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---------------------------------------------------------------------------------- |
-- Company: www.mlab.cz |
-- Based on code written by MIHO. |
-- |
-- Design Name: S3AN01A |
-- Project Name: PulseGen |
-- Target Devices: XC3S50AN-4 |
-- Tool versions: ISE 13.3 |
-- Description: Sample of Pulse Generator at S3AN01A MLAB board. |
-- |
-- Dependencies: External PS/2 Keyboard has to be connected. |
-- |
-- Version: $Id$ |
-- |
---------------------------------------------------------------------------------- |
library IEEE; |
use IEEE.STD_LOGIC_1164.ALL; |
use IEEE.numeric_std.ALL; |
use WORK.PS2_pkg.ALL; |
library UNISIM; |
use UNISIM.vcomponents.all; |
entity PulseGen is |
generic ( |
-- Top Value for 100MHz Clock Counter |
MAXCOUNT: integer := 30_000_000; |
MUXCOUNT: integer := 100_000 -- LED Display Multiplex Clock Divider |
); |
port ( |
-- Main Clock |
CLK100MHz: in std_logic; |
-- Mode Signals (usualy not used) |
M: in std_logic_vector(2 downto 0); |
VS: in std_logic_vector(2 downto 0); |
-- Dipswitch Inputs |
DIPSW: in std_logic_vector(7 downto 0); |
-- Push Buttons |
PB: in std_logic_vector(3 downto 0); |
-- LED Bar Outputs |
LED: out std_logic_vector(7 downto 0); |
-- LED Display (8 digit with 7 segments and ddecimal point) |
LD_A_n: out std_logic; |
LD_B_n: out std_logic; |
LD_C_n: out std_logic; |
LD_D_n: out std_logic; |
LD_E_n: out std_logic; |
LD_F_n: out std_logic; |
LD_G_n: out std_logic; |
LD_DP_n: out std_logic; |
LD_0_n: out std_logic; |
LD_1_n: out std_logic; |
LD_2_n: out std_logic; |
LD_3_n: out std_logic; |
LD_4_n: out std_logic; |
LD_5_n: out std_logic; |
LD_6_n: out std_logic; |
LD_7_n: out std_logic; |
-- VGA Video Out Port |
VGA_R: out std_logic_vector(1 downto 0); |
VGA_G: out std_logic_vector(1 downto 0); |
VGA_B: out std_logic_vector(1 downto 0); |
VGA_VS: out std_logic; |
VGA_HS: out std_logic; |
-- Bank 1 Pins - Inputs for this Test |
B: inout std_logic_vector(24 downto 0); |
-- PS/2 Bidirectional Port (open collector, J31 and J32) |
-- PS2_CLK1: inout std_logic; |
-- PS2_DATA1: inout std_logic; |
PS2_CLK2: inout std_logic; |
PS2_DATA2: inout std_logic; |
-- Diferencial Signals on 4 pin header (J7) |
DIF1P: inout std_logic; |
DIF1N: inout std_logic; |
DIF2P: inout std_logic; |
DIF2N: inout std_logic; |
-- I2C Signals (on connector J30) |
I2C_SCL: inout std_logic; |
I2C_SDA: inout std_logic; |
-- Diferencial Signals on SATA like connectors (not SATA capable, J28 and J29) |
SD1AP: inout std_logic; |
SD1AN: inout std_logic; |
SD1BP: inout std_logic; |
SD1BN: inout std_logic; |
SD2AP: inout std_logic; |
SD2AN: inout std_logic; |
SD2BP: inout std_logic; |
SD2BN: inout std_logic; |
-- Analog In Out |
ANA_OUTD: out std_logic; |
ANA_REFD: out std_logic; |
ANA_IND: in std_logic; |
-- SPI Memory Interface |
SPI_CS_n: inout std_logic; |
SPI_DO: inout std_logic; |
SPI_DI: inout std_logic; |
SPI_CLK: inout std_logic; |
SPI_WP_n: inout std_logic |
); |
end entity PulseGen; |
architecture PulseGen_a of PulseGen is |
function to_bcd ( bin : std_logic_vector(7 downto 0) ) return std_logic_vector is |
variable i : integer:=0; |
variable mybcd : std_logic_vector(11 downto 0) := (others => '0'); |
variable bint : std_logic_vector(7 downto 0) := bin; |
begin |
for i in 0 to 7 loop -- repeating 8 times. |
mybcd(11 downto 1) := mybcd(10 downto 0); --shifting the bits. |
mybcd(0) := bint(7); |
bint(7 downto 1) := bint(6 downto 0); |
bint(0) :='0'; |
if(i < 7 and mybcd(3 downto 0) > "0100") then --add 3 if BCD digit is greater than 4. |
mybcd(3 downto 0) := std_logic_vector(unsigned(mybcd(3 downto 0)) + 3); |
end if; |
if(i < 7 and mybcd(7 downto 4) > "0100") then --add 3 if BCD digit is greater than 4. |
mybcd(7 downto 4) := std_logic_vector(unsigned(mybcd(7 downto 4)) + 3); |
end if; |
if(i < 7 and mybcd(11 downto 8) > "0100") then --add 3 if BCD digit is greater than 4. |
mybcd(11 downto 8) := std_logic_vector(unsigned(mybcd(11 downto 8)) + 3); |
end if; |
end loop; |
return mybcd; |
end to_bcd; |
-- O1: ____|^^^^^^^|______ |
-- O2: _________|^^|______ |
-- t1 t2 |
-- t1/t2 is from 0 to 2000 ns; repeating frequency is cca 1,6 kHz |
signal T1: unsigned(15 downto 0) := X"000a"; -- Time t1 to Impuls at O2 |
signal T2: unsigned(15 downto 0) := X"0001"; -- Duration t2 of impuls at O2 |
signal CT0: unsigned(15 downto 0) := X"0000"; -- Timer |
signal O1: std_logic := '0'; -- Output 1 |
signal O2: std_logic := '0'; -- Output 2 |
signal CTburst: unsigned(15 downto 0) := X"0000"; -- Pulse counter |
-- LED Demo Signals |
-- ---------------- |
signal Counter: unsigned(31 downto 0) := X"00000000"; -- Main Counter (binary) |
signal Bar: unsigned(7 downto 0) := X"00"; -- Counter for Bar output (binary) |
signal FastBlink: std_logic; -- Signal mask for half intensity LED output (several kHz) |
-- LED Display |
-- ----------- |
signal Number: std_logic_vector(32 downto 0); -- LED Display Input |
signal MuxCounter: unsigned(31 downto 0) := (others => '0'); -- LED Multiplex - Multiplex Clock Divider |
signal Enable: std_logic; |
signal Digits: std_logic_vector(7 downto 0) := X"01"; -- LED Multiplex - Digit Counter - LED Digit Output |
signal Segments: std_logic_vector(0 to 7); -- LED Segment Output |
signal Code: std_logic_vector(3 downto 0); -- BCD to 7 Segment Decoder Output |
-- PS/2 Port |
-- --------- |
-- Interface Signals |
signal PS2_Code: std_logic_vector(7 downto 0); -- Key Scan Code |
signal PS2_Attribs: std_logic_vector(7 downto 0); -- State of Shifts for Scan Code |
signal PS2_Valid: boolean; -- Valid Data (synchronous with Main Clock) |
signal PS2_Shifts: std_logic_vector(9 downto 0); -- Immediate (life) State of Shifts for Scan Code |
-- Result |
signal PS2_Result: std_logic_vector(15 downto 0); -- Result (memory) |
-- signal Key: std_logic_vector(7 downto 0); -- Cislo na klavese |
-- VGA Demo Signals |
-- ---------------- |
signal CLK: std_logic; -- Main Clock - global distribution network |
signal CLKVGAi: std_logic; -- DCM Clock Out (40MHz Pixel Clock) - internal connection from DCM to BUFG |
signal CLKVGA: std_logic; -- DCM Clock Out (40MHz Pixel Clock) - global distribution network |
signal VGA_Blank: boolean; -- Blank |
signal VGA_Hsync: boolean; -- Horisontal Synchronisation |
signal VGA_Vsync: boolean; -- Vertical Synchronisation |
signal VCounter: unsigned(9 downto 0) := "0000000000"; -- Vertical Counter |
signal HCounter: unsigned(10 downto 0) := "00000000000"; -- Horisontal Counter |
signal PinState: std_logic; -- For IB1 Port Test |
signal Red: std_logic_vector(1 downto 0); |
signal Green: std_logic_vector(1 downto 0); |
signal Blue: std_logic_vector(1 downto 0); |
-- ADDA |
signal ADDA_DataIn: std_logic_vector(7 downto 0); |
begin |
-- Basic LED Blinking Test |
-- ======================= |
-- LED Bar Counter |
process (CLK100MHz) |
begin |
if rising_edge(CLK100MHz) then |
if Counter < MAXCOUNT-1 then |
Counter <= Counter + 1; |
else |
Counter <= (others => '0'); |
Bar <= Bar + 1; |
end if; |
end if; |
end process; |
LED <= std_logic_vector(Bar); -- LED Bar Connected to Counter |
FastBlink <= Counter(13) and Counter(14) and Counter(15) and Counter(16); -- 1/16 intensity |
-- LED Display (multiplexed) |
-- ========================= |
-- Connect LED Display Output Ports (negative outputs) |
LD_A_n <= not (Segments(0) and Enable); |
LD_B_n <= not (Segments(1) and Enable); |
LD_C_n <= not (Segments(2) and Enable); |
LD_D_n <= not (Segments(3) and Enable); |
LD_E_n <= not (Segments(4) and Enable); |
LD_F_n <= not (Segments(5) and Enable); |
LD_G_n <= not (Segments(6) and Enable); |
LD_DP_n <= not (Segments(7) and Enable); |
LD_0_n <= not Digits(0); |
LD_1_n <= not Digits(1); |
LD_2_n <= not Digits(2); |
LD_3_n <= not Digits(3); |
LD_4_n <= not Digits(4); |
LD_5_n <= not Digits(5); |
LD_6_n <= not Digits(6); |
LD_7_n <= not Digits(7); |
-- Time Multiplex |
process (CLK100MHz) |
begin |
if rising_edge(CLK100MHz) then |
if MuxCounter < MUXCOUNT-1 then |
MuxCounter <= MuxCounter + 1; |
else |
MuxCounter <= (others => '0'); |
Digits(7 downto 0) <= Digits(6 downto 0) & Digits(7); -- Rotate Left |
Enable <= '0'; |
end if; |
if MuxCounter > (MUXCOUNT-4) then |
Enable <= '1'; |
end if; |
end if; |
end process; |
-- BCD to 7 Segmet Decoder |
-- -- A |
-- | | F B |
-- -- G |
-- | | E C |
-- -- D H |
-- ABCDEFGH |
Segments <= "11111100" when Code="0000" else -- Digit 0 |
"01100000" when Code="0001" else -- Digit 1 |
"11011010" when Code="0010" else -- Digit 2 |
"11110010" when Code="0011" else -- Digit 3 |
"01100110" when Code="0100" else -- Digit 4 |
"10110110" when Code="0101" else -- Digit 5 |
"10111110" when Code="0110" else -- Digit 6 |
"11100000" when Code="0111" else -- Digit 7 |
"11111110" when Code="1000" else -- Digit 8 |
"11110110" when Code="1001" else -- Digit 9 |
"11101110" when Code="1010" else -- Digit A |
"00111110" when Code="1011" else -- Digit b |
"10011100" when Code="1100" else -- Digit C |
"01111010" when Code="1101" else -- Digit d |
"10011110" when Code="1110" else -- Digit E |
"10001110" when Code="1111" else -- Digit F |
"00000000"; |
Code <= Number( 3 downto 0) when Digits="00000001" else |
Number( 7 downto 4) when Digits="00000010" else |
Number(11 downto 8) when Digits="00000100" else |
Number(15 downto 12) when Digits="00001000" else |
Number(19 downto 16) when Digits="00010000" else |
Number(23 downto 20) when Digits="00100000" else |
Number(27 downto 24) when Digits="01000000" else |
Number(31 downto 28) when Digits="10000000" else |
"0000"; |
-- Key <= "00000000" when PS2_Result(7 downto 0)=X"70" else -- Digit 0 |
-- "00000001" when PS2_Result(7 downto 0)=X"69" else -- Digit 1 |
-- "00000010" when PS2_Result(7 downto 0)=X"72" else -- Digit 2 |
-- "11111111"; |
-- Number(31 downto 28) <= Key(3 downto 0); |
-- Number( 7 downto 0) <= std_logic_vector(BAR); |
-- Number(31 downto 24) <= DIPSW; |
-- PS/2 Port |
-- ========= |
-- Instantiate PS/2 Keyboard Interface Handler |
PS2_Keyboard: PS2 generic map( |
CLKFREQ => 100_000_000 |
) |
port map( |
-- Main Clock |
Clk => CLK100MHz, |
-- PS/2 Port |
PS2_Clk => PS2_CLK2, |
PS2_Data => PS2_DATA2, |
-- Result - valid when PS2_Valid |
PS2_Code => PS2_Code, |
PS2_Attribs => PS2_Attribs, |
PS2_Valid => PS2_Valid, |
-- Immediate State of Shifts |
PS2_Shifts => PS2_Shifts |
); -- PS2 |
process (CLK100MHz) |
begin |
if rising_edge(CLK100MHz) then |
if PS2_Valid and PS2_Attribs(7)='0' then |
-- Valid Scan Code with no Break Attribute |
PS2_Result( 7 downto 0) <= PS2_Code; |
PS2_Result(15 downto 8) <= PS2_Attribs; |
end if; |
if PS2_Valid and PS2_Attribs(7)='0' then |
if PS2_Code = X"74" and T1<2000 then T1<=T1+1; end if; |
if PS2_Code = X"6b" and T1>0 then T1<=T1-1; end if; |
if PS2_Code = X"75" and T2<200 then T2<=T2+1; end if; |
if PS2_Code = X"72" and T2>0 then T2<=T2-1; end if; |
CT0<=X"0000"; |
O1<='0'; |
O2<='0'; |
CTburst<=X"0000"; |
end if; |
if PB(0)='1' then |
T1<=X"0000"; |
T2<=X"0000"; |
end if; |
if DIPSW(0)='1' then |
if CT0>X"F000" then |
CT0<=X"0000"; |
else |
CT0<=CT0+1; |
end if; |
else |
if CT0>X"0200" then |
CT0<=X"0000"; |
else |
CT0<=CT0+1; |
end if; |
end if; |
if CTburst>2000 then |
CTburst<=X"0000"; |
end if; |
if (CTburst<1000) or (DIPSW(1)='0') then |
if CT0=X"0000" then |
O1<='1'; |
end if; |
if CT0=T1+X"0000" then |
O2<='1'; |
end if; |
end if; |
if CT0=T2+T1+X"0000" then |
O1<='0'; |
O2<='0'; |
CTburst<=CTburst+1; |
end if; |
end if; |
end process; |
-- Display Result on LED |
Number(3 downto 0) <= (others=>'0'); |
Number(15 downto 4) <= to_bcd(std_logic_vector(T2)); |
Number(19 downto 16) <= (others=>'0'); |
Number(31 downto 20) <= to_bcd(std_logic_vector(T1)); |
-- Test Diferencial In/Outs |
-- ======================== |
-- Output Signal on SATA Connector |
SD1AP <= Bar(0); |
SD1AN <= Bar(1); |
SD1BP <= Bar(2); |
SD1BN <= Bar(3); |
-- Input Here via SATA Cable |
SD2AP <= 'Z'; |
SD2AN <= 'Z'; |
SD2BP <= 'Z'; |
SD2BN <= 'Z'; |
-- Copy SATA Connector Input to 4 pin header (J7) - Connect these signals to B port input to visualize them |
-- !!!!!!!!!!!! Pulse Generator Outputs !!!!!!!!!!!!!!!!!!!!! |
DIF1P <= O1; |
B(0) <= O1; |
DIF1N <= not O1; |
B(1) <= not O1; |
DIF2P <= O2; |
B(2) <= O2; |
DIF2N <= not O2; |
B(3) <= not O2; |
VGA_R(0) <= O1; |
VGA_R(1) <= O2; |
-- Unused Signals |
-- ============== |
-- I2C Signals (on connector J30) |
I2C_SCL <= 'Z'; |
I2C_SDA <= 'Z'; |
-- SPI Memory Interface |
SPI_CS_n <= 'Z'; |
SPI_DO <= 'Z'; |
SPI_DI <= 'Z'; |
SPI_CLK <= 'Z'; |
SPI_WP_n <= 'Z'; |
ANA_OUTD <= 'Z'; |
ANA_REFD <= 'Z'; |
VGA_R <= "ZZ"; |
VGA_G <= "ZZ"; |
VGA_B <= "ZZ"; |
VGA_VS <= 'Z'; |
VGA_HS <= 'Z'; |
end architecture PulseGen_a; |
Property changes: |
Added: svn:keywords |
+Id |
\ No newline at end of property |
/Modules/CPLD_FPGA/S3AN01B/VHDL/PulseGen/src/LIB/PS2.vhd |
---|
0,0 → 1,520 |
---------------------------------------------------------------------------------- |
-- Company: www.mlab.cz |
-- Engineer: miho |
-- |
-- Create Date: 19:31:10 02/20/2011 |
-- Design Name: S3AN01A Test Design |
-- Module Name: PS2 |
-- Project Name: S3AN01A Test Design |
-- Target Devices: XILINX FPGA (Spartan3A/3AN) |
-- Tool versions: ISE 12.4 / 13.1 / 13.3 |
-- Description: Test design for PCB verification |
-- |
-- Dependencies: None |
-- |
-- Revision: 0.01 File Created |
-- |
---------------------------------------------------------------------------------- |
-- |
-- PS/2 Keyboard Driver |
-- ==================== |
-- |
-- PS2_Code |
-- -------- |
-- |
-- Standard PS/2 Scan Code |
-- |
-- |
-- PS2_Attribs |
-- ----------- |
-- |
-- Bit 0 - Shift |
-- Bit 1 - Ctrl |
-- Bit 2 - Alt |
-- Bit 3 - Ext0 (arrows, ...) |
-- Bit 4 - Ext1 |
-- Bit 5 - Shift Num (arrows with NumLock) |
-- Bit 6 |
-- Bit 7 - Break (key release) |
-- |
-- |
-- PS2_Shifts |
-- ---------- |
-- |
-- Bit 0 - Shift Left |
-- Bit 1 - Shift Right |
-- Bit 2 - Ctrl Left |
-- Bit 3 - Ctrl Right |
-- Bit 4 - Alt Left |
-- Bit 5 - Alt Right |
-- Bit 6 - Num Lock |
-- Bit 7 - Caps Lock |
-- Bit 8 - Scroll Lock |
-- Bit 9 - Shift Num (virtual state) - Not to be used |
-- |
---------------------------------------------------------------------------------- |
library IEEE; |
use IEEE.STD_LOGIC_1164.ALL; |
use IEEE.NUMERIC_STD.ALL; |
entity PS2 is |
generic ( |
-- Top Value for 100MHz Clock Counter |
CLKFREQ: integer -- Frequency in Hz (minimum cca 50_000) |
); |
port ( |
-- Main Clock |
Clk: in std_logic; |
-- PS/2 Port |
PS2_Clk: inout std_logic; |
PS2_Data: inout std_logic; |
-- Result - valid when PS2_Valid |
PS2_Valid: out boolean; -- Valid Data (synchronous with Clk) |
PS2_Code: out std_logic_vector(7 downto 0); -- Key Scan Code |
PS2_Attribs: out std_logic_vector(7 downto 0); -- State of Shifts for Scan Code |
-- Immediate State of Shifts |
PS2_Shifts: out std_logic_vector(9 downto 0) -- Immediate (live) State of Shift/Alt/Ctrl etc. |
); |
end entity PS2; |
library IEEE; |
use IEEE.STD_LOGIC_1164.ALL; |
package PS2_pkg is |
component PS2 |
generic ( |
-- Top Value for 100MHz Clock Counter |
CLKFREQ: integer -- Frequency in Hz (minimum cca 50_000) |
); |
port ( |
-- Main Clock |
Clk: in std_logic; |
-- PS/2 Port |
PS2_Clk: inout std_logic; |
PS2_Data: inout std_logic; |
-- Result - valid when PS2_Valid |
PS2_Valid: out boolean; -- Valid Data (synchronous with Main Clock) |
PS2_Code: out std_logic_vector(7 downto 0); -- Key Scan Code |
PS2_Attribs: out std_logic_vector(7 downto 0); -- State of Shifts for Scan Code |
-- Immediate State of Shifts |
PS2_Shifts: out std_logic_vector(9 downto 0) -- Immediate (live) State of Shift/Alt/Ctrl etc. |
); |
end component PS2; |
end package; |
architecture PS2_a of PS2 is |
function to_std_logic(State: boolean) return std_logic is |
begin |
if State then |
return '1'; |
else |
return '0'; |
end if; |
end function to_std_logic; |
-- Sampled PS/2 Clock and Data |
signal PS2_Clk_d: std_logic := '0'; -- For sync with systerm clock |
signal PS2_Clk_dd: std_logic := '0'; -- For falling edge detection |
signal PS2_Data_d: std_logic := '0'; -- For sync with systerm clock |
-- Level 0 - Read Byte from PS/2 Interface |
type ReadByte_t is ( -- Read Byte FSM State Type |
Idle, -- Inactive State |
D0, D1, D2, D3, D4, D5, D6, D7, -- Receiving Bits |
Parity, -- Receiving Parity |
Final -- Receiving Stop Bit and Sending ReadByte_rdy |
); |
signal ReadByteState: ReadByte_t := Idle; -- Read Byte FSM State |
signal ReadByte: std_logic_vector(7 downto 0) := (others => '0'); -- Read Byte (Raw Scan Code Byte) |
signal ReadByte_rdy: boolean := false; -- Read Byte Ready (synchronous with Clk) |
-- Level 1 - Process Raw Scan Codes E0,F1 and F0 - valid only when Level1_rdy |
signal FlagE0: boolean := false; -- E0 - Ext0 Key |
signal FlagE1: boolean := false; -- E1 - Ext1 Key |
signal FlagF0: boolean := false; -- F0 - Break (release) Key |
signal Level1_rdy: boolean := false; -- Send Data and Flags to the next level |
-- Level 2 - Process Raw Scan Codes and Shift-Like Atributes E0, E1 and F0 - valid only when Level2_rdy |
signal FlagBreak: boolean := false; -- F0 - Break (depress) Key |
signal FlagAltR: boolean := false; -- E0 11 - State of Right Alt Key |
signal FlagAltL: boolean := false; -- 11 - State of Left Alt Key |
signal FlagShiftNum: boolean := false; -- E0 12 - State of Ext Left Shift (pseudo key) |
signal FlagShiftL: boolean := false; -- 12 |
signal FlagShiftR: boolean := false; -- 59 |
signal FlagCtrlR: boolean := false; -- E0 14 |
signal FlagCtrlL: boolean := false; -- 14 |
signal FlagExt0: boolean := false; -- E0 Keys (extended keys) |
signal FlagExt1: boolean := false; -- E1 Keys (extended keys - Prt_Scr and Pause_Brk) |
signal FlagNumLock: boolean := false; -- 77 Num Lock State |
signal FlagScrollLock: boolean := false; -- 7E Scroll Lock State |
signal FlagCapsLock: boolean := false; -- 58 Caps Lock State |
signal Level2_rdy: boolean := false; -- Send Data and Flags to the next level |
signal Level2a_rdy: boolean := false; -- Send Read Ack for Write Byte |
-- Write Byte |
type WriteByteState_t is ( -- Write Byte FSM State Type |
Idle, -- Idle State |
WriteStart, -- Start (pull PS2_Clk down) |
WaitStart, -- Wait |
SendBits, -- Send Data Bits |
WriteParity, -- Send Parity |
WriteStop, -- Send Stop Bit |
AckBit, -- Wait for Ack Bit from Keyboard |
Final, -- Wait for Idle on PS2_Clk and PS2_Data |
WaitAckByte -- Wait for Ack Byte from Keyboard |
); |
signal WriteByteState: WriteByteState_t := Idle; -- Write Byte FSM State |
signal WriteCode: std_logic_vector(7 downto 0) := (others =>'0'); -- What to Write |
signal WriteByte: boolean := false; -- Init Write Byte Sequence |
signal SendingData: boolean := false; -- Block Receiver when Sending Data |
signal WriteByte_ack: boolean := false; -- Ack Writen Byte |
signal WriteReg: std_logic_vector(7 downto 0) := (others =>'0'); -- Transmit Shift Register |
signal ParityBit: std_logic := '0'; -- Parity Bit |
signal StartTime: unsigned(31 downto 0) := (others =>'0'); -- Timer for Start of Write (PS2_Clk low) |
signal WriteBits: unsigned(3 downto 0) := (others =>'0'); -- Bit Counter |
-- Update LED Indicators |
type UpdState_t is ( -- Update Led Indicators FSM State Type |
Idle, -- Inactive State |
SendReset, -- For Debug - Reset Keyboard |
SendLed1, -- Send FD |
SendLed2, -- Send New LED State |
SendFinal -- |
); |
signal UpdState: UpdState_t := Idle; -- Update Led Indicators FSM State |
signal UpdateLed: boolean := false; -- Send new LED State to the Keyboard |
signal UpdateLed_ack: boolean := false; -- Ack (1 clock pulse) |
begin |
-- Sync External Signals with Clock |
process (Clk) |
begin |
if rising_edge(Clk) then |
-- Sync |
PS2_Clk_d <= PS2_Clk; |
PS2_Data_d <= PS2_Data; |
-- For Falling Edge Detection |
PS2_Clk_dd <= PS2_Clk_d; |
end if; |
end process; |
-- Level 0 - Read Byte from PS/2 Interface |
process (Clk) |
begin |
if rising_edge(Clk) then |
ReadByte_rdy <= false; |
if PS2_Clk_dd='1' and PS2_Clk_d='0' and not SendingData then |
-- Falling Edge of PS2_Clk |
case ReadByteState is |
when Idle => |
-- Test Start Bit |
if PS2_Data='0' then |
ReadByteState <= D0; |
end if; |
when D0 => |
-- Bit 0 |
ReadByte <= PS2_Data & ReadByte(7 downto 1); |
ReadByteState <= D1; |
when D1 => |
-- Bit 1 |
ReadByte <= PS2_Data & ReadByte(7 downto 1); |
ReadByteState <= D2; |
when D2 => |
-- Bit 2 |
ReadByte <= PS2_Data & ReadByte(7 downto 1); |
ReadByteState <= D3; |
when D3 => |
-- Bit 3 |
ReadByte <= PS2_Data & ReadByte(7 downto 1); |
ReadByteState <= D4; |
when D4 => |
-- Bit 4 |
ReadByte <= PS2_Data & ReadByte(7 downto 1); |
ReadByteState <= D5; |
when D5 => |
-- Bit 5 |
ReadByte <= PS2_Data & ReadByte(7 downto 1); |
ReadByteState <= D6; |
when D6 => |
-- Bit 6 |
ReadByte <= PS2_Data & ReadByte(7 downto 1); |
ReadByteState <= D7; |
when D7 => |
-- Bit 7 |
ReadByte <= PS2_Data & ReadByte(7 downto 1); |
ReadByteState <= Parity; |
when Parity => |
-- Check Parity Here... |
ReadByteState <= Final; |
when Final => |
-- End of Byte |
ReadByteState <= Idle; |
ReadByte_rdy <= true; -- Scan Code Ready (8 bit word) |
end case; |
end if; |
end if; |
end process; |
-- Level 1 - Process Raw Scan Codes and ESC Atributes E0, E1 and F0 |
process (Clk) |
begin |
if rising_edge(Clk) then |
if Level1_rdy then |
-- Clean State when Sent Data from Level1 processing |
Level1_rdy <= false; |
FlagE0 <= false; |
FlagE1 <= false; |
FlagF0 <= false; |
else |
if ReadByte_rdy then |
-- Process Scan Code Byte from Level 0 |
if ReadByte=X"E0" then |
-- Ext Code |
FlagE0 <= true; |
elsif ReadByte=X"E1" then |
-- Special Ext Code |
FlagE1 <= true; |
elsif ReadByte=X"F0" then |
-- Break Flag |
FlagF0 <= true; |
else |
-- Scan Code |
Level1_rdy <= true; |
end if; |
end if; |
end if; |
end if; |
end process; |
-- Level 2 - Process Shift (left and right shift, alt and ctrl) and Num Lock (numeric virtual shift) |
process (Clk) |
begin |
if rising_edge(Clk) then |
-- Clear Comands to Higher Level |
UpdateLed <= false; |
Level2a_rdy <= false; |
Level2_rdy <= false; |
-- Process Read Byte |
if Level1_rdy then |
if ReadByte=X"11" then |
-- Alt Key |
if FlagE0 then |
FlagAltR <= not FlagF0; |
else |
FlagAltL <= not FlagF0; |
end if; |
elsif ReadByte=X"12" then |
-- Left Shift |
if FlagE0 then |
FlagShiftNum <= not FlagF0; |
else |
FlagShiftL <= not FlagF0; |
end if; |
elsif ReadByte=X"59" then |
-- Right Shift |
FlagShiftR <= not FlagF0; |
elsif ReadByte=X"14" then |
-- Ctrl |
if FlagE0 then |
FlagCtrlR <= not FlagF0; |
else |
FlagCtrlL <= not FlagF0; |
end if; |
elsif ReadByte=X"77" and not FlagCtrlL and not FlagCtrlR and not FlagAltL and not FlagAltR then |
-- Num Lock On/Off |
if not FlagF0 then |
FlagNumLock <= not FlagNumLock; |
UpdateLed <= true; -- Set UpdateLed Request |
end if; |
elsif ReadByte=X"58" then |
-- Caps Lock |
if not FlagF0 then |
FlagCapsLock <= not FlagCapsLock; |
UpdateLed <= true; -- Set UpdateLed Request |
end if; |
elsif ReadByte=X"7E" then |
if not FlagF0 then |
FlagScrollLock <= not FlagScrollLock; |
UpdateLed <= true; -- Set UpdateLed Request |
end if; |
else |
-- Send Data to the next Level |
FlagExt0 <= FlagE0; |
FlagExt1 <= FlagE1; |
FlagBreak <= FlagF0; |
if WriteByteState=WaitAckByte then |
-- Send Data (Ack Byte) to WriteByte |
Level2a_rdy <= true; |
else |
-- Send Scan Code to the next Level |
Level2_rdy <= true; |
end if; |
end if; |
end if; |
end if; |
end process; |
-- Send Data |
PS2_Valid <= Level2_rdy; |
-- Scan COde |
PS2_Code(7 downto 0) <= ReadByte; |
-- Attribs |
PS2_Attribs(0) <= '1' when FlagShiftL or FlagShiftR else '0'; -- Bit 0 - Shift |
PS2_Attribs(1) <= '1' when FlagCtrlL or FlagCtrlR else '0'; -- Bit 1 - Ctrl |
PS2_Attribs(2) <= '1' when FlagAltL or FlagAltR else '0'; -- Bit 2 - Alt |
PS2_Attribs(3) <= '1' when FlagExt0 else '0'; -- Bit 3 - Ext Code E0 |
PS2_Attribs(4) <= '1' when FlagExt1 else '0'; -- Bit 4 - Ext Code E1 |
PS2_Attribs(5) <= '1' when FlagShiftNum else '0'; -- Bit 5 - Shift Num (Arrows,...) - only if NumLock Led is Off |
PS2_Attribs(6) <= '0'; |
PS2_Attribs(7) <= '1' when FlagBreak else '0'; -- Bit 7 - Break (release) Key |
-- Immediate State of Shift Like Keys |
PS2_Shifts(0) <= '1' when FlagShiftL else '0'; -- Bit 0 - Shift Left |
PS2_Shifts(1) <= '1' when FlagShiftR else '0'; -- Bit 1 - Shift Right |
PS2_Shifts(2) <= '1' when FlagCtrlL else '0'; -- Bit 2 - Ctrl Left |
PS2_Shifts(3) <= '1' when FlagCtrlR else '0'; -- Bit 3 - Ctrl Right |
PS2_Shifts(4) <= '1' when FlagAltL else '0'; -- Bit 4 - Alt Left |
PS2_Shifts(5) <= '1' when FlagAltR else '0'; -- Bit 5 - Alt Right |
PS2_Shifts(6) <= '1' when FlagNumLock else '0'; -- Bit 7 - Num Lock |
PS2_Shifts(7) <= '1' when FlagCapsLock else '0'; -- Bit 8 - Caps Lock |
PS2_Shifts(8) <= '1' when FlagScrollLock else '0'; -- Bit 9 - Scroll Lock |
PS2_Shifts(9) <= '1' when FlagShiftNum else '0'; -- Bit 6 - Shift Num (virtual state) - Not to be used |
-- Write Byte to PS/2 Interface |
-- Init By: WriteByte |
-- Finish Indication: WriteByte_ack |
process (Clk) |
begin |
if rising_edge(Clk) then |
WriteByte_ack <= false; |
case WriteByteState is |
when Idle => |
PS2_Clk <= 'Z'; |
PS2_Data <= 'Z'; |
if WriteByte then |
WriteByteState <= WriteStart; |
WriteReg <= WriteCode; |
end if; |
when WriteStart => |
if PS2_Data_d='1' and PS2_Clk_d='1' then |
-- PS2 Interface in Idle State |
PS2_Clk <= '0'; -- Start of Write (PS2_Clk=L) |
StartTime <= to_unsigned(CLKFREQ/16000, StartTime'length); -- cca 60us Start |
WriteBits <= to_unsigned(7, WriteBits'length); -- 8 bits |
WriteByteState <= WaitStart; |
SendingData <= true; |
end if; |
when WaitStart => |
if StartTime>0 then |
StartTime <= StartTime - 1; |
else |
PS2_Data <= '0'; -- Start Bit |
PS2_Clk <= 'Z'; -- Release Clk |
ParityBit <= '1'; -- Init Parity Generator (code 1111_1111 has parity 1) |
WriteByteState <= SendBits; |
end if; |
when SendBits => |
if PS2_Clk_dd='1' and PS2_Clk_d='0' then |
PS2_Data <= WriteReg(0); |
ParityBit <= ParityBit xor WriteReg(0); |
WriteReg <= '1' & WriteReg(7 downto 1); |
if WriteBits>0 then |
WriteBits <= WriteBits - 1; |
else |
WriteByteState <= WriteParity; |
end if; |
end if; |
when WriteParity => |
if PS2_Clk_dd='1' and PS2_Clk_d='0' then |
PS2_Data <= ParityBit; |
WriteByteState <= WriteStop; |
end if; |
when WriteStop => |
if PS2_Clk_dd='1' and PS2_Clk_d='0' then |
PS2_Data <= '1'; |
WriteByteState <= AckBit; |
end if; |
when AckBit => |
PS2_Data <= 'Z'; |
if PS2_Clk_dd='1' and PS2_Clk_d='0' then |
WriteByteState <= Final; |
end if; |
when Final => |
if PS2_Clk_d='1' then |
WriteByteState <= WaitAckByte; |
SendingData <= false; |
end if; |
when WaitAckByte => |
if Level2a_rdy then |
WriteByteState <= Idle; |
WriteByte_ack <= true; |
end if; |
end case; |
end if; |
end process; |
-- Level 3 - Update LED Indicators |
-- Init By: UpdateLed or Level2_rdy(with scan code and attrib) |
-- Finish Indication: UpdateLed_ack (not used) |
process (Clk) |
begin |
if rising_edge(Clk) then |
UpdateLed_ack <= false; -- 1 Clock Pulse |
WriteByte <= false; |
case UpdState is |
when Idle => |
-- Register the request |
if Level2_rdy and ReadByte=X"07" and not FlagBreak then |
WriteCode <= X"FF"; |
WriteByte <= true; |
elsif UpdateLed then |
UpdateLed_ack <= true; |
UpdState <= SendLed1; |
end if; |
when SendReset => |
if WriteByteState=Idle then |
-- Send Keyborad Reset |
WriteCode <= X"FF"; |
WriteByte <= true; |
UpdState <= SendFinal; |
end if; |
when SendLed1 => |
if WriteByteState=Idle then |
-- Send LED Command |
WriteCode <= X"ED"; |
WriteByte <= true; |
UpdState <= SendLed2; |
end if; |
when SendLed2 => |
if WriteByte_ack then |
-- Send LED State |
WriteCode <= "00000" & to_std_logic(FlagCapsLock) |
& to_std_logic(FlagNumLock) |
& to_std_logic(FlagScrollLock); |
WriteByte <= true; |
UpdState <= SendFinal; |
end if; |
when SendFinal => |
if WriteByte_ack then ---WriteByteState=Idle then |
-- Last Data has been Send |
UpdState <= Idle; |
end if; |
end case; |
end if; |
end process; |
end architecture PS2_a; |
/Modules/CPLD_FPGA/S3AN01B/VHDL/PulseGen/src/S3AN01B.ucf |
---|
0,0 → 1,152 |
# Board: www.mlab.cz S3AN01A |
# Device: XC3S50AN-4C |
# Setting: Generate Programming File / Startup Options / Drive Done Pin High: yes |
# Main Clock (Embedded 100MHz board oscillator) |
NET "CLK100MHz" LOC = P60 |IOSTANDARD = LVCMOS33; |
#NET "CLK100MHz" LOC = P125 | IOSTANDARD = LVCMOS33; |
NET "CLK100MHz" TNM_NET = CLK100MHz; |
TIMESPEC TS_CLK100MHz = PERIOD "CLK100MHz" 100 MHz HIGH 50%; |
# For DCM connection across the whole chip |
NET "CLK100MHz" CLOCK_DEDICATED_ROUTE = FALSE; |
NET "PS2_CLK2" CLOCK_DEDICATED_ROUTE = FALSE; |
# Mode signals |
NET "M[0]" LOC = P38 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "M[1]" LOC = P37 |IOSTANDARD = LVCMOS33 |PULLUP = YES; # Use jumper on M1 and M2 for boot from external SPI Flash Memory |
NET "M[2]" LOC = P39 |IOSTANDARD = LVCMOS33 |PULLUP = YES; # Use jumper on M2 for boot from internal Flash memory |
# SPI Flash Vendor Mode Select (for external SPI boot Flash) |
NET "VS[0]" LOC = P45 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "VS[1]" LOC = P44 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "VS[2]" LOC = P43 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
# DIP Switches (positive signals with pull-down) |
NET "DIPSW[0]" LOC = P143 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[1]" LOC = P142 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[2]" LOC = P140 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[3]" LOC = P139 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[4]" LOC = P138 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[5]" LOC = P135 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[6]" LOC = P134 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[7]" LOC = P132 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
# Push Buttons (positive signals with pull-down) |
NET "PB[0]" LOC = P121 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "PB[1]" LOC = P120 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "PB[2]" LOC = P117 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "PB[3]" LOC = P116 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
# LED String (positive output signals) |
NET "LED[0]" LOC = P64 |IOSTANDARD = LVCMOS33; |
NET "LED[1]" LOC = P63 |IOSTANDARD = LVCMOS33; |
NET "LED[2]" LOC = P51 |IOSTANDARD = LVCMOS33; |
NET "LED[3]" LOC = P50 |IOSTANDARD = LVCMOS33; |
NET "LED[4]" LOC = P49 |IOSTANDARD = LVCMOS33; |
NET "LED[5]" LOC = P48 |IOSTANDARD = LVCMOS33; |
NET "LED[6]" LOC = P47 |IOSTANDARD = LVCMOS33; |
NET "LED[7]" LOC = P46 |IOSTANDARD = LVCMOS33; |
# LED Display Output Signals (negative, multiplexed) |
NET "LD_A_n" LOC = P15 |IOSTANDARD = LVCMOS33; |
NET "LD_B_n" LOC = P30 |IOSTANDARD = LVCMOS33; |
NET "LD_C_n" LOC = P21 |IOSTANDARD = LVCMOS33; |
NET "LD_D_n" LOC = P19 |IOSTANDARD = LVCMOS33; |
NET "LD_E_n" LOC = P18 |IOSTANDARD = LVCMOS33; |
NET "LD_F_n" LOC = P16 |IOSTANDARD = LVCMOS33; |
NET "LD_G_n" LOC = P24 |IOSTANDARD = LVCMOS33; |
NET "LD_DP_n" LOC = P20 |IOSTANDARD = LVCMOS33; |
NET "LD_0_n" LOC = P25 |IOSTANDARD = LVCMOS33; |
NET "LD_1_n" LOC = P31 |IOSTANDARD = LVCMOS33; |
NET "LD_2_n" LOC = P32 |IOSTANDARD = LVCMOS33; |
NET "LD_3_n" LOC = P13 |IOSTANDARD = LVCMOS33; # !!! Connect U1.13 with U1.33 |
NET "LD_4_n" LOC = P27 |IOSTANDARD = LVCMOS33; |
NET "LD_5_n" LOC = P29 |IOSTANDARD = LVCMOS33; |
NET "LD_6_n" LOC = P28 |IOSTANDARD = LVCMOS33; |
NET "LD_7_n" LOC = P12 |IOSTANDARD = LVCMOS33; # !!! Connect U1.12 with U1.35 |
# VGA Analog Display Connection (outputs) |
NET "VGA_R[0]" LOC = P3 |IOSTANDARD = LVCMOS33; |
NET "VGA_R[1]" LOC = P4 |IOSTANDARD = LVCMOS33; |
NET "VGA_G[0]" LOC = P5 |IOSTANDARD = LVCMOS33; |
NET "VGA_G[1]" LOC = P6 |IOSTANDARD = LVCMOS33; |
NET "VGA_B[0]" LOC = P7 |IOSTANDARD = LVCMOS33; |
NET "VGA_B[1]" LOC = P8 |IOSTANDARD = LVCMOS33; |
NET "VGA_VS" LOC = P10 |IOSTANDARD = LVCMOS33; |
NET "VGA_HS" LOC = P11 |IOSTANDARD = LVCMOS33; |
# Bank 1 Port (input for tests, pull-up) |
NET "B[0]" LOC = P75 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[1]" LOC = P76 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[2]" LOC = P77 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[3]" LOC = P78 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[4]" LOC = P82 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[5]" LOC = P83 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[6]" LOC = P84 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[7]" LOC = P85 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[8]" LOC = P87 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[9]" LOC = P88 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[10]" LOC = P90 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[11]" LOC = P91 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[12]" LOC = P92 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[13]" LOC = P93 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[14]" LOC = P96 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[15]" LOC = P98 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[16]" LOC = P99 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[17]" LOC = P101 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[18]" LOC = P102 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[19]" LOC = P103 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[20]" LOC = P104 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[21]" LOC = P105 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[22]" LOC = P79 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[23]" LOC = P80 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "B[24]" LOC = P97 |IOSTANDARD = LVCMOS33 |PULLUP = YES; # Connected with B[23] on PCB |
# PS/2 Bidirectional Port (open collector, J31 and J32) |
#NET "PS2_CLK1" LOC = P | IOSTANDARD = LVCMOS33 | PULLUP = YES; # S3AN01A PCB Design has bug so these pins |
#NET "PS2_DATA1" LOC = P | IOSTANDARD = LVCMOS33 | PULLUP = YES; # will be assinged after PCB redesign |
NET "PS2_CLK2" LOC = P42 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "PS2_DATA2" LOC = P58 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
# Diferencial Signals on 4 pin header (J7) |
NET "DIF1P" LOC = P110 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIF1N" LOC = P111 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIF2P" LOC = P112 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIF2N" LOC = P113 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
# I2C Signals (on connector J30) |
NET "I2C_SCL" LOC = P115 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "I2C_SDA" LOC = P114 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
# Diferencial Signals on SATA like connectors (not SATA capable, J28 and J29) |
NET "SD1AP" LOC = P54 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "SD1AN" LOC = P55 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "SD1BP" LOC = P59 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "SD1BN" LOC = P57 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "SD2AP" LOC = P124 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "SD2AN" LOC = P126 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "SD2BP" LOC = P131 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "SD2BN" LOC = P129 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
# SPI Memory Interface |
NET "SPI_CS_n" LOC = P41 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "SPI_DO" LOC = P71 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "SPI_DI" LOC = P62 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "SPI_CLK" LOC = P72 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "SPI_WP_n" LOC = P70 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
# Analog In Out |
NET "ANA_OUTD" LOC = P67 |IOSTANDARD = LVCMOS33; |
NET "ANA_REFD" LOC = P68 |IOSTANDARD = LVCMOS33; |
NET "ANA_IND" LOC = P69 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
/* |
# Used Signals (test points) |
NET "TPS1" LOC = P53 | IOSTANDARD = LVCMOS33 | PULLDOWN = YES; |
NET "TPS2" LOC = P125 | IOSTANDARD = LVCMOS33 | PULLDOWN = YES; |
NET "TPS3" LOC = P127 | IOSTANDARD = LVCMOS33 | PULLDOWN = YES; |
NET "TPS4" LOC = P130 | IOSTANDARD = LVCMOS33 | PULLDOWN = YES; |
NET "TPS5" LOC = P141 | IOSTANDARD = LVCMOS33 | PULLDOWN = YES; |
NET "TPS6" LOC = P123 | IOSTANDARD = LVCMOS33 | PULLDOWN = YES; |
NET "XXX1" LOC = P33 | IOSTANDARD = LVCMOS33 | PULLDOWN = YES; # input only |
NET "XXX2" LOC = P35 | IOSTANDARD = LVCMOS33 | PULLDOWN = YES; # input only |
*/ |
/Modules/CPLD_FPGA/S3AN01B/VHDL/PulseGen/PulseGen.xise |
---|
0,0 → 1,350 |
<?xml version="1.0" encoding="UTF-8" standalone="no" ?> |
<project xmlns="http://www.xilinx.com/XMLSchema" xmlns:xil_pn="http://www.xilinx.com/XMLSchema"> |
<header> |
<!-- ISE source project file created by Project Navigator. --> |
<!-- --> |
<!-- This file contains project source information including a list of --> |
<!-- project source files, project and process properties. This file, --> |
<!-- along with the project source files, is sufficient to open and --> |
<!-- implement in ISE Project Navigator. --> |
<!-- --> |
<!-- Copyright (c) 1995-2011 Xilinx, Inc. All rights reserved. --> |
</header> |
<version xil_pn:ise_version="13.3" xil_pn:schema_version="2"/> |
<files> |
<file xil_pn:name="src/PulseGen.vhd" xil_pn:type="FILE_VHDL"> |
<association xil_pn:name="BehavioralSimulation" xil_pn:seqID="1"/> |
<association xil_pn:name="Implementation" xil_pn:seqID="2"/> |
</file> |
<file xil_pn:name="src/S3AN01B.ucf" xil_pn:type="FILE_UCF"> |
<association xil_pn:name="Implementation" xil_pn:seqID="0"/> |
</file> |
<file xil_pn:name="src/LIB/PS2.vhd" xil_pn:type="FILE_VHDL"> |
<association xil_pn:name="BehavioralSimulation" xil_pn:seqID="3"/> |
<association xil_pn:name="Implementation" xil_pn:seqID="1"/> |
</file> |
</files> |
<properties> |
<property xil_pn:name="Add I/O Buffers" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Allow Logic Optimization Across Hierarchy" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Allow SelectMAP Pins to Persist" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Allow Unexpanded Blocks" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Allow Unmatched LOC Constraints" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Allow Unmatched Timing Group Constraints" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Asynchronous To Synchronous" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Auto Implementation Compile Order" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Auto Implementation Top" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Automatic BRAM Packing" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Automatically Insert glbl Module in the Netlist" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Automatically Run Generate Target PROM/ACE File" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="BRAM Utilization Ratio" xil_pn:value="100" xil_pn:valueState="default"/> |
<property xil_pn:name="Bring Out Global Set/Reset Net as a Port" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Bring Out Global Tristate Net as a Port" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Bus Delimiter" xil_pn:value="<>" xil_pn:valueState="default"/> |
<property xil_pn:name="CLB Pack Factor Percentage" xil_pn:value="100" xil_pn:valueState="default"/> |
<property xil_pn:name="Case" xil_pn:value="Maintain" xil_pn:valueState="default"/> |
<property xil_pn:name="Case Implementation Style" xil_pn:value="None" xil_pn:valueState="default"/> |
<property xil_pn:name="Change Device Speed To" xil_pn:value="-5" xil_pn:valueState="default"/> |
<property xil_pn:name="Change Device Speed To Post Trace" xil_pn:value="-5" xil_pn:valueState="default"/> |
<property xil_pn:name="Combinatorial Logic Optimization" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Compile EDK Simulation Library" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Compile SIMPRIM (Timing) Simulation Library" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Compile UNISIM (Functional) Simulation Library" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Compile XilinxCoreLib (CORE Generator) Simulation Library" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Compile for HDL Debugging" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Configuration Pin Done" xil_pn:value="Pull Up" xil_pn:valueState="default"/> |
<property xil_pn:name="Configuration Pin Program" xil_pn:value="Pull Up" xil_pn:valueState="default"/> |
<property xil_pn:name="Configuration Rate" xil_pn:value="25" xil_pn:valueState="default"/> |
<property xil_pn:name="Correlate Output to Input Design" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Create ASCII Configuration File" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Create Binary Configuration File" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Create Bit File" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Create I/O Pads from Ports" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Create IEEE 1532 Configuration File" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Create Logic Allocation File" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Create Mask File" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Create ReadBack Data Files" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Cross Clock Analysis" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Decoder Extraction" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Delay Values To Be Read from SDF" xil_pn:value="Setup Time" xil_pn:valueState="default"/> |
<property xil_pn:name="Device" xil_pn:value="xc3s50an" xil_pn:valueState="non-default"/> |
<property xil_pn:name="Device Family" xil_pn:value="Spartan3A and Spartan3AN" xil_pn:valueState="non-default"/> |
<property xil_pn:name="Device Speed Grade/Select ABS Minimum" xil_pn:value="-5" xil_pn:valueState="default"/> |
<property xil_pn:name="Do Not Escape Signal and Instance Names in Netlist" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Done (Output Events)" xil_pn:value="Default (4)" xil_pn:valueState="default"/> |
<property xil_pn:name="Drive Awake Pin During Suspend/Wake Sequence" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Drive Done Pin High" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Dummy Driver for Enable Filter on Suspend Input" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Enable BitStream Compression" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Enable Cyclic Redundancy Checking (CRC)" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Enable Debugging of Serial Mode BitStream" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Enable Filter on Suspend Input" xil_pn:value="Please use the ENABLE_SUSPEND implementation constraint." xil_pn:valueState="default"/> |
<property xil_pn:name="Enable Hardware Co-Simulation" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Enable Internal Done Pipe" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Enable Message Filtering" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Enable Outputs (Output Events)" xil_pn:value="Default (5)" xil_pn:valueState="default"/> |
<property xil_pn:name="Enable Power-On Reset Detection" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Enable Suspend/Wake Global Set/Reset" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Equivalent Register Removal XST" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Evaluation Development Board" xil_pn:value="None Specified" xil_pn:valueState="default"/> |
<property xil_pn:name="Exclude Compilation of Deprecated EDK Cores" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Exclude Compilation of EDK Sub-Libraries" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Extra Effort" xil_pn:value="None" xil_pn:valueState="default"/> |
<property xil_pn:name="Extra Effort (Highest PAR level only)" xil_pn:value="None" xil_pn:valueState="default"/> |
<property xil_pn:name="FPGA Start-Up Clock" xil_pn:value="CCLK" xil_pn:valueState="default"/> |
<property xil_pn:name="FSM Encoding Algorithm" xil_pn:value="Auto" xil_pn:valueState="default"/> |
<property xil_pn:name="FSM Style" xil_pn:value="LUT" xil_pn:valueState="default"/> |
<property xil_pn:name="Filter Files From Compile Order" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Flatten Output Netlist" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Functional Model Target Language ArchWiz" xil_pn:value="VHDL" xil_pn:valueState="default"/> |
<property xil_pn:name="Functional Model Target Language Coregen" xil_pn:value="VHDL" xil_pn:valueState="default"/> |
<property xil_pn:name="Functional Model Target Language Schematic" xil_pn:value="VHDL" xil_pn:valueState="default"/> |
<property xil_pn:name="GTS Cycle During Suspend/Wakeup Sequence" xil_pn:value="4" xil_pn:valueState="default"/> |
<property xil_pn:name="GWE Cycle During Suspend/Wakeup Sequence" xil_pn:value="5" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Architecture Only (No Entity Declaration)" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Asynchronous Delay Report" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Clock Region Report" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Constraints Interaction Report" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Constraints Interaction Report Post Trace" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Datasheet Section" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Datasheet Section Post Trace" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Detailed MAP Report" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Multiple Hierarchical Netlist Files" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Post-Place & Route Power Report" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Post-Place & Route Simulation Model" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate RTL Schematic" xil_pn:value="Yes" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate SAIF File for Power Optimization/Estimation Par" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Testbench File" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Timegroups Section" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generate Timegroups Section Post Trace" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Generics, Parameters" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Global Optimization Goal" xil_pn:value="AllClockNets" xil_pn:valueState="default"/> |
<property xil_pn:name="Global Set/Reset Port Name" xil_pn:value="GSR_PORT" xil_pn:valueState="default"/> |
<property xil_pn:name="Global Tristate Port Name" xil_pn:value="GTS_PORT" xil_pn:valueState="default"/> |
<property xil_pn:name="Hierarchy Separator" xil_pn:value="/" xil_pn:valueState="default"/> |
<property xil_pn:name="ISim UUT Instance Name" xil_pn:value="UUT" xil_pn:valueState="default"/> |
<property xil_pn:name="Ignore User Timing Constraints Map" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Ignore User Timing Constraints Par" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Implementation Top" xil_pn:value="Architecture|PulseGen|PulseGen_a" xil_pn:valueState="non-default"/> |
<property xil_pn:name="Implementation Top File" xil_pn:value="src/PulseGen.vhd" xil_pn:valueState="non-default"/> |
<property xil_pn:name="Implementation Top Instance Path" xil_pn:value="/PulseGen" xil_pn:valueState="non-default"/> |
<property xil_pn:name="Include 'uselib Directive in Verilog File" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Include SIMPRIM Models in Verilog File" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Include UNISIM Models in Verilog File" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Include sdf_annotate task in Verilog File" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Incremental Compilation" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Insert Buffers to Prevent Pulse Swallowing" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Instantiation Template Target Language Xps" xil_pn:value="VHDL" xil_pn:valueState="default"/> |
<property xil_pn:name="JTAG Pin TCK" xil_pn:value="Pull Up" xil_pn:valueState="default"/> |
<property xil_pn:name="JTAG Pin TDI" xil_pn:value="Pull Up" xil_pn:valueState="default"/> |
<property xil_pn:name="JTAG Pin TDO" xil_pn:value="Pull Up" xil_pn:valueState="default"/> |
<property xil_pn:name="JTAG Pin TMS" xil_pn:value="Pull Up" xil_pn:valueState="default"/> |
<property xil_pn:name="Keep Hierarchy" xil_pn:value="No" xil_pn:valueState="default"/> |
<property xil_pn:name="Language" xil_pn:value="VHDL" xil_pn:valueState="default"/> |
<property xil_pn:name="Last Applied Goal" xil_pn:value="Balanced" xil_pn:valueState="default"/> |
<property xil_pn:name="Last Applied Strategy" xil_pn:value="Xilinx Default (unlocked)" xil_pn:valueState="default"/> |
<property xil_pn:name="Last Unlock Status" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Launch SDK after Export" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Library for Verilog Sources" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Load glbl" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Logical Shifter Extraction" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Manual Implementation Compile Order" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Map Effort Level" xil_pn:value="High" xil_pn:valueState="default"/> |
<property xil_pn:name="Map Slice Logic into Unused Block RAMs" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Max Fanout" xil_pn:value="500" xil_pn:valueState="default"/> |
<property xil_pn:name="Maximum Number of Lines in Report" xil_pn:value="1000" xil_pn:valueState="default"/> |
<property xil_pn:name="Maximum Signal Name Length" xil_pn:value="20" xil_pn:valueState="default"/> |
<property xil_pn:name="Move First Flip-Flop Stage" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Move Last Flip-Flop Stage" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="MultiBoot: Next Configuration Mode" xil_pn:value="001" xil_pn:valueState="default"/> |
<property xil_pn:name="MultiBoot: Starting Address for Next Configuration" xil_pn:value="0x00000000" xil_pn:valueState="default"/> |
<property xil_pn:name="MultiBoot: Use New Mode for Next Configuration" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Multiplier Style" xil_pn:value="Auto" xil_pn:valueState="default"/> |
<property xil_pn:name="Mux Extraction" xil_pn:value="Yes" xil_pn:valueState="default"/> |
<property xil_pn:name="Mux Style" xil_pn:value="Auto" xil_pn:valueState="default"/> |
<property xil_pn:name="Netlist Hierarchy" xil_pn:value="As Optimized" xil_pn:valueState="default"/> |
<property xil_pn:name="Netlist Translation Type" xil_pn:value="Timestamp" xil_pn:valueState="default"/> |
<property xil_pn:name="Number of Clock Buffers" xil_pn:value="24" xil_pn:valueState="default"/> |
<property xil_pn:name="Number of Paths in Error/Verbose Report" xil_pn:value="3" xil_pn:valueState="default"/> |
<property xil_pn:name="Number of Paths in Error/Verbose Report Post Trace" xil_pn:value="3" xil_pn:valueState="default"/> |
<property xil_pn:name="Optimization Effort" xil_pn:value="Normal" xil_pn:valueState="default"/> |
<property xil_pn:name="Optimization Goal" xil_pn:value="Speed" xil_pn:valueState="default"/> |
<property xil_pn:name="Optimization Strategy (Cover Mode)" xil_pn:value="Area" xil_pn:valueState="default"/> |
<property xil_pn:name="Optimize Instantiated Primitives" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Bitgen Command Line Options" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Compiler Options" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Compiler Options Fit" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Compiler Options Map" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Compiler Options Par" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Compiler Options Translate" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Compxlib Command Line Options" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Map Command Line Options" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other NETGEN Command Line Options" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Ngdbuild Command Line Options" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Place & Route Command Line Options" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Simulator Commands Behavioral" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Simulator Commands Post-Map" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Simulator Commands Post-Route" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other Simulator Commands Post-Translate" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other XPWR Command Line Options" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Other XST Command Line Options" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Output Extended Identifiers" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Output File Name" xil_pn:value="PulseGen" xil_pn:valueState="default"/> |
<property xil_pn:name="Overwrite Compiled Libraries" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Pack I/O Registers into IOBs" xil_pn:value="Auto" xil_pn:valueState="default"/> |
<property xil_pn:name="Pack I/O Registers/Latches into IOBs" xil_pn:value="Off" xil_pn:valueState="default"/> |
<property xil_pn:name="Package" xil_pn:value="tqg144" xil_pn:valueState="default"/> |
<property xil_pn:name="Perform Advanced Analysis" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Perform Advanced Analysis Post Trace" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Perform Timing-Driven Packing and Placement" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Place & Route Effort Level (Overall)" xil_pn:value="High" xil_pn:valueState="default"/> |
<property xil_pn:name="Place And Route Mode" xil_pn:value="Normal Place and Route" xil_pn:valueState="default"/> |
<property xil_pn:name="Place MultiBoot Settings into Bitstream" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Placer Effort Level (Overrides Overall Level)" xil_pn:value="None" xil_pn:valueState="default"/> |
<property xil_pn:name="Port to be used" xil_pn:value="Auto - default" xil_pn:valueState="default"/> |
<property xil_pn:name="Post Map Simulation Model Name" xil_pn:value="PulseGen_map.vhd" xil_pn:valueState="default"/> |
<property xil_pn:name="Post Place & Route Simulation Model Name" xil_pn:value="PulseGen_timesim.vhd" xil_pn:valueState="default"/> |
<property xil_pn:name="Post Synthesis Simulation Model Name" xil_pn:value="PulseGen_synthesis.vhd" xil_pn:valueState="default"/> |
<property xil_pn:name="Post Translate Simulation Model Name" xil_pn:value="PulseGen_translate.vhd" xil_pn:valueState="default"/> |
<property xil_pn:name="Power Reduction Map" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Power Reduction Par" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Preferred Language" xil_pn:value="VHDL" xil_pn:valueState="non-default"/> |
<property xil_pn:name="Priority Encoder Extraction" xil_pn:value="Yes" xil_pn:valueState="default"/> |
<property xil_pn:name="Produce Verbose Report" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Project Description" xil_pn:value="Pulse Generator from 10ns to 2us." xil_pn:valueState="non-default"/> |
<property xil_pn:name="Project Generator" xil_pn:value="ProjNav" xil_pn:valueState="default"/> |
<property xil_pn:name="Property Specification in Project File" xil_pn:value="Store all values" xil_pn:valueState="default"/> |
<property xil_pn:name="RAM Extraction" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="RAM Style" xil_pn:value="Auto" xil_pn:valueState="default"/> |
<property xil_pn:name="ROM Extraction" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="ROM Style" xil_pn:value="Auto" xil_pn:valueState="default"/> |
<property xil_pn:name="Read Cores" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Regenerate Core" xil_pn:value="Under Current Project Setting" xil_pn:valueState="default"/> |
<property xil_pn:name="Register Balancing" xil_pn:value="No" xil_pn:valueState="default"/> |
<property xil_pn:name="Register Duplication" xil_pn:value="Off" xil_pn:valueState="default"/> |
<property xil_pn:name="Register Duplication Xst" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Release Write Enable (Output Events)" xil_pn:value="Default (6)" xil_pn:valueState="default"/> |
<property xil_pn:name="Rename Design Instance in Testbench File to" xil_pn:value="UUT" xil_pn:valueState="default"/> |
<property xil_pn:name="Rename Top Level Architecture To" xil_pn:value="Structure" xil_pn:valueState="default"/> |
<property xil_pn:name="Rename Top Level Entity to" xil_pn:value="PulseGen" xil_pn:valueState="default"/> |
<property xil_pn:name="Rename Top Level Module To" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Report Fastest Path(s) in Each Constraint" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Report Fastest Path(s) in Each Constraint Post Trace" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Report Paths by Endpoint" xil_pn:value="3" xil_pn:valueState="default"/> |
<property xil_pn:name="Report Paths by Endpoint Post Trace" xil_pn:value="3" xil_pn:valueState="default"/> |
<property xil_pn:name="Report Type" xil_pn:value="Verbose Report" xil_pn:valueState="default"/> |
<property xil_pn:name="Report Type Post Trace" xil_pn:value="Verbose Report" xil_pn:valueState="default"/> |
<property xil_pn:name="Report Unconstrained Paths" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Report Unconstrained Paths Post Trace" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Reset On Configuration Pulse Width" xil_pn:value="100" xil_pn:valueState="default"/> |
<property xil_pn:name="Resource Sharing" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Retain Hierarchy" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Retry Configuration if CRC Error Occurs" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Router Effort Level (Overrides Overall Level)" xil_pn:value="None" xil_pn:valueState="default"/> |
<property xil_pn:name="Run Design Rules Checker (DRC)" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Run for Specified Time" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Run for Specified Time Map" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Run for Specified Time Par" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Run for Specified Time Translate" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Safe Implementation" xil_pn:value="No" xil_pn:valueState="default"/> |
<property xil_pn:name="Security" xil_pn:value="Enable Readback and Reconfiguration" xil_pn:valueState="default"/> |
<property xil_pn:name="Selected Simulation Root Source Node Behavioral" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Selected Simulation Root Source Node Post-Map" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Selected Simulation Root Source Node Post-Route" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Selected Simulation Root Source Node Post-Translate" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Selected Simulation Source Node" xil_pn:value="UUT" xil_pn:valueState="default"/> |
<property xil_pn:name="Shift Register Extraction" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Show All Models" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Simulation Model Target" xil_pn:value="VHDL" xil_pn:valueState="default"/> |
<property xil_pn:name="Simulation Run Time ISim" xil_pn:value="1000 ns" xil_pn:valueState="default"/> |
<property xil_pn:name="Simulation Run Time Map" xil_pn:value="1000 ns" xil_pn:valueState="default"/> |
<property xil_pn:name="Simulation Run Time Par" xil_pn:value="1000 ns" xil_pn:valueState="default"/> |
<property xil_pn:name="Simulation Run Time Translate" xil_pn:value="1000 ns" xil_pn:valueState="default"/> |
<property xil_pn:name="Simulator" xil_pn:value="ISim (VHDL/Verilog)" xil_pn:valueState="default"/> |
<property xil_pn:name="Slice Packing" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Slice Utilization Ratio" xil_pn:value="100" xil_pn:valueState="default"/> |
<property xil_pn:name="Specify 'define Macro Name and Value" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Specify Top Level Instance Names Behavioral" xil_pn:value="Default" xil_pn:valueState="default"/> |
<property xil_pn:name="Specify Top Level Instance Names Post-Map" xil_pn:value="Default" xil_pn:valueState="default"/> |
<property xil_pn:name="Specify Top Level Instance Names Post-Route" xil_pn:value="Default" xil_pn:valueState="default"/> |
<property xil_pn:name="Specify Top Level Instance Names Post-Translate" xil_pn:value="Default" xil_pn:valueState="default"/> |
<property xil_pn:name="Speed Grade" xil_pn:value="-5" xil_pn:valueState="default"/> |
<property xil_pn:name="Starting Placer Cost Table (1-100) Map" xil_pn:value="1" xil_pn:valueState="default"/> |
<property xil_pn:name="Starting Placer Cost Table (1-100) Par" xil_pn:value="1" xil_pn:valueState="default"/> |
<property xil_pn:name="Synthesis Tool" xil_pn:value="XST (VHDL/Verilog)" xil_pn:valueState="default"/> |
<property xil_pn:name="Target Simulator" xil_pn:value="Please Specify" xil_pn:valueState="default"/> |
<property xil_pn:name="Timing Mode Map" xil_pn:value="Non Timing Driven" xil_pn:valueState="default"/> |
<property xil_pn:name="Timing Mode Par" xil_pn:value="Performance Evaluation" xil_pn:valueState="default"/> |
<property xil_pn:name="Top-Level Module Name in Output Netlist" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Top-Level Source Type" xil_pn:value="HDL" xil_pn:valueState="default"/> |
<property xil_pn:name="Trim Unconnected Signals" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Tristate On Configuration Pulse Width" xil_pn:value="0" xil_pn:valueState="default"/> |
<property xil_pn:name="Unused IOB Pins" xil_pn:value="Pull Down" xil_pn:valueState="default"/> |
<property xil_pn:name="Use 64-bit PlanAhead on 64-bit Systems" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Clock Enable" xil_pn:value="Yes" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Project File Behavioral" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Project File Post-Map" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Project File Post-Route" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Project File Post-Translate" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Simulation Command File Behavioral" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Simulation Command File Map" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Simulation Command File Par" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Simulation Command File Translate" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Waveform Configuration File Behav" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Waveform Configuration File Map" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Waveform Configuration File Par" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Custom Waveform Configuration File Translate" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use LOC Constraints" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Use RLOC Constraints" xil_pn:value="Yes" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Smart Guide" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Synchronous Reset" xil_pn:value="Yes" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Synchronous Set" xil_pn:value="Yes" xil_pn:valueState="default"/> |
<property xil_pn:name="Use Synthesis Constraints File" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="User Browsed Strategy Files" xil_pn:value="C:/Xilinx/13.3/ISE_DS/ISE/data/default.xds" xil_pn:valueState="non-default"/> |
<property xil_pn:name="UserID Code (8 Digit Hexadecimal)" xil_pn:value="0xFFFFFFFF" xil_pn:valueState="default"/> |
<property xil_pn:name="VHDL Source Analysis Standard" xil_pn:value="VHDL-200X" xil_pn:valueState="non-default"/> |
<property xil_pn:name="Value Range Check" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="Verilog 2001 Xst" xil_pn:value="true" xil_pn:valueState="default"/> |
<property xil_pn:name="Verilog Macros" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="Wait for DLL Lock (Output Events)" xil_pn:value="Default (NoWait)" xil_pn:valueState="default"/> |
<property xil_pn:name="Wakeup Clock" xil_pn:value="Startup Clock" xil_pn:valueState="default"/> |
<property xil_pn:name="Working Directory" xil_pn:value="." xil_pn:valueState="non-default"/> |
<property xil_pn:name="Write Timing Constraints" xil_pn:value="false" xil_pn:valueState="default"/> |
<property xil_pn:name="XOR Collapsing" xil_pn:value="true" xil_pn:valueState="default"/> |
<!-- --> |
<!-- The following properties are for internal use only. These should not be modified.--> |
<!-- --> |
<property xil_pn:name="PROP_BehavioralSimTop" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="PROP_DesignName" xil_pn:value="PulseGen" xil_pn:valueState="non-default"/> |
<property xil_pn:name="PROP_DevFamilyPMName" xil_pn:value="spartan3a" xil_pn:valueState="default"/> |
<property xil_pn:name="PROP_FPGAConfiguration" xil_pn:value="FPGAConfiguration" xil_pn:valueState="default"/> |
<property xil_pn:name="PROP_PostFitSimTop" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="PROP_PostMapSimTop" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="PROP_PostParSimTop" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="PROP_PostSynthSimTop" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="PROP_PostXlateSimTop" xil_pn:value="" xil_pn:valueState="default"/> |
<property xil_pn:name="PROP_PreSynthesis" xil_pn:value="PreSynthesis" xil_pn:valueState="default"/> |
<property xil_pn:name="PROP_intProjectCreationTimestamp" xil_pn:value="2012-08-28T23:51:54" xil_pn:valueState="non-default"/> |
<property xil_pn:name="PROP_intWbtProjectID" xil_pn:value="AAC6D7E01D414DD992A4DDE7C0B857EB" xil_pn:valueState="non-default"/> |
<property xil_pn:name="PROP_intWorkingDirLocWRTProjDir" xil_pn:value="Same" xil_pn:valueState="non-default"/> |
<property xil_pn:name="PROP_intWorkingDirUsed" xil_pn:value="No" xil_pn:valueState="non-default"/> |
</properties> |
<bindings/> |
<libraries/> |
<autoManagedFiles> |
<!-- The following files are identified by `include statements in verilog --> |
<!-- source files and are automatically managed by Project Navigator. --> |
<!-- --> |
<!-- Do not hand-edit this section, as it will be overwritten when the --> |
<!-- project is analyzed based on files automatically identified as --> |
<!-- include files. --> |
</autoManagedFiles> |
</project> |
/Modules/CPLD_FPGA/S3AN01B/VHDL/PulseGen/pulsegen.bit |
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Cannot display: file marked as a binary type. |
svn:mime-type = application/octet-stream |
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+application/octet-stream |
\ No newline at end of property |
/Modules/CPLD_FPGA/S3AN01B/VHDL/PulseGen/PulseGen.ipf |
---|
Cannot display: file marked as a binary type. |
svn:mime-type = application/octet-stream |
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\ No newline at end of property |
/Modules/CPLD_FPGA/XILINX_CHIPSCOPE/HDL/S3AN01_ChipScope.ucf |
---|
File deleted |
/Modules/CPLD_FPGA/XILINX_CHIPSCOPE/HDL/S3AN01_ChipScope.vhd |
---|
File deleted |
/Modules/CPLD_FPGA/XILINX_CHIPSCOPE/VHDL/S3AN01_ChipScope.ucf |
---|
0,0 → 1,112 |
# Board: www.mlab.cz S3AN01A |
# Device: XC3S50AN-4TQG144C |
# Setting: Generate Programming File / Startup Options / Drive Done Pin High: yes |
# Main Clock (Embedded 100MHz board oscillator) |
NET "CLK100MHz" LOC = P60 |IOSTANDARD = LVCMOS33; |
NET "CLK100MHz" TNM_NET = CLK100MHz; |
TIMESPEC TS_CLK100MHz = PERIOD "CLK100MHz" 100 MHz HIGH 50%; |
# Enable suboptimal routing of CLK100MHz to DCM input |
# (the CLK100MHz pin is across the whole chip realtive to DCM) |
# PIN "DCM_SP_inst.CLKIN" CLOCK_DEDICATED_ROUTE = FALSE; |
# Place BUFGMUX at the appropriate position |
NET "CLK100MHz" CLOCK_DEDICATED_ROUTE = FALSE; |
# SPI Flash Vendor Mode Select (for external SPI boot Flash) |
NET "VS[0]" LOC = P45 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "VS[1]" LOC = P44 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "VS[2]" LOC = P43 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
# DIP Switches (positive signals with pull-down) |
NET "DIPSW[0]" LOC = P143 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[1]" LOC = P142 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[2]" LOC = P140 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[3]" LOC = P139 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[4]" LOC = P138 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[5]" LOC = P135 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[6]" LOC = P134 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
NET "DIPSW[7]" LOC = P132 |IOSTANDARD = LVCMOS33 |PULLDOWN = YES; |
# LED String (positive output signals) |
NET "LED[0]" LOC = P64 |IOSTANDARD = LVCMOS33; |
NET "LED[1]" LOC = P63 |IOSTANDARD = LVCMOS33; |
NET "LED[2]" LOC = P51 |IOSTANDARD = LVCMOS33; |
NET "LED[3]" LOC = P50 |IOSTANDARD = LVCMOS33; |
NET "LED[4]" LOC = P49 |IOSTANDARD = LVCMOS33; |
NET "LED[5]" LOC = P48 |IOSTANDARD = LVCMOS33; |
NET "LED[6]" LOC = P47 |IOSTANDARD = LVCMOS33; |
NET "LED[7]" LOC = P46 |IOSTANDARD = LVCMOS33; |
# LED Display Output Signals (negative, multiplexed) - Segments |
NET "LD_SEG_n[0]" LOC = P15 |IOSTANDARD = LVCMOS33; # Segment A A |
NET "LD_SEG_n[1]" LOC = P30 |IOSTANDARD = LVCMOS33; # Segment B ----- |
NET "LD_SEG_n[2]" LOC = P21 |IOSTANDARD = LVCMOS33; # Segment C F | | B |
NET "LD_SEG_n[3]" LOC = P19 |IOSTANDARD = LVCMOS33; # Segment D | G | |
NET "LD_SEG_n[4]" LOC = P18 |IOSTANDARD = LVCMOS33; # Segment E ----- |
NET "LD_SEG_n[5]" LOC = P16 |IOSTANDARD = LVCMOS33; # Segment F E | | C |
NET "LD_SEG_n[6]" LOC = P24 |IOSTANDARD = LVCMOS33; # Segment G | D | |
NET "LD_SEG_n[7]" LOC = P20 |IOSTANDARD = LVCMOS33; # Segment DP ----- DP |
# LED Display Output Signals (negative, multiplexed) - Common Anodas |
NET "LD_CA_n[0]" LOC = P25 |IOSTANDARD = LVCMOS33; |
NET "LD_CA_n[1]" LOC = P31 |IOSTANDARD = LVCMOS33; |
NET "LD_CA_n[2]" LOC = P32 |IOSTANDARD = LVCMOS33; |
NET "LD_CA_n[3]" LOC = P13 |IOSTANDARD = LVCMOS33; # For S3AN01A connect U1.13 with U1.33 |
NET "LD_CA_n[4]" LOC = P27 |IOSTANDARD = LVCMOS33; |
NET "LD_CA_n[5]" LOC = P29 |IOSTANDARD = LVCMOS33; |
NET "LD_CA_n[6]" LOC = P28 |IOSTANDARD = LVCMOS33; |
NET "LD_CA_n[7]" LOC = P12 |IOSTANDARD = LVCMOS33; # For S3AN01A connect U1.12 with U1.35 |
# Bank 1 Port (input for tests, pull-up) |
NET "P[0]" LOC = P75 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[1]" LOC = P76 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[2]" LOC = P77 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[3]" LOC = P78 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[4]" LOC = P82 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[5]" LOC = P83 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[6]" LOC = P84 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[7]" LOC = P85 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[8]" LOC = P87 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[9]" LOC = P88 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[10]" LOC = P90 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[11]" LOC = P91 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[12]" LOC = P92 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[13]" LOC = P93 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[14]" LOC = P96 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[15]" LOC = P98 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[16]" LOC = P99 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[17]" LOC = P101 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[18]" LOC = P102 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[19]" LOC = P103 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[20]" LOC = P104 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[21]" LOC = P105 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[22]" LOC = P79 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
NET "P[23]" LOC = P80 |IOSTANDARD = LVCMOS33 |PULLUP = YES; |
# Diferencial Signals on 4 pin header (J7) |
NET "DIF1P" LOC = P110 |IOSTANDARD = LVDS_33; |
NET "DIF1N" LOC = P111 |IOSTANDARD = LVDS_33; |
NET "DIF2P" LOC = P112 |IOSTANDARD = LVDS_33; |
NET "DIF2N" LOC = P113 |IOSTANDARD = LVDS_33; |
# Timing Constraint for Crossing Time Domain |
# Source is ChipScope_VIO_FreqSel output in CLK_FAST time domain |
# Destination is SW_SYNC register in CLK100MHz time domain |
INST "SW_SYNC_?" TNM = "TNM_SW_SYNC"; |
TIMESPEC "TS_SW_SYNC" = TO "TNM_SW_SYNC" TIG; |
# Timing Constraint for Crossing Time Domain |
# Source is SET_CLK_xxx register (FSM) in CLK100MHz time domain |
# Destination is ChipScope_VIO_FreqSel inputs in CLK_FAST time domain |
INST "SYNC_IN_?" TNM = "TNM_SET_CLK"; |
TIMESPEC "TS_SET_CLK" = TO "TNM_SET_CLK" TIG; |
# Timing Constraint for Clock Switch |
# Block BUFGMUX is used as Assynchronous switcher |
PIN "BUFGMUX_CLK_FAST.S" TIG; |
/Modules/CPLD_FPGA/XILINX_CHIPSCOPE/VHDL/S3AN01_ChipScope.vhd |
---|
0,0 → 1,612 |
-- ======================================================================== |
-- |
-- S3AN01_ChipScope |
-- |
-- Logic Analyser based on Xilinx ChipScope IP Core for S3AN01 Board |
-- |
-- (c) miho 2013 / http://www.mlab.cz/PermaLink/XILINX_ChipScope |
-- |
-- Demo application contains some Clock Logic (DCM block and |
-- clock switch to be able to set different sample clocks). |
-- The main function is ChipScope Logic Analyser with 16 data inputs |
-- (with 24 bit trigger) and storage for 1024 Data Samples. |
-- |
-- Sampling clock is selectable to 170/100/50/20/10/5/2/1MHz |
-- |
-- To implement the design the ChipScope license is required. |
-- |
-- To use (the logic analyser) no speceial license is needed, |
-- WebPack ISE or Lab Tools is enough). Requires some compatible |
-- JTAG cable. Compatible with MLAB Xilinx Virtual Cable as well |
-- http://www.mlab.cz/PermaLink/XILINX_XVC |
-- |
-- Device: Spartan3AN XC3S50AN-4TQG144C |
-- |
-- Software: ISE WebPack 14.5 |
-- |
-- ======================================================================== |
-- Standard Library |
library IEEE; |
use IEEE.STD_LOGIC_1164.ALL; |
use IEEE.numeric_std.ALL; |
-- Xilinx Library (necessary for DMC and other Xilinx blocks) |
library UNISIM; |
use UNISIM.VComponents.all; |
-- Interface |
entity S3AN01_ChipScope is |
generic( |
ILA_WIDE: boolean := TRUE; -- TRUE/FALSE -> 18bit x 1024 / 9bit x 2048 logic analyser |
MUXCOUNT: integer := 100_000 -- LED Display Multiplex Clock Divider |
); |
port( |
-- Main Clock |
CLK100MHz: in std_logic; -- 100MHz external xtal clock source |
-- Mode Signals (usualy not used) |
VS: out std_logic_vector(2 downto 0); -- SPI Flash Vendor Mode Select |
-- Dipswitch Inputs |
DIPSW: in std_logic_vector(7 downto 0); |
-- LED Bar Outputs |
LED: out std_logic_vector(7 downto 0); |
-- LED Display (8 digits with 7 segments and decimal point) |
LD_CA_n: out std_logic_vector(7 downto 0); |
LD_SEG_n: out std_logic_vector(7 downto 0); |
-- Bank 1 Pins Inputs |
P: in std_logic_vector(24 downto 0); |
-- Diferencial Signals on 4 pin header (J7) |
DIF1P: inout std_logic; |
DIF1N: inout std_logic; |
DIF2P: inout std_logic; |
DIF2N: inout std_logic |
); |
end S3AN01_ChipScope; |
-- Implementation |
architecture S3AN01_ChipScope_a of S3AN01_ChipScope is |
-- Clock Signals |
-- ============= |
-- DCM Signals |
signal DCM_CLK0: std_logic; -- DCM output for feedback |
signal DCM_CLKFX: std_logic; -- DCM output of the fastest clock |
signal CLK_FAST: std_logic; -- Main clock for ILA |
signal CLK_FAST_Q: std_logic; -- Auxiliary signal (for CLK_FAST sent to pin) |
-- 100MHz Clock Switch |
-- CLK100MHz Clock Domain |
signal CLK100MHz_CE: std_logic; -- Gate Signal for slow dwn of the 100MHz clock |
signal CLK100MHz_Gated: std_logic; -- Gated Clocks |
signal CLK100MHz_CE_Cnt: unsigned(6 downto 0) := (others => '0'); -- Gate Signal Counter (min frequency is 1/100 of CLK100MHz |
-- 1 Hot Clock Select Signals |
-- CLK100MHz Clock Domain |
signal SET_CLK_MAX: std_logic := '0'; -- Clock Select Signal - Maximim (150-170Mhz) |
signal SET_CLK_100MHz: std_logic := '1'; -- Clock Select Signal - 100MHz |
signal SET_CLK_50MHz: std_logic := '0'; -- Clock Select Signal - 50MHz |
signal SET_CLK_20Mhz: std_logic := '0'; -- Clock Select Signal - 20MHz |
signal SET_CLK_10Mhz: std_logic := '0'; -- Clock Select Signal - 10MHz |
signal SET_CLK_5Mhz: std_logic := '0'; -- Clock Select Signal - 5MHz |
signal SET_CLK_2Mhz: std_logic := '0'; -- Clock Select Signal - 2MHz |
signal SET_CLK_1Mhz: std_logic := '0'; -- Clock Select Signal - 1MHz |
-- Signals from and to ChipScope Virtual IO (set and display frequency) |
-- CLK_FAST and CLK100MHz time domain |
signal SYNC_IN: std_logic_vector(7 downto 0); -- Input to ChipScope VIO |
signal SYNC_OUT: std_logic_vector(7 downto 0); -- Output from ChipScope VIO |
signal SW_SYNC: std_logic_vector(7 downto 0) := (others => '0'); -- Asyn inputs synced |
-- LED Ouput with time multiplex |
-- ============================= |
signal WideBCD: std_logic_vector(2*5-1 downto 0); -- Constant width of ILA in BCD (2 char wide) |
signal FrequencyBCD: std_logic_vector(3*5-1 downto 0); -- Selected frequency in BCD (3 char wide) |
signal Code: std_logic_vector(4 downto 0); -- BCD to 7 Segment Decoder Output |
signal Segments: std_logic_vector(0 to 7); -- LED Segment Output |
-- Time Multiplex |
signal MuxCounter: unsigned(31 downto 0) := (others => '0'); -- LED Multiplex - Multiplex Clock Divider |
signal LedEnable: std_logic; -- LED Display Brightness |
signal Digits: std_logic_vector(7 downto 0) := X"01"; -- LED Multiplex - Digit Counter - LED Digit Output |
-- Test Generator signals |
-- ====================== |
signal Counter: std_logic_vector(7 downto 0); -- Counter |
-- ChipScope Signals |
-- ================= |
-- Input data |
-- CLK_FAST Clock Domain |
signal DataReg: std_logic_vector(P'range); -- Data and Trigger input |
-- Trigger Output |
signal TriggerOut: std_logic; -- Trigegr output from ChipScope ILA to pin |
-- User Outputs from ChipScope Virtual IO |
signal SYNC_OUT_USER: std_logic_vector(2 downto 0); -- Output from ChipScope VIO |
-- ChipScope Control Signals |
signal Control0: std_logic_vector(35 downto 0); |
signal Control1: std_logic_vector(35 downto 0); |
signal Control2: std_logic_vector(35 downto 0); |
-- ChipScope Control Block |
component ChipScope_ICON |
port ( |
CONTROL0: inout std_logic_vector(35 downto 0); |
CONTROL1: inout std_logic_vector(35 downto 0); |
CONTROL2: inout std_logic_vector(35 downto 0) |
); |
end component; |
-- ChipScope Virtual I/O Block |
component ChipScope_VIO_FreqSel |
port ( |
CONTROL: inout std_logic_vector(35 downto 0); |
CLK: in std_logic; |
SYNC_IN: in std_logic_vector(7 downto 0); |
SYNC_OUT: out std_logic_vector(7 downto 0) |
); |
end component; |
-- ChipScope Virtual I/O Block |
component ChipScope_VIO_UserOut |
port ( |
CONTROL: inout std_logic_vector(35 downto 0); |
CLK: in std_logic; |
SYNC_OUT: out std_logic_vector(2 downto 0) |
); |
end component; |
-- ChipScope Integrated Logic Analyser |
component ChipScope_ILA_18_1024 |
port ( |
CONTROL: inout std_logic_vector(35 downto 0); |
CLK: in std_logic; |
DATA: in std_logic_vector(17 downto 0); -- 18 bits wide data |
TRIG0: in std_logic_vector(23 downto 0); |
TRIG_OUT: out std_logic |
); |
end component; |
-- ChipScope Integrated Logic Analyser |
component ChipScope_ILA_9_2048 |
port ( |
CONTROL: inout std_logic_vector(35 downto 0); |
CLK: in std_logic; |
DATA: in std_logic_vector(8 downto 0); -- 9 bits wide data |
TRIG0: in std_logic_vector(23 downto 0); |
TRIG_OUT: out std_logic |
); |
end component; |
begin |
-- =================================================== |
-- Clock Network and Clock Switching |
-- =================================================== |
-- |
-- The fastest clock signal is generated from 100MHz by DCM. |
-- The design maximim is 170MHz for selected device. |
-- |
-- For lower frequency the 100MHz clocks are gated in BUFGCE |
-- acording to SET_CLK_xxx signals. |
-- |
-- For Logic Analyser we use 170MHz from DCM or gated 100MHz |
-- switchd by BUFGMUX block. |
-- DCM_SP: Digital Clock Manager Circuit |
-- Spartan-3A |
-- Xilinx HDL Language Template, version 14.5 |
-- |
-- CLKFB without BUFG (we do not need phase relation to the original clock) |
-- |
-- Design Limits (XC3S50AN-4): |
-- |
-- 5/3 -> 166MHz - o.k. (best 5.9ns - 169.5MHz) |
-- 17/10 -> 170MHz - o.k. (best 5.748ns - 174MHz) <------ Used Here |
-- 12/7 -> 171MHz - Timing Error |
-- 7/4 -> 175MHz - Timing Error |
-- 18/10 -> 180MHz - Timing Error |
-- |
DCM_SP_inst: DCM_SP |
generic map ( |
CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 |
CLKFX_DIVIDE => 10, -- Can be any interger from 1 to 32 |
CLKFX_MULTIPLY => 17, -- Can be any integer from 2 to 32 |
CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature |
CLKIN_PERIOD => 10.0, -- Specify period of input clock |
CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of "NONE", "FIXED" or "VARIABLE" |
CLK_FEEDBACK => "1X", -- Specify clock feedback of "NONE", "1X" or "2X" |
DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- "SOURCE_SYNCHRONOUS", "SYSTEM_SYNCHRONOUS" or an integer from 0 to 15 |
DLL_FREQUENCY_MODE => "HIGH", -- "HIGH" or "LOW" frequency mode for DLL |
DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE |
PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 |
STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM_SP LOCK, TRUE/FALSE |
) |
port map ( |
CLK0 => DCM_CLK0, -- 0 degree DCM CLK ouptput |
-- CLK180 => CLK180, -- 180 degree DCM CLK output |
-- CLK270 => CLK270, -- 270 degree DCM CLK output |
-- CLK2X => CLK2X, -- 2X DCM CLK output |
-- CLK2X180 => CLK2X180, -- 2X, 180 degree DCM CLK out |
-- CLK90 => CLK90, -- 90 degree DCM CLK output |
-- CLKDV => CLKDV, -- Divided DCM CLK out (CLKDV_DIVIDE) |
CLKFX => DCM_CLKFX, -- DCM CLK synthesis out (M/D) |
-- CLKFX180 => CLKFX180, -- 180 degree CLK synthesis out |
-- LOCKED => LOCKED, -- DCM LOCK status output |
-- PSDONE => PSDONE, -- Dynamic phase adjust done output |
-- STATUS => STATUS, -- 8-bit DCM status bits output |
CLKFB => DCM_CLK0, -- DCM clock feedback |
CLKIN => CLK100MHz, -- Clock input (from IBUFG, BUFG or DCM) |
-- PSCLK => PSCLK, -- Dynamic phase adjust clock input |
-- PSEN => PSEN, -- Dynamic phase adjust enable input |
-- PSINCDEC => PSINCDEC, -- Dynamic phase adjust increment/decrement |
RST => '0' -- DCM asynchronous reset input |
); |
-- Generate Clock Gate signal for 100MHz Clock |
process (CLK100MHz) |
begin |
if rising_edge(CLK100MHz) then |
if CLK100MHz_CE_Cnt=0 then |
CLK100MHz_CE <= '1'; |
if SET_CLK_100MHz='1' then |
CLK100MHz_CE_Cnt <= to_unsigned(1-1, CLK100MHz_CE_Cnt'length); |
elsif SET_CLK_50MHz='1' then |
CLK100MHz_CE_Cnt <= to_unsigned(2-1, CLK100MHz_CE_Cnt'length); |
elsif SET_CLK_20MHz='1' then |
CLK100MHz_CE_Cnt <= to_unsigned(5-1, CLK100MHz_CE_Cnt'length); |
elsif SET_CLK_10MHz='1' then |
CLK100MHz_CE_Cnt <= to_unsigned(10-1, CLK100MHz_CE_Cnt'length); |
elsif SET_CLK_5MHz='1' then |
CLK100MHz_CE_Cnt <= to_unsigned(20-1, CLK100MHz_CE_Cnt'length); |
elsif SET_CLK_2MHz='1' then |
CLK100MHz_CE_Cnt <= to_unsigned(50-1, CLK100MHz_CE_Cnt'length); |
elsif SET_CLK_1MHz='1' then |
CLK100MHz_CE_Cnt <= to_unsigned(100-1, CLK100MHz_CE_Cnt'length); |
end if; |
else |
CLK100MHz_CE <= '0'; |
CLK100MHz_CE_Cnt <= CLK100MHz_CE_Cnt-1; |
end if; |
end if; |
end process; |
-- Gate 100MHz Clocks (to produce 100/50/20/10/5/2/1 MHz) |
-- Generates 5ns pulses with 10/20/50/100/200/500/1000ns period |
BUFGCE_CLK100MHz: BUFGCE |
port map ( |
I => CLK100MHz, -- Clock buffer input |
CE => CLK100MHz_CE, -- Clock enable input |
O => CLK100MHz_Gated -- Clock buffer ouptput |
); |
-- Switch (gated) 100MHz and the fastest Clock signal from DCM |
BUFGMUX_CLK_FAST: BUFGMUX |
port map ( |
I0 => CLK100MHz_Gated, -- Clock0 input -- 100/50/20/10/50/20/1MHz |
I1 => DCM_CLKFX, -- Clock1 input -- 170MHz |
S => SET_CLK_MAX, -- Clock select input |
O => CLK_FAST -- Clock MUX output |
); |
-- Assynchrnous inputs and inputs from CLK_FAST clock domain must be synchronised |
-- SYNC_OUT - CLK_FAST clock domain |
-- DIPSW - External (off-chip) async inputs |
process (CLK100MHz) |
begin |
if rising_edge(CLK100MHz) then |
SW_SYNC <= SYNC_OUT or DIPSW; |
end if; |
end process; |
-- Ferquency Selector |
-- FSM - 1 hot |
process (CLK100MHz) |
variable TMP: std_logic_vector(SYNC_OUT'range); |
variable NEW_DATA: std_logic; |
begin |
if rising_edge(CLK100MHz) then |
TMP := (others => '0'); |
NEW_DATA := '1'; |
if SW_SYNC(7)='1' then |
TMP(7) := '1'; |
elsif SW_SYNC(6)='1' then |
TMP(6) := '1'; |
elsif SW_SYNC(5)='1' then |
TMP(5) := '1'; |
elsif SW_SYNC(4)='1' then |
TMP(4) := '1'; |
elsif SW_SYNC(3)='1' then |
TMP(3) := '1'; |
elsif SW_SYNC(2)='1' then |
TMP(2) := '1'; |
elsif SW_SYNC(1)='1' then |
TMP(1) := '1'; |
elsif SW_SYNC(0)='1' then |
TMP(0) := '1'; |
else |
NEW_DATA := '0'; |
end if; |
if NEW_DATA='1' then |
SET_CLK_MAX <= TMP(7); |
SET_CLK_100MHz <= TMP(6); |
SET_CLK_50MHz <= TMP(5); |
SET_CLK_20MHz <= TMP(4); |
SET_CLK_10MHz <= TMP(3); |
SET_CLK_5MHz <= TMP(2); |
SET_CLK_2MHz <= TMP(1); |
SET_CLK_1MHz <= TMP(0); |
end if; |
end if; |
end process; |
-- Send selected frequency to ChipScope Virtual IO |
-- Sync it to the CLK_FAST timing domain |
SET_CLK_proc: process (CLK_FAST) |
begin |
if rising_edge(CLK_FAST) then |
SYNC_IN(7) <= SET_CLK_MAX; |
SYNC_IN(6) <= SET_CLK_100MHz; |
SYNC_IN(5) <= SET_CLK_50MHz; |
SYNC_IN(4) <= SET_CLK_20Mhz; |
SYNC_IN(3) <= SET_CLK_10Mhz; |
SYNC_IN(2) <= SET_CLK_5Mhz; |
SYNC_IN(1) <= SET_CLK_2Mhz; |
SYNC_IN(0) <= SET_CLK_1Mhz; |
end if; |
end process; |
-- =================================================== |
-- ChipScope Instance - Control / Virtual IO / ILA |
-- =================================================== |
-- ChipScope Instance - Control Block |
MyChipScopeICON: ChipScope_ICON |
port map ( |
CONTROL0 => Control0, |
CONTROL1 => Control1, |
CONTROL2 => Control2 |
); |
-- ChipScope Instance - Virtual I/O Block |
MyChipScopeVIO_FreqSel: ChipScope_VIO_FreqSel |
port map ( |
CONTROL => Control0, |
CLK => CLK_FAST, |
SYNC_IN => SYNC_IN, |
SYNC_OUT => SYNC_OUT |
); |
-- ChipScope Instance - Virtual I/O Block |
MyChipScopeVIO_UserOut: ChipScope_VIO_UserOut |
port map ( |
CONTROL => Control1, |
CLK => CLK_FAST, |
SYNC_OUT => SYNC_OUT_USER |
); |
-- ChipScope Instance - Integrated Logic Analyser |
ILA_18_1024: if ILA_WIDE generate |
begin |
MyChipScopeILA: ChipScope_ILA_18_1024 |
port map ( |
CONTROL => Control2, |
CLK => CLK_FAST, |
DATA => DataReg(17 downto 0), |
TRIG0 => DataReg(23 downto 0), |
TRIG_OUT => TriggerOut |
); |
end generate; |
ILA_9_2048: if not ILA_WIDE generate |
begin |
MyChipScopeILA: ChipScope_ILA_9_2048 |
port map ( |
CONTROL => Control2, |
CLK => CLK_FAST, |
DATA => DataReg(8 downto 0), |
TRIG0 => DataReg(23 downto 0), |
TRIG_OUT => TriggerOut |
); |
end generate; |
-- Data inputs (ILA does not like to have data inputs connected to io pins) |
process(CLK_FAST) |
begin |
if rising_edge(CLK_FAST) then |
DataReg <= P(DataReg'range); |
end if; |
end process; |
-- VIO User Outputs |
VS <= SYNC_OUT_USER; |
-- Trigger Output (Diferencial signal) |
OBUFDS_TriggerOut: OBUFDS |
generic map ( |
IOSTANDARD => "DEFAULT" |
) |
port map ( |
I => TriggerOut, -- Buffer input |
O => DIF1P, -- Diff_p output (connect directly to top-level port) |
OB => DIF1N -- Diff_n output (connect directly to top-level port) |
); |
-- =================================================== |
-- LED Display (multiplexed) |
-- =================================================== |
-- Frequency in BCD |
FrequencyBCD <= "00001"&"00111"&"00000" when SET_CLK_MAX='1' else -- 170 MHz |
"00001"&"00000"&"00000" when SET_CLK_100MHz='1' else -- 100 MHz |
"11111"&"00101"&"00000" when SET_CLK_50MHz='1' else -- 50 MHz |
"11111"&"00010"&"00000" when SET_CLK_20MHz='1' else -- 20 MHz |
"11111"&"00001"&"00000" when SET_CLK_10MHz='1' else -- 10 MHz |
"11111"&"11111"&"00101" when SET_CLK_5MHz='1' else -- 5 MHz |
"11111"&"11111"&"00010" when SET_CLK_2MHz='1' else -- 2 MHz |
"11111"&"11111"&"00001" when SET_CLK_1MHz='1' else -- 1 MHz |
"11111"&"11111"&"11111"; |
-- ILA width in BCD |
ILA_DCD_18_1024: if ILA_WIDE generate |
begin |
WideBCD <= "00001"&"01000"; |
end generate; |
ILA_DCD_9_2048: if not ILA_WIDE generate |
begin |
WideBCD <= "11111"&"01001"; |
end generate; |
-- Input data selector ( WIDE / ILA / FREQ ) |
Code <= FrequencyBCD( 4 downto 0) when Digits="00000001" else |
FrequencyBCD( 9 downto 5) when Digits="00000010" else |
FrequencyBCD(14 downto 10) when Digits="00000100" else |
"10010" when Digits="00001000" else -- A |
"10001" when Digits="00010000" else -- L |
"10000" when Digits="00100000" else -- I |
WideBCD( 4 downto 0) when Digits="01000000" else |
WideBCD( 9 downto 5) when Digits="10000000" else |
"11111"; |
-- Time Multiplex |
process (CLK100MHz) |
begin |
if rising_edge(CLK100MHz) then |
if MuxCounter < MUXCOUNT-1 then |
MuxCounter <= MuxCounter + 1; |
else |
MuxCounter <= (others => '0'); |
Digits(7 downto 0) <= Digits(6 downto 0) & Digits(7); -- Rotate Left (1 hot encoded) |
end if; |
-- Display brightness (1/2) |
if MuxCounter > (MUXCOUNT-MUXCOUNT/2) then |
LedEnable <= '1'; |
else |
LedEnable <= '0'; |
end if; |
end if; |
end process; |
-- BCD to 7 Segmet Decoder |
-- -- A |
-- | | F B |
-- -- G |
-- | | E C |
-- -- D H |
-- HGFEDCBA |
Segments <= "00111111" when Code="00000" else -- Digit 0 -- Hex Didits |
"00000110" when Code="00001" else -- Digit 1 |
"01011011" when Code="00010" else -- Digit 2 |
"01001111" when Code="00011" else -- Digit 3 |
"01100110" when Code="00100" else -- Digit 4 |
"01101101" when Code="00101" else -- Digit 5 |
"01111101" when Code="00110" else -- Digit 6 |
"00000111" when Code="00111" else -- Digit 7 |
"01111111" when Code="01000" else -- Digit 8 |
"01101111" when Code="01001" else -- Digit 9 |
"01110111" when Code="01010" else -- Digit A |
"01111100" when Code="01011" else -- Digit b |
"00111001" when Code="01100" else -- Digit C |
"01011110" when Code="01101" else -- Digit d |
"01111001" when Code="01110" else -- Digit E |
"00110001" when Code="01111" else -- Digit F |
"00000110" when Code="10000" else -- Digit I -- User Digits |
"00111000" when Code="10001" else -- Digit L |
"01110111" when Code="10010" else -- Digit A |
"00000000"; -- none |
-- Connect LED Display Output Ports (negative outputs) |
LD_CA_n <= not Digits; |
LD_SEG_n <= not Segments when LedEnable='1' else "11111111"; |
-- =================================================== |
-- Test generator (counter) |
-- =================================================== |
-- Test counter |
process(CLK100MHz) |
begin |
if rising_edge(CLK100MHz) then |
Counter <= std_logic_vector(unsigned(Counter) + 1); |
end if; |
end process; |
-- Test outputs |
LED <= Counter; |
-- CLK_FAST Output - DDR register |
ODDR2_FastClk: ODDR2 |
generic map( |
DDR_ALIGNMENT => "NONE", -- Sets output alignment to "NONE", "C0", "C1" |
INIT => '0', -- Sets initial state of the Q output to '0' or '1' |
SRTYPE => "SYNC" -- Specifies "SYNC" or "ASYNC" set/reset |
) |
port map ( |
C0 => CLK_FAST, -- 1-bit clock input |
C1 => not CLK_FAST, -- 1-bit clock input |
CE => '1', -- 1-bit clock enable input |
D0 => '0', -- 1-bit data input (associated with C0) |
D1 => '1', -- 1-bit data input (associated with C1) |
R => '0', -- 1-bit reset input |
S => '0', -- 1-bit set input |
Q => CLK_FAST_Q -- 1-bit output data |
); |
-- CLK_FAST Output - differncial pin buffer |
OBUFDS_FastClkOut: OBUFDS |
generic map ( |
IOSTANDARD => "DEFAULT" |
) |
port map ( |
I => CLK_FAST_Q, -- Buffer input |
O => DIF2P, -- Diff_p output (connect directly to top-level port) |
OB => DIF2N -- Diff_n output (connect directly to top-level port) |
); |
end S3AN01_ChipScope_a; |