2020-11-16 14:07:32 -06:00
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module LUT4 #(
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parameter [15:0] INIT = 0
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) (
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input A, B, C, D,
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2020-11-20 17:53:09 -06:00
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output Z
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2020-11-16 14:07:32 -06:00
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);
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2021-02-21 08:14:37 -06:00
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// This form of LUT propagates as few x's as possible.
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wire [7:0] s3 = D ? INIT[15:8] : INIT[7:0];
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wire [3:0] s2 = C ? s3[ 7:4] : s3[3:0];
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wire [1:0] s1 = B ? s2[ 3:2] : s2[1:0];
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assign Z = A ? s1[1] : s1[0];
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2020-11-16 14:07:32 -06:00
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endmodule
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module FACADE_FF #(
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parameter GSR = "ENABLED",
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parameter CEMUX = "1",
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parameter CLKMUX = "0",
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parameter LSRMUX = "LSR",
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parameter LSRONMUX = "LSRMUX",
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parameter SRMODE = "LSR_OVER_CE",
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2020-11-20 20:24:39 -06:00
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parameter REGSET = "SET",
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parameter REGMODE = "FF"
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2020-11-16 14:07:32 -06:00
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) (
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2020-11-17 11:49:15 -06:00
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input CLK, DI, LSR, CE,
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2020-11-16 14:07:32 -06:00
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output reg Q
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);
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wire muxce;
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generate
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case (CEMUX)
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"1": assign muxce = 1'b1;
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"0": assign muxce = 1'b0;
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"INV": assign muxce = ~CE;
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default: assign muxce = CE;
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endcase
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endgenerate
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wire muxlsr = (LSRMUX == "INV") ? ~LSR : LSR;
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wire muxlsron = (LSRONMUX == "LSRMUX") ? muxlsr : 1'b0;
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2020-11-16 14:07:32 -06:00
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wire muxclk = (CLKMUX == "INV") ? ~CLK : CLK;
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2020-11-17 13:22:44 -06:00
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wire srval = (REGSET == "SET") ? 1'b1 : 1'b0;
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2020-11-16 14:07:32 -06:00
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2020-11-21 17:44:42 -06:00
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initial Q = srval;
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2020-11-16 14:07:32 -06:00
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generate
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2020-11-20 20:24:39 -06:00
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if (REGMODE == "FF") begin
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if (SRMODE == "ASYNC") begin
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always @(posedge muxclk, posedge muxlsron)
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if (muxlsron)
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Q <= srval;
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else if (muxce)
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Q <= DI;
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end else begin
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always @(posedge muxclk)
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if (muxlsron)
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Q <= srval;
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else if (muxce)
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Q <= DI;
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end
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end else if (REGMODE == "LATCH") begin
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ERROR_UNSUPPORTED_FF_MODE error();
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2020-11-16 14:07:32 -06:00
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end else begin
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2020-11-20 20:24:39 -06:00
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ERROR_UNKNOWN_FF_MODE error();
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2020-11-16 14:07:32 -06:00
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end
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endgenerate
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endmodule
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2020-11-21 10:53:30 -06:00
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2020-11-21 10:58:30 -06:00
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/* For consistency with ECP5; represents F0/F1 => OFX0 mux in a slice. */
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2020-11-21 10:53:30 -06:00
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module PFUMX (input ALUT, BLUT, C0, output Z);
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assign Z = C0 ? ALUT : BLUT;
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endmodule
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2020-11-21 10:58:30 -06:00
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/* For consistency with ECP5; represents FXA/FXB => OFX1 mux in a slice. */
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2020-11-21 10:53:30 -06:00
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module L6MUX21 (input D0, D1, SD, output Z);
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assign Z = SD ? D1 : D0;
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endmodule
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/* For consistency, input order matches TRELLIS_SLICE even though the BELs in
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prjtrellis were filled in clockwise order from bottom left. */
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module FACADE_SLICE #(
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parameter MODE = "LOGIC",
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parameter GSR = "ENABLED",
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parameter SRMODE = "LSR_OVER_CE",
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parameter CEMUX = "1",
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parameter CLKMUX = "0",
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parameter LSRMUX = "LSR",
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parameter LSRONMUX = "LSRMUX",
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parameter LUT0_INITVAL = 16'hFFFF,
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parameter LUT1_INITVAL = 16'hFFFF,
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parameter REGMODE = "FF",
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2020-11-21 10:53:30 -06:00
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parameter REG0_SD = "1",
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parameter REG1_SD = "1",
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parameter REG0_REGSET = "SET",
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parameter REG1_REGSET = "SET",
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parameter CCU2_INJECT1_0 = "YES",
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parameter CCU2_INJECT1_1 = "YES",
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parameter WREMUX = "INV"
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) (
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input A0, B0, C0, D0,
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input A1, B1, C1, D1,
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input M0, M1,
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input FCI, FXA, FXB,
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input CLK, LSR, CE,
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input DI0, DI1,
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input WD0, WD1,
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input WAD0, WAD1, WAD2, WAD3,
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input WRE, WCK,
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output F0, Q0,
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output F1, Q1,
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output FCO, OFX0, OFX1,
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output WDO0, WDO1, WDO2, WDO3,
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output WADO0, WADO1, WADO2, WADO3
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);
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generate
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if (MODE == "LOGIC") begin
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L6MUX21 FXMUX (.D0(FXA), .D1(FXB), .SD(M1), .Z(OFX1));
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wire k0;
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wire k1;
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2020-11-26 17:47:11 -06:00
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PFUMX K0K1MUX (.ALUT(k1), .BLUT(k0), .C0(M0), .Z(OFX0));
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2020-11-21 10:53:30 -06:00
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LUT4 #(.INIT(LUT0_INITVAL)) LUT_0 (.A(A0), .B(B0), .C(C0), .D(D0), .Z(k0));
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2020-11-26 19:18:15 -06:00
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LUT4 #(.INIT(LUT1_INITVAL)) LUT_1 (.A(A0), .B(B0), .C(C0), .D(D0), .Z(k1));
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2020-11-21 10:53:30 -06:00
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assign F0 = k0;
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assign F1 = k1;
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end else if (MODE == "CCU2") begin
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ERROR_UNSUPPORTED_SLICE_MODE error();
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end else if (MODE == "DPRAM") begin
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ERROR_UNSUPPORTED_SLICE_MODE error();
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end else begin
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ERROR_UNKNOWN_SLICE_MODE error();
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end
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endgenerate
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2020-11-21 10:58:30 -06:00
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/* Reg can be fed either by M, or DI inputs; DI inputs muxes OFX and F
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outputs (in other words, feeds back into FACADE_SLICE). */
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2021-01-31 18:05:15 -06:00
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wire di0 = (REG0_SD == "1") ? DI0 : M0;
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wire di1 = (REG1_SD == "1") ? DI1 : M1;
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2020-11-21 10:53:30 -06:00
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FACADE_FF#(.GSR(GSR), .CEMUX(CEMUX), .CLKMUX(CLKMUX), .LSRMUX(LSRMUX),
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.LSRONMUX(LSRONMUX), .SRMODE(SRMODE), .REGSET(REG0_REGSET),
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2021-01-30 22:55:00 -06:00
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.REGMODE(REGMODE)) REG_0 (.CLK(CLK), .DI(di0), .LSR(LSR), .CE(CE), .Q(Q0));
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2020-11-21 10:53:30 -06:00
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FACADE_FF#(.GSR(GSR), .CEMUX(CEMUX), .CLKMUX(CLKMUX), .LSRMUX(LSRMUX),
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.LSRONMUX(LSRONMUX), .SRMODE(SRMODE), .REGSET(REG1_REGSET),
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2021-01-30 22:55:00 -06:00
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.REGMODE(REGMODE)) REG_1 (.CLK(CLK), .DI(di1), .LSR(LSR), .CE(CE), .Q(Q1));
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2020-11-21 10:53:30 -06:00
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endmodule
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2020-11-21 10:58:30 -06:00
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module FACADE_IO #(
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parameter DIR = "INPUT"
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) (
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inout PAD,
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2021-01-29 17:14:13 -06:00
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input I, T,
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2020-11-21 10:58:30 -06:00
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output O
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);
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generate
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if (DIR == "INPUT") begin
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assign O = PAD;
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end else if (DIR == "OUTPUT") begin
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assign PAD = T ? 1'bz : I;
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2020-11-21 10:58:30 -06:00
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end else if (DIR == "BIDIR") begin
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2021-01-31 10:33:20 -06:00
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assign PAD = T ? 1'bz : I;
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2020-11-21 10:58:30 -06:00
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assign O = PAD;
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end else begin
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ERROR_UNKNOWN_IO_MODE error();
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end
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endgenerate
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endmodule
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2020-12-07 21:29:36 -06:00
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(* blackbox *)
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module OSCH #(
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parameter NOM_FREQ = "2.08"
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) (
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input STDBY,
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output OSC,
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output SEDSTDBY
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);
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endmodule
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2020-12-12 17:09:52 -06:00
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2021-01-31 22:57:13 -06:00
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(* blackbox *)
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module DCCA (
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input CLKI,
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input CE,
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output CLKO
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);
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endmodule
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(* blackbox *)
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module DCMA (
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input CLK0,
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input CLK1,
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input SEL,
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output DCMOUT
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);
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endmodule
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2020-12-12 17:09:52 -06:00
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// IO- "$__" cells for the iopadmap pass. These are temporary cells not meant
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// to be instantiated by the end user. They are required in this file for
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// attrmvcp to work.
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(* blackbox *)
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module \$__FACADE_OUTPAD (input I, output O); endmodule
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(* blackbox *)
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module \$__FACADE_INPAD (input I, output O); endmodule
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(* blackbox *)
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2021-11-09 04:22:48 -06:00
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module \$__FACADE_TOUTPAD (input I, T, output O); endmodule
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2020-12-12 17:09:52 -06:00
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(* blackbox *)
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2021-11-09 04:22:48 -06:00
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module \$__FACADE_TINOUTPAD (input I, T, output O, inout B); endmodule
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