yosys/techlibs/ecp5/cells_sim.v

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// ---------------------------------------
module LUT4(input A, B, C, D, output Z);
parameter [15:0] INIT = 16'h0000;
wire [7:0] s3 = D ? INIT[15:8] : INIT[7:0];
wire [3:0] s2 = C ? s3[ 7:4] : s3[3:0];
wire [1:0] s1 = B ? s2[ 3:2] : s2[1:0];
assign Z = A ? s1[1] : s1[0];
endmodule
// ---------------------------------------
module L6MUX21 (input D0, D1, SD, output Z);
assign Z = SD ? D1 : D0;
endmodule
// ---------------------------------------
module CCU2C(input CIN, A0, B0, C0, D0, A1, B1, C1, D1,
output S0, S1, COUT);
parameter [15:0] INIT0 = 16'h0000;
parameter [15:0] INIT1 = 16'h0000;
parameter INJECT1_0 = "YES";
parameter INJECT1_1 = "YES";
// First half
wire LUT4_0, LUT2_0;
LUT4 #(.INIT(INIT0)) lut4_0(.A(A0), .B(B0), .C(C0), .D(D0), .Z(LUT4_0));
LUT2 #(.INIT(INIT0[3:0])) lut2_0(.A(A0), .B(B0), .Z(LUT2_0));
wire gated_cin_0 = (INJECT1_0 == "YES") ? 1'b0 : CIN;
assign S0 = LUT4_0 ^ gated_cin_0;
wire gated_lut2_0 = (INJECT1_0 == "YES") ? 1'b0 : LUT2_0;
wire cout_0 = (~LUT4_0 & gated_lut2_0) | (LUT4_0 & CIN);
// Second half
wire LUT4_1, LUT2_1;
LUT4 #(.INIT(INIT1)) lut4_1(.A(A1), .B(B1), .C(C1), .D(D1), .Z(LUT4_1));
LUT2 #(.INIT(INIT1[3:0])) lut2_1(.A(A1), .B(B1), .Z(LUT2_1));
wire gated_cin_1 = (INJECT1_1 == "YES") ? 1'b0 : cout_0;
assign S1 = LUT4_1 ^ gated_cin_1;
wire gated_lut2_1 = (INJECT1_1 == "YES") ? 1'b0 : LUT2_1;
assign COUT = (~LUT4_1 & gated_lut2_1) | (LUT4_1 & cout_0);
endmodule
// ---------------------------------------
module TRELLIS_RAM16X2 (
input DI0, DI1,
input WAD0, WAD1, WAD2, WAD3,
input WRE, WCK,
input RAD0, RAD1, RAD2, RAD3,
output DO0, DO1
);
parameter WCKMUX = "WCK";
parameter WREMUX = "WRE";
parameter INITVAL_0 = 16'h0000;
parameter INITVAL_1 = 16'h0000;
reg [1:0] mem[15:0];
integer i;
initial begin
for (i = 0; i < 16; i = i + 1)
mem[i] <= {INITVAL_1[i], INITVAL_0[i]};
end
wire muxwck = (WCKMUX == "INV") ? ~WCK : WCK;
reg muxwre;
always @(*)
case (WREMUX)
"1": muxwre = 1'b1;
"0": muxwre = 1'b0;
"INV": muxwre = ~WRE;
default: muxwre = WRE;
endcase
always @(posedge muxwck)
if (muxwre)
mem[{WAD3, WAD2, WAD1, WAD0}] <= {DI1, DI0};
assign {DO1, DO0} = mem[{RAD3, RAD2, RAD1, RAD0}];
endmodule
// ---------------------------------------
module PFUMX (input ALUT, BLUT, C0, output Z);
assign Z = C0 ? ALUT : BLUT;
endmodule
// ---------------------------------------
module TRELLIS_DPR16X4 (
input [3:0] DI,
input [3:0] WAD,
input WRE, WCK,
input [3:0] RAD,
output [3:0] DO
);
parameter WCKMUX = "WCK";
parameter WREMUX = "WRE";
parameter [63:0] INITVAL = 64'h0000000000000000;
reg [3:0] mem[15:0];
integer i;
initial begin
for (i = 0; i < 16; i = i + 1)
mem[i] <= {INITVAL[i+3], INITVAL[i+2], INITVAL[i+1], INITVAL[i]};
end
wire muxwck = (WCKMUX == "INV") ? ~WCK : WCK;
reg muxwre;
always @(*)
case (WREMUX)
"1": muxwre = 1'b1;
"0": muxwre = 1'b0;
"INV": muxwre = ~WRE;
default: muxwre = WRE;
endcase
always @(posedge muxwck)
if (muxwre)
mem[WAD] <= DI;
assign DO = mem[RAD];
endmodule
// ---------------------------------------
module DPR16X4C (
input [3:0] DI,
input WCK, WRE,
input [3:0] RAD,
input [3:0] WAD,
output [3:0] DO
);
// For legacy Lattice compatibility, INITIVAL is a hex
// string rather than a numeric parameter
parameter INITVAL = "0x0000000000000000";
function [63:0] convert_initval;
input [143:0] hex_initval;
reg done;
reg [63:0] temp;
reg [7:0] char;
integer i;
begin
done = 1'b0;
temp = 0;
for (i = 0; i < 16; i = i + 1) begin
if (!done) begin
char = hex_initval[8*i +: 8];
if (char == "x") begin
done = 1'b1;
end else begin
if (char >= "0" && char <= "9")
temp[4*i +: 4] = char - "0";
else if (char >= "A" && char <= "F")
temp[4*i +: 4] = 10 + char - "A";
else if (char >= "a" && char <= "f")
temp[4*i +: 4] = 10 + char - "a";
end
end
end
convert_initval = temp;
end
endfunction
localparam conv_initval = convert_initval(INITVAL);
reg [3:0] ram[0:15];
integer i;
initial begin
for (i = 0; i < 15; i = i + 1) begin
ram[i] <= conv_initval[4*i +: 4];
end
end
always @(posedge WCK)
if (WRE)
ram[WAD] <= DI;
assign DO = ram[RAD];
endmodule
// ---------------------------------------
module LUT2(input A, B, output Z);
parameter [3:0] INIT = 4'h0;
wire [1:0] s1 = B ? INIT[ 3:2] : INIT[1:0];
assign Z = A ? s1[1] : s1[0];
endmodule
// ---------------------------------------
module TRELLIS_FF(input CLK, LSR, CE, DI, output reg Q);
parameter GSR = "ENABLED";
parameter [127:0] CEMUX = "1";
parameter CLKMUX = "CLK";
parameter LSRMUX = "LSR";
parameter SRMODE = "LSR_OVER_CE";
parameter REGSET = "RESET";
reg muxce;
always @(*)
case (CEMUX)
"1": muxce = 1'b1;
"0": muxce = 1'b0;
"INV": muxce = ~CE;
default: muxce = CE;
endcase
wire muxlsr = (LSRMUX == "INV") ? ~LSR : LSR;
wire muxclk = (CLKMUX == "INV") ? ~CLK : CLK;
localparam srval = (REGSET == "SET") ? 1'b1 : 1'b0;
initial Q = srval;
generate
if (SRMODE == "ASYNC") begin
always @(posedge muxclk, posedge muxlsr)
if (muxlsr)
Q <= srval;
else
Q <= DI;
end else begin
always @(posedge muxclk)
if (muxlsr)
Q <= srval;
else
Q <= DI;
end
endgenerate
endmodule
// ---------------------------------------
module OBZ(input I, T, output O);
assign O = T ? 1'bz : I;
endmodule
// ---------------------------------------
module IB(input I, output O);
assign O = I;
endmodule
// ---------------------------------------
module TRELLIS_IO(
inout B,
input I,
input T,
output O
);
parameter DIR = "INPUT";
generate
if (DIR == "INPUT") begin
assign B = 1'bz;
assign O = B;
end else if (DIR == "OUTPUT") begin
assign B = T ? 1'bz : I;
assign O = 1'bx;
end else if (DIR == "INOUT") begin
assign B = T ? 1'bz : I;
assign O = B;
end else begin
ERROR_UNKNOWN_IO_MODE error();
end
endgenerate
endmodule
// ---------------------------------------
module OB(input I, output O);
assign O = I;
endmodule
// ---------------------------------------
module BB(input I, T, output O, inout B);
assign B = T ? 1'bz : I;
assign O = B;
endmodule
// ---------------------------------------
module INV(input A, output Z);
assign Z = !A;
endmodule
// ---------------------------------------
module TRELLIS_SLICE(
input A0, B0, C0, D0,
input A1, B1, C1, D1,
input M0, M1,
input FCI, FXA, FXB,
input CLK, LSR, CE,
input DI0, DI1,
input WD0, WD1,
input WAD0, WAD1, WAD2, WAD3,
input WRE, WCK,
output F0, Q0,
output F1, Q1,
output FCO, OFX0, OFX1,
output WDO0, WDO1, WDO2, WDO3,
output WADO0, WADO1, WADO2, WADO3
);
parameter MODE = "LOGIC";
parameter GSR = "ENABLED";
parameter SRMODE = "LSR_OVER_CE";
parameter [127:0] CEMUX = "1";
parameter CLKMUX = "CLK";
parameter LSRMUX = "LSR";
parameter LUT0_INITVAL = 16'h0000;
parameter LUT1_INITVAL = 16'h0000;
parameter REG0_SD = "0";
parameter REG1_SD = "0";
parameter REG0_REGSET = "RESET";
parameter REG1_REGSET = "RESET";
parameter [127:0] CCU2_INJECT1_0 = "NO";
parameter [127:0] CCU2_INJECT1_1 = "NO";
parameter WREMUX = "WRE";
function [15:0] permute_initval;
input [15:0] initval;
integer i;
begin
for (i = 0; i < 16; i = i + 1) begin
permute_initval[{i[0], i[2], i[1], i[3]}] = initval[i];
end
end
endfunction
generate
if (MODE == "LOGIC") begin
// LUTs
LUT4 #(
.INIT(LUT0_INITVAL)
) lut4_0 (
.A(A0), .B(B0), .C(C0), .D(D0),
.Z(F0)
);
LUT4 #(
.INIT(LUT1_INITVAL)
) lut4_1 (
.A(A1), .B(B1), .C(C1), .D(D1),
.Z(F1)
);
// LUT expansion muxes
PFUMX lut5_mux (.ALUT(F1), .BLUT(F0), .C0(M0), .Z(OFX0));
L6MUX21 lutx_mux (.D0(FXA), .D1(FXB), .SD(M1), .Z(OFX1));
end else if (MODE == "CCU2") begin
CCU2C #(
.INIT0(LUT0_INITVAL),
.INIT1(LUT1_INITVAL),
.INJECT1_0(CCU2_INJECT1_0),
.INJECT1_1(CCU2_INJECT1_1)
) ccu2c_i (
.CIN(FCI),
.A0(A0), .B0(B0), .C0(C0), .D0(D0),
.A1(A1), .B1(B1), .C1(C1), .D1(D1),
.S0(F0), .S1(F1),
.COUT(FCO)
);
end else if (MODE == "RAMW") begin
assign WDO0 = C1;
assign WDO1 = A1;
assign WDO2 = D1;
assign WDO3 = B1;
assign WADO0 = D0;
assign WADO1 = B0;
assign WADO2 = C0;
assign WADO3 = A0;
end else if (MODE == "DPRAM") begin
TRELLIS_RAM16X2 #(
.INITVAL_0(permute_initval(LUT0_INITVAL)),
.INITVAL_1(permute_initval(LUT1_INITVAL)),
.WREMUX(WREMUX)
) ram_i (
.DI0(WD0), .DI1(WD1),
.WAD0(WAD0), .WAD1(WAD1), .WAD2(WAD2), .WAD3(WAD3),
.WRE(WRE), .WCK(WCK),
.RAD0(D0), .RAD1(B0), .RAD2(C0), .RAD3(A0),
.DO0(F0), .DO1(F1)
);
// TODO: confirm RAD and INITVAL ordering
// DPRAM mode contract?
always @(*) begin
assert(A0==A1);
assert(B0==B1);
assert(C0==C1);
assert(D0==D1);
end
end else begin
ERROR_UNKNOWN_SLICE_MODE error();
end
endgenerate
// FF input selection muxes
wire muxdi0 = (REG0_SD == "1") ? DI0 : M0;
wire muxdi1 = (REG1_SD == "1") ? DI1 : M1;
// Flipflops
TRELLIS_FF #(
.GSR(GSR),
.CEMUX(CEMUX),
.CLKMUX(CLKMUX),
.LSRMUX(LSRMUX),
.SRMODE(SRMODE),
.REGSET(REG0_REGSET)
) ff_0 (
.CLK(CLK), .LSR(LSR), .CE(CE),
.DI(muxdi0),
.Q(Q0)
);
TRELLIS_FF #(
.GSR(GSR),
.CEMUX(CEMUX),
.CLKMUX(CLKMUX),
.LSRMUX(LSRMUX),
.SRMODE(SRMODE),
.REGSET(REG1_REGSET)
) ff_1 (
.CLK(CLK), .LSR(LSR), .CE(CE),
.DI(muxdi1),
.Q(Q1)
);
endmodule