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SEm-Labos/10-PipelinedOperators/Board/concat/pipelinedOperators.vhd

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2024-02-23 13:01:05 +00:00
-- VHDL Entity Board.pipelineCounter_ebs3.symbol
--
-- Created:
-- by - axel.amand.UNKNOWN (WE7860)
-- at - 11:16:01 08.05.2023
--
-- Generated by Mentor Graphics' HDL Designer(TM) 2019.2 (Build 5)
--
LIBRARY ieee;
USE ieee.std_logic_1164.all;
USE ieee.numeric_std.all;
ENTITY pipelineCounter_ebs3 IS
GENERIC(
counterBitNb : positive := 16
);
PORT(
clock : IN std_ulogic;
reset_n : IN std_ulogic;
countOut : OUT unsigned (counterBitNb-1 DOWNTO 0)
);
-- Declarations
END pipelineCounter_ebs3 ;
-- VHDL Entity PipelinedOperators.pipelineCounter.symbol
--
-- Created:
-- by - francois.francois (Aphelia)
-- at - 08:50:00 03/11/19
--
-- Generated by Mentor Graphics' HDL Designer(TM) 2019.2 (Build 5)
--
LIBRARY ieee;
USE ieee.std_logic_1164.all;
USE ieee.numeric_std.all;
ENTITY pipelineCounter IS
GENERIC(
bitNb : positive;
stageNb : positive
);
PORT(
countOut : OUT unsigned (bitNb-1 DOWNTO 0);
clock : IN std_ulogic;
reset : IN std_ulogic
);
-- Declarations
END pipelineCounter ;
-- VHDL Entity PipelinedOperators.pipelineAdder.symbol
--
-- Created:
-- by - francois.francois (Aphelia)
-- at - 08:50:15 03/11/19
--
-- Generated by Mentor Graphics' HDL Designer(TM) 2019.2 (Build 5)
--
LIBRARY ieee;
USE ieee.std_logic_1164.all;
USE ieee.numeric_std.all;
ENTITY pipelineAdder IS
GENERIC(
bitNb : positive;
stageNb : positive
);
PORT(
sum : OUT signed (bitNb-1 DOWNTO 0);
clock : IN std_ulogic;
reset : IN std_ulogic;
cIn : IN std_ulogic;
cOut : OUT std_ulogic;
a : IN signed (bitNb-1 DOWNTO 0);
b : IN signed (bitNb-1 DOWNTO 0)
);
-- Declarations
END pipelineAdder ;
-- VHDL Entity PipelinedOperators.parallelAdder.symbol
--
-- Created:
-- by - axel.amand.UNKNOWN (WE7860)
-- at - 11:43:49 28.04.2023
--
-- Generated by Mentor Graphics' HDL Designer(TM) 2019.2 (Build 5)
--
LIBRARY ieee;
USE ieee.std_logic_1164.all;
USE ieee.numeric_std.all;
ENTITY parallelAdder IS
GENERIC(
bitNb : positive := 32
);
PORT(
sum : OUT signed (bitNb-1 DOWNTO 0);
cIn : IN std_ulogic;
cOut : OUT std_ulogic;
a : IN signed (bitNb-1 DOWNTO 0);
b : IN signed (bitNb-1 DOWNTO 0)
);
-- Declarations
END parallelAdder ;
ARCHITECTURE masterVersion OF parallelAdder IS
signal sum_int: unsigned(sum'high+1 downto 0);
BEGIN
sum_int <= resize(unsigned(a), sum_int'length) +
resize(unsigned(b), sum_int'length) +
resize('0' & cIn, sum_int'length);
sum <= signed(sum_int(sum'range));
cOut <= sum_int(sum_int'high);
END ARCHITECTURE masterVersion;
ARCHITECTURE masterVersion OF pipelineAdder IS
constant stageBitNb : positive := sum'length/stageNb;
subtype stageOperandType is signed(stageBitNb-1 downto 0);
type stageOperandVectorType is array(stageNb-1 downto 0) of stageOperandType;
type stageOperandMatrixType is array(stageNb-1 downto 0) of stageOperandVectorType;
subtype carryType is std_ulogic_vector(stageNb downto 0);
signal a_int, b_int, sum_int : stageOperandMatrixType;
signal carryIn, carryOut : carryType;
COMPONENT parallelAdder
GENERIC (
bitNb : positive := 32
);
PORT (
sum : OUT signed (bitNb-1 DOWNTO 0);
cIn : IN std_ulogic ;
cOut : OUT std_ulogic ;
a : IN signed (bitNb-1 DOWNTO 0);
b : IN signed (bitNb-1 DOWNTO 0)
);
END COMPONENT;
BEGIN
carryIn(0) <= cIn;
distributeInput: for wordIndex in stageOperandVectorType'range generate
a_int(wordIndex)(0) <= a(wordIndex*stageBitNb+stageBitNb-1 downto wordIndex*stageBitNb);
b_int(wordIndex)(0) <= b(wordIndex*stageBitNb+stageBitNb-1 downto wordIndex*stageBitNb);
end generate distributeInput;
inputRegistersX: for wordIndex in stageOperandVectorType'high downto 1 generate
inputRegistersY: for pipeIndex in stageOperandMatrixType'high downto 1 generate
upperTriangle: if wordIndex >= pipeIndex generate
inputRegisters: process(reset, clock)
begin
if reset = '1' then
a_int(wordIndex)(pipeIndex) <= (others => '0');
b_int(wordIndex)(pipeIndex) <= (others => '0');
elsif rising_edge(clock) then
a_int(wordIndex)(pipeIndex) <= a_int(wordIndex)(pipeIndex-1);
b_int(wordIndex)(pipeIndex) <= b_int(wordIndex)(pipeIndex-1);
end if;
end process inputRegisters;
end generate upperTriangle;
end generate inputRegistersY;
end generate inputRegistersX;
operation: for index in stageOperandVectorType'range generate
partialAdder: parallelAdder
GENERIC MAP (bitNb => stageBitNb)
PORT MAP (
a => a_int(index)(index),
b => b_int(index)(index),
sum => sum_int(index)(index),
cIn => carryIn(index),
cOut => carryOut(index)
);
carryRegisters: process(reset, clock)
begin
if reset = '1' then
carryIn(index+1) <= '0';
elsif rising_edge(clock) then
carryIn(index+1) <= carryOut(index);
end if;
end process carryRegisters;
end generate operation;
outputRegistersX: for wordIndex in stageOperandVectorType'range generate
outputRegistersY: for pipeIndex in stageOperandMatrixType'range generate
lowerTriangle: if wordIndex < pipeIndex generate
outputRegisters: process(reset, clock)
begin
if reset = '1' then
sum_int(wordIndex)(pipeIndex) <= (others => '0');
elsif rising_edge(clock) then
sum_int(wordIndex)(pipeIndex) <= sum_int(wordIndex)(pipeIndex-1);
end if;
end process outputRegisters;
end generate lowerTriangle;
end generate outputRegistersY;
end generate outputRegistersX;
packOutput: for index in stageOperandVectorType'range generate
sum(index*stageBitNb+stageBitNb-1 downto index*stageBitNb) <=
sum_int(index)(stageOperandMatrixType'high);
end generate packOutput;
cOut <= carryOut(carryOut'high-1);
END ARCHITECTURE masterVersion;
ARCHITECTURE masterVersion OF pipelineCounter IS
signal initCounter : unsigned(countOut'length/stageNb-1 downto 0);
signal b : signed(countOut'range);
signal sum : signed(countOut'range);
COMPONENT pipelineAdder
GENERIC (
bitNb : positive := 32;
stageNb : positive := 4
);
PORT (
reset : IN std_ulogic;
clock : IN std_ulogic;
cIn : IN std_ulogic;
a : IN signed (bitNb-1 DOWNTO 0);
b : IN signed (bitNb-1 DOWNTO 0);
sum : OUT signed (bitNb-1 DOWNTO 0);
cOut : OUT std_ulogic
);
END COMPONENT;
BEGIN
adder: pipelineAdder
GENERIC MAP (
bitNb => countOut'length,
stageNb => stageNb
)
PORT MAP (
reset => reset,
clock => clock,
cIn => '0',
a => sum,
b => b,
sum => sum,
cOut => open
);
prepareBInput: process(reset, clock)
begin
if reset = '1' then
initCounter <= (others => '0');
elsif rising_edge(clock) then
if initCounter < stageNb then
initCounter <= initCounter + 1;
end if;
end if;
end process prepareBInput;
selectInitOrRun: process(initCounter, sum)
begin
if initCounter < stageNb-1 then
b <= signed(resize(initCounter+stageNb-1, b'length));
countOut <= resize(initCounter, countOut'length);
else
b <= to_signed(stageNb-1, b'length);
countOut <= unsigned(sum);
end if;
end process selectInitOrRun;
END ARCHITECTURE masterVersion;
-- VHDL Entity Board.DFF.symbol
--
-- Created:
-- by - francois.francois (Aphelia)
-- at - 13:07:05 02/19/19
--
-- Generated by Mentor Graphics' HDL Designer(TM) 2019.2 (Build 5)
--
LIBRARY ieee;
USE ieee.std_logic_1164.all;
ENTITY DFF IS
PORT(
CLK : IN std_uLogic;
CLR : IN std_uLogic;
D : IN std_uLogic;
Q : OUT std_uLogic
);
-- Declarations
END DFF ;
ARCHITECTURE sim OF DFF IS
BEGIN
process(clk, clr)
begin
if clr = '1' then
q <= '0';
elsif rising_edge(clk) then
q <= d;
end if;
end process;
END ARCHITECTURE sim;
-- VHDL Entity Board.inverterIn.symbol
--
-- Created:
-- by - francois.francois (Aphelia)
-- at - 13:07:14 02/19/19
--
-- Generated by Mentor Graphics' HDL Designer(TM) 2019.2 (Build 5)
--
LIBRARY ieee;
USE ieee.std_logic_1164.all;
ENTITY inverterIn IS
PORT(
in1 : IN std_uLogic;
out1 : OUT std_uLogic
);
-- Declarations
END inverterIn ;
ARCHITECTURE sim OF inverterIn IS
BEGIN
out1 <= NOT in1;
END ARCHITECTURE sim;
-- VHDL netlist generated by SCUBA Diamond (64-bit) 3.12.1.454
-- Module Version: 5.7
--C:\lscc\diamond\3.12\ispfpga\bin\nt64\scuba.exe -w -n pll -lang vhdl -synth synplify -bus_exp 7 -bb -arch sa5p00 -type pll -fin 100.00 -fclkop 60 -fclkop_tol 10.0 -fclkos 75 -fclkos_tol 10.0 -phases 0 -fclkos2 50 -fclkos2_tol 10.0 -phases2 0 -fclkos3 10 -fclkos3_tol 10.0 -phases3 0 -phase_cntl STATIC -enable_s -enable_s2 -enable_s3 -pllLocked -fb_mode 1 -fdc C:/temp/clocker/pll/pll.fdc
-- Offers 10MHz, 50MHz, 60MHz and 75MHz clocks
library IEEE;
use IEEE.std_logic_1164.all;
library ECP5U;
use ECP5U.components.all;
ENTITY pll IS
PORT(
clkIn100M : IN std_ulogic;
en75M : IN std_ulogic;
en50M : IN std_ulogic;
en10M : IN std_ulogic;
clk60MHz : OUT std_ulogic;
clk75MHz : OUT std_ulogic;
clk50MHz : OUT std_ulogic;
clk10MHz : OUT std_ulogic;
pllLocked : OUT std_ulogic
);
-- Declarations
END pll ;
architecture rtl of pll is
-- internal signal declarations
signal REFCLK: std_logic;
signal CLKOS3_t: std_logic;
signal CLKOS2_t: std_logic;
signal CLKOS_t: std_logic;
signal CLKOP_t: std_logic;
signal scuba_vhi: std_logic;
signal scuba_vlo: std_logic;
attribute FREQUENCY_PIN_CLKOS3 : string;
attribute FREQUENCY_PIN_CLKOS2 : string;
attribute FREQUENCY_PIN_CLKOS : string;
attribute FREQUENCY_PIN_CLKOP : string;
attribute FREQUENCY_PIN_CLKI : string;
attribute ICP_CURRENT : string;
attribute LPF_RESISTOR : string;
attribute FREQUENCY_PIN_CLKOS3 of PLLInst_0 : label is "10.000000";
attribute FREQUENCY_PIN_CLKOS2 of PLLInst_0 : label is "50.000000";
attribute FREQUENCY_PIN_CLKOS of PLLInst_0 : label is "75.000000";
attribute FREQUENCY_PIN_CLKOP of PLLInst_0 : label is "60.000000";
attribute FREQUENCY_PIN_CLKI of PLLInst_0 : label is "100.000000";
attribute ICP_CURRENT of PLLInst_0 : label is "5";
attribute LPF_RESISTOR of PLLInst_0 : label is "16";
attribute syn_keep : boolean;
attribute NGD_DRC_MASK : integer;
attribute NGD_DRC_MASK of rtl : architecture is 1;
begin
-- component instantiation statements
scuba_vhi_inst: VHI
port map (Z=>scuba_vhi);
scuba_vlo_inst: VLO
port map (Z=>scuba_vlo);
PLLInst_0: EHXPLLL
generic map (PLLRST_ENA=> "DISABLED", INTFB_WAKE=> "DISABLED",
STDBY_ENABLE=> "DISABLED", DPHASE_SOURCE=> "DISABLED",
CLKOS3_FPHASE=> 0, CLKOS3_CPHASE=> 59, CLKOS2_FPHASE=> 0,
CLKOS2_CPHASE=> 11, CLKOS_FPHASE=> 0, CLKOS_CPHASE=> 7,
CLKOP_FPHASE=> 0, CLKOP_CPHASE=> 9, PLL_LOCK_MODE=> 0,
CLKOS_TRIM_DELAY=> 0, CLKOS_TRIM_POL=> "FALLING",
CLKOP_TRIM_DELAY=> 0, CLKOP_TRIM_POL=> "FALLING",
OUTDIVIDER_MUXD=> "DIVD", CLKOS3_ENABLE=> "DISABLED",
OUTDIVIDER_MUXC=> "DIVC", CLKOS2_ENABLE=> "DISABLED",
OUTDIVIDER_MUXB=> "DIVB", CLKOS_ENABLE=> "DISABLED",
OUTDIVIDER_MUXA=> "DIVA", CLKOP_ENABLE=> "ENABLED", CLKOS3_DIV=> 60,
CLKOS2_DIV=> 12, CLKOS_DIV=> 8, CLKOP_DIV=> 10, CLKFB_DIV=> 3,
CLKI_DIV=> 5, FEEDBK_PATH=> "CLKOP")
port map (CLKI=>clkIn100M, CLKFB=>CLKOP_t, PHASESEL1=>scuba_vlo,
PHASESEL0=>scuba_vlo, PHASEDIR=>scuba_vlo,
PHASESTEP=>scuba_vlo, PHASELOADREG=>scuba_vlo,
STDBY=>scuba_vlo, PLLWAKESYNC=>scuba_vlo, RST=>scuba_vlo,
ENCLKOP=>scuba_vlo, ENCLKOS=>en75M, ENCLKOS2=>en50M,
ENCLKOS3=>en10M, CLKOP=>CLKOP_t, CLKOS=>CLKOS_t,
CLKOS2=>CLKOS2_t, CLKOS3=>CLKOS3_t, LOCK=>pllLocked,
INTLOCK=>open, REFCLK=>REFCLK, CLKINTFB=>open);
clk10MHz <= CLKOS3_t;
clk50MHz <= CLKOS2_t;
clk75MHz <= CLKOS_t;
clk60MHz <= CLKOP_t;
end rtl;
--
-- VHDL Architecture Board.pipelineCounter_ebs3.struct
--
-- Created:
-- by - axel.amand.UNKNOWN (WE7860)
-- at - 11:16:01 08.05.2023
--
-- Generated by Mentor Graphics' HDL Designer(TM) 2019.2 (Build 5)
--
LIBRARY ieee;
USE ieee.std_logic_1164.all;
USE ieee.numeric_std.all;
-- LIBRARY Board;
-- LIBRARY Lattice;
-- LIBRARY PipelinedOperators;
ARCHITECTURE struct OF pipelineCounter_ebs3 IS
-- Architecture declarations
constant pipelineStageNb: positive := 5;
-- Internal signal declarations
SIGNAL clk_sys : std_ulogic;
SIGNAL logic0 : std_ulogic;
SIGNAL logic1 : std_uLogic;
SIGNAL reset : std_ulogic;
SIGNAL resetSynch : std_ulogic;
SIGNAL resetSynch_n : std_ulogic;
-- Component Declarations
COMPONENT DFF
PORT (
CLK : IN std_uLogic ;
CLR : IN std_uLogic ;
D : IN std_uLogic ;
Q : OUT std_uLogic
);
END COMPONENT;
COMPONENT inverterIn
PORT (
in1 : IN std_uLogic ;
out1 : OUT std_uLogic
);
END COMPONENT;
COMPONENT pll
PORT (
clkIn100M : IN std_ulogic ;
en75M : IN std_ulogic ;
en50M : IN std_ulogic ;
en10M : IN std_ulogic ;
clk60MHz : OUT std_ulogic ;
clk75MHz : OUT std_ulogic ;
clk50MHz : OUT std_ulogic ;
clk10MHz : OUT std_ulogic ;
pllLocked : OUT std_ulogic
);
END COMPONENT;
COMPONENT pipelineCounter
GENERIC (
bitNb : positive;
stageNb : positive
);
PORT (
countOut : OUT unsigned (bitNb-1 DOWNTO 0);
clock : IN std_ulogic ;
reset : IN std_ulogic
);
END COMPONENT;
-- Optional embedded configurations
-- pragma synthesis_off
-- FOR ALL : DFF USE ENTITY Board.DFF;
-- FOR ALL : inverterIn USE ENTITY Board.inverterIn;
-- FOR ALL : pipelineCounter USE ENTITY PipelinedOperators.pipelineCounter;
-- FOR ALL : pll USE ENTITY Lattice.pll;
-- pragma synthesis_on
BEGIN
-- Architecture concurrent statements
-- HDL Embedded Text Block 5 eb5
logic1 <= '1';
-- HDL Embedded Text Block 6 eb6
logic0 <= '0';
-- Instance port mappings.
I_dff : DFF
PORT MAP (
CLK => clock,
CLR => reset,
D => logic1,
Q => resetSynch_n
);
I_inv1 : inverterIn
PORT MAP (
in1 => reset_n,
out1 => reset
);
I_inv2 : inverterIn
PORT MAP (
in1 => resetSynch_n,
out1 => resetSynch
);
I_pll : pll
PORT MAP (
clkIn100M => clock,
en75M => logic0,
en50M => logic0,
en10M => logic0,
clk60MHz => clk_sys,
clk75MHz => OPEN,
clk50MHz => OPEN,
clk10MHz => OPEN,
pllLocked => OPEN
);
I_cnt : pipelineCounter
GENERIC MAP (
bitNb => counterBitNb,
stageNb => pipelineStageNb
)
PORT MAP (
countOut => countOut,
clock => clk_sys,
reset => resetSynch
);
END struct;