//move some stuff to minitests/ncy0 module top(input clk, stb, di, output do); localparam integer DIN_N = 256; localparam integer DOUT_N = 256; reg [DIN_N-1:0] din; wire [DOUT_N-1:0] dout; reg [DIN_N-1:0] din_shr; reg [DOUT_N-1:0] dout_shr; always @(posedge clk) begin din_shr <= {din_shr, di}; dout_shr <= {dout_shr, din_shr[DIN_N-1]}; if (stb) begin din <= din_shr; dout_shr <= dout; end end assign do = dout_shr[DOUT_N-1]; roi roi ( .clk(clk), .din(din), .dout(dout) ); endmodule module roi(input clk, input [255:0] din, output [255:0] dout); parameter N=3; //ok clb_NOUTMUX_CY #(.LOC("SLICE_X18Y100"), .N(N)) clb_NOUTMUX_CY (.clk(clk), .din(din[ 8 +: 8]), .dout(dout[ 8 +: 8])); //ok generate if (N != 3) begin clb_NOUTMUX_F78 #(.LOC("SLICE_X18Y101"), .N(N)) clb_NOUTMUX_F78 (.clk(clk), .din(din[ 16 +: 8]), .dout(dout[ 16 +: 8])); end endgenerate //ok clb_NOUTMUX_O5 #(.LOC("SLICE_X18Y102"), .N(N)) clb_NOUTMUX_O5 (.clk(clk), .din(din[ 32 +: 8]), .dout(dout[ 32 +: 8])); //clb_NOUTMUX_O6 #(.LOC("SLICE_X18Y103"), .N(N)) // clb_NOUTMUX_O6 (.clk(clk), .din(din[ 24 +: 8]), .dout(dout[ 24 +: 8])); //FIXME clb_NOUTMUX_XOR #(.LOC("SLICE_X18Y104"), .N(N)) clb_NOUTMUX_XOR (.clk(clk), .din(din[ 56 +: 8]), .dout(dout[ 56 +: 8 ])); //ok clb_NOUTMUX_B5Q #(.LOC("SLICE_X18Y105"), .N(N)) clb_NOUTMUX_B5Q (.clk(clk), .din(din[ 48 +: 8]), .dout(dout[ 48 +: 8 ])); endmodule module myLUT8 (input clk, input [7:0] din, output lut8o, output lut7bo, output lut7ao, //caro: XOR additional result (main output) //carco: CLA result (carry module additional output) output caro, output carco, output bo5, output bo6, //Note: b5ff_q requires the mux and will conflict with other wires //Otherwise this FF drops out output wire ff_q); //output wire [3:0] n5ff_q); parameter N=-1; parameter LOC="SLICE_FIXME"; wire [3:0] caro_all; assign caro = caro_all[N]; wire [3:0] carco_all; assign carco = carco_all[N]; wire [3:0] lutno6; assign bo6 = lutno6[N]; wire [3:0] lutno5; assign bo5 = lutno5[N]; //Outputs does not have to be used, will stay without it (* LOC=LOC, BEL="F8MUX", KEEP, DONT_TOUCH *) MUXF8 mux8 (.O(lut8o), .I0(lut7bo), .I1(lut7ao), .S(din[6])); (* LOC=LOC, BEL="F7BMUX", KEEP, DONT_TOUCH *) MUXF7 mux7b (.O(lut7bo), .I0(lutno6[3]), .I1(lutno6[2]), .S(din[6])); (* LOC=LOC, BEL="F7AMUX", KEEP, DONT_TOUCH *) MUXF7 mux7a (.O(lut7ao), .I0(lutno6[1]), .I1(lutno6[0]), .S(din[6])); (* LOC=LOC, BEL="D6LUT", KEEP, DONT_TOUCH *) LUT6_2 #( .INIT(64'h8000_DEAD_0000_0001) ) lutd ( .I0(din[0]), .I1(din[1]), .I2(din[2]), .I3(din[3]), .I4(din[4]), .I5(din[5]), .O5(lutno5[3]), .O6(lutno6[3])); (* LOC=LOC, BEL="C6LUT", KEEP, DONT_TOUCH *) LUT6_2 #( .INIT(64'h8000_BEEF_0000_0001) ) lutc ( .I0(din[0]), .I1(din[1]), .I2(din[2]), .I3(din[3]), .I4(din[4]), .I5(din[5]), .O5(lutno5[2]), .O6(lutno6[2])); (* LOC=LOC, BEL="B6LUT", KEEP, DONT_TOUCH *) LUT6_2 #( .INIT(64'h8000_CAFE_0000_0001) ) lutb ( .I0(din[0]), .I1(din[1]), .I2(din[2]), .I3(din[3]), .I4(din[4]), .I5(din[5]), .O5(lutno5[1]), .O6(lutno6[1])); (* LOC=LOC, BEL="A6LUT", KEEP, DONT_TOUCH *) LUT6_2 #( .INIT(64'h8000_1CE0_0000_0001) ) luta ( .I0(din[0]), .I1(din[1]), .I2(din[2]), .I3(din[3]), .I4(din[4]), .I5(din[5]), .O5(lutno5[0]), .O6(lutno6[0])); //Outputs do not have to be used, will stay without them (* LOC=LOC, KEEP, DONT_TOUCH *) CARRY4 carry4(.O(caro_all), .CO(carco_all), .DI(lutno5), .S(lutno6), .CYINIT(1'b0), .CI()); generate if (N == 3) begin (* LOC=LOC, BEL="D5FF", KEEP, DONT_TOUCH *) FDPE d5ff ( .C(clk), .Q(ff_q), .CE(1'b1), .PRE(1'b0), .D(lutno5[3])); end if (N == 2) begin (* LOC=LOC, BEL="C5FF", KEEP, DONT_TOUCH *) FDPE c5ff ( .C(clk), .Q(ff_q), .CE(1'b1), .PRE(1'b0), .D(lutno5[2])); end if (N == 1) begin (* LOC=LOC, BEL="B5FF", KEEP, DONT_TOUCH *) FDPE b5ff ( .C(clk), .Q(ff_q), .CE(1'b1), .PRE(1'b0), .D(lutno5[1])); end if (N == 0) begin (* LOC=LOC, BEL="A5FF", KEEP, DONT_TOUCH *) FDPE a5ff ( .C(clk), .Q(ff_q), .CE(1'b1), .PRE(1'b0), .D(lutno5[0])); end endgenerate endmodule //****************************************************************************** //BOUTMUX tests module clb_NOUTMUX_CY (input clk, input [7:0] din, output [7:0] dout); parameter LOC="SLICE_FIXME"; parameter N=1; myLUT8 #(.LOC(LOC), .N(N)) myLUT8(.clk(clk), .din(din), .lut8o(), .caro(), .carco(dout[0]), .bo5(), .bo6(), .ff_q()); endmodule //clb_NOUTMUX_F78: already have above as clb_LUT8 module clb_NOUTMUX_F78 (input clk, input [7:0] din, output [7:0] dout); parameter LOC="SLICE_FIXME"; parameter N=1; wire lut8o, lut7bo, lut7ao; /* D: N/A (no such mux position) C: F7B:O B: F8:O A: F7A:O */ generate if (N == 3) begin //No muxes, so this is undefined invalid_configuration invalid_configuration3(); end else if (N == 2) begin assign dout[0] = lut7bo; end else if (N == 1) begin assign dout[0] = lut8o; end else if (N == 0) begin assign dout[0] = lut7ao; end endgenerate myLUT8 #(.LOC(LOC), .N(N)) myLUT8(.clk(clk), .din(din), .lut8o(lut8o), .lut7bo(lut7bo), .lut7ao(lut7ao), .caro(), .carco(), .bo5(), .bo6(), .ff_q()); endmodule module clb_NOUTMUX_O5 (input clk, input [7:0] din, output [7:0] dout); parameter LOC="SLICE_FIXME"; parameter N=1; myLUT8 #(.LOC(LOC), .N(N)) myLUT8(.clk(clk), .din(din), .lut8o(), .caro(), .carco(), .bo5(dout[0]), .bo6(), .ff_q()); endmodule /* //FIXME: need to force it to use both X and O6 module clb_NOUTMUX_O6 (input clk, input [7:0] din, output [7:0] dout); parameter LOC="SLICE_FIXME"; parameter N=1; myLUT8 #(.LOC(LOC), .N(N)) myLUT8(.clk(clk), .din(din), .lut8o(), .co(), .carco(), .bo5(), .bo6()); endmodule */ module clb_NOUTMUX_XOR (input clk, input [7:0] din, output [7:0] dout); parameter LOC="SLICE_FIXME"; parameter N=1; myLUT8 #(.LOC(LOC), .N(N)) myLUT8(.clk(clk), .din(din), .lut8o(), .caro(dout[0]), .carco(), .bo5(), .bo6(), .ff_q()); endmodule module clb_NOUTMUX_B5Q (input clk, input [7:0] din, output [7:0] dout); parameter LOC="SLICE_FIXME"; parameter N=1; myLUT8 #(.LOC(LOC), .N(N)) myLUT8(.clk(clk), .din(din), .lut8o(), .caro(), .carco(), .bo5(), .bo6(), .ff_q(dout[0])); endmodule