
&quot;vlnv&quot;: &quot;xilinx.com:signal:clock:1.0&quot;,
&quot;abstraction_type&quot;: &quot;xilinx.com:signal:clock_rtl:1.0&quot;,
&quot;mode&quot;: &quot;slave&quot;,
&quot;parameters&quot;: {
&quot;ASSOCIATED_BUSIF&quot;: [ { &quot;value&quot;: &quot;AXI_SLAVE_S_AXI:AXILite_SLAVE_S_AXI&quot;, &quot;value_src&quot;: &quot;constant&quot;, &quot;usage&quot;: &quot;all&quot; } ],
&quot;ASSOCIATED_RESET&quot;: [ { &quot;value&quot;: &quot;s_aresetn&quot;, &quot;value_src&quot;: &quot;constant&quot;, &quot;usage&quot;: &quot;all&quot; } ],
&quot;FREQ_HZ&quot;: [ { &quot;value&quot;: &quot;100000000&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_static_object&quot;: false } ],
&quot;FREQ_TOLERANCE_HZ&quot;: [ { &quot;value&quot;: &quot;0&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_static_object&quot;: false } ],
&quot;PHASE&quot;: [ { &quot;value&quot;: &quot;0.0&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;float&quot;, &quot;is_static_object&quot;: false } ],
&quot;CLK_DOMAIN&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_static_object&quot;: false } ],
&quot;ASSOCIATED_PORT&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_static_object&quot;: false } ],
&quot;INSERT_VIP&quot;: [ { &quot;value&quot;: &quot;0&quot;, &quot;resolve_type&quot;: &quot;user&quot;, &quot;format&quot;: &quot;long&quot;, &quot;usage&quot;: &quot;simulation.rtl&quot;, &quot;is_static_object&quot;: false } ]
}
},
&quot;RST.ARESETN&quot;: {
&quot;vlnv&quot;: &quot;xilinx.com:signal:reset:1.0&quot;,
&quot;abstraction_type&quot;: &quot;xilinx.com:signal:reset_rtl:1.0&quot;,
&quot;mode&quot;: &quot;slave&quot;,
&quot;parameters&quot;: {
&quot;POLARITY&quot;: [ { &quot;value&quot;: &quot;ACTIVE_LOW&quot;, &quot;value_src&quot;: &quot;constant&quot;, &quot;usage&quot;: &quot;all&quot; } ],
&quot;INSERT_VIP&quot;: [ { &quot;value&quot;: &quot;0&quot;, &quot;resolve_type&quot;: &quot;user&quot;, &quot;format&quot;: &quot;long&quot;, &quot;usage&quot;: &quot;simulation.rtl&quot;, &quot;is_static_object&quot;: false } ]
}
},
&quot;BRAM_PORTA&quot;: {
&quot;vlnv&quot;: &quot;xilinx.com:interface:bram:1.0&quot;,
&quot;abstraction_type&quot;: &quot;xilinx.com:interface:bram_rtl:1.0&quot;,
&quot;mode&quot;: &quot;slave&quot;,
&quot;parameters&quot;: {
&quot;MEM_SIZE&quot;: [ { &quot;value&quot;: &quot;8192&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_static_object&quot;: false } ],
&quot;MEM_WIDTH&quot;: [ { &quot;value&quot;: &quot;32&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_static_object&quot;: false } ],
&quot;MEM_ECC&quot;: [ { &quot;value&quot;: &quot;NONE&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_static_object&quot;: false } ],
&quot;MASTER_TYPE&quot;: [ { &quot;value&quot;: &quot;OTHER&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_static_object&quot;: false } ],
&quot;READ_WRITE_MODE&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_static_object&quot;: false } ],
&quot;READ_LATENCY&quot;: [ { &quot;value&quot;: &quot;1&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_static_object&quot;: false } ]
},
&quot;port_maps&quot;: {
&quot;ADDR&quot;: [ { &quot;physical_name&quot;: &quot;addra&quot; } ],
&quot;CLK&quot;: [ { &quot;physical_name&quot;: &quot;clka&quot; } ],
&quot;DIN&quot;: [ { &quot;physical_name&quot;: &quot;dina&quot; } ],
&quot;DOUT&quot;: [ { &quot;physical_name&quot;: &quot;douta&quot; } ],
&quot;WE&quot;: [ { &quot;physical_name&quot;: &quot;wea&quot; } ]
}
},
&quot;BRAM_PORTB&quot;: {
&quot;vlnv&quot;: &quot;xilinx.com:interface:bram:1.0&quot;,
&quot;abstraction_type&quot;: &quot;xilinx.com:interface:bram_rtl:1.0&quot;,
&quot;mode&quot;: &quot;slave&quot;,
&quot;parameters&quot;: {
&quot;MEM_SIZE&quot;: [ { &quot;value&quot;: &quot;8192&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_static_object&quot;: false } ],
&quot;MEM_WIDTH&quot;: [ { &quot;value&quot;: &quot;32&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_static_object&quot;: false } ],
&quot;MEM_ECC&quot;: [ { &quot;value&quot;: &quot;NONE&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_static_object&quot;: false } ],
&quot;MASTER_TYPE&quot;: [ { &quot;value&quot;: &quot;OTHER&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_static_object&quot;: false } ],
&quot;READ_WRITE_MODE&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_static_object&quot;: false } ],
&quot;READ_LATENCY&quot;: [ { &quot;value&quot;: &quot;1&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_static_object&quot;: false } ]
},
&quot;port_maps&quot;: {
&quot;ADDR&quot;: [ { &quot;physical_name&quot;: &quot;addrb&quot; } ],
&quot;CLK&quot;: [ { &quot;physical_name&quot;: &quot;clkb&quot; } ],
&quot;DIN&quot;: [ { &quot;physical_name&quot;: &quot;dinb&quot; } ],
&quot;DOUT&quot;: [ { &quot;physical_name&quot;: &quot;doutb&quot; } ],
&quot;WE&quot;: [ { &quot;physical_name&quot;: &quot;web&quot; } ]
}
}
},
&quot;memory_maps&quot;: {
&quot;S_1&quot;: {
&quot;address_blocks&quot;: {
&quot;Mem0&quot;: {
&quot;base_address&quot;: &quot;0&quot;,
&quot;range&quot;: &quot;4096&quot;,
&quot;usage&quot;: &quot;memory&quot;,
&quot;access&quot;: &quot;read-write&quot;,
&quot;parameters&quot;: {
&quot;OFFSET_BASE_PARAM&quot;: [ { &quot;value&quot;: &quot;C_BASEADDR&quot; } ],
&quot;OFFSET_HIGH_PARAM&quot;: [ { &quot;value&quot;: &quot;C_HIGHADDR&quot; } ]
}
}
}
}
}
}
}"/>
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</spirit:design>

View File

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</spirit:design>

View File

@ -0,0 +1,73 @@
## 300MHz Clock from USER_SI570
set_property PACKAGE_PIN AL7 [get_ports "p_clk_n"] ;# Bank 64 VCCO - VCC1V2 - IO_L12N_T1U_N11_GC_64
set_property IOSTANDARD DIFF_SSTL12 [get_ports "p_clk_n"] ;# Bank 64 VCCO - VCC1V2 - IO_L12N_T1U_N11_GC_64
set_property PACKAGE_PIN AL8 [get_ports "p_clk_p"] ;# Bank 64 VCCO - VCC1V2 - IO_L12P_T1U_N10_GC_64
set_property IOSTANDARD DIFF_SSTL12 [get_ports "p_clk_p"] ;# Bank 64 VCCO - VCC1V2 - IO_L12P_T1U_N10_GC_64
## Buttons SW_C
# set_property -dict {PACKAGE_PIN C17 IOSTANDARD LVCMOS33} [get_ports p_reset]
set_property PACKAGE_PIN AG13 [get_ports "p_reset"] ;# Bank 44 VCCO - VCC3V3 - IO_L10N_AD2N_44
set_property IOSTANDARD LVCMOS33 [get_ports "p_reset"] ;# Bank 44 VCCO - VCC3V3 - IO_L10N_AD2N_44
## LEDs
set_property PACKAGE_PIN AG14 [get_ports "p_leds_0"] ;# Bank 44 VCCO - VCC3V3 - IO_L10P_AD2P_44
set_property IOSTANDARD LVCMOS33 [get_ports "p_leds_0"] ;# Bank 44 VCCO - VCC3V3 - IO_L10P_AD2P_44
set_property PACKAGE_PIN AF13 [get_ports "p_leds_1"] ;# Bank 44 VCCO - VCC3V3 - IO_L9N_AD3N_44
set_property IOSTANDARD LVCMOS33 [get_ports "p_leds_1"] ;# Bank 44 VCCO - VCC3V3 - IO_L9N_AD3N_44
set_property PACKAGE_PIN AE13 [get_ports "p_leds_2"] ;# Bank 44 VCCO - VCC3V3 - IO_L9P_AD3P_44
set_property IOSTANDARD LVCMOS33 [get_ports "p_leds_2"] ;# Bank 44 VCCO - VCC3V3 - IO_L9P_AD3P_44
set_property PACKAGE_PIN AJ14 [get_ports "p_leds_3"] ;# Bank 44 VCCO - VCC3V3 - IO_L8N_HDGC_AD4N_44
set_property IOSTANDARD LVCMOS33 [get_ports "p_leds_3"] ;# Bank 44 VCCO - VCC3V3 - IO_L8N_HDGC_AD4N_44
set_property PACKAGE_PIN AJ15 [get_ports "p_leds_4"] ;# Bank 44 VCCO - VCC3V3 - IO_L8P_HDGC_AD4P_44
set_property IOSTANDARD LVCMOS33 [get_ports "p_leds_4"] ;# Bank 44 VCCO - VCC3V3 - IO_L8P_HDGC_AD4P_44
set_property PACKAGE_PIN AH13 [get_ports "p_leds_5"] ;# Bank 44 VCCO - VCC3V3 - IO_L7N_HDGC_AD5N_44
set_property IOSTANDARD LVCMOS33 [get_ports "p_leds_5"] ;# Bank 44 VCCO - VCC3V3 - IO_L8P_HDGC_AD4P_44
# set_property -dict {PACKAGE_PIN A17 IOSTANDARD LVCMOS33} [get_ports {p_leds0_rgb[0]}]
# set_property -dict {PACKAGE_PIN B16 IOSTANDARD LVCMOS33} [get_ports {p_leds0_rgb[1]}]
# set_property -dict {PACKAGE_PIN B17 IOSTANDARD LVCMOS33} [get_ports {p_leds0_rgb[2]}]
# set_property -dict {PACKAGE_PIN A16 IOSTANDARD LVCMOS33} [get_ports {p_leds1_rgb[0]}]
# set_property -dict {PACKAGE_PIN A18 IOSTANDARD LVCMOS33} [get_ports {p_leds1_rgb[1]}]
# set_property -dict {PACKAGE_PIN A19 IOSTANDARD LVCMOS33} [get_ports {p_leds1_rgb[2]}]
## Pmod Header J55
set_property PACKAGE_PIN A20 [get_ports "p_dc0_cs_n"] ;# Bank 47 VCCO - VCC3V3 - IO_L12N_AD0N_47
set_property IOSTANDARD LVCMOS33 [get_ports "p_dc0_cs_n"] ;# Bank 47 VCCO - VCC3V3 - IO_L12N_AD0N_47
set_property PACKAGE_PIN B20 [get_ports "p_dc0_mosi"] ;# Bank 47 VCCO - VCC3V3 - IO_L12P_AD0P_47
set_property IOSTANDARD LVCMOS33 [get_ports "p_dc0_mosi"] ;# Bank 47 VCCO - VCC3V3 - IO_L12P_AD0P_47
# set_property PACKAGE_PIN A22 [get_ports "p_dc0_nc"] ;# Bank 47 VCCO - VCC3V3 - IO_L11N_AD1N_47
# set_property IOSTANDARD LVCMOS33 [get_ports "p_dc0_nc"] ;# Bank 47 VCCO - VCC3V3 - IO_L11N_AD1N_47
set_property PACKAGE_PIN A21 [get_ports "p_dc0_sclk"] ;# Bank 47 VCCO - VCC3V3 - IO_L11P_AD1P_47
set_property IOSTANDARD LVCMOS33 [get_ports "p_dc0_sclk"] ;# Bank 47 VCCO - VCC3V3 - IO_L11P_AD1P_47
set_property PACKAGE_PIN B21 [get_ports "p_dc1_cs_n"] ;# Bank 47 VCCO - VCC3V3 - IO_L10N_AD2N_47
set_property IOSTANDARD LVCMOS33 [get_ports "p_dc1_cs_n"] ;# Bank 47 VCCO - VCC3V3 - IO_L10N_AD2N_47
set_property PACKAGE_PIN C21 [get_ports "p_dc1_mosi"] ;# Bank 47 VCCO - VCC3V3 - IO_L10P_AD2P_47
set_property IOSTANDARD LVCMOS33 [get_ports "p_dc1_mosi"] ;# Bank 47 VCCO - VCC3V3 - IO_L10P_AD2P_47
# set_property PACKAGE_PIN C22 [get_ports "p_dc1_nc"] ;# Bank 47 VCCO - VCC3V3 - IO_L9N_AD3N_47
# set_property IOSTANDARD LVCMOS33 [get_ports "p_dc1_nc"] ;# Bank 47 VCCO - VCC3V3 - IO_L9N_AD3N_47
set_property PACKAGE_PIN D21 [get_ports "p_dc1_sclk"] ;# Bank 47 VCCO - VCC3V3 - IO_L9P_AD3P_47
set_property IOSTANDARD LVCMOS33 [get_ports "p_dc1_sclk"] ;# Bank 47 VCCO - VCC3V3 - IO_L9P_AD3P_47
## Pmod Header J87
set_property PACKAGE_PIN D20 [get_ports "p_dc2_cs_n"] ;# Bank 47 VCCO - VCC3V3 - IO_L8N_HDGC_AD4N_47
set_property IOSTANDARD LVCMOS33 [get_ports "p_dc2_cs_n"] ;# Bank 47 VCCO - VCC3V3 - IO_L8N_HDGC_AD4N_47
set_property PACKAGE_PIN E20 [get_ports "p_dc2_mosi"] ;# Bank 47 VCCO - VCC3V3 - IO_L8P_HDGC_AD4P_47
set_property IOSTANDARD LVCMOS33 [get_ports "p_dc2_mosi"] ;# Bank 47 VCCO - VCC3V3 - IO_L8P_HDGC_AD4P_47
set_property PACKAGE_PIN E22 [get_ports "p_dc2_sclk"] ;# Bank 47 VCCO - VCC3V3 - IO_L7N_HDGC_AD5N_47
set_property IOSTANDARD LVCMOS33 [get_ports "p_dc2_sclk"] ;# Bank 47 VCCO - VCC3V3 - IO_L7N_HDGC_AD5N_47
# UART
set_property PACKAGE_PIN E13 [get_ports "p_serial_rxd"] ;# Bank 49 VCCO - VCC3V3 - IO_L12N_AD8N_49
set_property IOSTANDARD LVCMOS33 [get_ports "p_serial_rxd"] ;# Bank 49 VCCO - VCC3V3 - IO_L12N_AD8N_49
set_property PACKAGE_PIN F13 [get_ports "p_serial_txd"] ;# Bank 49 VCCO - VCC3V3 - IO_L12P_AD8P_49
set_property IOSTANDARD LVCMOS33 [get_ports "p_serial_txd"] ;# Bank 49 VCCO - VCC3V3 - IO_L12P_AD8P_49
# UART Debug (unsure, maybe just indicator LEDs?)
set_property PACKAGE_PIN D12 [get_ports "p_debug_out[0]"] ;# Bank 49 VCCO - VCC3V3 - IO_L11N_AD9N_49
set_property IOSTANDARD LVCMOS33 [get_ports "p_debug_out[0]"] ;# Bank 49 VCCO - VCC3V3 - IO_L11N_AD9N_49
set_property PACKAGE_PIN E12 [get_ports "p_debug_out[1]"] ;# Bank 49 VCCO - VCC3V3 - IO_L11P_AD9P_49
set_property IOSTANDARD LVCMOS33 [get_ports "p_debug_out[1]"] ;# Bank 49 VCCO - VCC3V3 - IO_L11P_AD9P_49

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@ -0,0 +1,3 @@
## 125MHz Clock from Ethernet PHY
create_clock -period 3.333 -name sys_clk_pin -waveform {0.000 1.667} -add [get_ports p_clk_p]
create_clock -period 3.333 -name sys_clk_pin -waveform {0.000 1.667} -add [get_ports p_clk_n]

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@ -0,0 +1,29 @@
##---------------------------------------------------------------------------------------
## Filename : set_usercode.xdc
##
## Vivado onstraint file to set user version number into the bitfile
##---------------------------------------------------------------------------------------
#----------------------------------------------------------------------------------------
#-- Usercode major revisions
#----------------------------------------------------------------------------------------
#-- 0x0000_NNNN : Early debug and test. No PMODs,ZMODs, DACs etc
#-- 0x1AC0_NNNN : DC PMODs, 4? single bit pulses. NNN incremented each bitfile
#-- 0x1DC0_NNNN : DC PMODs DAC versions. NNN incremented each bitfile
#-- 0x2AC0_NNNN : DC PMODs, AC ZMODs. 4 channel NNN incremented each bitfile
#-- 0x3AC0_NNNN : DC PMODs, JESD AC (16ch Abaco board) NNN incremented each bitfile
#
#----------------------------------------------------------------------------------------
#-- Usercode history
#----------------------------------------------------------------------------------------
#-- 0x1DC0_0001 : Original release
#-- 0x1DC0_0002 : Modified double blink and added QSPI and SD into the PS1 block
#-- 0x1DC0_0003 : SD pins on 1.8V bank. Add SD_CD on MIO47
#-- 0x1DC0_0004 : SD clock dropped from 100MHz to 20Mhz
#-- 0x1DC0_0005 : Restore internal reference enable for pmod DACs
#-- 0x3AC0_0006 : Existing working codes ported to ZCU102
#--
#----------------------------------------------------------------------------------------
# In VHDL package : constant C_QLASER_VERSION : std_logic_vector(31 downto 0)
#----------------------------------------------------------------------------------------
set_property BITSTREAM.CONFIG.USERID 32'h3AC00006 [current_design]

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@ -0,0 +1,597 @@
#*****************************************************************************************
# Vivado (TM) v2018.2 (64-bit)
#
# build_project.tcl: Tcl script for re-creating project 'qlaser_eclypse7'
#
# Generated by Vivado on Thu Feb 16 16:07:58 -0800 2023
# IP Build 2256618 on Thu Jun 14 22:10:49 MDT 2018
#
# This file contains the Vivado Tcl commands for re-creating the project to the state*
# when this script was generated. In order to re-create the project, please source this
# file in the Vivado Tcl Shell.
#
# * Note that the runs in the created project will be configured the same way as the
# original project, however they will not be launched automatically. To regenerate the
# run results please launch the synthesis/implementation runs as needed.
#
#*****************************************************************************************
# NOTE: In order to use this script for source control purposes, please make sure that the
# following files are added to the source control system:-
#
# 1. This project restoration tcl script (build_project.tcl) that was generated.
#
# 2. The following source(s) files that were local or imported into the original project.
# (Please see the '$orig_proj_dir' and '$origin_dir' variable setting below at the start of the script)
#
# "D:/Work/UW-Quantum/tools/Vivado2018_2/qlaser_eclypse7/qlaser_eclypse7.srcs/sources_1/bd/ps1/ps1.bd"
# "D:/Work/UW-Quantum/tools/Vivado2018_2/qlaser_eclypse7/qlaser_eclypse7.srcs/sources_1/bd/ps1/hdl/ps1_wrapper.vhd"
# "D:/Work/UW-Quantum/tools/Vivado2018_2/qlaser_eclypse7/qlaser_eclypse7.srcs/sources_1/ip/clkpll/clkpll.xci"
#
# 3. The following remote source files that were added to the original project:-
#
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/fpga/qlaser_pkg.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/fpga/blink.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/fpga/clkreset.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/serial_io/nc3_cpu2uart.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/serial_io/nc3_serial_pkg_100MHz.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/serial_io/nc3_uart.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/serial_io/nc3_uart2cpu.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/serial_io/qlaser_cpuint_serial.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/fpga/qlaser_dac_dc_package.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/fpga/qlaser_spi.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/fpga/qlaser_dacs_dc.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/fpga/qlaser_dacs_pulse.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/fpga/qlaser_version_pkg.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/fpga/qlaser_misc.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/src/hdl/fpga/qlaser_top.vhd"
# "D:/Work/UW-Quantum/github/NANO_QLASER/tools/xilinx/pinout.xdc"
# "D:/Work/UW-Quantum/github/NANO_QLASER/tools/xilinx/set_usercode.xdc"
# "D:/Work/UW-Quantum/github/NANO_QLASER/tools/xilinx/qlaser_timing.xdc"
#
#*****************************************************************************************
# Set the reference directory for source file relative paths (by default the value is script directory path)
set origin_dir "."
# Use origin directory path location variable, if specified in the tcl shell
if { [info exists ::origin_dir_loc] } {
set origin_dir $::origin_dir_loc
}
# Set the project name
set _xil_proj_name_ "qlaser_eclypse7"
# Use project name variable, if specified in the tcl shell
if { [info exists ::user_project_name] } {
set _xil_proj_name_ $::user_project_name
}
variable script_file
set script_file "build_project.tcl"
# Help information for this script
proc help {} {
variable script_file
puts "\nDescription:"
puts "Recreate a Vivado project from this script. The created project will be"
puts "functionally equivalent to the original project for which this script was"
puts "generated. The script contains commands for creating a project, filesets,"
puts "runs, adding/importing sources and setting properties on various objects.\n"
puts "Syntax:"
puts "$script_file"
puts "$script_file -tclargs \[--origin_dir <path>\]"
puts "$script_file -tclargs \[--project_name <name>\]"
puts "$script_file -tclargs \[--help\]\n"
puts "Usage:"
puts "Name Description"
puts "-------------------------------------------------------------------------"
puts "\[--origin_dir <path>\] Determine source file paths wrt this path. Default"
puts " origin_dir path value is \".\", otherwise, the value"
puts " that was set with the \"-paths_relative_to\" switch"
puts " when this script was generated.\n"
puts "\[--project_name <name>\] Create project with the specified name. Default"
puts " name is the name of the project from where this"
puts " script was generated.\n"
puts "\[--help\] Print help information for this script"
puts "-------------------------------------------------------------------------\n"
exit 0
}
if { $::argc > 0 } {
for {set i 0} {$i < $::argc} {incr i} {
set option [string trim [lindex $::argv $i]]
switch -regexp -- $option {
"--origin_dir" { incr i; set origin_dir [lindex $::argv $i] }
"--project_name" { incr i; set _xil_proj_name_ [lindex $::argv $i] }
"--help" { help }
default {
if { [regexp {^-} $option] } {
puts "ERROR: Unknown option '$option' specified, please type '$script_file -tclargs --help' for usage info.\n"
return 1
}
}
}
}
}
# Set the directory path for the original project from where this script was exported
set orig_proj_dir "[file normalize "$origin_dir/../../../../tools/Vivado2018_2/qlaser_eclypse7"]"
# Create project
create_project ${_xil_proj_name_} ./${_xil_proj_name_} -part xc7z020clg484-1
# Set the directory path for the new project
set proj_dir [get_property directory [current_project]]
# Reconstruct message rules
# None
# Set project properties
set obj [current_project]
set_property -name "board_part" -value "digilentinc.com:eclypse-z7:part0:1.1" -objects $obj
set_property -name "default_lib" -value "xil_defaultlib" -objects $obj
set_property -name "dsa.accelerator_binary_content" -value "bitstream" -objects $obj
set_property -name "dsa.accelerator_binary_format" -value "xclbin2" -objects $obj
set_property -name "dsa.board_id" -value "eclypse-z7" -objects $obj
set_property -name "dsa.description" -value "Vivado generated DSA" -objects $obj
set_property -name "dsa.dr_bd_base_address" -value "0" -objects $obj
set_property -name "dsa.emu_dir" -value "emu" -objects $obj
set_property -name "dsa.flash_interface_type" -value "bpix16" -objects $obj
set_property -name "dsa.flash_offset_address" -value "0" -objects $obj
set_property -name "dsa.flash_size" -value "1024" -objects $obj
set_property -name "dsa.host_architecture" -value "x86_64" -objects $obj
set_property -name "dsa.host_interface" -value "pcie" -objects $obj
set_property -name "dsa.num_compute_units" -value "60" -objects $obj
set_property -name "dsa.platform_state" -value "pre_synth" -objects $obj
set_property -name "dsa.uses_pr" -value "1" -objects $obj
set_property -name "dsa.vendor" -value "xilinx" -objects $obj
set_property -name "dsa.version" -value "0.0" -objects $obj
set_property -name "enable_vhdl_2008" -value "1" -objects $obj
set_property -name "ip_cache_permissions" -value "read write" -objects $obj
set_property -name "ip_output_repo" -value "$proj_dir/${_xil_proj_name_}.cache/ip" -objects $obj
set_property -name "mem.enable_memory_map_generation" -value "1" -objects $obj
set_property -name "sim.central_dir" -value "$proj_dir/${_xil_proj_name_}.ip_user_files" -objects $obj
set_property -name "sim.ip.auto_export_scripts" -value "1" -objects $obj
set_property -name "simulator_language" -value "Mixed" -objects $obj
set_property -name "target_language" -value "VHDL" -objects $obj
set_property -name "webtalk.activehdl_export_sim" -value "6" -objects $obj
set_property -name "webtalk.ies_export_sim" -value "6" -objects $obj
set_property -name "webtalk.modelsim_export_sim" -value "6" -objects $obj
set_property -name "webtalk.questa_export_sim" -value "6" -objects $obj
set_property -name "webtalk.riviera_export_sim" -value "6" -objects $obj
set_property -name "webtalk.vcs_export_sim" -value "6" -objects $obj
set_property -name "webtalk.xsim_export_sim" -value "6" -objects $obj
set_property -name "xpm_libraries" -value "XPM_CDC XPM_FIFO XPM_MEMORY" -objects $obj
# Create 'sources_1' fileset (if not found)
if {[string equal [get_filesets -quiet sources_1] ""]} {
create_fileset -srcset sources_1
}
# Set IP repository paths
set obj [get_filesets sources_1]
set_property "ip_repo_paths" "[file normalize "$origin_dir/../../../../../Common/IP_GJED"]" $obj
# Rebuild user ip_repo's index before adding any source files
update_ip_catalog -rebuild
# Set 'sources_1' fileset object
set obj [get_filesets sources_1]
set files [list \
[file normalize "${origin_dir}/../../src/hdl/fpga/qlaser_pkg.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/fpga/blink.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/fpga/clkreset.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/serial_io/nc3_cpu2uart.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/serial_io/nc3_serial_pkg_100MHz.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/serial_io/nc3_uart.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/serial_io/nc3_uart2cpu.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/serial_io/qlaser_cpuint_serial.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/fpga/qlaser_dac_dc_package.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/fpga/qlaser_spi.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/fpga/qlaser_dacs_dc.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/fpga/qlaser_dacs_pulse.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/fpga/qlaser_version_pkg.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/fpga/qlaser_misc.vhd"] \
[file normalize "${origin_dir}/../../src/hdl/fpga/qlaser_top.vhd"] \
]
add_files -norecurse -fileset $obj $files
# Add local files from the original project (-no_copy_sources specified)
set files [list \
[file normalize "${origin_dir}/../../../../tools/Vivado2018_2/qlaser_eclypse7/qlaser_eclypse7.srcs/sources_1/bd/ps1/ps1.bd" ]\
[file normalize "${origin_dir}/../../../../tools/Vivado2018_2/qlaser_eclypse7/qlaser_eclypse7.srcs/sources_1/bd/ps1/hdl/ps1_wrapper.vhd" ]\
]
set added_files [add_files -fileset sources_1 $files]
# Set 'sources_1' fileset file properties for remote files
set file "$origin_dir/../../src/hdl/fpga/qlaser_pkg.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/fpga/blink.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/fpga/clkreset.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/serial_io/nc3_cpu2uart.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/serial_io/nc3_serial_pkg_100MHz.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/serial_io/nc3_uart.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/serial_io/nc3_uart2cpu.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/serial_io/qlaser_cpuint_serial.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/fpga/qlaser_dac_dc_package.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/fpga/qlaser_spi.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/fpga/qlaser_dacs_dc.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/fpga/qlaser_dacs_pulse.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/fpga/qlaser_version_pkg.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/fpga/qlaser_misc.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
set file "$origin_dir/../../src/hdl/fpga/qlaser_top.vhd"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
# Set 'sources_1' fileset file properties for local files
set file "ps1/ps1.bd"
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "registered_with_manager" -value "1" -objects $file_obj
set file "hdl/ps1_wrapper.vhd"
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "file_type" -value "VHDL" -objects $file_obj
# Set 'sources_1' fileset properties
set obj [get_filesets sources_1]
set_property -name "top" -value "qlaser_top" -objects $obj
# Set 'sources_1' fileset object
set obj [get_filesets sources_1]
# Add local files from the original project (-no_copy_sources specified)
set files [list \
[file normalize "${origin_dir}/../../../../tools/Vivado2018_2/qlaser_eclypse7/qlaser_eclypse7.srcs/sources_1/ip/clkpll/clkpll.xci" ]\
]
set added_files [add_files -fileset sources_1 $files]
# Set 'sources_1' fileset file properties for remote files
# None
# Set 'sources_1' fileset file properties for local files
set file "clkpll/clkpll.xci"
set file_obj [get_files -of_objects [get_filesets sources_1] [list "*$file"]]
set_property -name "generate_files_for_reference" -value "0" -objects $file_obj
set_property -name "registered_with_manager" -value "1" -objects $file_obj
if { ![get_property "is_locked" $file_obj] } {
set_property -name "synth_checkpoint_mode" -value "Singular" -objects $file_obj
}
# Create 'constrs_1' fileset (if not found)
if {[string equal [get_filesets -quiet constrs_1] ""]} {
create_fileset -constrset constrs_1
}
# Set 'constrs_1' fileset object
set obj [get_filesets constrs_1]
# Add/Import constrs file and set constrs file properties
set file "[file normalize "$origin_dir/pinout.xdc"]"
set file_added [add_files -norecurse -fileset $obj [list $file]]
set file "$origin_dir/pinout.xdc"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets constrs_1] [list "*$file"]]
set_property -name "file_type" -value "XDC" -objects $file_obj
# Add/Import constrs file and set constrs file properties
set file "[file normalize "$origin_dir/set_usercode.xdc"]"
set file_added [add_files -norecurse -fileset $obj [list $file]]
set file "$origin_dir/set_usercode.xdc"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets constrs_1] [list "*$file"]]
set_property -name "file_type" -value "XDC" -objects $file_obj
# Add/Import constrs file and set constrs file properties
set file "[file normalize "$origin_dir/qlaser_timing.xdc"]"
set file_added [add_files -norecurse -fileset $obj [list $file]]
set file "$origin_dir/qlaser_timing.xdc"
set file [file normalize $file]
set file_obj [get_files -of_objects [get_filesets constrs_1] [list "*$file"]]
set_property -name "file_type" -value "XDC" -objects $file_obj
# Set 'constrs_1' fileset properties
set obj [get_filesets constrs_1]
# Create 'sim_1' fileset (if not found)
if {[string equal [get_filesets -quiet sim_1] ""]} {
create_fileset -simset sim_1
}
# Set 'sim_1' fileset object
set obj [get_filesets sim_1]
# Empty (no sources present)
# Set 'sim_1' fileset properties
set obj [get_filesets sim_1]
set_property -name "sim_mode" -value "post-implementation" -objects $obj
set_property -name "top" -value "qlaser_top" -objects $obj
set_property -name "top_lib" -value "xil_defaultlib" -objects $obj
# Create 'synth_1' run (if not found)
if {[string equal [get_runs -quiet synth_1] ""]} {
create_run -name synth_1 -part xc7z020clg484-1 -flow {Vivado Synthesis 2018} -strategy "Vivado Synthesis Defaults" -report_strategy {No Reports} -constrset constrs_1
} else {
set_property strategy "Vivado Synthesis Defaults" [get_runs synth_1]
set_property flow "Vivado Synthesis 2018" [get_runs synth_1]
}
set obj [get_runs synth_1]
set_property set_report_strategy_name 1 $obj
set_property report_strategy {Vivado Synthesis Default Reports} $obj
set_property set_report_strategy_name 0 $obj
# Create 'synth_1_synth_report_utilization_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs synth_1] synth_1_synth_report_utilization_0] "" ] } {
create_report_config -report_name synth_1_synth_report_utilization_0 -report_type report_utilization:1.0 -steps synth_design -runs synth_1
}
set obj [get_report_configs -of_objects [get_runs synth_1] synth_1_synth_report_utilization_0]
if { $obj != "" } {
}
set obj [get_runs synth_1]
set_property -name "needs_refresh" -value "1" -objects $obj
set_property -name "strategy" -value "Vivado Synthesis Defaults" -objects $obj
# set the current synth run
current_run -synthesis [get_runs synth_1]
# Create 'impl_1' run (if not found)
if {[string equal [get_runs -quiet impl_1] ""]} {
create_run -name impl_1 -part xc7z020clg484-1 -flow {Vivado Implementation 2018} -strategy "Vivado Implementation Defaults" -report_strategy {No Reports} -constrset constrs_1 -parent_run synth_1
} else {
set_property strategy "Vivado Implementation Defaults" [get_runs impl_1]
set_property flow "Vivado Implementation 2018" [get_runs impl_1]
}
set obj [get_runs impl_1]
set_property set_report_strategy_name 1 $obj
set_property report_strategy {Vivado Implementation Default Reports} $obj
set_property set_report_strategy_name 0 $obj
# Create 'impl_1_init_report_timing_summary_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_init_report_timing_summary_0] "" ] } {
create_report_config -report_name impl_1_init_report_timing_summary_0 -report_type report_timing_summary:1.0 -steps init_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_init_report_timing_summary_0]
if { $obj != "" } {
set_property -name "is_enabled" -value "0" -objects $obj
}
# Create 'impl_1_opt_report_drc_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_opt_report_drc_0] "" ] } {
create_report_config -report_name impl_1_opt_report_drc_0 -report_type report_drc:1.0 -steps opt_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_opt_report_drc_0]
if { $obj != "" } {
}
# Create 'impl_1_opt_report_timing_summary_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_opt_report_timing_summary_0] "" ] } {
create_report_config -report_name impl_1_opt_report_timing_summary_0 -report_type report_timing_summary:1.0 -steps opt_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_opt_report_timing_summary_0]
if { $obj != "" } {
set_property -name "is_enabled" -value "0" -objects $obj
}
# Create 'impl_1_power_opt_report_timing_summary_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_power_opt_report_timing_summary_0] "" ] } {
create_report_config -report_name impl_1_power_opt_report_timing_summary_0 -report_type report_timing_summary:1.0 -steps power_opt_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_power_opt_report_timing_summary_0]
if { $obj != "" } {
set_property -name "is_enabled" -value "0" -objects $obj
}
# Create 'impl_1_place_report_io_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_io_0] "" ] } {
create_report_config -report_name impl_1_place_report_io_0 -report_type report_io:1.0 -steps place_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_io_0]
if { $obj != "" } {
}
# Create 'impl_1_place_report_utilization_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_utilization_0] "" ] } {
create_report_config -report_name impl_1_place_report_utilization_0 -report_type report_utilization:1.0 -steps place_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_utilization_0]
if { $obj != "" } {
}
# Create 'impl_1_place_report_control_sets_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_control_sets_0] "" ] } {
create_report_config -report_name impl_1_place_report_control_sets_0 -report_type report_control_sets:1.0 -steps place_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_control_sets_0]
if { $obj != "" } {
}
# Create 'impl_1_place_report_incremental_reuse_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_incremental_reuse_0] "" ] } {
create_report_config -report_name impl_1_place_report_incremental_reuse_0 -report_type report_incremental_reuse:1.0 -steps place_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_incremental_reuse_0]
if { $obj != "" } {
set_property -name "is_enabled" -value "0" -objects $obj
}
# Create 'impl_1_place_report_incremental_reuse_1' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_incremental_reuse_1] "" ] } {
create_report_config -report_name impl_1_place_report_incremental_reuse_1 -report_type report_incremental_reuse:1.0 -steps place_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_incremental_reuse_1]
if { $obj != "" } {
set_property -name "is_enabled" -value "0" -objects $obj
}
# Create 'impl_1_place_report_timing_summary_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_timing_summary_0] "" ] } {
create_report_config -report_name impl_1_place_report_timing_summary_0 -report_type report_timing_summary:1.0 -steps place_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_place_report_timing_summary_0]
if { $obj != "" } {
set_property -name "is_enabled" -value "0" -objects $obj
}
# Create 'impl_1_post_place_power_opt_report_timing_summary_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_post_place_power_opt_report_timing_summary_0] "" ] } {
create_report_config -report_name impl_1_post_place_power_opt_report_timing_summary_0 -report_type report_timing_summary:1.0 -steps post_place_power_opt_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_post_place_power_opt_report_timing_summary_0]
if { $obj != "" } {
set_property -name "is_enabled" -value "0" -objects $obj
}
# Create 'impl_1_phys_opt_report_timing_summary_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_phys_opt_report_timing_summary_0] "" ] } {
create_report_config -report_name impl_1_phys_opt_report_timing_summary_0 -report_type report_timing_summary:1.0 -steps phys_opt_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_phys_opt_report_timing_summary_0]
if { $obj != "" } {
set_property -name "is_enabled" -value "0" -objects $obj
}
# Create 'impl_1_route_report_drc_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_drc_0] "" ] } {
create_report_config -report_name impl_1_route_report_drc_0 -report_type report_drc:1.0 -steps route_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_drc_0]
if { $obj != "" } {
}
# Create 'impl_1_route_report_methodology_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_methodology_0] "" ] } {
create_report_config -report_name impl_1_route_report_methodology_0 -report_type report_methodology:1.0 -steps route_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_methodology_0]
if { $obj != "" } {
}
# Create 'impl_1_route_report_power_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_power_0] "" ] } {
create_report_config -report_name impl_1_route_report_power_0 -report_type report_power:1.0 -steps route_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_power_0]
if { $obj != "" } {
}
# Create 'impl_1_route_report_route_status_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_route_status_0] "" ] } {
create_report_config -report_name impl_1_route_report_route_status_0 -report_type report_route_status:1.0 -steps route_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_route_status_0]
if { $obj != "" } {
}
# Create 'impl_1_route_report_timing_summary_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_timing_summary_0] "" ] } {
create_report_config -report_name impl_1_route_report_timing_summary_0 -report_type report_timing_summary:1.0 -steps route_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_timing_summary_0]
if { $obj != "" } {
}
# Create 'impl_1_route_report_incremental_reuse_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_incremental_reuse_0] "" ] } {
create_report_config -report_name impl_1_route_report_incremental_reuse_0 -report_type report_incremental_reuse:1.0 -steps route_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_incremental_reuse_0]
if { $obj != "" } {
}
# Create 'impl_1_route_report_clock_utilization_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_clock_utilization_0] "" ] } {
create_report_config -report_name impl_1_route_report_clock_utilization_0 -report_type report_clock_utilization:1.0 -steps route_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_clock_utilization_0]
if { $obj != "" } {
}
# Create 'impl_1_route_report_bus_skew_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_bus_skew_0] "" ] } {
create_report_config -report_name impl_1_route_report_bus_skew_0 -report_type report_bus_skew:1.1 -steps route_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_route_report_bus_skew_0]
if { $obj != "" } {
}
# Create 'impl_1_post_route_phys_opt_report_timing_summary_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_post_route_phys_opt_report_timing_summary_0] "" ] } {
create_report_config -report_name impl_1_post_route_phys_opt_report_timing_summary_0 -report_type report_timing_summary:1.0 -steps post_route_phys_opt_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_post_route_phys_opt_report_timing_summary_0]
if { $obj != "" } {
}
# Create 'impl_1_post_route_phys_opt_report_bus_skew_0' report (if not found)
if { [ string equal [get_report_configs -of_objects [get_runs impl_1] impl_1_post_route_phys_opt_report_bus_skew_0] "" ] } {
create_report_config -report_name impl_1_post_route_phys_opt_report_bus_skew_0 -report_type report_bus_skew:1.1 -steps post_route_phys_opt_design -runs impl_1
}
set obj [get_report_configs -of_objects [get_runs impl_1] impl_1_post_route_phys_opt_report_bus_skew_0]
if { $obj != "" } {
}
set obj [get_runs impl_1]
set_property -name "strategy" -value "Vivado Implementation Defaults" -objects $obj
set_property -name "steps.write_bitstream.args.readback_file" -value "0" -objects $obj
set_property -name "steps.write_bitstream.args.verbose" -value "0" -objects $obj
# set the current impl run
current_run -implementation [get_runs impl_1]
puts "INFO: Project created:${_xil_proj_name_}"

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tools/xilinx/build_ps1.tcl Normal file
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@ -0,0 +1,890 @@
################################################################
# This is a generated script based on design: ps1
#
# Though there are limitations about the generated script,
# the main purpose of this utility is to make learning
# IP Integrator Tcl commands easier.
################################################################
namespace eval _tcl {
proc get_script_folder {} {
set script_path [file normalize [info script]]
set script_folder [file dirname $script_path]
return $script_folder
}
}
variable script_folder
set script_folder [_tcl::get_script_folder]
################################################################
# Check if script is running in correct Vivado version.
################################################################
set scripts_vivado_version 2018.2
set current_vivado_version [version -short]
if { [string first $scripts_vivado_version $current_vivado_version] == -1 } {
puts ""
catch {common::send_msg_id "BD_TCL-109" "ERROR" "This script was generated using Vivado <$scripts_vivado_version> and is being run in <$current_vivado_version> of Vivado. Please run the script in Vivado <$scripts_vivado_version> then open the design in Vivado <$current_vivado_version>. Upgrade the design by running \"Tools => Report => Report IP Status...\", then run write_bd_tcl to create an updated script."}
return 1
}
################################################################
# START
################################################################
# To test this script, run the following commands from Vivado Tcl console:
# source ps1_script.tcl
# If there is no project opened, this script will create a
# project, but make sure you do not have an existing project
# <./myproj/project_1.xpr> in the current working folder.
set list_projs [get_projects -quiet]
if { $list_projs eq "" } {
create_project project_1 myproj -part xc7z020clg484-1
set_property BOARD_PART digilentinc.com:eclypse-z7:part0:1.1 [current_project]
}
# CHANGE DESIGN NAME HERE
variable design_name
set design_name ps1
# If you do not already have an existing IP Integrator design open,
# you can create a design using the following command:
# create_bd_design $design_name
# Creating design if needed
set errMsg ""
set nRet 0
set cur_design [current_bd_design -quiet]
set list_cells [get_bd_cells -quiet]
if { ${design_name} eq "" } {
# USE CASES:
# 1) Design_name not set
set errMsg "Please set the variable <design_name> to a non-empty value."
set nRet 1
} elseif { ${cur_design} ne "" && ${list_cells} eq "" } {
# USE CASES:
# 2): Current design opened AND is empty AND names same.
# 3): Current design opened AND is empty AND names diff; design_name NOT in project.
# 4): Current design opened AND is empty AND names diff; design_name exists in project.
if { $cur_design ne $design_name } {
common::send_msg_id "BD_TCL-001" "INFO" "Changing value of <design_name> from <$design_name> to <$cur_design> since current design is empty."
set design_name [get_property NAME $cur_design]
}
common::send_msg_id "BD_TCL-002" "INFO" "Constructing design in IPI design <$cur_design>..."
} elseif { ${cur_design} ne "" && $list_cells ne "" && $cur_design eq $design_name } {
# USE CASES:
# 5) Current design opened AND has components AND same names.
set errMsg "Design <$design_name> already exists in your project, please set the variable <design_name> to another value."
set nRet 1
} elseif { [get_files -quiet ${design_name}.bd] ne "" } {
# USE CASES:
# 6) Current opened design, has components, but diff names, design_name exists in project.
# 7) No opened design, design_name exists in project.
set errMsg "Design <$design_name> already exists in your project, please set the variable <design_name> to another value."
set nRet 2
} else {
# USE CASES:
# 8) No opened design, design_name not in project.
# 9) Current opened design, has components, but diff names, design_name not in project.
common::send_msg_id "BD_TCL-003" "INFO" "Currently there is no design <$design_name> in project, so creating one..."
create_bd_design $design_name
common::send_msg_id "BD_TCL-004" "INFO" "Making design <$design_name> as current_bd_design."
current_bd_design $design_name
}
common::send_msg_id "BD_TCL-005" "INFO" "Currently the variable <design_name> is equal to \"$design_name\"."
if { $nRet != 0 } {
catch {common::send_msg_id "BD_TCL-114" "ERROR" $errMsg}
return $nRet
}
set bCheckIPsPassed 1
##################################################################
# CHECK IPs
##################################################################
set bCheckIPs 1
if { $bCheckIPs == 1 } {
set list_check_ips "\
xilinx.com:ip:axi_bram_ctrl:4.*\
xilinx.com:ip:blk_mem_gen:8.*\
xilinx.com:ip:smartconnect:1.*\
xilinx.com:ip:processing_system7:5.*\
xilinx.com:ip:proc_sys_reset:5.*\
"
set list_ips_missing ""
common::send_msg_id "BD_TCL-006" "INFO" "Checking if the following IPs exist in the project's IP catalog: $list_check_ips ."
foreach ip_vlnv $list_check_ips {
set ip_obj [get_ipdefs -all $ip_vlnv]
if { $ip_obj eq "" } {
lappend list_ips_missing $ip_vlnv
}
}
if { $list_ips_missing ne "" } {
catch {common::send_msg_id "BD_TCL-115" "ERROR" "The following IPs are not found in the IP Catalog:\n $list_ips_missing\n\nResolution: Please add the repository containing the IP(s) to the project." }
set bCheckIPsPassed 0
}
}
if { $bCheckIPsPassed != 1 } {
common::send_msg_id "BD_TCL-1003" "WARNING" "Will not continue with creation of design due to the error(s) above."
return 3
}
##################################################################
# DESIGN PROCs
##################################################################
# Procedure to create entire design; Provide argument to make
# procedure reusable. If parentCell is "", will use root.
proc create_root_design { parentCell } {
variable script_folder
variable design_name
if { $parentCell eq "" } {
set parentCell [get_bd_cells /]
}
# Get object for parentCell
set parentObj [get_bd_cells $parentCell]
if { $parentObj == "" } {
catch {common::send_msg_id "BD_TCL-100" "ERROR" "Unable to find parent cell <$parentCell>!"}
return
}
# Make sure parentObj is hier blk
set parentType [get_property TYPE $parentObj]
if { $parentType ne "hier" } {
catch {common::send_msg_id "BD_TCL-101" "ERROR" "Parent <$parentObj> has TYPE = <$parentType>. Expected to be <hier>."}
return
}
# Save current instance; Restore later
set oldCurInst [current_bd_instance .]
# Set parent object as current
current_bd_instance $parentObj
# Create interface ports
set DDR [ create_bd_intf_port -mode Master -vlnv xilinx.com:interface:ddrx_rtl:1.0 DDR ]
set FIXED_IO [ create_bd_intf_port -mode Master -vlnv xilinx.com:display_processing_system7:fixedio_rtl:1.0 FIXED_IO ]
# Create ports
set FCLK_CLK0 [ create_bd_port -dir O -type clk FCLK_CLK0 ]
set FCLK_RESET0_N [ create_bd_port -dir O -type rst FCLK_RESET0_N ]
set ext_reset_n [ create_bd_port -dir I -type rst ext_reset_n ]
set_property -dict [ list \
CONFIG.POLARITY {ACTIVE_LOW} \
] $ext_reset_n
# Create instance: axi_bram_ctrl, and set properties
set axi_bram_ctrl [ create_bd_cell -type ip -vlnv xilinx.com:ip:axi_bram_ctrl:4.* axi_bram_ctrl ]
# Create instance: axi_bram_ctrl_bram, and set properties
set axi_bram_ctrl_bram [ create_bd_cell -type ip -vlnv xilinx.com:ip:blk_mem_gen:8.* axi_bram_ctrl_bram ]
set_property -dict [ list \
CONFIG.Memory_Type {True_Dual_Port_RAM} \
] $axi_bram_ctrl_bram
# Create instance: axi_smc, and set properties
set axi_smc [ create_bd_cell -type ip -vlnv xilinx.com:ip:smartconnect:1.* axi_smc ]
set_property -dict [ list \
CONFIG.NUM_SI {1} \
] $axi_smc
# Create instance: processing_system7_0, and set properties
set processing_system7_0 [ create_bd_cell -type ip -vlnv xilinx.com:ip:processing_system7:5.* processing_system7_0 ]
set_property -dict [ list \
CONFIG.PCW_ACT_APU_PERIPHERAL_FREQMHZ {666.666687} \
CONFIG.PCW_ACT_CAN0_PERIPHERAL_FREQMHZ {23.8095} \
CONFIG.PCW_ACT_CAN1_PERIPHERAL_FREQMHZ {23.8095} \
CONFIG.PCW_ACT_CAN_PERIPHERAL_FREQMHZ {10.000000} \
CONFIG.PCW_ACT_DCI_PERIPHERAL_FREQMHZ {10.158730} \
CONFIG.PCW_ACT_ENET0_PERIPHERAL_FREQMHZ {10.000000} \
CONFIG.PCW_ACT_ENET1_PERIPHERAL_FREQMHZ {10.000000} \
CONFIG.PCW_ACT_FPGA0_PERIPHERAL_FREQMHZ {100.000000} \
CONFIG.PCW_ACT_FPGA1_PERIPHERAL_FREQMHZ {10.000000} \
CONFIG.PCW_ACT_FPGA2_PERIPHERAL_FREQMHZ {10.000000} \
CONFIG.PCW_ACT_FPGA3_PERIPHERAL_FREQMHZ {10.000000} \
CONFIG.PCW_ACT_I2C_PERIPHERAL_FREQMHZ {50} \
CONFIG.PCW_ACT_PCAP_PERIPHERAL_FREQMHZ {200.000000} \
CONFIG.PCW_ACT_QSPI_PERIPHERAL_FREQMHZ {200.000000} \
CONFIG.PCW_ACT_SDIO_PERIPHERAL_FREQMHZ {20.000000} \
CONFIG.PCW_ACT_SMC_PERIPHERAL_FREQMHZ {10.000000} \
CONFIG.PCW_ACT_SPI_PERIPHERAL_FREQMHZ {10.000000} \
CONFIG.PCW_ACT_TPIU_PERIPHERAL_FREQMHZ {200.000000} \
CONFIG.PCW_ACT_TTC0_CLK0_PERIPHERAL_FREQMHZ {111.111115} \
CONFIG.PCW_ACT_TTC0_CLK1_PERIPHERAL_FREQMHZ {111.111115} \
CONFIG.PCW_ACT_TTC0_CLK2_PERIPHERAL_FREQMHZ {111.111115} \
CONFIG.PCW_ACT_TTC1_CLK0_PERIPHERAL_FREQMHZ {111.111115} \
CONFIG.PCW_ACT_TTC1_CLK1_PERIPHERAL_FREQMHZ {111.111115} \
CONFIG.PCW_ACT_TTC1_CLK2_PERIPHERAL_FREQMHZ {111.111115} \
CONFIG.PCW_ACT_TTC_PERIPHERAL_FREQMHZ {50} \
CONFIG.PCW_ACT_UART_PERIPHERAL_FREQMHZ {100.000000} \
CONFIG.PCW_ACT_USB0_PERIPHERAL_FREQMHZ {60} \
CONFIG.PCW_ACT_USB1_PERIPHERAL_FREQMHZ {60} \
CONFIG.PCW_ACT_WDT_PERIPHERAL_FREQMHZ {111.111115} \
CONFIG.PCW_APU_CLK_RATIO_ENABLE {6:2:1} \
CONFIG.PCW_APU_PERIPHERAL_FREQMHZ {666.666666} \
CONFIG.PCW_ARMPLL_CTRL_FBDIV {40} \
CONFIG.PCW_CAN0_BASEADDR {0xE0008000} \
CONFIG.PCW_CAN0_GRP_CLK_ENABLE {0} \
CONFIG.PCW_CAN0_HIGHADDR {0xE0008FFF} \
CONFIG.PCW_CAN0_PERIPHERAL_CLKSRC {External} \
CONFIG.PCW_CAN0_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_CAN0_PERIPHERAL_FREQMHZ {-1} \
CONFIG.PCW_CAN1_BASEADDR {0xE0009000} \
CONFIG.PCW_CAN1_GRP_CLK_ENABLE {0} \
CONFIG.PCW_CAN1_HIGHADDR {0xE0009FFF} \
CONFIG.PCW_CAN1_PERIPHERAL_CLKSRC {External} \
CONFIG.PCW_CAN1_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_CAN1_PERIPHERAL_FREQMHZ {-1} \
CONFIG.PCW_CAN_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_CAN_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_CAN_PERIPHERAL_DIVISOR1 {1} \
CONFIG.PCW_CAN_PERIPHERAL_FREQMHZ {100} \
CONFIG.PCW_CAN_PERIPHERAL_VALID {0} \
CONFIG.PCW_CLK0_FREQ {100000000} \
CONFIG.PCW_CLK1_FREQ {10000000} \
CONFIG.PCW_CLK2_FREQ {10000000} \
CONFIG.PCW_CLK3_FREQ {10000000} \
CONFIG.PCW_CORE0_FIQ_INTR {0} \
CONFIG.PCW_CORE0_IRQ_INTR {0} \
CONFIG.PCW_CORE1_FIQ_INTR {0} \
CONFIG.PCW_CORE1_IRQ_INTR {0} \
CONFIG.PCW_CPU_CPU_6X4X_MAX_RANGE {667} \
CONFIG.PCW_CPU_CPU_PLL_FREQMHZ {1333.333} \
CONFIG.PCW_CPU_PERIPHERAL_CLKSRC {ARM PLL} \
CONFIG.PCW_CPU_PERIPHERAL_DIVISOR0 {2} \
CONFIG.PCW_CRYSTAL_PERIPHERAL_FREQMHZ {33.333333} \
CONFIG.PCW_DCI_PERIPHERAL_CLKSRC {DDR PLL} \
CONFIG.PCW_DCI_PERIPHERAL_DIVISOR0 {15} \
CONFIG.PCW_DCI_PERIPHERAL_DIVISOR1 {7} \
CONFIG.PCW_DCI_PERIPHERAL_FREQMHZ {10.159} \
CONFIG.PCW_DDRPLL_CTRL_FBDIV {32} \
CONFIG.PCW_DDR_DDR_PLL_FREQMHZ {1066.667} \
CONFIG.PCW_DDR_HPRLPR_QUEUE_PARTITION {HPR(0)/LPR(32)} \
CONFIG.PCW_DDR_HPR_TO_CRITICAL_PRIORITY_LEVEL {15} \
CONFIG.PCW_DDR_LPR_TO_CRITICAL_PRIORITY_LEVEL {2} \
CONFIG.PCW_DDR_PERIPHERAL_CLKSRC {DDR PLL} \
CONFIG.PCW_DDR_PERIPHERAL_DIVISOR0 {2} \
CONFIG.PCW_DDR_PORT0_HPR_ENABLE {0} \
CONFIG.PCW_DDR_PORT1_HPR_ENABLE {0} \
CONFIG.PCW_DDR_PORT2_HPR_ENABLE {0} \
CONFIG.PCW_DDR_PORT3_HPR_ENABLE {0} \
CONFIG.PCW_DDR_RAM_BASEADDR {0x00100000} \
CONFIG.PCW_DDR_RAM_HIGHADDR {0x3FFFFFFF} \
CONFIG.PCW_DDR_WRITE_TO_CRITICAL_PRIORITY_LEVEL {2} \
CONFIG.PCW_DM_WIDTH {4} \
CONFIG.PCW_DQS_WIDTH {4} \
CONFIG.PCW_DQ_WIDTH {32} \
CONFIG.PCW_ENET0_BASEADDR {0xE000B000} \
CONFIG.PCW_ENET0_GRP_MDIO_ENABLE {0} \
CONFIG.PCW_ENET0_HIGHADDR {0xE000BFFF} \
CONFIG.PCW_ENET0_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_ENET0_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_ENET0_PERIPHERAL_DIVISOR1 {1} \
CONFIG.PCW_ENET0_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_ENET0_PERIPHERAL_FREQMHZ {1000 Mbps} \
CONFIG.PCW_ENET0_RESET_ENABLE {0} \
CONFIG.PCW_ENET1_BASEADDR {0xE000C000} \
CONFIG.PCW_ENET1_GRP_MDIO_ENABLE {0} \
CONFIG.PCW_ENET1_HIGHADDR {0xE000CFFF} \
CONFIG.PCW_ENET1_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_ENET1_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_ENET1_PERIPHERAL_DIVISOR1 {1} \
CONFIG.PCW_ENET1_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_ENET1_PERIPHERAL_FREQMHZ {1000 Mbps} \
CONFIG.PCW_ENET1_RESET_ENABLE {0} \
CONFIG.PCW_ENET_RESET_ENABLE {0} \
CONFIG.PCW_ENET_RESET_POLARITY {Active Low} \
CONFIG.PCW_EN_4K_TIMER {0} \
CONFIG.PCW_EN_CAN0 {0} \
CONFIG.PCW_EN_CAN1 {0} \
CONFIG.PCW_EN_CLK0_PORT {1} \
CONFIG.PCW_EN_CLK1_PORT {0} \
CONFIG.PCW_EN_CLK2_PORT {0} \
CONFIG.PCW_EN_CLK3_PORT {0} \
CONFIG.PCW_EN_CLKTRIG0_PORT {0} \
CONFIG.PCW_EN_CLKTRIG1_PORT {0} \
CONFIG.PCW_EN_CLKTRIG2_PORT {0} \
CONFIG.PCW_EN_CLKTRIG3_PORT {0} \
CONFIG.PCW_EN_DDR {1} \
CONFIG.PCW_EN_EMIO_CAN0 {0} \
CONFIG.PCW_EN_EMIO_CAN1 {0} \
CONFIG.PCW_EN_EMIO_CD_SDIO0 {0} \
CONFIG.PCW_EN_EMIO_CD_SDIO1 {0} \
CONFIG.PCW_EN_EMIO_ENET0 {0} \
CONFIG.PCW_EN_EMIO_ENET1 {0} \
CONFIG.PCW_EN_EMIO_GPIO {0} \
CONFIG.PCW_EN_EMIO_I2C0 {0} \
CONFIG.PCW_EN_EMIO_I2C1 {0} \
CONFIG.PCW_EN_EMIO_MODEM_UART0 {0} \
CONFIG.PCW_EN_EMIO_MODEM_UART1 {0} \
CONFIG.PCW_EN_EMIO_PJTAG {0} \
CONFIG.PCW_EN_EMIO_SDIO0 {0} \
CONFIG.PCW_EN_EMIO_SDIO1 {0} \
CONFIG.PCW_EN_EMIO_SPI0 {0} \
CONFIG.PCW_EN_EMIO_SPI1 {0} \
CONFIG.PCW_EN_EMIO_SRAM_INT {0} \
CONFIG.PCW_EN_EMIO_TRACE {0} \
CONFIG.PCW_EN_EMIO_TTC0 {0} \
CONFIG.PCW_EN_EMIO_TTC1 {0} \
CONFIG.PCW_EN_EMIO_UART0 {0} \
CONFIG.PCW_EN_EMIO_UART1 {0} \
CONFIG.PCW_EN_EMIO_WDT {0} \
CONFIG.PCW_EN_EMIO_WP_SDIO0 {0} \
CONFIG.PCW_EN_EMIO_WP_SDIO1 {0} \
CONFIG.PCW_EN_ENET0 {0} \
CONFIG.PCW_EN_ENET1 {0} \
CONFIG.PCW_EN_GPIO {0} \
CONFIG.PCW_EN_I2C0 {0} \
CONFIG.PCW_EN_I2C1 {0} \
CONFIG.PCW_EN_MODEM_UART0 {0} \
CONFIG.PCW_EN_MODEM_UART1 {0} \
CONFIG.PCW_EN_PJTAG {0} \
CONFIG.PCW_EN_PTP_ENET0 {0} \
CONFIG.PCW_EN_PTP_ENET1 {0} \
CONFIG.PCW_EN_QSPI {1} \
CONFIG.PCW_EN_RST0_PORT {1} \
CONFIG.PCW_EN_RST1_PORT {0} \
CONFIG.PCW_EN_RST2_PORT {0} \
CONFIG.PCW_EN_RST3_PORT {0} \
CONFIG.PCW_EN_SDIO0 {1} \
CONFIG.PCW_EN_SDIO1 {0} \
CONFIG.PCW_EN_SMC {0} \
CONFIG.PCW_EN_SPI0 {0} \
CONFIG.PCW_EN_SPI1 {0} \
CONFIG.PCW_EN_TRACE {0} \
CONFIG.PCW_EN_TTC0 {0} \
CONFIG.PCW_EN_TTC1 {0} \
CONFIG.PCW_EN_UART0 {1} \
CONFIG.PCW_EN_UART1 {0} \
CONFIG.PCW_EN_USB0 {0} \
CONFIG.PCW_EN_USB1 {0} \
CONFIG.PCW_EN_WDT {0} \
CONFIG.PCW_FCLK0_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_FCLK0_PERIPHERAL_DIVISOR0 {4} \
CONFIG.PCW_FCLK0_PERIPHERAL_DIVISOR1 {3} \
CONFIG.PCW_FCLK1_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_FCLK1_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_FCLK1_PERIPHERAL_DIVISOR1 {1} \
CONFIG.PCW_FCLK2_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_FCLK2_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_FCLK2_PERIPHERAL_DIVISOR1 {1} \
CONFIG.PCW_FCLK3_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_FCLK3_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_FCLK3_PERIPHERAL_DIVISOR1 {1} \
CONFIG.PCW_FCLK_CLK0_BUF {TRUE} \
CONFIG.PCW_FCLK_CLK1_BUF {FALSE} \
CONFIG.PCW_FCLK_CLK2_BUF {FALSE} \
CONFIG.PCW_FCLK_CLK3_BUF {FALSE} \
CONFIG.PCW_FPGA0_PERIPHERAL_FREQMHZ {100} \
CONFIG.PCW_FPGA1_PERIPHERAL_FREQMHZ {50} \
CONFIG.PCW_FPGA2_PERIPHERAL_FREQMHZ {50} \
CONFIG.PCW_FPGA3_PERIPHERAL_FREQMHZ {50} \
CONFIG.PCW_FPGA_FCLK0_ENABLE {1} \
CONFIG.PCW_FPGA_FCLK1_ENABLE {0} \
CONFIG.PCW_FPGA_FCLK2_ENABLE {0} \
CONFIG.PCW_FPGA_FCLK3_ENABLE {0} \
CONFIG.PCW_GP0_EN_MODIFIABLE_TXN {1} \
CONFIG.PCW_GP0_NUM_READ_THREADS {4} \
CONFIG.PCW_GP0_NUM_WRITE_THREADS {4} \
CONFIG.PCW_GP1_EN_MODIFIABLE_TXN {1} \
CONFIG.PCW_GP1_NUM_READ_THREADS {4} \
CONFIG.PCW_GP1_NUM_WRITE_THREADS {4} \
CONFIG.PCW_GPIO_BASEADDR {0xE000A000} \
CONFIG.PCW_GPIO_EMIO_GPIO_ENABLE {0} \
CONFIG.PCW_GPIO_EMIO_GPIO_WIDTH {64} \
CONFIG.PCW_GPIO_HIGHADDR {0xE000AFFF} \
CONFIG.PCW_GPIO_MIO_GPIO_ENABLE {0} \
CONFIG.PCW_GPIO_MIO_GPIO_IO {<Select>} \
CONFIG.PCW_GPIO_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_I2C0_BASEADDR {0xE0004000} \
CONFIG.PCW_I2C0_GRP_INT_ENABLE {0} \
CONFIG.PCW_I2C0_HIGHADDR {0xE0004FFF} \
CONFIG.PCW_I2C0_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_I2C0_RESET_ENABLE {0} \
CONFIG.PCW_I2C1_BASEADDR {0xE0005000} \
CONFIG.PCW_I2C1_GRP_INT_ENABLE {0} \
CONFIG.PCW_I2C1_HIGHADDR {0xE0005FFF} \
CONFIG.PCW_I2C1_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_I2C1_RESET_ENABLE {0} \
CONFIG.PCW_I2C_PERIPHERAL_FREQMHZ {25} \
CONFIG.PCW_I2C_RESET_ENABLE {0} \
CONFIG.PCW_I2C_RESET_POLARITY {Active Low} \
CONFIG.PCW_IMPORT_BOARD_PRESET {None} \
CONFIG.PCW_INCLUDE_ACP_TRANS_CHECK {0} \
CONFIG.PCW_INCLUDE_TRACE_BUFFER {0} \
CONFIG.PCW_IOPLL_CTRL_FBDIV {36} \
CONFIG.PCW_IO_IO_PLL_FREQMHZ {1200.000} \
CONFIG.PCW_IRQ_F2P_INTR {0} \
CONFIG.PCW_IRQ_F2P_MODE {DIRECT} \
CONFIG.PCW_MIO_14_DIRECTION {in} \
CONFIG.PCW_MIO_14_IOTYPE {LVCMOS 3.3V} \
CONFIG.PCW_MIO_14_PULLUP {enabled} \
CONFIG.PCW_MIO_14_SLEW {slow} \
CONFIG.PCW_MIO_15_DIRECTION {out} \
CONFIG.PCW_MIO_15_IOTYPE {LVCMOS 3.3V} \
CONFIG.PCW_MIO_15_PULLUP {enabled} \
CONFIG.PCW_MIO_15_SLEW {slow} \
CONFIG.PCW_MIO_1_DIRECTION {out} \
CONFIG.PCW_MIO_1_IOTYPE {LVCMOS 3.3V} \
CONFIG.PCW_MIO_1_PULLUP {enabled} \
CONFIG.PCW_MIO_1_SLEW {slow} \
CONFIG.PCW_MIO_2_DIRECTION {inout} \
CONFIG.PCW_MIO_2_IOTYPE {LVCMOS 3.3V} \
CONFIG.PCW_MIO_2_PULLUP {disabled} \
CONFIG.PCW_MIO_2_SLEW {slow} \
CONFIG.PCW_MIO_3_DIRECTION {inout} \
CONFIG.PCW_MIO_3_IOTYPE {LVCMOS 3.3V} \
CONFIG.PCW_MIO_3_PULLUP {disabled} \
CONFIG.PCW_MIO_3_SLEW {slow} \
CONFIG.PCW_MIO_40_DIRECTION {inout} \
CONFIG.PCW_MIO_40_IOTYPE {LVCMOS 1.8V} \
CONFIG.PCW_MIO_40_PULLUP {enabled} \
CONFIG.PCW_MIO_40_SLEW {slow} \
CONFIG.PCW_MIO_41_DIRECTION {inout} \
CONFIG.PCW_MIO_41_IOTYPE {LVCMOS 1.8V} \
CONFIG.PCW_MIO_41_PULLUP {enabled} \
CONFIG.PCW_MIO_41_SLEW {slow} \
CONFIG.PCW_MIO_42_DIRECTION {inout} \
CONFIG.PCW_MIO_42_IOTYPE {LVCMOS 1.8V} \
CONFIG.PCW_MIO_42_PULLUP {enabled} \
CONFIG.PCW_MIO_42_SLEW {slow} \
CONFIG.PCW_MIO_43_DIRECTION {inout} \
CONFIG.PCW_MIO_43_IOTYPE {LVCMOS 1.8V} \
CONFIG.PCW_MIO_43_PULLUP {enabled} \
CONFIG.PCW_MIO_43_SLEW {slow} \
CONFIG.PCW_MIO_44_DIRECTION {inout} \
CONFIG.PCW_MIO_44_IOTYPE {LVCMOS 1.8V} \
CONFIG.PCW_MIO_44_PULLUP {enabled} \
CONFIG.PCW_MIO_44_SLEW {slow} \
CONFIG.PCW_MIO_45_DIRECTION {inout} \
CONFIG.PCW_MIO_45_IOTYPE {LVCMOS 1.8V} \
CONFIG.PCW_MIO_45_PULLUP {enabled} \
CONFIG.PCW_MIO_45_SLEW {slow} \
CONFIG.PCW_MIO_47_DIRECTION {in} \
CONFIG.PCW_MIO_47_IOTYPE {LVCMOS 1.8V} \
CONFIG.PCW_MIO_47_PULLUP {enabled} \
CONFIG.PCW_MIO_47_SLEW {slow} \
CONFIG.PCW_MIO_4_DIRECTION {inout} \
CONFIG.PCW_MIO_4_IOTYPE {LVCMOS 3.3V} \
CONFIG.PCW_MIO_4_PULLUP {disabled} \
CONFIG.PCW_MIO_4_SLEW {slow} \
CONFIG.PCW_MIO_5_DIRECTION {inout} \
CONFIG.PCW_MIO_5_IOTYPE {LVCMOS 3.3V} \
CONFIG.PCW_MIO_5_PULLUP {disabled} \
CONFIG.PCW_MIO_5_SLEW {slow} \
CONFIG.PCW_MIO_6_DIRECTION {out} \
CONFIG.PCW_MIO_6_IOTYPE {LVCMOS 3.3V} \
CONFIG.PCW_MIO_6_PULLUP {disabled} \
CONFIG.PCW_MIO_6_SLEW {slow} \
CONFIG.PCW_MIO_PRIMITIVE {54} \
CONFIG.PCW_MIO_TREE_PERIPHERALS {unassigned#Quad SPI Flash#Quad SPI Flash#Quad SPI Flash#Quad SPI Flash#Quad SPI Flash#Quad SPI Flash#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#UART 0#UART 0#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#SD 0#SD 0#SD 0#SD 0#SD 0#SD 0#unassigned#SD 0#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned} \
CONFIG.PCW_MIO_TREE_SIGNALS {unassigned#qspi0_ss_b#qspi0_io[0]#qspi0_io[1]#qspi0_io[2]#qspi0_io[3]/HOLD_B#qspi0_sclk#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#rx#tx#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#clk#cmd#data[0]#data[1]#data[2]#data[3]#unassigned#cd#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned} \
CONFIG.PCW_M_AXI_GP0_ENABLE_STATIC_REMAP {0} \
CONFIG.PCW_M_AXI_GP0_ID_WIDTH {12} \
CONFIG.PCW_M_AXI_GP0_SUPPORT_NARROW_BURST {0} \
CONFIG.PCW_M_AXI_GP0_THREAD_ID_WIDTH {12} \
CONFIG.PCW_M_AXI_GP1_ENABLE_STATIC_REMAP {0} \
CONFIG.PCW_M_AXI_GP1_ID_WIDTH {12} \
CONFIG.PCW_M_AXI_GP1_SUPPORT_NARROW_BURST {0} \
CONFIG.PCW_M_AXI_GP1_THREAD_ID_WIDTH {12} \
CONFIG.PCW_NAND_CYCLES_T_AR {1} \
CONFIG.PCW_NAND_CYCLES_T_CLR {1} \
CONFIG.PCW_NAND_CYCLES_T_RC {11} \
CONFIG.PCW_NAND_CYCLES_T_REA {1} \
CONFIG.PCW_NAND_CYCLES_T_RR {1} \
CONFIG.PCW_NAND_CYCLES_T_WC {11} \
CONFIG.PCW_NAND_CYCLES_T_WP {1} \
CONFIG.PCW_NAND_GRP_D8_ENABLE {0} \
CONFIG.PCW_NAND_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_NOR_CS0_T_CEOE {1} \
CONFIG.PCW_NOR_CS0_T_PC {1} \
CONFIG.PCW_NOR_CS0_T_RC {11} \
CONFIG.PCW_NOR_CS0_T_TR {1} \
CONFIG.PCW_NOR_CS0_T_WC {11} \
CONFIG.PCW_NOR_CS0_T_WP {1} \
CONFIG.PCW_NOR_CS0_WE_TIME {0} \
CONFIG.PCW_NOR_CS1_T_CEOE {1} \
CONFIG.PCW_NOR_CS1_T_PC {1} \
CONFIG.PCW_NOR_CS1_T_RC {11} \
CONFIG.PCW_NOR_CS1_T_TR {1} \
CONFIG.PCW_NOR_CS1_T_WC {11} \
CONFIG.PCW_NOR_CS1_T_WP {1} \
CONFIG.PCW_NOR_CS1_WE_TIME {0} \
CONFIG.PCW_NOR_GRP_A25_ENABLE {0} \
CONFIG.PCW_NOR_GRP_CS0_ENABLE {0} \
CONFIG.PCW_NOR_GRP_CS1_ENABLE {0} \
CONFIG.PCW_NOR_GRP_SRAM_CS0_ENABLE {0} \
CONFIG.PCW_NOR_GRP_SRAM_CS1_ENABLE {0} \
CONFIG.PCW_NOR_GRP_SRAM_INT_ENABLE {0} \
CONFIG.PCW_NOR_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_NOR_SRAM_CS0_T_CEOE {1} \
CONFIG.PCW_NOR_SRAM_CS0_T_PC {1} \
CONFIG.PCW_NOR_SRAM_CS0_T_RC {11} \
CONFIG.PCW_NOR_SRAM_CS0_T_TR {1} \
CONFIG.PCW_NOR_SRAM_CS0_T_WC {11} \
CONFIG.PCW_NOR_SRAM_CS0_T_WP {1} \
CONFIG.PCW_NOR_SRAM_CS0_WE_TIME {0} \
CONFIG.PCW_NOR_SRAM_CS1_T_CEOE {1} \
CONFIG.PCW_NOR_SRAM_CS1_T_PC {1} \
CONFIG.PCW_NOR_SRAM_CS1_T_RC {11} \
CONFIG.PCW_NOR_SRAM_CS1_T_TR {1} \
CONFIG.PCW_NOR_SRAM_CS1_T_WC {11} \
CONFIG.PCW_NOR_SRAM_CS1_T_WP {1} \
CONFIG.PCW_NOR_SRAM_CS1_WE_TIME {0} \
CONFIG.PCW_OVERRIDE_BASIC_CLOCK {0} \
CONFIG.PCW_P2F_CAN0_INTR {0} \
CONFIG.PCW_P2F_CAN1_INTR {0} \
CONFIG.PCW_P2F_CTI_INTR {0} \
CONFIG.PCW_P2F_DMAC0_INTR {0} \
CONFIG.PCW_P2F_DMAC1_INTR {0} \
CONFIG.PCW_P2F_DMAC2_INTR {0} \
CONFIG.PCW_P2F_DMAC3_INTR {0} \
CONFIG.PCW_P2F_DMAC4_INTR {0} \
CONFIG.PCW_P2F_DMAC5_INTR {0} \
CONFIG.PCW_P2F_DMAC6_INTR {0} \
CONFIG.PCW_P2F_DMAC7_INTR {0} \
CONFIG.PCW_P2F_DMAC_ABORT_INTR {0} \
CONFIG.PCW_P2F_ENET0_INTR {0} \
CONFIG.PCW_P2F_ENET1_INTR {0} \
CONFIG.PCW_P2F_GPIO_INTR {0} \
CONFIG.PCW_P2F_I2C0_INTR {0} \
CONFIG.PCW_P2F_I2C1_INTR {0} \
CONFIG.PCW_P2F_QSPI_INTR {0} \
CONFIG.PCW_P2F_SDIO0_INTR {0} \
CONFIG.PCW_P2F_SDIO1_INTR {0} \
CONFIG.PCW_P2F_SMC_INTR {0} \
CONFIG.PCW_P2F_SPI0_INTR {0} \
CONFIG.PCW_P2F_SPI1_INTR {0} \
CONFIG.PCW_P2F_UART0_INTR {0} \
CONFIG.PCW_P2F_UART1_INTR {0} \
CONFIG.PCW_P2F_USB0_INTR {0} \
CONFIG.PCW_P2F_USB1_INTR {0} \
CONFIG.PCW_PACKAGE_DDR_BOARD_DELAY0 {0.063} \
CONFIG.PCW_PACKAGE_DDR_BOARD_DELAY1 {0.062} \
CONFIG.PCW_PACKAGE_DDR_BOARD_DELAY2 {0.065} \
CONFIG.PCW_PACKAGE_DDR_BOARD_DELAY3 {0.083} \
CONFIG.PCW_PACKAGE_DDR_DQS_TO_CLK_DELAY_0 {-0.007} \
CONFIG.PCW_PACKAGE_DDR_DQS_TO_CLK_DELAY_1 {-0.010} \
CONFIG.PCW_PACKAGE_DDR_DQS_TO_CLK_DELAY_2 {-0.006} \
CONFIG.PCW_PACKAGE_DDR_DQS_TO_CLK_DELAY_3 {-0.048} \
CONFIG.PCW_PACKAGE_NAME {clg484} \
CONFIG.PCW_PCAP_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_PCAP_PERIPHERAL_DIVISOR0 {6} \
CONFIG.PCW_PCAP_PERIPHERAL_FREQMHZ {200} \
CONFIG.PCW_PERIPHERAL_BOARD_PRESET {part0} \
CONFIG.PCW_PJTAG_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_PLL_BYPASSMODE_ENABLE {0} \
CONFIG.PCW_PRESET_BANK0_VOLTAGE {LVCMOS 3.3V} \
CONFIG.PCW_PRESET_BANK1_VOLTAGE {LVCMOS 1.8V} \
CONFIG.PCW_PS7_SI_REV {PRODUCTION} \
CONFIG.PCW_QSPI_GRP_FBCLK_ENABLE {0} \
CONFIG.PCW_QSPI_GRP_IO1_ENABLE {0} \
CONFIG.PCW_QSPI_GRP_SINGLE_SS_ENABLE {1} \
CONFIG.PCW_QSPI_GRP_SINGLE_SS_IO {MIO 1 .. 6} \
CONFIG.PCW_QSPI_GRP_SS1_ENABLE {0} \
CONFIG.PCW_QSPI_INTERNAL_HIGHADDRESS {0xFCFFFFFF} \
CONFIG.PCW_QSPI_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_QSPI_PERIPHERAL_DIVISOR0 {6} \
CONFIG.PCW_QSPI_PERIPHERAL_ENABLE {1} \
CONFIG.PCW_QSPI_PERIPHERAL_FREQMHZ {200} \
CONFIG.PCW_QSPI_QSPI_IO {MIO 1 .. 6} \
CONFIG.PCW_SD0_GRP_CD_ENABLE {1} \
CONFIG.PCW_SD0_GRP_CD_IO {MIO 47} \
CONFIG.PCW_SD0_GRP_POW_ENABLE {0} \
CONFIG.PCW_SD0_GRP_WP_ENABLE {0} \
CONFIG.PCW_SD0_PERIPHERAL_ENABLE {1} \
CONFIG.PCW_SD0_SD0_IO {MIO 40 .. 45} \
CONFIG.PCW_SD1_GRP_CD_ENABLE {0} \
CONFIG.PCW_SD1_GRP_POW_ENABLE {0} \
CONFIG.PCW_SD1_GRP_WP_ENABLE {0} \
CONFIG.PCW_SD1_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_SDIO0_BASEADDR {0xE0100000} \
CONFIG.PCW_SDIO0_HIGHADDR {0xE0100FFF} \
CONFIG.PCW_SDIO1_BASEADDR {0xE0101000} \
CONFIG.PCW_SDIO1_HIGHADDR {0xE0101FFF} \
CONFIG.PCW_SDIO_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_SDIO_PERIPHERAL_DIVISOR0 {60} \
CONFIG.PCW_SDIO_PERIPHERAL_FREQMHZ {20} \
CONFIG.PCW_SDIO_PERIPHERAL_VALID {1} \
CONFIG.PCW_SINGLE_QSPI_DATA_MODE {x4} \
CONFIG.PCW_SMC_CYCLE_T0 {NA} \
CONFIG.PCW_SMC_CYCLE_T1 {NA} \
CONFIG.PCW_SMC_CYCLE_T2 {NA} \
CONFIG.PCW_SMC_CYCLE_T3 {NA} \
CONFIG.PCW_SMC_CYCLE_T4 {NA} \
CONFIG.PCW_SMC_CYCLE_T5 {NA} \
CONFIG.PCW_SMC_CYCLE_T6 {NA} \
CONFIG.PCW_SMC_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_SMC_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_SMC_PERIPHERAL_FREQMHZ {100} \
CONFIG.PCW_SMC_PERIPHERAL_VALID {0} \
CONFIG.PCW_SPI0_BASEADDR {0xE0006000} \
CONFIG.PCW_SPI0_GRP_SS0_ENABLE {0} \
CONFIG.PCW_SPI0_GRP_SS1_ENABLE {0} \
CONFIG.PCW_SPI0_GRP_SS2_ENABLE {0} \
CONFIG.PCW_SPI0_HIGHADDR {0xE0006FFF} \
CONFIG.PCW_SPI0_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_SPI1_BASEADDR {0xE0007000} \
CONFIG.PCW_SPI1_GRP_SS0_ENABLE {0} \
CONFIG.PCW_SPI1_GRP_SS1_ENABLE {0} \
CONFIG.PCW_SPI1_GRP_SS2_ENABLE {0} \
CONFIG.PCW_SPI1_HIGHADDR {0xE0007FFF} \
CONFIG.PCW_SPI1_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_SPI_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_SPI_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_SPI_PERIPHERAL_FREQMHZ {166.666666} \
CONFIG.PCW_SPI_PERIPHERAL_VALID {0} \
CONFIG.PCW_S_AXI_ACP_ARUSER_VAL {31} \
CONFIG.PCW_S_AXI_ACP_AWUSER_VAL {31} \
CONFIG.PCW_S_AXI_ACP_ID_WIDTH {3} \
CONFIG.PCW_S_AXI_GP0_ID_WIDTH {6} \
CONFIG.PCW_S_AXI_GP1_ID_WIDTH {6} \
CONFIG.PCW_S_AXI_HP0_DATA_WIDTH {64} \
CONFIG.PCW_S_AXI_HP0_ID_WIDTH {6} \
CONFIG.PCW_S_AXI_HP1_DATA_WIDTH {64} \
CONFIG.PCW_S_AXI_HP1_ID_WIDTH {6} \
CONFIG.PCW_S_AXI_HP2_DATA_WIDTH {64} \
CONFIG.PCW_S_AXI_HP2_ID_WIDTH {6} \
CONFIG.PCW_S_AXI_HP3_DATA_WIDTH {64} \
CONFIG.PCW_S_AXI_HP3_ID_WIDTH {6} \
CONFIG.PCW_TPIU_PERIPHERAL_CLKSRC {External} \
CONFIG.PCW_TPIU_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_TPIU_PERIPHERAL_FREQMHZ {200} \
CONFIG.PCW_TRACE_BUFFER_CLOCK_DELAY {12} \
CONFIG.PCW_TRACE_BUFFER_FIFO_SIZE {128} \
CONFIG.PCW_TRACE_GRP_16BIT_ENABLE {0} \
CONFIG.PCW_TRACE_GRP_2BIT_ENABLE {0} \
CONFIG.PCW_TRACE_GRP_32BIT_ENABLE {0} \
CONFIG.PCW_TRACE_GRP_4BIT_ENABLE {0} \
CONFIG.PCW_TRACE_GRP_8BIT_ENABLE {0} \
CONFIG.PCW_TRACE_INTERNAL_WIDTH {2} \
CONFIG.PCW_TRACE_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_TRACE_PIPELINE_WIDTH {8} \
CONFIG.PCW_TTC0_BASEADDR {0xE0104000} \
CONFIG.PCW_TTC0_CLK0_PERIPHERAL_CLKSRC {CPU_1X} \
CONFIG.PCW_TTC0_CLK0_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_TTC0_CLK0_PERIPHERAL_FREQMHZ {133.333333} \
CONFIG.PCW_TTC0_CLK1_PERIPHERAL_CLKSRC {CPU_1X} \
CONFIG.PCW_TTC0_CLK1_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_TTC0_CLK1_PERIPHERAL_FREQMHZ {133.333333} \
CONFIG.PCW_TTC0_CLK2_PERIPHERAL_CLKSRC {CPU_1X} \
CONFIG.PCW_TTC0_CLK2_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_TTC0_CLK2_PERIPHERAL_FREQMHZ {133.333333} \
CONFIG.PCW_TTC0_HIGHADDR {0xE0104fff} \
CONFIG.PCW_TTC0_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_TTC1_BASEADDR {0xE0105000} \
CONFIG.PCW_TTC1_CLK0_PERIPHERAL_CLKSRC {CPU_1X} \
CONFIG.PCW_TTC1_CLK0_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_TTC1_CLK0_PERIPHERAL_FREQMHZ {133.333333} \
CONFIG.PCW_TTC1_CLK1_PERIPHERAL_CLKSRC {CPU_1X} \
CONFIG.PCW_TTC1_CLK1_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_TTC1_CLK1_PERIPHERAL_FREQMHZ {133.333333} \
CONFIG.PCW_TTC1_CLK2_PERIPHERAL_CLKSRC {CPU_1X} \
CONFIG.PCW_TTC1_CLK2_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_TTC1_CLK2_PERIPHERAL_FREQMHZ {133.333333} \
CONFIG.PCW_TTC1_HIGHADDR {0xE0105fff} \
CONFIG.PCW_TTC1_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_TTC_PERIPHERAL_FREQMHZ {50} \
CONFIG.PCW_UART0_BASEADDR {0xE0000000} \
CONFIG.PCW_UART0_BAUD_RATE {115200} \
CONFIG.PCW_UART0_GRP_FULL_ENABLE {0} \
CONFIG.PCW_UART0_HIGHADDR {0xE0000FFF} \
CONFIG.PCW_UART0_PERIPHERAL_ENABLE {1} \
CONFIG.PCW_UART0_UART0_IO {MIO 14 .. 15} \
CONFIG.PCW_UART1_BASEADDR {0xE0001000} \
CONFIG.PCW_UART1_BAUD_RATE {115200} \
CONFIG.PCW_UART1_GRP_FULL_ENABLE {0} \
CONFIG.PCW_UART1_HIGHADDR {0xE0001FFF} \
CONFIG.PCW_UART1_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_UART_PERIPHERAL_CLKSRC {IO PLL} \
CONFIG.PCW_UART_PERIPHERAL_DIVISOR0 {12} \
CONFIG.PCW_UART_PERIPHERAL_FREQMHZ {100} \
CONFIG.PCW_UART_PERIPHERAL_VALID {1} \
CONFIG.PCW_UIPARAM_ACT_DDR_FREQ_MHZ {533.333374} \
CONFIG.PCW_UIPARAM_DDR_ADV_ENABLE {0} \
CONFIG.PCW_UIPARAM_DDR_AL {0} \
CONFIG.PCW_UIPARAM_DDR_BANK_ADDR_COUNT {3} \
CONFIG.PCW_UIPARAM_DDR_BL {8} \
CONFIG.PCW_UIPARAM_DDR_BOARD_DELAY0 {0.25} \
CONFIG.PCW_UIPARAM_DDR_BOARD_DELAY1 {0.25} \
CONFIG.PCW_UIPARAM_DDR_BOARD_DELAY2 {0.25} \
CONFIG.PCW_UIPARAM_DDR_BOARD_DELAY3 {0.25} \
CONFIG.PCW_UIPARAM_DDR_BUS_WIDTH {32 Bit} \
CONFIG.PCW_UIPARAM_DDR_CL {7} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_0_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_0_PACKAGE_LENGTH {61.0905} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_0_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_1_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_1_PACKAGE_LENGTH {61.0905} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_1_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_2_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_2_PACKAGE_LENGTH {61.0905} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_2_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_3_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_3_PACKAGE_LENGTH {61.0905} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_3_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_CLOCK_STOP_EN {0} \
CONFIG.PCW_UIPARAM_DDR_COL_ADDR_COUNT {10} \
CONFIG.PCW_UIPARAM_DDR_CWL {6} \
CONFIG.PCW_UIPARAM_DDR_DEVICE_CAPACITY {4096 MBits} \
CONFIG.PCW_UIPARAM_DDR_DQS_0_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_DQS_0_PACKAGE_LENGTH {68.4725} \
CONFIG.PCW_UIPARAM_DDR_DQS_0_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_DQS_1_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_DQS_1_PACKAGE_LENGTH {71.086} \
CONFIG.PCW_UIPARAM_DDR_DQS_1_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_DQS_2_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_DQS_2_PACKAGE_LENGTH {66.794} \
CONFIG.PCW_UIPARAM_DDR_DQS_2_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_DQS_3_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_DQS_3_PACKAGE_LENGTH {108.7385} \
CONFIG.PCW_UIPARAM_DDR_DQS_3_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_DQS_TO_CLK_DELAY_0 {0.0} \
CONFIG.PCW_UIPARAM_DDR_DQS_TO_CLK_DELAY_1 {0.0} \
CONFIG.PCW_UIPARAM_DDR_DQS_TO_CLK_DELAY_2 {0.0} \
CONFIG.PCW_UIPARAM_DDR_DQS_TO_CLK_DELAY_3 {0.0} \
CONFIG.PCW_UIPARAM_DDR_DQ_0_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_DQ_0_PACKAGE_LENGTH {64.1705} \
CONFIG.PCW_UIPARAM_DDR_DQ_0_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_DQ_1_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_DQ_1_PACKAGE_LENGTH {63.686} \
CONFIG.PCW_UIPARAM_DDR_DQ_1_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_DQ_2_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_DQ_2_PACKAGE_LENGTH {68.46} \
CONFIG.PCW_UIPARAM_DDR_DQ_2_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_DQ_3_LENGTH_MM {0} \
CONFIG.PCW_UIPARAM_DDR_DQ_3_PACKAGE_LENGTH {105.4895} \
CONFIG.PCW_UIPARAM_DDR_DQ_3_PROPOGATION_DELAY {160} \
CONFIG.PCW_UIPARAM_DDR_DRAM_WIDTH {16 Bits} \
CONFIG.PCW_UIPARAM_DDR_ECC {Disabled} \
CONFIG.PCW_UIPARAM_DDR_ENABLE {1} \
CONFIG.PCW_UIPARAM_DDR_FREQ_MHZ {533.333} \
CONFIG.PCW_UIPARAM_DDR_HIGH_TEMP {Normal (0-85)} \
CONFIG.PCW_UIPARAM_DDR_MEMORY_TYPE {DDR 3 (Low Voltage)} \
CONFIG.PCW_UIPARAM_DDR_PARTNO {MT41J256M16 RE-125} \
CONFIG.PCW_UIPARAM_DDR_ROW_ADDR_COUNT {15} \
CONFIG.PCW_UIPARAM_DDR_SPEED_BIN {DDR3_1066F} \
CONFIG.PCW_UIPARAM_DDR_TRAIN_DATA_EYE {0} \
CONFIG.PCW_UIPARAM_DDR_TRAIN_READ_GATE {0} \
CONFIG.PCW_UIPARAM_DDR_TRAIN_WRITE_LEVEL {0} \
CONFIG.PCW_UIPARAM_DDR_T_FAW {40.0} \
CONFIG.PCW_UIPARAM_DDR_T_RAS_MIN {35.0} \
CONFIG.PCW_UIPARAM_DDR_T_RC {48.91} \
CONFIG.PCW_UIPARAM_DDR_T_RCD {7} \
CONFIG.PCW_UIPARAM_DDR_T_RP {7} \
CONFIG.PCW_UIPARAM_DDR_USE_INTERNAL_VREF {0} \
CONFIG.PCW_UIPARAM_GENERATE_SUMMARY {NA} \
CONFIG.PCW_USB0_BASEADDR {0xE0102000} \
CONFIG.PCW_USB0_HIGHADDR {0xE0102fff} \
CONFIG.PCW_USB0_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_USB0_PERIPHERAL_FREQMHZ {60} \
CONFIG.PCW_USB0_RESET_ENABLE {0} \
CONFIG.PCW_USB1_BASEADDR {0xE0103000} \
CONFIG.PCW_USB1_HIGHADDR {0xE0103fff} \
CONFIG.PCW_USB1_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_USB1_PERIPHERAL_FREQMHZ {60} \
CONFIG.PCW_USB1_RESET_ENABLE {0} \
CONFIG.PCW_USB_RESET_ENABLE {0} \
CONFIG.PCW_USB_RESET_POLARITY {Active Low} \
CONFIG.PCW_USE_AXI_FABRIC_IDLE {0} \
CONFIG.PCW_USE_AXI_NONSECURE {0} \
CONFIG.PCW_USE_CORESIGHT {0} \
CONFIG.PCW_USE_CROSS_TRIGGER {0} \
CONFIG.PCW_USE_CR_FABRIC {1} \
CONFIG.PCW_USE_DDR_BYPASS {0} \
CONFIG.PCW_USE_DEBUG {0} \
CONFIG.PCW_USE_DEFAULT_ACP_USER_VAL {0} \
CONFIG.PCW_USE_DMA0 {0} \
CONFIG.PCW_USE_DMA1 {0} \
CONFIG.PCW_USE_DMA2 {0} \
CONFIG.PCW_USE_DMA3 {0} \
CONFIG.PCW_USE_EXPANDED_IOP {0} \
CONFIG.PCW_USE_EXPANDED_PS_SLCR_REGISTERS {0} \
CONFIG.PCW_USE_FABRIC_INTERRUPT {0} \
CONFIG.PCW_USE_HIGH_OCM {0} \
CONFIG.PCW_USE_M_AXI_GP0 {1} \
CONFIG.PCW_USE_M_AXI_GP1 {0} \
CONFIG.PCW_USE_PROC_EVENT_BUS {0} \
CONFIG.PCW_USE_PS_SLCR_REGISTERS {0} \
CONFIG.PCW_USE_S_AXI_ACP {0} \
CONFIG.PCW_USE_S_AXI_GP0 {0} \
CONFIG.PCW_USE_S_AXI_GP1 {0} \
CONFIG.PCW_USE_S_AXI_HP0 {0} \
CONFIG.PCW_USE_S_AXI_HP1 {0} \
CONFIG.PCW_USE_S_AXI_HP2 {0} \
CONFIG.PCW_USE_S_AXI_HP3 {0} \
CONFIG.PCW_USE_TRACE {0} \
CONFIG.PCW_USE_TRACE_DATA_EDGE_DETECTOR {0} \
CONFIG.PCW_VALUE_SILVERSION {3} \
CONFIG.PCW_WDT_PERIPHERAL_CLKSRC {CPU_1X} \
CONFIG.PCW_WDT_PERIPHERAL_DIVISOR0 {1} \
CONFIG.PCW_WDT_PERIPHERAL_ENABLE {0} \
CONFIG.PCW_WDT_PERIPHERAL_FREQMHZ {133.333333} \
] $processing_system7_0
# Create instance: rst_ps7_0_100M, and set properties
set rst_ps7_0_100M [ create_bd_cell -type ip -vlnv xilinx.com:ip:proc_sys_reset:5.* rst_ps7_0_100M ]
# Create interface connections
connect_bd_intf_net -intf_net axi_bram_ctrl_BRAM_PORTA [get_bd_intf_pins axi_bram_ctrl/BRAM_PORTA] [get_bd_intf_pins axi_bram_ctrl_bram/BRAM_PORTA]
connect_bd_intf_net -intf_net axi_bram_ctrl_BRAM_PORTB [get_bd_intf_pins axi_bram_ctrl/BRAM_PORTB] [get_bd_intf_pins axi_bram_ctrl_bram/BRAM_PORTB]
connect_bd_intf_net -intf_net axi_smc_M00_AXI [get_bd_intf_pins axi_bram_ctrl/S_AXI] [get_bd_intf_pins axi_smc/M00_AXI]
connect_bd_intf_net -intf_net processing_system7_0_DDR [get_bd_intf_ports DDR] [get_bd_intf_pins processing_system7_0/DDR]
connect_bd_intf_net -intf_net processing_system7_0_FIXED_IO [get_bd_intf_ports FIXED_IO] [get_bd_intf_pins processing_system7_0/FIXED_IO]
connect_bd_intf_net -intf_net processing_system7_0_M_AXI_GP0 [get_bd_intf_pins axi_smc/S00_AXI] [get_bd_intf_pins processing_system7_0/M_AXI_GP0]
# Create port connections
connect_bd_net -net aux_reset_in_0_1 [get_bd_ports ext_reset_n] [get_bd_pins rst_ps7_0_100M/aux_reset_in]
connect_bd_net -net processing_system7_0_FCLK_CLK0 [get_bd_ports FCLK_CLK0] [get_bd_pins axi_bram_ctrl/s_axi_aclk] [get_bd_pins axi_smc/aclk] [get_bd_pins processing_system7_0/FCLK_CLK0] [get_bd_pins processing_system7_0/M_AXI_GP0_ACLK] [get_bd_pins rst_ps7_0_100M/slowest_sync_clk]
connect_bd_net -net processing_system7_0_FCLK_RESET0_N [get_bd_ports FCLK_RESET0_N] [get_bd_pins processing_system7_0/FCLK_RESET0_N] [get_bd_pins rst_ps7_0_100M/ext_reset_in]
connect_bd_net -net rst_ps7_0_100M_peripheral_aresetn [get_bd_pins axi_bram_ctrl/s_axi_aresetn] [get_bd_pins axi_smc/aresetn] [get_bd_pins rst_ps7_0_100M/peripheral_aresetn]
# Create address segments
create_bd_addr_seg -range 0x00020000 -offset 0x40000000 [get_bd_addr_spaces processing_system7_0/Data] [get_bd_addr_segs axi_bram_ctrl/S_AXI/Mem0] SEG_axi_bram_ctrl_Mem0
# Restore current instance
current_bd_instance $oldCurInst
save_bd_design
}
# End of create_root_design()
##################################################################
# MAIN FLOW
##################################################################
create_root_design ""

793
tools/xilinx/clkpll.xci Normal file
View File

@ -0,0 +1,793 @@
<?xml version="1.0" encoding="UTF-8"?>
<spirit:design xmlns:xilinx="http://www.xilinx.com" xmlns:spirit="http://www.spiritconsortium.org/XMLSchema/SPIRIT/1685-2009" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
<spirit:vendor>xilinx.com</spirit:vendor>
<spirit:library>xci</spirit:library>
<spirit:name>unknown</spirit:name>
<spirit:version>1.0</spirit:version>
<spirit:componentInstances>
<spirit:componentInstance>
<spirit:instanceName>clkpll</spirit:instanceName>
<spirit:componentRef spirit:vendor="xilinx.com" spirit:library="ip" spirit:name="clk_wiz" spirit:version="6.0"/>
<spirit:configurableElementValues>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLKFB_IN_D.CAN_DEBUG">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLKFB_IN_D.FREQ_HZ">100000000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLKFB_OUT_D.CAN_DEBUG">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLKFB_OUT_D.FREQ_HZ">100000000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLK_IN1_D.CAN_DEBUG">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLK_IN1_D.FREQ_HZ">100000000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLK_IN2_D.CAN_DEBUG">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLK_IN2_D.FREQ_HZ">100000000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_IN1.ASSOCIATED_BUSIF"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_IN1.ASSOCIATED_PORT"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_IN1.ASSOCIATED_RESET"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_IN1.CLK_DOMAIN"/>
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<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_IN1.PHASE">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_OUT1.ASSOCIATED_BUSIF"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_OUT1.ASSOCIATED_PORT"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_OUT1.ASSOCIATED_RESET"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_OUT1.CLK_DOMAIN"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_OUT1.FREQ_HZ">100000000</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.CLOCK_CLK_OUT1.PHASE">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.INTR.PortWidth">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.INTR.SENSITIVITY">LEVEL_HIGH</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.REF_CLK.ASSOCIATED_BUSIF"/>
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<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.REF_CLK.ASSOCIATED_RESET"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.REF_CLK.CLK_DOMAIN"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.REF_CLK.FREQ_HZ">100000000</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.REF_CLK.PHASE">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.RESET.INSERT_VIP">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.RESETN.INSERT_VIP">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_ACLK.ASSOCIATED_PORT"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_ACLK.CLK_DOMAIN"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_ACLK.FREQ_HZ">100000000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_ACLK.FREQ_TOLERANCE_HZ">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_ACLK.INSERT_VIP">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_ACLK.PHASE">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.ADDR_WIDTH">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.ARUSER_WIDTH">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.AWUSER_WIDTH">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.BUSER_WIDTH">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.CLK_DOMAIN"/>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.DATA_WIDTH">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.FREQ_HZ">100000000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_BRESP">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_BURST">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_CACHE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_LOCK">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_PROT">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_QOS">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_REGION">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_RRESP">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_WSTRB">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.ID_WIDTH">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.INSERT_VIP">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.MAX_BURST_LENGTH">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.NUM_READ_OUTSTANDING">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.NUM_READ_THREADS">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.NUM_WRITE_OUTSTANDING">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.NUM_WRITE_THREADS">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.PHASE">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.PROTOCOL">AXI4LITE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.READ_WRITE_MODE">READ_WRITE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.RUSER_BITS_PER_BYTE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.RUSER_WIDTH">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.SUPPORTS_NARROW_BURST">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.WUSER_BITS_PER_BYTE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.WUSER_WIDTH">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="BUSIFPARAM_VALUE.S_AXI_RESETN.INSERT_VIP">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_AUTO_PRIMITIVE">MMCM</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CDDCDONE_PORT">cddcdone</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CDDCREQ_PORT">cddcreq</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKFBOUT_1">0000</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKFB_IN_N_PORT">clkfb_in_n</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKFB_IN_PORT">clkfb_in</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKFB_IN_P_PORT">clkfb_in_p</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKFB_IN_SIGNALING">SINGLE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKFB_OUT_N_PORT">clkfb_out_n</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKFB_OUT_PORT">clkfb_out</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKFB_OUT_P_PORT">clkfb_out_p</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKFB_STOPPED_PORT">clkfb_stopped</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKIN1_JITTER_PS">80.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKIN2_JITTER_PS">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT0_1">0000</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT0_ACTUAL_FREQ">100.00000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_1">0000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_2">0000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_ACTUAL_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_DUTY_CYCLE">50.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_OUT_FREQ">100.00000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT1_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT2_ACTUAL_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT2_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT2_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT2_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT2_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT2_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT2_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT2_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT2_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT2_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT3_ACTUAL_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT3_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT3_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT3_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT3_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT3_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT3_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT3_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT3_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT3_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT4_ACTUAL_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT4_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT4_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT4_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT4_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT4_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT4_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT4_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT4_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT4_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT5_ACTUAL_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT5_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT5_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT5_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT5_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT5_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT5_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT5_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT5_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT5_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT6_ACTUAL_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT6_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT6_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT6_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT6_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT6_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT6_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT6_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT6_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT6_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT7_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT7_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT7_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT7_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT7_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT7_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT7_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT7_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT7_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUT7_USED">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLKOUTPHY_MODE">VCO</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLK_IN_SEL_PORT">clk_in_sel</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLK_OUT1_PORT">outclk_0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLK_OUT2_PORT">clk_out2</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLK_OUT3_PORT">clk_out3</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLK_OUT4_PORT">clk_out4</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLK_OUT5_PORT">clk_out5</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLK_OUT6_PORT">clk_out6</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLK_OUT7_PORT">clk_out7</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLK_VALID_PORT">CLK_VALID</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_CLOCK_MGR_TYPE">NA</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DADDR_PORT">daddr</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DCLK_PORT">dclk</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DEN_PORT">den</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DIN_PORT">din</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DIVCLK">0000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DIVIDE1_AUTO">1</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DIVIDE3_AUTO">0.1111111111111111</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DIVIDE5_AUTO">0.1111111111111111</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DIVIDE7_AUTO">0.1111111111111111</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DOUT_PORT">dout</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DRDY_PORT">drdy</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_DWE_PORT">dwe</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_D_MAX">42.000</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_ENABLE_CLKOUTPHY">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_ENABLE_CLOCK_MONITOR">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_ENABLE_USER_CLOCK0">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_ENABLE_USER_CLOCK1">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_ENABLE_USER_CLOCK2">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_ENABLE_USER_CLOCK3">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_Enable_PLL0">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_Enable_PLL1">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_FEEDBACK_SOURCE">FDBK_AUTO</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_FILTER_1">0000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_FILTER_2">0000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_HAS_CDDC">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_INCLK_SUM_ROW0">Input Clock Freq (MHz) Input Jitter (UI)</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_INCLK_SUM_ROW1">__primary_________125.000____________0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_INCLK_SUM_ROW2">no_secondary_input_clock </spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_INPUT_CLK_STOPPED_PORT">input_clk_stopped</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_INTERFACE_SELECTION">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_IN_FREQ_UNITS">Units_MHz</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_JITTER_SEL">No_Jitter</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_LOCKED_PORT">locked</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_LOCK_1">0000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_LOCK_2">0000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_LOCK_3">0000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCMBUFGCEDIV">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCMBUFGCEDIV1">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCMBUFGCEDIV2">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCMBUFGCEDIV3">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCMBUFGCEDIV4">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCMBUFGCEDIV5">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCMBUFGCEDIV6">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCMBUFGCEDIV7">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_BANDWIDTH">OPTIMIZED</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKFBOUT_MULT_F">36.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKFBOUT_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKFBOUT_USE_FINE_PS">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKIN1_PERIOD">8.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKIN2_PERIOD">10.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT0_DIVIDE_F">9.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT0_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT0_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT0_USE_FINE_PS">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT1_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT1_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT1_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT1_USE_FINE_PS">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT2_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT2_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT2_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT2_USE_FINE_PS">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT3_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT3_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT3_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT3_USE_FINE_PS">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT4_CASCADE">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT4_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT4_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT4_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT4_USE_FINE_PS">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT5_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT5_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT5_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT5_USE_FINE_PS">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT6_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT6_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT6_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLKOUT6_USE_FINE_PS">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_CLOCK_HOLD">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_COMPENSATION">ZHOLD</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_DIVCLK_DIVIDE">5</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_NOTES">None</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_REF_JITTER1">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_REF_JITTER2">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_MMCM_STARTUP_WAIT">FALSE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_M_MAX">64.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_M_MIN">2.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_NUM_OUT_CLKS">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OPTIMIZE_CLOCKING_STRUCTURE_EN">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OUTCLK_SUM_ROW0A"> Output Output Phase Duty Cycle Pk-to-Pk Phase</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OUTCLK_SUM_ROW0B"> Clock Freq (MHz) (degrees) (%) Jitter (ps) Error (ps)</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OUTCLK_SUM_ROW1">outclk_0__100.00000______0.000______50.0______237.312____249.865</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OUTCLK_SUM_ROW2">no_CLK_OUT2_output</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OUTCLK_SUM_ROW3">no_CLK_OUT3_output</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OUTCLK_SUM_ROW4">no_CLK_OUT4_output</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OUTCLK_SUM_ROW5">no_CLK_OUT5_output</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OUTCLK_SUM_ROW6">no_CLK_OUT6_output</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OUTCLK_SUM_ROW7">no_CLK_OUT7_output</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OVERRIDE_MMCM">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_OVERRIDE_PLL">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_O_MAX">128.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_O_MIN">1.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PHASESHIFT_MODE">WAVEFORM</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLATFORM">UNKNOWN</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLLBUFGCEDIV">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLLBUFGCEDIV1">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLLBUFGCEDIV2">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLLBUFGCEDIV3">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLLBUFGCEDIV4">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_BANDWIDTH">OPTIMIZED</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKFBOUT_MULT">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKFBOUT_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKIN_PERIOD">1.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT0_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT0_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT0_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT1_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT1_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT1_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT2_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT2_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT2_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT3_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT3_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT3_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT4_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT4_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT4_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT5_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT5_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLKOUT5_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_CLK_FEEDBACK">CLKFBOUT</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_COMPENSATION">SYSTEM_SYNCHRONOUS</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_DIVCLK_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_NOTES">No notes</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PLL_REF_JITTER">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_POWER_DOWN_PORT">power_down</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_POWER_REG">0000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PRECISION">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PRIMARY_PORT">refclk</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PRIMITIVE">PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PRIMTYPE_SEL">AUTO</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PRIM_IN_FREQ">125.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PRIM_IN_JITTER">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PRIM_IN_TIMEPERIOD">10.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PRIM_SOURCE">Single_ended_clock_capable_pin</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PSCLK_PORT">psclk</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PSDONE_PORT">psdone</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PSEN_PORT">psen</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_PSINCDEC_PORT">psincdec</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_REF_CLK_FREQ">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_RESET_LOW">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_RESET_PORT">reset</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_SECONDARY_IN_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_SECONDARY_IN_JITTER">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_SECONDARY_IN_TIMEPERIOD">10.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_SECONDARY_PORT">clk_in2</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_SECONDARY_SOURCE">Single_ended_clock_capable_pin</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_SS_MODE">CENTER_HIGH</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_SS_MOD_PERIOD">4000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_SS_MOD_TIME">0.004</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_STATUS_PORT">STATUS</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_S_AXI_ADDR_WIDTH">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_S_AXI_DATA_WIDTH">32</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USER_CLK_FREQ0">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USER_CLK_FREQ1">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USER_CLK_FREQ2">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USER_CLK_FREQ3">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_CLKFB_STOPPED">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_CLKOUT1_BAR">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_CLKOUT2_BAR">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_CLKOUT3_BAR">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_CLKOUT4_BAR">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_CLK_VALID">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_CLOCK_SEQUENCING">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_DYN_PHASE_SHIFT">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_DYN_RECONFIG">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_FAST_SIMULATION">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_FREEZE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_FREQ_SYNTH">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_INCLK_STOPPED">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_INCLK_SWITCHOVER">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_LOCKED">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_MAX_I_JITTER">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_MIN_O_JITTER">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_MIN_POWER">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_PHASE_ALIGNMENT">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_POWER_DOWN">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_RESET">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_SAFE_CLOCK_STARTUP">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_SPREAD_SPECTRUM">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_USE_STATUS">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_VCO_MAX">1600.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.C_VCO_MIN">800.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="MODELPARAM_VALUE.c_component_name">clkpll</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.AUTO_PRIMITIVE">MMCM</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.AXI_DRP">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CALC_DONE">empty</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CDDCDONE_PORT">cddcdone</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CDDCREQ_PORT">cddcreq</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKFB_IN_N_PORT">clkfb_in_n</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKFB_IN_PORT">clkfb_in</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKFB_IN_P_PORT">clkfb_in_p</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKFB_IN_SIGNALING">SINGLE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKFB_OUT_N_PORT">clkfb_out_n</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKFB_OUT_PORT">clkfb_out</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKFB_OUT_P_PORT">clkfb_out_p</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKFB_STOPPED_PORT">clkfb_stopped</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKIN1_JITTER_PS">80.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKIN1_UI_JITTER">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKIN2_JITTER_PS">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKIN2_UI_JITTER">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT1_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT1_JITTER">237.312</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT1_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT1_PHASE_ERROR">249.865</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT1_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT1_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT1_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT1_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT1_USED">true</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT2_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT2_JITTER">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT2_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT2_PHASE_ERROR">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT2_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT2_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT2_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT2_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT2_USED">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT3_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT3_JITTER">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT3_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT3_PHASE_ERROR">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT3_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT3_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT3_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT3_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT3_USED">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT4_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT4_JITTER">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT4_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT4_PHASE_ERROR">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT4_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT4_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT4_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT4_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT4_USED">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT5_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT5_JITTER">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT5_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT5_PHASE_ERROR">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT5_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT5_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT5_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT5_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT5_USED">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT6_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT6_JITTER">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT6_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT6_PHASE_ERROR">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT6_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT6_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT6_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT6_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT6_USED">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT7_DRIVES">BUFG</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT7_JITTER">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT7_MATCHED_ROUTING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT7_PHASE_ERROR">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT7_REQUESTED_DUTY_CYCLE">50.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT7_REQUESTED_OUT_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT7_REQUESTED_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT7_SEQUENCE_NUMBER">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUT7_USED">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLKOUTPHY_REQUESTED_FREQ">600.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_IN1_BOARD_INTERFACE">Custom</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_IN2_BOARD_INTERFACE">Custom</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_IN_SEL_PORT">clk_in_sel</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT1_PORT">outclk_0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT1_USE_FINE_PS_GUI">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT2_PORT">clk_out2</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT2_USE_FINE_PS_GUI">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT3_PORT">clk_out3</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT3_USE_FINE_PS_GUI">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT4_PORT">clk_out4</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT4_USE_FINE_PS_GUI">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT5_PORT">clk_out5</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT5_USE_FINE_PS_GUI">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT6_PORT">clk_out6</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT6_USE_FINE_PS_GUI">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT7_PORT">clk_out7</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_OUT7_USE_FINE_PS_GUI">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLK_VALID_PORT">CLK_VALID</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.CLOCK_MGR_TYPE">auto</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.Component_Name">clkpll</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.DADDR_PORT">daddr</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.DCLK_PORT">dclk</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.DEN_PORT">den</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.DIFF_CLK_IN1_BOARD_INTERFACE">Custom</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.DIFF_CLK_IN2_BOARD_INTERFACE">Custom</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.DIN_PORT">din</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.DOUT_PORT">dout</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.DRDY_PORT">drdy</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.DWE_PORT">dwe</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.ENABLE_CDDC">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.ENABLE_CLKOUTPHY">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.ENABLE_CLOCK_MONITOR">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.ENABLE_USER_CLOCK0">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.ENABLE_USER_CLOCK1">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.ENABLE_USER_CLOCK2">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.ENABLE_USER_CLOCK3">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.Enable_PLL0">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.Enable_PLL1">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.FEEDBACK_SOURCE">FDBK_AUTO</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.INPUT_CLK_STOPPED_PORT">input_clk_stopped</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.INPUT_MODE">frequency</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.INTERFACE_SELECTION">Enable_AXI</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.IN_FREQ_UNITS">Units_MHz</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.IN_JITTER_UNITS">Units_UI</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.JITTER_OPTIONS">UI</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.JITTER_SEL">No_Jitter</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.LOCKED_PORT">locked</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_BANDWIDTH">OPTIMIZED</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKFBOUT_MULT_F">36</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKFBOUT_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKFBOUT_USE_FINE_PS">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKIN1_PERIOD">8.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKIN2_PERIOD">10.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT0_DIVIDE_F">9</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT0_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT0_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT0_USE_FINE_PS">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT1_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT1_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT1_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT1_USE_FINE_PS">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT2_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT2_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT2_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT2_USE_FINE_PS">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT3_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT3_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT3_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT3_USE_FINE_PS">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT4_CASCADE">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT4_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT4_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT4_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT4_USE_FINE_PS">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT5_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT5_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT5_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT5_USE_FINE_PS">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT6_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT6_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT6_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLKOUT6_USE_FINE_PS">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_CLOCK_HOLD">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_COMPENSATION">ZHOLD</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_DIVCLK_DIVIDE">5</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_NOTES">None</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_REF_JITTER1">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_REF_JITTER2">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.MMCM_STARTUP_WAIT">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.NUM_OUT_CLKS">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.OPTIMIZE_CLOCKING_STRUCTURE_EN">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.OVERRIDE_MMCM">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.OVERRIDE_PLL">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PHASESHIFT_MODE">WAVEFORM</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PHASE_DUTY_CONFIG">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLATFORM">UNKNOWN</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_BANDWIDTH">OPTIMIZED</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKFBOUT_MULT">4</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKFBOUT_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKIN_PERIOD">8.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT0_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT0_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT0_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT1_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT1_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT1_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT2_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT2_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT2_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT3_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT3_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT3_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT4_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT4_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT4_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT5_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT5_DUTY_CYCLE">0.500</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLKOUT5_PHASE">0.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_CLK_FEEDBACK">CLKFBOUT</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_COMPENSATION">SYSTEM_SYNCHRONOUS</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_DIVCLK_DIVIDE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_NOTES">None</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PLL_REF_JITTER">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.POWER_DOWN_PORT">power_down</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PRECISION">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PRIMARY_PORT">refclk</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PRIMITIVE">PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PRIMTYPE_SEL">mmcm_adv</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PRIM_IN_FREQ">125.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PRIM_IN_JITTER">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PRIM_IN_TIMEPERIOD">10.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PRIM_SOURCE">Single_ended_clock_capable_pin</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PSCLK_PORT">psclk</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PSDONE_PORT">psdone</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PSEN_PORT">psen</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.PSINCDEC_PORT">psincdec</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.REF_CLK_FREQ">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.RELATIVE_INCLK">REL_PRIMARY</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.RESET_BOARD_INTERFACE">Custom</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.RESET_PORT">reset</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.RESET_TYPE">ACTIVE_HIGH</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.SECONDARY_IN_FREQ">100.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.SECONDARY_IN_JITTER">0.010</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.SECONDARY_IN_TIMEPERIOD">10.000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.SECONDARY_PORT">clk_in2</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.SECONDARY_SOURCE">Single_ended_clock_capable_pin</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.SS_MODE">CENTER_HIGH</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.SS_MOD_FREQ">250</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.SS_MOD_TIME">0.004</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.STATUS_PORT">STATUS</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.SUMMARY_STRINGS">empty</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USER_CLK_FREQ0">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USER_CLK_FREQ1">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USER_CLK_FREQ2">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USER_CLK_FREQ3">100.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_BOARD_FLOW">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_CLKFB_STOPPED">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_CLK_VALID">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_CLOCK_SEQUENCING">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_DYN_PHASE_SHIFT">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_DYN_RECONFIG">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_FREEZE">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_FREQ_SYNTH">true</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_INCLK_STOPPED">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_INCLK_SWITCHOVER">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_LOCKED">true</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_MAX_I_JITTER">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_MIN_O_JITTER">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_MIN_POWER">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_PHASE_ALIGNMENT">true</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_POWER_DOWN">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_RESET">true</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_SAFE_CLOCK_STARTUP">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_SPREAD_SPECTRUM">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PARAM_VALUE.USE_STATUS">false</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.ARCHITECTURE">zynq</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.BASE_BOARD_PART"/>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.BOARD_CONNECTIONS"/>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.DEVICE">xc7z020</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.PACKAGE">clg484</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.PREFHDL">VHDL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.SILICON_REVISION"/>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.SIMULATOR_LANGUAGE">MIXED</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.SPEEDGRADE">-1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.STATIC_POWER"/>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.TEMPERATURE_GRADE"/>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.USE_RDI_CUSTOMIZATION">TRUE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PROJECT_PARAM.USE_RDI_GENERATION">TRUE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="RUNTIME_PARAM.IPCONTEXT">IP_Flow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="RUNTIME_PARAM.IPREVISION">10</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="RUNTIME_PARAM.MANAGED">TRUE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="RUNTIME_PARAM.OUTPUTDIR">../../../../Qlaser.gen/sources_1/ip/clkpll</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="RUNTIME_PARAM.SELECTEDSIMMODEL"/>
<spirit:configurableElementValue spirit:referenceId="RUNTIME_PARAM.SHAREDDIR">.</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="RUNTIME_PARAM.SWVERSION">2022.1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="RUNTIME_PARAM.SYNTHESISFLOW">OUT_OF_CONTEXT</spirit:configurableElementValue>
</spirit:configurableElementValues>
<spirit:vendorExtensions>
<xilinx:componentInstanceExtensions>
<xilinx:configElementInfos>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.ADDR_WIDTH" xilinx:valueSource="auto"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.ARUSER_WIDTH" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.AWUSER_WIDTH" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.BUSER_WIDTH" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.DATA_WIDTH" xilinx:valueSource="auto"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_BRESP" xilinx:valueSource="auto"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_BURST" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_CACHE" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_LOCK" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_PROT" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_QOS" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_REGION" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_RRESP" xilinx:valueSource="auto"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.HAS_WSTRB" xilinx:valueSource="auto"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.ID_WIDTH" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.PROTOCOL" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.RUSER_WIDTH" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="BUSIFPARAM_VALUE.S_AXI_LITE.WUSER_WIDTH" xilinx:valueSource="constant"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLKIN1_JITTER_PS" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLKOUT1_DRIVES" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLKOUT1_JITTER" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLKOUT1_PHASE_ERROR" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLKOUT2_DRIVES" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLKOUT3_DRIVES" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLKOUT4_DRIVES" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLKOUT5_DRIVES" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLKOUT6_DRIVES" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLKOUT7_DRIVES" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.CLK_OUT1_PORT" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.MMCM_BANDWIDTH" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.MMCM_CLKFBOUT_MULT_F" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.MMCM_CLKIN1_PERIOD" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.MMCM_CLKIN2_PERIOD" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.MMCM_CLKOUT0_DIVIDE_F" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.MMCM_COMPENSATION" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.MMCM_DIVCLK_DIVIDE" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.PLL_CLKIN_PERIOD" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.PRIMARY_PORT" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.PRIMITIVE" xilinx:valueSource="user"/>
<xilinx:configElementInfo xilinx:referenceId="PARAM_VALUE.PRIM_IN_FREQ" xilinx:valueSource="user"/>
</xilinx:configElementInfos>
<xilinx:boundaryDescriptionInfo>
<xilinx:boundaryDescription xilinx:boundaryDescriptionJSON="{
&quot;schema&quot;: &quot;xilinx.com:schema:json_boundary:1.0&quot;,
&quot;boundary&quot;: {
&quot;ports&quot;: {
&quot;reset&quot;: [ { &quot;direction&quot;: &quot;in&quot;, &quot;driver_value&quot;: &quot;0&quot; } ],
&quot;refclk&quot;: [ { &quot;direction&quot;: &quot;in&quot; } ],
&quot;outclk_0&quot;: [ { &quot;direction&quot;: &quot;out&quot; } ],
&quot;locked&quot;: [ { &quot;direction&quot;: &quot;out&quot; } ]
},
&quot;interfaces&quot;: {
&quot;reset&quot;: {
&quot;vlnv&quot;: &quot;xilinx.com:signal:reset:1.0&quot;,
&quot;abstraction_type&quot;: &quot;xilinx.com:signal:reset_rtl:1.0&quot;,
&quot;mode&quot;: &quot;slave&quot;,
&quot;parameters&quot;: {
&quot;POLARITY&quot;: [ { &quot;value&quot;: &quot;ACTIVE_HIGH&quot;, &quot;value_src&quot;: &quot;constant&quot;, &quot;usage&quot;: &quot;all&quot; } ],
&quot;BOARD.ASSOCIATED_PARAM&quot;: [ { &quot;value&quot;: &quot;RESET_BOARD_INTERFACE&quot;, &quot;value_src&quot;: &quot;constant&quot;, &quot;usage&quot;: &quot;all&quot; } ],
&quot;INSERT_VIP&quot;: [ { &quot;value&quot;: &quot;0&quot;, &quot;resolve_type&quot;: &quot;user&quot;, &quot;format&quot;: &quot;long&quot;, &quot;usage&quot;: &quot;simulation.rtl&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ]
},
&quot;port_maps&quot;: {
&quot;RST&quot;: [ { &quot;physical_name&quot;: &quot;reset&quot; } ]
}
},
&quot;clock_CLK_IN1&quot;: {
&quot;vlnv&quot;: &quot;xilinx.com:signal:clock:1.0&quot;,
&quot;abstraction_type&quot;: &quot;xilinx.com:signal:clock_rtl:1.0&quot;,
&quot;mode&quot;: &quot;slave&quot;,
&quot;parameters&quot;: {
&quot;FREQ_HZ&quot;: [ { &quot;value&quot;: &quot;100000000&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;FREQ_TOLERANCE_HZ&quot;: [ { &quot;value&quot;: &quot;0&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;PHASE&quot;: [ { &quot;value&quot;: &quot;0.0&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;float&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;CLK_DOMAIN&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;ASSOCIATED_BUSIF&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;ASSOCIATED_PORT&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;ASSOCIATED_RESET&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;INSERT_VIP&quot;: [ { &quot;value&quot;: &quot;0&quot;, &quot;resolve_type&quot;: &quot;user&quot;, &quot;format&quot;: &quot;long&quot;, &quot;usage&quot;: &quot;simulation.rtl&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;BOARD.ASSOCIATED_PARAM&quot;: [ { &quot;value&quot;: &quot;CLK_IN1_BOARD_INTERFACE&quot;, &quot;usage&quot;: &quot;all&quot;, &quot;is_static_object&quot;: false } ]
},
&quot;port_maps&quot;: {
&quot;CLK_IN1&quot;: [ { &quot;physical_name&quot;: &quot;refclk&quot; } ]
}
},
&quot;clock_CLK_OUT1&quot;: {
&quot;vlnv&quot;: &quot;xilinx.com:signal:clock:1.0&quot;,
&quot;abstraction_type&quot;: &quot;xilinx.com:signal:clock_rtl:1.0&quot;,
&quot;mode&quot;: &quot;master&quot;,
&quot;parameters&quot;: {
&quot;FREQ_HZ&quot;: [ { &quot;value&quot;: &quot;100000000&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;FREQ_TOLERANCE_HZ&quot;: [ { &quot;value&quot;: &quot;0&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;long&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;PHASE&quot;: [ { &quot;value&quot;: &quot;0.0&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;format&quot;: &quot;float&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;CLK_DOMAIN&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;ASSOCIATED_BUSIF&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;ASSOCIATED_PORT&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;ASSOCIATED_RESET&quot;: [ { &quot;value&quot;: &quot;&quot;, &quot;resolve_type&quot;: &quot;generated&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ],
&quot;INSERT_VIP&quot;: [ { &quot;value&quot;: &quot;0&quot;, &quot;resolve_type&quot;: &quot;user&quot;, &quot;format&quot;: &quot;long&quot;, &quot;usage&quot;: &quot;simulation.rtl&quot;, &quot;is_ips_inferred&quot;: true, &quot;is_static_object&quot;: false } ]
},
&quot;port_maps&quot;: {
&quot;CLK_OUT1&quot;: [ { &quot;physical_name&quot;: &quot;outclk_0&quot; } ]
}
}
}
}
}"/>
</xilinx:boundaryDescriptionInfo>
</xilinx:componentInstanceExtensions>
</spirit:vendorExtensions>
</spirit:componentInstance>
</spirit:componentInstances>
</spirit:design>

119
tools/xilinx/pinout.xdc Normal file
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@ -0,0 +1,119 @@
## 125MHz Clock from Ethernet PHY
set_property -dict {PACKAGE_PIN D18 IOSTANDARD LVCMOS33} [get_ports p_clk]
## Buttons
set_property -dict {PACKAGE_PIN C17 IOSTANDARD LVCMOS33} [get_ports p_reset]
#set_property -dict { PACKAGE_PIN C18 IOSTANDARD LVCMOS33 } [get_ports { p_trigger }]; #IO_L11N_T1_SRCC Sch=btn[1]
## RGB LEDs
set_property -dict {PACKAGE_PIN A17 IOSTANDARD LVCMOS33} [get_ports {p_leds0_rgb[0]}]
set_property -dict {PACKAGE_PIN B16 IOSTANDARD LVCMOS33} [get_ports {p_leds0_rgb[1]}]
set_property -dict {PACKAGE_PIN B17 IOSTANDARD LVCMOS33} [get_ports {p_leds0_rgb[2]}]
set_property -dict {PACKAGE_PIN A16 IOSTANDARD LVCMOS33} [get_ports {p_leds1_rgb[0]}]
set_property -dict {PACKAGE_PIN A18 IOSTANDARD LVCMOS33} [get_ports {p_leds1_rgb[1]}]
set_property -dict {PACKAGE_PIN A19 IOSTANDARD LVCMOS33} [get_ports {p_leds1_rgb[2]}]
## Pmod Header JA
set_property -dict { PACKAGE_PIN B15 IOSTANDARD LVCMOS33 } [get_ports { p_debug_out[0] }]; #IO_0 Sch=ja1_fpga
set_property -dict { PACKAGE_PIN C15 IOSTANDARD LVCMOS33 } [get_ports { p_debug_out[1] }]; #IO_25 Sch=ja2_fpga
set_property -dict { PACKAGE_PIN D15 IOSTANDARD LVCMOS33 } [get_ports { p_serial_txd }]; #IO_L1N_T0_AD0N Sch=ja3_fpga
set_property -dict { PACKAGE_PIN E16 IOSTANDARD LVCMOS33 } [get_ports { p_serial_rxd }]; #IO_L1P_T0_AD0P Sch=ja4_fpga
set_property -dict { PACKAGE_PIN E15 IOSTANDARD LVCMOS33 } [get_ports { p_dc0_cs_n }]; #IO_L2N_T0_AD8N Sch=ja7_fpga
set_property -dict { PACKAGE_PIN F17 IOSTANDARD LVCMOS33 } [get_ports { p_dc0_mosi }]; #IO_L2P_T0_AD8P Sch=ja8_fpga
#set_property -dict { PACKAGE_PIN F16 IOSTANDARD LVCMOS33 } [get_ports { ja[6] }]; #IO_L3N_T0_DQS_AD1N Sch=ja9_fpga
set_property -dict { PACKAGE_PIN G16 IOSTANDARD LVCMOS33 } [get_ports { p_dc0_sclk }]; #IO_L3P_T0_DQS_AD1P Sch=ja10_fpga
## Pmod Header JB
set_property -dict { PACKAGE_PIN G15 IOSTANDARD LVCMOS33 } [get_ports { p_dc2_cs_n }]; #IO_L4N_T0 Sch=jb1_fpga
set_property -dict { PACKAGE_PIN D16 IOSTANDARD LVCMOS33 } [get_ports { p_dc2_mosi }]; #IO_L4P_T0 Sch=jb2_fpga
#set_property -dict { PACKAGE_PIN D17 IOSTANDARD LVCMOS33 } [get_ports { jb[2] }]; #IO_L5N_T0_AD9N Sch=jb3_fpga
set_property -dict { PACKAGE_PIN E18 IOSTANDARD LVCMOS33 } [get_ports { p_dc2_sclk }]; #IO_L5P_T0_AD9P Sch=jb4_fpga
set_property -dict { PACKAGE_PIN F18 IOSTANDARD LVCMOS33 } [get_ports { p_dc1_cs_n }]; #IO_L6N_T0_VREF Sch=jb7_fpga
set_property -dict { PACKAGE_PIN G17 IOSTANDARD LVCMOS33 } [get_ports { p_dc1_mosi }]; #IO_L6P_T0 Sch=jb8_fpga
#set_property -dict { PACKAGE_PIN H18 IOSTANDARD LVCMOS33 } [get_ports { jb[6] }]; #IO_L7N_T1_AD2N Sch=jb9_fpga
set_property -dict { PACKAGE_PIN H17 IOSTANDARD LVCMOS33 } [get_ports { p_dc1_sclk }]; #IO_L7P_T1_AD2P Sch=jb10_fpga
# PLACEHOLDER PIN ASSIGNMENTS FOR SPI3
#set_property -dict { PACKAGE_PIN G19 IOSTANDARD LVCMOS33 } [get_ports { p_dc3_cs_n }]; #IO_L4N_T0 Sch=jb1_fpga
#set_property -dict { PACKAGE_PIN G20 IOSTANDARD LVCMOS33 } [get_ports { p_dc3_mosi }]; #IO_L4P_T0 Sch=jb2_fpga
#set_property -dict { PACKAGE_PIN D17 IOSTANDARD LVCMOS33 } [get_ports { jb[2] }]; #IO_L5N_T0_AD9N Sch=jb3_fpga
#set_property -dict { PACKAGE_PIN G21 IOSTANDARD LVCMOS33 } [get_ports { p_dc3_sclk }]; #IO_L5P_T0_AD9P Sch=jb4_fpga
## Syzygy Port A
#set_property -dict { PACKAGE_PIN N20 } [get_ports { syzygy_a_c2p_clk_n }]; #IO_L14N_T2_SRCC Sch=syzygy_a_c2p_clk_n
#set_property -dict { PACKAGE_PIN N19 } [get_ports { syzygy_a_c2p_clk_p }]; #IO_L14P_T2_SRCC Sch=syzygy_a_c2p_clk_p
#set_property -dict { PACKAGE_PIN T17 } [get_ports { syzygy_a_d_n[0] }]; #IO_L21N_T3_DQS Sch=syzygy_a_d_n[0]
#set_property -dict { PACKAGE_PIN T16 } [get_ports { syzygy_a_d_p[0] }]; #IO_L21P_T3_DQS Sch=syzygy_a_d_p[0]
#set_property -dict { PACKAGE_PIN T19 } [get_ports { syzygy_a_d_n[1] }]; #IO_L22N_T3 Sch=syzygy_a_d_n[1]
#set_property -dict { PACKAGE_PIN R19 } [get_ports { syzygy_a_d_p[1] }]; #IO_L22P_T3 Sch=syzygy_a_d_p[1]
#set_property -dict { PACKAGE_PIN T18 } [get_ports { syzygy_a_d_n[2] }]; #IO_L23N_T3 Sch=syzygy_a_d_n[2]
#set_property -dict { PACKAGE_PIN R18 } [get_ports { syzygy_a_d_p[2] }]; #IO_L23P_T3 Sch=syzygy_a_d_p[2]
#set_property -dict { PACKAGE_PIN P18 } [get_ports { syzygy_a_d_n[3] }]; #IO_L20N_T3 Sch=syzygy_a_d_n[3]
#set_property -dict { PACKAGE_PIN P17 } [get_ports { syzygy_a_d_p[3] }]; #IO_L20P_T3 Sch=syzygy_a_d_p[3]
#set_property -dict { PACKAGE_PIN R16 } [get_ports { syzygy_a_d_n[4] }]; #IO_L24N_T3 Sch=syzygy_a_d_n[4]
#set_property -dict { PACKAGE_PIN P16 } [get_ports { syzygy_a_d_p[4] }]; #IO_L24P_T3 Sch=syzygy_a_d_p[4]
#set_property -dict { PACKAGE_PIN P15 } [get_ports { syzygy_a_d_n[5] }]; #IO_L19N_T3_VREF Sch=syzygy_a_d_n[5]
#set_property -dict { PACKAGE_PIN N15 } [get_ports { syzygy_a_d_p[5] }]; #IO_L19P_T3 Sch=syzygy_a_d_p[5]
#set_property -dict { PACKAGE_PIN K18 } [get_ports { syzygy_a_d_n[6] }]; #IO_L7N_T1 Sch=syzygy_a_d_n[6]
#set_property -dict { PACKAGE_PIN J18 } [get_ports { syzygy_a_d_p[6] }]; #IO_L7P_T1 Sch=syzygy_a_d_p[6]
#set_property -dict { PACKAGE_PIN K21 } [get_ports { syzygy_a_d_n[7] }]; #IO_L9N_T1_DQS Sch=syzygy_a_d_n[7]
#set_property -dict { PACKAGE_PIN J20 } [get_ports { syzygy_a_d_p[7] }]; #IO_L9P_T1_DQS Sch=syzygy_a_d_p[7]
#set_property -dict { PACKAGE_PIN M20 } [get_ports { syzygy_a_p2c_clk_n }]; #IO_L13N_T2_MRCC Sch=syzygy_a_p2c_clk_n
#set_property -dict { PACKAGE_PIN M19 } [get_ports { syzygy_a_p2c_clk_p }]; #IO_L13P_T2_MRCC Sch=syzygy_a_p2c_clk_p
#set_property -dict { PACKAGE_PIN L19 } [get_ports { syzygy_a_s[16] }]; #IO_L12N_T1_MRCC Sch=syzygy_a_s[16]
#set_property -dict { PACKAGE_PIN K20 } [get_ports { syzygy_a_s[17] }]; #IO_L11N_T1_SRCC Sch=syzygy_a_s[17]
#set_property -dict { PACKAGE_PIN L18 } [get_ports { syzygy_a_s[18] }]; #IO_L12P_T1_MRCC Sch=syzygy_a_s[18]
#set_property -dict { PACKAGE_PIN K19 } [get_ports { syzygy_a_s[19] }]; #IO_L11P_T1_SRCC Sch=syzygy_a_s[19]
#set_property -dict { PACKAGE_PIN L22 } [get_ports { syzygy_a_s[20] }]; #IO_L10N_T1 Sch=syzygy_a_s[20]
#set_property -dict { PACKAGE_PIN J22 } [get_ports { syzygy_a_s[21] }]; #IO_L8N_T1 Sch=syzygy_a_s[21]
#set_property -dict { PACKAGE_PIN L21 } [get_ports { syzygy_a_s[22] }]; #IO_L10P_T1 Sch=syzygy_a_s[22]
#set_property -dict { PACKAGE_PIN J21 } [get_ports { syzygy_a_s[23] }]; #IO_L8P_T1 Sch=syzygy_a_s[23]
#set_property -dict { PACKAGE_PIN N22 } [get_ports { syzygy_a_s[24] }]; #IO_L16P_T2 Sch=syzygy_a_s[24]
#set_property -dict { PACKAGE_PIN P22 } [get_ports { syzygy_a_s[25] }]; #IO_L16N_T2 Sch=syzygy_a_s[25]
#set_property -dict { PACKAGE_PIN M21 } [get_ports { syzygy_a_s[26] }]; #IO_L15P_T2_DQS Sch=syzygy_a_s[26]
#set_property -dict { PACKAGE_PIN M22 } [get_ports { syzygy_a_s[27] }]; #IO_L15N_T2_DQS Sch=syzygy_a_s[27]
## Syzygy Port B
#set_property -dict { PACKAGE_PIN Y16 } [get_ports { syzygy_b_c2p_clk_n }]; #IO_L14N_T2_SRCC Sch=syzygy_b_c2p_clk_n
#set_property -dict { PACKAGE_PIN W16 } [get_ports { syzygy_b_c2p_clk_p }]; #IO_L14P_T2_SRCC Sch=syzygy_b_c2p_clk_p
#set_property -dict { PACKAGE_PIN Y15 } [get_ports { syzygy_b_d_n[0] }]; #IO_L21N_T3_DQS Sch=syzygy_b_d_n[0]
#set_property -dict { PACKAGE_PIN W15 } [get_ports { syzygy_b_d_p[0] }]; #IO_L21P_T3_DQS Sch=syzygy_b_d_p[0]
#set_property -dict { PACKAGE_PIN W13 } [get_ports { syzygy_b_d_n[1] }]; #IO_L20N_T3 Sch=syzygy_b_d_n[1]
#set_property -dict { PACKAGE_PIN V13 } [get_ports { syzygy_b_d_p[1] }]; #IO_L20P_T3 Sch=syzygy_b_d_p[1]
#set_property -dict { PACKAGE_PIN AA13 } [get_ports { syzygy_b_d_n[2] }]; #IO_L23N_T3 Sch=syzygy_b_d_n[2]
#set_property -dict { PACKAGE_PIN Y13 } [get_ports { syzygy_b_d_p[2] }]; #IO_L23P_T3 Sch=syzygy_b_d_p[2]
#set_property -dict { PACKAGE_PIN AB15 } [get_ports { syzygy_b_d_n[3] }]; #IO_L24N_T3 Sch=syzygy_b_d_n[3]
#set_property -dict { PACKAGE_PIN AB14 } [get_ports { syzygy_b_d_p[3] }]; #IO_L24P_T3 Sch=syzygy_b_d_p[3]
#set_property -dict { PACKAGE_PIN AA14 } [get_ports { syzygy_b_d_n[4] }]; #IO_L22N_T3 Sch=syzygy_b_d_n[4]
#set_property -dict { PACKAGE_PIN Y14 } [get_ports { syzygy_b_d_p[4] }]; #IO_L22P_T3 Sch=syzygy_b_d_p[4]
#set_property -dict { PACKAGE_PIN V15 } [get_ports { syzygy_b_d_n[5] }]; #IO_L19N_T3_VREF Sch=syzygy_b_d_n[5]
#set_property -dict { PACKAGE_PIN V14 } [get_ports { syzygy_b_d_p[5] }]; #IO_L19P_T3 Sch=syzygy_b_d_p[5]
#set_property -dict { PACKAGE_PIN AB22 } [get_ports { syzygy_b_d_n[6] }]; #IO_L7N_T1 Sch=syzygy_b_d_n[6]
#set_property -dict { PACKAGE_PIN AA22 } [get_ports { syzygy_b_d_p[6] }]; #IO_L7P_T1 Sch=syzygy_b_d_p[6]
#set_property -dict { PACKAGE_PIN Y21 } [get_ports { syzygy_b_d_n[7] }]; #IO_L9N_T1_DQS Sch=syzygy_b_d_n[7]
#set_property -dict { PACKAGE_PIN Y20 } [get_ports { syzygy_b_d_p[7] }]; #IO_L9P_T1_DQS Sch=syzygy_b_d_p[7]
#set_property -dict { PACKAGE_PIN W18 } [get_ports { syzygy_b_p2c_clk_n }]; #IO_L13N_T2_MRCC Sch=syzygy_b_p2c_clk_n
#set_property -dict { PACKAGE_PIN W17 } [get_ports { syzygy_b_p2c_clk_p }]; #IO_L13P_T2_MRCC Sch=syzygy_b_p2c_clk_p
#set_property -dict { PACKAGE_PIN AA18 } [get_ports { syzygy_b_s[16] }]; #IO_L12N_T1_MRCC Sch=syzygy_b_s[16]
#set_property -dict { PACKAGE_PIN AA19 } [get_ports { syzygy_b_s[17] }]; #IO_L11N_T1_SRCC Sch=syzygy_b_s[17]
#set_property -dict { PACKAGE_PIN Y18 } [get_ports { syzygy_b_s[18] }]; #IO_L12P_T1_MRCC Sch=syzygy_b_s[18]
#set_property -dict { PACKAGE_PIN Y19 } [get_ports { syzygy_b_s[19] }]; #IO_L11P_T1_SRCC Sch=syzygy_b_s[19]
#set_property -dict { PACKAGE_PIN AB20 } [get_ports { syzygy_b_s[20] }]; #IO_L10N_T1 Sch=syzygy_b_s[20]
#set_property -dict { PACKAGE_PIN AB21 } [get_ports { syzygy_b_s[21] }]; #IO_L8N_T1 Sch=syzygy_b_s[21]
#set_property -dict { PACKAGE_PIN AB19 } [get_ports { syzygy_b_s[22] }]; #IO_L10P_T1 Sch=syzygy_b_s[22]
#set_property -dict { PACKAGE_PIN AA21 } [get_ports { syzygy_b_s[23] }]; #IO_L8P_T1 Sch=syzygy_b_s[23]
#set_property -dict { PACKAGE_PIN U16 } [get_ports { syzygy_b_s[24] }]; #IO_L15N_T2_DQS Sch=syzygy_b_s[24]
#set_property -dict { PACKAGE_PIN U15 } [get_ports { syzygy_b_s[25] }]; #IO_L15P_T2_DQS Sch=syzygy_b_s[25]
#set_property -dict { PACKAGE_PIN V17 } [get_ports { syzygy_b_s[26] }]; #IO_L16N_T2 Sch=syzygy_b_s[26]
#set_property -dict { PACKAGE_PIN U17 } [get_ports { syzygy_b_s[27] }]; #IO_L16P_T2 Sch=syzygy_b_s[27]
## Crypto SDA
#set_property -dict { PACKAGE_PIN D22 IOSTANDARD LVCMOS33 } [get_ports { crypto_sda }]; #IO_L16P_T2 Sch=crypto_sda
## Miscellaneous
#set_property -dict { PACKAGE_PIN B22 IOSTANDARD LVCMOS33 } [get_ports { mcu_rsvd[0] }]; #IO_L18N_T2_AD13N Sch=mcu_rsvd[1]
#set_property -dict { PACKAGE_PIN B21 IOSTANDARD LVCMOS33 } [get_ports { mcu_rsvd[1] }]; #IO_L18P_T2_AD13P Sch=mcu_rsvd[2]

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tools/xilinx/ps1.bd Normal file
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<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<bd:repository xmlns:bd="http://www.xilinx.com/bd" bd:BoundaryCRC="0xA9403ED2E5915421" bd:device="xc7z020clg484-1" bd:isValidated="true" bd:synthFlowMode="Hierarchical" bd:tool_version="2018.2" bd:top="ps1" bd:version="1.00.a">
<spirit:component xmlns:spirit="http://www.spiritconsortium.org/XMLSchema/SPIRIT/1685-2009">
<spirit:vendor>xilinx.com</spirit:vendor>
<spirit:library>BlockDiagram</spirit:library>
<spirit:name>ps1</spirit:name>
<spirit:version>1.00.a</spirit:version>
<spirit:parameters>
<spirit:parameter>
<spirit:name>isTop</spirit:name>
<spirit:value spirit:format="bool" spirit:resolve="immediate">true</spirit:value>
</spirit:parameter>
</spirit:parameters>
<spirit:busInterfaces>
<spirit:busInterface>
<spirit:name>FIXED_IO</spirit:name>
<spirit:master/>
<spirit:busType spirit:library="display_processing_system7" spirit:name="fixedio" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:abstractionType spirit:library="display_processing_system7" spirit:name="fixedio_rtl" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:parameters>
<spirit:parameter>
<spirit:name>CAN_DEBUG</spirit:name>
<spirit:value>false</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
</spirit:parameters>
</spirit:busInterface>
<spirit:busInterface>
<spirit:name>DDR</spirit:name>
<spirit:master/>
<spirit:busType spirit:library="interface" spirit:name="ddrx" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:abstractionType spirit:library="interface" spirit:name="ddrx_rtl" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:parameters>
<spirit:parameter>
<spirit:name>CAN_DEBUG</spirit:name>
<spirit:value>false</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>TIMEPERIOD_PS</spirit:name>
<spirit:value>1250</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>MEMORY_TYPE</spirit:name>
<spirit:value>COMPONENTS</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>DATA_WIDTH</spirit:name>
<spirit:value>8</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>CS_ENABLED</spirit:name>
<spirit:value>true</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>DATA_MASK_ENABLED</spirit:name>
<spirit:value>true</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>SLOT</spirit:name>
<spirit:value>Single</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>MEM_ADDR_MAP</spirit:name>
<spirit:value>ROW_COLUMN_BANK</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>BURST_LENGTH</spirit:name>
<spirit:value>8</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>AXI_ARBITRATION_SCHEME</spirit:name>
<spirit:value>TDM</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>CAS_LATENCY</spirit:name>
<spirit:value>11</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>CAS_WRITE_LATENCY</spirit:name>
<spirit:value>11</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
</spirit:parameters>
</spirit:busInterface>
<spirit:busInterface>
<spirit:name>CLK.FCLK_CLK0</spirit:name>
<spirit:displayName>Clk</spirit:displayName>
<spirit:description>Clock</spirit:description>
<spirit:busType spirit:library="signal" spirit:name="clock" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:abstractionType spirit:library="signal" spirit:name="clock_rtl" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:slave/>
<spirit:portMaps>
<spirit:portMap>
<spirit:logicalPort>
<spirit:name>CLK</spirit:name>
</spirit:logicalPort>
<spirit:physicalPort>
<spirit:name>FCLK_CLK0</spirit:name>
</spirit:physicalPort>
</spirit:portMap>
</spirit:portMaps>
<spirit:parameters>
<spirit:parameter>
<spirit:name>FREQ_HZ</spirit:name>
<spirit:value>100000000</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="user_prop"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>PHASE</spirit:name>
<spirit:value>0.000</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
<spirit:parameter>
<spirit:name>CLK_DOMAIN</spirit:name>
<spirit:value>ps1_processing_system7_0_0_FCLK_CLK0</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default_prop"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
</spirit:parameters>
</spirit:busInterface>
<spirit:busInterface>
<spirit:name>RST.FCLK_RESET0_N</spirit:name>
<spirit:displayName>Reset</spirit:displayName>
<spirit:description>Reset</spirit:description>
<spirit:busType spirit:library="signal" spirit:name="reset" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:abstractionType spirit:library="signal" spirit:name="reset_rtl" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:slave/>
<spirit:portMaps>
<spirit:portMap>
<spirit:logicalPort>
<spirit:name>RST</spirit:name>
</spirit:logicalPort>
<spirit:physicalPort>
<spirit:name>FCLK_RESET0_N</spirit:name>
</spirit:physicalPort>
</spirit:portMap>
</spirit:portMaps>
<spirit:parameters>
<spirit:parameter>
<spirit:name>POLARITY</spirit:name>
<spirit:value>ACTIVE_LOW</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="default"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
</spirit:parameters>
</spirit:busInterface>
<spirit:busInterface>
<spirit:name>RST.EXT_RESET_N</spirit:name>
<spirit:displayName>Reset</spirit:displayName>
<spirit:description>Reset</spirit:description>
<spirit:busType spirit:library="signal" spirit:name="reset" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:abstractionType spirit:library="signal" spirit:name="reset_rtl" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:slave/>
<spirit:portMaps>
<spirit:portMap>
<spirit:logicalPort>
<spirit:name>RST</spirit:name>
</spirit:logicalPort>
<spirit:physicalPort>
<spirit:name>ext_reset_n</spirit:name>
</spirit:physicalPort>
</spirit:portMap>
</spirit:portMaps>
<spirit:parameters>
<spirit:parameter>
<spirit:name>POLARITY</spirit:name>
<spirit:value>ACTIVE_LOW</spirit:value>
<spirit:vendorExtensions>
<bd:configElementInfos>
<bd:configElementInfo bd:valueSource="user"/>
</bd:configElementInfos>
</spirit:vendorExtensions>
</spirit:parameter>
</spirit:parameters>
</spirit:busInterface>
</spirit:busInterfaces>
<spirit:model>
<spirit:views>
<spirit:view>
<spirit:name>BlockDiagram</spirit:name>
<spirit:envIdentifier>:vivado.xilinx.com:</spirit:envIdentifier>
<spirit:hierarchyRef spirit:library="BlockDiagram" spirit:name="ps1_imp" spirit:vendor="xilinx.com" spirit:version="1.00.a"/>
</spirit:view>
</spirit:views>
<spirit:ports>
<spirit:port>
<spirit:name>FCLK_CLK0</spirit:name>
<spirit:wire>
<spirit:direction>out</spirit:direction>
</spirit:wire>
</spirit:port>
<spirit:port>
<spirit:name>FCLK_RESET0_N</spirit:name>
<spirit:wire>
<spirit:direction>out</spirit:direction>
</spirit:wire>
</spirit:port>
<spirit:port>
<spirit:name>ext_reset_n</spirit:name>
<spirit:wire>
<spirit:direction>in</spirit:direction>
</spirit:wire>
</spirit:port>
</spirit:ports>
</spirit:model>
</spirit:component>
<spirit:design xmlns:spirit="http://www.spiritconsortium.org/XMLSchema/SPIRIT/1685-2009">
<spirit:vendor>xilinx.com</spirit:vendor>
<spirit:library>BlockDiagram</spirit:library>
<spirit:name>ps1_imp</spirit:name>
<spirit:version>1.00.a</spirit:version>
<spirit:componentInstances>
<spirit:componentInstance>
<spirit:instanceName>axi_bram_ctrl</spirit:instanceName>
<spirit:componentRef spirit:library="ip" spirit:name="axi_bram_ctrl" spirit:vendor="xilinx.com" spirit:version="4.0"/>
<spirit:configurableElementValues>
<spirit:configurableElementValue spirit:referenceId="bd:xciName">ps1_axi_bram_ctrl_0_0</spirit:configurableElementValue>
</spirit:configurableElementValues>
<bd:hdl_attributes/>
</spirit:componentInstance>
<spirit:componentInstance>
<spirit:instanceName>axi_bram_ctrl_bram</spirit:instanceName>
<spirit:componentRef spirit:library="ip" spirit:name="blk_mem_gen" spirit:vendor="xilinx.com" spirit:version="8.4"/>
<spirit:configurableElementValues>
<spirit:configurableElementValue spirit:referenceId="bd:xciName">ps1_axi_bram_ctrl_bram_0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="Memory_Type">True_Dual_Port_RAM</spirit:configurableElementValue>
</spirit:configurableElementValues>
</spirit:componentInstance>
<spirit:componentInstance>
<spirit:instanceName>axi_smc</spirit:instanceName>
<spirit:componentRef spirit:library="ip" spirit:name="smartconnect" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:configurableElementValues>
<spirit:configurableElementValue spirit:referenceId="bd:xciName">ps1_axi_smc_0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="NUM_SI">1</spirit:configurableElementValue>
</spirit:configurableElementValues>
</spirit:componentInstance>
<spirit:componentInstance>
<spirit:instanceName>processing_system7_0</spirit:instanceName>
<spirit:componentRef spirit:library="ip" spirit:name="processing_system7" spirit:vendor="xilinx.com" spirit:version="5.5"/>
<spirit:configurableElementValues>
<spirit:configurableElementValue spirit:referenceId="bd:xciName">ps1_processing_system7_0_0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_DDR_RAM_BASEADDR">0x00100000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_DDR_RAM_HIGHADDR">0x3FFFFFFF</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UART0_BASEADDR">0xE0000000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UART0_HIGHADDR">0xE0000FFF</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SDIO0_BASEADDR">0xE0100000</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SDIO0_HIGHADDR">0xE0100FFF</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_FCLK_CLK0_BUF">TRUE</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_FREQ_MHZ">533.333</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_AL">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_DQS_TO_CLK_DELAY_0">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_DQS_TO_CLK_DELAY_1">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_DQS_TO_CLK_DELAY_2">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_DQS_TO_CLK_DELAY_3">0.0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_BOARD_DELAY0">0.25</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_BOARD_DELAY1">0.25</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_BOARD_DELAY2">0.25</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_BOARD_DELAY3">0.25</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_DQS_0_LENGTH_MM">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_DQS_1_LENGTH_MM">0</spirit:configurableElementValue>
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<spirit:configurableElementValue spirit:referenceId="PCW_EN_CLKTRIG3_PORT">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_IRQ_F2P_MODE">DIRECT</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_VALUE_SILVERSION">3</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_GP0_EN_MODIFIABLE_TXN">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_GP1_EN_MODIFIABLE_TXN">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_IMPORT_BOARD_PRESET">None</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_PERIPHERAL_BOARD_PRESET">part0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_PRESET_BANK0_VOLTAGE">LVCMOS 3.3V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_PRESET_BANK1_VOLTAGE">LVCMOS 1.8V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_ENABLE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_ADV_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_MEMORY_TYPE">DDR 3 (Low Voltage)</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_BUS_WIDTH">32 Bit</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_BL">8</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_HIGH_TEMP">Normal (0-85)</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_PARTNO">MT41J256M16 RE-125</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_TRAIN_WRITE_LEVEL">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_TRAIN_READ_GATE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_TRAIN_DATA_EYE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_CLOCK_STOP_EN">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_DDR_USE_INTERNAL_VREF">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_QSPI_PERIPHERAL_ENABLE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_QSPI_QSPI_IO">MIO 1 .. 6</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_QSPI_GRP_SINGLE_SS_ENABLE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_QSPI_GRP_SINGLE_SS_IO">MIO 1 .. 6</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_QSPI_GRP_SS1_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SINGLE_QSPI_DATA_MODE">x4</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_QSPI_GRP_IO1_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_QSPI_GRP_FBCLK_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_QSPI_INTERNAL_HIGHADDRESS">0xFCFFFFFF</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_ENET0_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_ENET1_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SD0_PERIPHERAL_ENABLE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SD0_SD0_IO">MIO 40 .. 45</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SD0_GRP_CD_ENABLE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SD0_GRP_CD_IO">MIO 47</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SD0_GRP_WP_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SD0_GRP_POW_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SD1_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UART0_PERIPHERAL_ENABLE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UART0_UART0_IO">MIO 14 .. 15</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UART0_GRP_FULL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UART1_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SPI0_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SPI1_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_CAN0_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_CAN1_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TRACE_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TRACE_INTERNAL_WIDTH">2</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_WDT_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TTC0_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TTC1_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_PJTAG_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_USB0_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_USB1_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_I2C0_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_I2C1_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_GPIO_PERIPHERAL_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_GPIO_MIO_GPIO_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_GPIO_EMIO_GPIO_ENABLE">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_APU_CLK_RATIO_ENABLE">6:2:1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_CPU_PERIPHERAL_CLKSRC">ARM PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_DDR_PERIPHERAL_CLKSRC">DDR PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SMC_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_QSPI_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SDIO_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UART_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SPI_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_CAN_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_FCLK0_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_FCLK1_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_FCLK2_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_FCLK3_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_ENET0_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_ENET1_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_CAN0_PERIPHERAL_CLKSRC">External</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_CAN1_PERIPHERAL_CLKSRC">External</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TPIU_PERIPHERAL_CLKSRC">External</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TTC0_CLK0_PERIPHERAL_CLKSRC">CPU_1X</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TTC0_CLK1_PERIPHERAL_CLKSRC">CPU_1X</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TTC0_CLK2_PERIPHERAL_CLKSRC">CPU_1X</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TTC1_CLK0_PERIPHERAL_CLKSRC">CPU_1X</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TTC1_CLK1_PERIPHERAL_CLKSRC">CPU_1X</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_TTC1_CLK2_PERIPHERAL_CLKSRC">CPU_1X</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_WDT_PERIPHERAL_CLKSRC">CPU_1X</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_DCI_PERIPHERAL_CLKSRC">DDR PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_PCAP_PERIPHERAL_CLKSRC">IO PLL</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_USB_RESET_POLARITY">Active Low</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_ENET_RESET_POLARITY">Active Low</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_I2C_RESET_POLARITY">Active Low</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_1_PULLUP">enabled</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_1_IOTYPE">LVCMOS 3.3V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_1_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_2_IOTYPE">LVCMOS 3.3V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_2_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_3_IOTYPE">LVCMOS 3.3V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_3_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_4_IOTYPE">LVCMOS 3.3V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_4_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_5_IOTYPE">LVCMOS 3.3V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_5_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_6_IOTYPE">LVCMOS 3.3V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_6_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_14_PULLUP">enabled</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_14_IOTYPE">LVCMOS 3.3V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_14_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_15_PULLUP">enabled</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_15_IOTYPE">LVCMOS 3.3V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_15_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_40_PULLUP">enabled</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_40_IOTYPE">LVCMOS 1.8V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_40_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_41_PULLUP">enabled</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_41_IOTYPE">LVCMOS 1.8V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_41_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_42_PULLUP">enabled</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_42_IOTYPE">LVCMOS 1.8V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_42_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_43_PULLUP">enabled</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_43_IOTYPE">LVCMOS 1.8V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_43_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_44_PULLUP">enabled</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_44_IOTYPE">LVCMOS 1.8V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_44_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_45_PULLUP">enabled</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_45_IOTYPE">LVCMOS 1.8V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_45_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_47_PULLUP">enabled</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_47_IOTYPE">LVCMOS 1.8V</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_47_SLEW">slow</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_UIPARAM_GENERATE_SUMMARY">NA</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_TREE_PERIPHERALS">unassigned#Quad SPI Flash#Quad SPI Flash#Quad SPI Flash#Quad SPI Flash#Quad SPI Flash#Quad SPI Flash#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#UART 0#UART 0#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#SD 0#SD 0#SD 0#SD 0#SD 0#SD 0#unassigned#SD 0#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_MIO_TREE_SIGNALS">unassigned#qspi0_ss_b#qspi0_io[0]#qspi0_io[1]#qspi0_io[2]#qspi0_io[3]/HOLD_B#qspi0_sclk#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#rx#tx#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned#clk#cmd#data[0]#data[1]#data[2]#data[3]#unassigned#cd#unassigned#unassigned#unassigned#unassigned#unassigned#unassigned</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_PS7_SI_REV">PRODUCTION</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_FPGA_FCLK0_ENABLE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS0_T_TR">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS0_T_PC">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS0_T_WP">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS0_T_CEOE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS0_T_WC">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS0_T_RC">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS0_WE_TIME">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS1_T_TR">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS1_T_PC">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS1_T_WP">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS1_T_CEOE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS1_T_WC">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS1_T_RC">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_SRAM_CS1_WE_TIME">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS0_T_TR">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS0_T_PC">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS0_T_WP">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS0_T_CEOE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS0_T_WC">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS0_T_RC">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS0_WE_TIME">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS1_T_TR">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS1_T_PC">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS1_T_WP">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS1_T_CEOE">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS1_T_WC">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS1_T_RC">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NOR_CS1_WE_TIME">0</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NAND_CYCLES_T_RR">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NAND_CYCLES_T_AR">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NAND_CYCLES_T_CLR">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NAND_CYCLES_T_WP">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NAND_CYCLES_T_REA">1</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NAND_CYCLES_T_WC">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_NAND_CYCLES_T_RC">11</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SMC_CYCLE_T0">NA</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SMC_CYCLE_T1">NA</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SMC_CYCLE_T2">NA</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SMC_CYCLE_T3">NA</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SMC_CYCLE_T4">NA</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SMC_CYCLE_T5">NA</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_SMC_CYCLE_T6">NA</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_PACKAGE_NAME">clg484</spirit:configurableElementValue>
<spirit:configurableElementValue spirit:referenceId="PCW_PLL_BYPASSMODE_ENABLE">0</spirit:configurableElementValue>
</spirit:configurableElementValues>
<bd:hdl_attributes/>
</spirit:componentInstance>
<spirit:componentInstance>
<spirit:instanceName>rst_ps7_0_100M</spirit:instanceName>
<spirit:componentRef spirit:library="ip" spirit:name="proc_sys_reset" spirit:vendor="xilinx.com" spirit:version="5.0"/>
<spirit:configurableElementValues>
<spirit:configurableElementValue spirit:referenceId="bd:xciName">ps1_rst_ps7_0_100M_0</spirit:configurableElementValue>
</spirit:configurableElementValues>
</spirit:componentInstance>
</spirit:componentInstances>
<spirit:interconnections>
<spirit:interconnection>
<spirit:name>axi_bram_ctrl_BRAM_PORTA</spirit:name>
<spirit:activeInterface spirit:busRef="BRAM_PORTA" spirit:componentRef="axi_bram_ctrl_bram"/>
<spirit:activeInterface spirit:busRef="BRAM_PORTA" spirit:componentRef="axi_bram_ctrl"/>
</spirit:interconnection>
<spirit:interconnection>
<spirit:name>axi_bram_ctrl_BRAM_PORTB</spirit:name>
<spirit:activeInterface spirit:busRef="BRAM_PORTB" spirit:componentRef="axi_bram_ctrl_bram"/>
<spirit:activeInterface spirit:busRef="BRAM_PORTB" spirit:componentRef="axi_bram_ctrl"/>
</spirit:interconnection>
<spirit:interconnection>
<spirit:name>processing_system7_0_M_AXI_GP0</spirit:name>
<spirit:activeInterface spirit:busRef="M_AXI_GP0" spirit:componentRef="processing_system7_0"/>
<spirit:activeInterface spirit:busRef="S00_AXI" spirit:componentRef="axi_smc"/>
</spirit:interconnection>
<spirit:interconnection>
<spirit:name>axi_smc_M00_AXI</spirit:name>
<spirit:activeInterface spirit:busRef="M00_AXI" spirit:componentRef="axi_smc"/>
<spirit:activeInterface spirit:busRef="S_AXI" spirit:componentRef="axi_bram_ctrl"/>
</spirit:interconnection>
</spirit:interconnections>
<spirit:adHocConnections>
<spirit:adHocConnection>
<spirit:name>processing_system7_0_FCLK_CLK0</spirit:name>
<spirit:internalPortReference spirit:componentRef="processing_system7_0" spirit:portRef="FCLK_CLK0"/>
<spirit:externalPortReference spirit:portRef="FCLK_CLK0"/>
<spirit:internalPortReference spirit:componentRef="axi_bram_ctrl" spirit:portRef="s_axi_aclk"/>
<spirit:internalPortReference spirit:componentRef="axi_smc" spirit:portRef="aclk"/>
<spirit:internalPortReference spirit:componentRef="processing_system7_0" spirit:portRef="M_AXI_GP0_ACLK"/>
<spirit:internalPortReference spirit:componentRef="rst_ps7_0_100M" spirit:portRef="slowest_sync_clk"/>
</spirit:adHocConnection>
<spirit:adHocConnection>
<spirit:name>processing_system7_0_FCLK_RESET0_N</spirit:name>
<spirit:internalPortReference spirit:componentRef="processing_system7_0" spirit:portRef="FCLK_RESET0_N"/>
<spirit:externalPortReference spirit:portRef="FCLK_RESET0_N"/>
<spirit:internalPortReference spirit:componentRef="rst_ps7_0_100M" spirit:portRef="ext_reset_in"/>
</spirit:adHocConnection>
<spirit:adHocConnection>
<spirit:name>rst_ps7_0_100M_peripheral_aresetn</spirit:name>
<spirit:internalPortReference spirit:componentRef="rst_ps7_0_100M" spirit:portRef="peripheral_aresetn"/>
<spirit:internalPortReference spirit:componentRef="axi_bram_ctrl" spirit:portRef="s_axi_aresetn"/>
<spirit:internalPortReference spirit:componentRef="axi_smc" spirit:portRef="aresetn"/>
</spirit:adHocConnection>
<spirit:adHocConnection>
<spirit:name>aux_reset_in_0_1</spirit:name>
<spirit:externalPortReference spirit:portRef="ext_reset_n"/>
<spirit:internalPortReference spirit:componentRef="rst_ps7_0_100M" spirit:portRef="aux_reset_in"/>
</spirit:adHocConnection>
</spirit:adHocConnections>
<spirit:hierConnections>
<spirit:hierConnection spirit:interfaceRef="FIXED_IO/processing_system7_0_FIXED_IO">
<spirit:activeInterface spirit:busRef="FIXED_IO" spirit:componentRef="processing_system7_0"/>
</spirit:hierConnection>
<spirit:hierConnection spirit:interfaceRef="DDR/processing_system7_0_DDR">
<spirit:activeInterface spirit:busRef="DDR" spirit:componentRef="processing_system7_0"/>
</spirit:hierConnection>
</spirit:hierConnections>
</spirit:design>
<spirit:component xmlns:spirit="http://www.spiritconsortium.org/XMLSchema/SPIRIT/1685-2009">
<spirit:vendor>xilinx.com</spirit:vendor>
<spirit:library>Addressing/processing_system7_0</spirit:library>
<spirit:name>processing_system7</spirit:name>
<spirit:version>5.5</spirit:version>
<spirit:busInterfaces>
<spirit:busInterface>
<spirit:name>M_AXI_GP0</spirit:name>
<spirit:master>
<spirit:addressSpaceRef spirit:addressSpaceRef="Data"/>
<spirit:baseAddress spirit:maximum="0x7FFFFFFF" spirit:minimum="0x40000000">0x40000000</spirit:baseAddress>
</spirit:master>
<spirit:busType spirit:library="interface" spirit:name="aximm" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:abstractionType spirit:library="interface" spirit:name="aximm_rtl" spirit:vendor="xilinx.com" spirit:version="1.0"/>
<spirit:parameters>
<spirit:parameter>
<spirit:name>master_id</spirit:name>
<spirit:value>0</spirit:value>
</spirit:parameter>
</spirit:parameters>
</spirit:busInterface>
</spirit:busInterfaces>
<spirit:addressSpaces>
<spirit:addressSpace>
<spirit:name>Data</spirit:name>
<spirit:range>4G</spirit:range>
<spirit:width>32</spirit:width>
<spirit:segments>
<spirit:segment>
<spirit:name>SEG_axi_bram_ctrl_Mem0</spirit:name>
<spirit:displayName>/axi_bram_ctrl/S_AXI/Mem0</spirit:displayName>
<spirit:addressOffset>0x40000000</spirit:addressOffset>
<spirit:range>128K</spirit:range>
</spirit:segment>
</spirit:segments>
</spirit:addressSpace>
</spirit:addressSpaces>
</spirit:component>
</bd:repository>

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## 125MHz Clock from Ethernet PHY
create_clock -period 8.000 -name sys_clk_pin -waveform {0.000 4.000} -add [get_ports p_clk]

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##---------------------------------------------------------------------------------------
## Filename : set_usercode.xdc
##
## Vivado onstraint file to set user version number into the bitfile
##---------------------------------------------------------------------------------------
#----------------------------------------------------------------------------------------
#-- Usercode major revisions
#----------------------------------------------------------------------------------------
#-- 0x0000_NNNN : Early debug and test. No PMODs,ZMODs, DACs etc
#-- 0x1AC0_NNNN : DC PMODs, 4? single bit pulses. NNN incremented each bitfile
#-- 0x1DC0_NNNN : DC PMODs DAC versions. NNN incremented each bitfile
#-- 0x2AC0_NNNN : DC PMODs, AC ZMODs. 4 channel NNN incremented each bitfile
#-- 0x3AC0_NNNN : DC PMODs, JESD AC (16ch Abaco board) NNN incremented each bitfile
#
#----------------------------------------------------------------------------------------
#-- Usercode history
#----------------------------------------------------------------------------------------
#-- 0x1DC0_0001 : Original release
#-- 0x1DC0_0002 : Modified double blink and added QSPI and SD into the PS1 block
#-- 0x1DC0_0003 : SD pins on 1.8V bank. Add SD_CD on MIO47
#-- 0x1DC0_0004 : SD clock dropped from 100MHz to 20Mhz
#-- 0x1DC0_0005 : Restore internal reference enable for pmod DACs
#--
#----------------------------------------------------------------------------------------
# In VHDL package : constant C_QLASER_VERSION : std_logic_vector(31 downto 0)
#----------------------------------------------------------------------------------------
set_property BITSTREAM.CONFIG.USERID 32'h1DC00005 [current_design]

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