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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENNAND3X1 ( input A, input B, input C, output Y ); assign Y = ~((A & B) & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENXNPDKGENOR2X1 ( input A, input B, output Y ); assign Y = ~(A ^ B); endmodule
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module PDKGENNOR3X1 ( input A, input B, input C, output Y ); assign Y = ~((A | B) | C); endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENXPDKGENOR2X1 ( input A, input B, output Y ); assign Y = A ^ B; endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENNAND2X1 ( input A, input B, output Y ); assign Y = ~(A & B); endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENAND2X1 ( input A, input B, output Y ); assign Y = A & B; endmodule
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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENAND2X1 ( input A, input B, output Y ); assign Y = A & B; endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENAND2X1 ( input A, input B, output Y ); assign Y = A & B; endmodule
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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENNOR3X1 ( input A, input B, input C, output Y ); assign Y = ~((A | B) | C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENNOR3X1 ( input A, input B, input C, output Y ); assign Y = ~((A | B) | C); endmodule
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module PDKGENNAND3X1 ( input A, input B, input C, output Y ); assign Y = ~((A & B) & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENNAND2X1 ( input A, input B, output Y ); assign Y = ~(A & B); endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENNAND3X1 ( input A, input B, input C, output Y ); assign Y = ~((A & B) & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENNAND2X1 ( input A, input B, output Y ); assign Y = ~(A & B); endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENAND2X1 ( input A, input B, output Y ); assign Y = A & B; endmodule
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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENXNOR2X1 ( input A, input B, output Y ); assign Y = ~(A ^ B); endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENAND2X1 ( input A, input B, output Y ); assign Y = A & B; endmodule
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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENXOR2X1 ( input A, input B, output Y ); assign Y = A ^ B; endmodule
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module PDKGENNOR2X1 ( input A, input B, output Y ); assign Y = ~(A | B); endmodule
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module PDKGENNAND3X1 ( input A, input B, input C, output Y ); assign Y = ~((A & B) & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENXNOR2X1 ( input A, input B, output Y ); assign Y = ~(A ^ B); endmodule
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module PDKGENNAND3X1 ( input A, input B, input C, output Y ); assign Y = ~((A & B) & C); endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENNOR3X1 ( input A, input B, input C, output Y ); assign Y = ~((A | B) | C); endmodule
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module PDKGENNAND2X1 ( input A, input B, output Y ); assign Y = ~(A & B); endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENNOR2X1 ( input A, input B, output Y ); assign Y = ~(A | B); endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENNAND2X1 ( input A, input B, output Y ); assign Y = ~(A & B); endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module add8_2 ( input CI, input [7:0] I0, input [7:0] I1, input [2:0] op, output [7:0] O, output [7:0] O6, output CO, output [7:0] CARRY ); parameter INIT = 64'h0; wire [7:0] P; // carry propagate wire [7:0] G; // carry generate genvar i; generate for (i = 0; i < 8; i = i + 1) begin : add LUT6_2 #( .INIT(INIT) ) add ( .O6(P[i]), .O5(G[i]), .I0(I0[i]), .I1(I1[i]), .I2(op[0]), .I3(op[1]), .I4(op[2]), .I5(1'b1) ); end endgenerate wire [3:0] COL; // carry out of lower nibble wire [3:0] COH; // carry out of higher nibble assign CARRY = {COH, COL}; CARRY4 carry_l ( .CO(COL), .O(O[3:0]), .CI(CI), .CYINIT(1'b0), .DI(G[3:0]), .S(P[3:0]) ); CARRY4 carry_h ( .CO(COH), .O(O[7:4]), .CI(COL[3]), .CYINIT(1'b0), .DI(G[7:4]), .S(P[7:4]) ); assign CO = CARRY[7]; /* * also provide the O6 outputs. When doing addition, the O6 has the XOR * of the two inputs, which may be useful in some cases. For instance, doing * another XOR between O6 and O retrieves the carry into that bit. */ assign O6 = P; endmodule
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module PDKGENAND2X1 ( input A, input B, output Y ); assign Y = A & B; endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENAND2X1 ( input A, input B, output Y ); assign Y = A & B; endmodule
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module PDKGENNOR2X1 ( input A, input B, output Y ); assign Y = ~(A | B); endmodule
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module PDKGENNOR3X1 ( input A, input B, input C, output Y ); assign Y = ~((A | B) | C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENNAND3X1 ( input A, input B, input C, output Y ); assign Y = ~((A & B) & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENAND2X1 ( input A, input B, output Y ); assign Y = A & B; endmodule
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module PDKGENNOR3X1 ( input A, input B, input C, output Y ); assign Y = ~((A | B) | C); endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENNAND3X1 ( input A, input B, input C, output Y ); assign Y = ~((A & B) & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENHAX1 ( input A, input B, output YS, output YC ); assign YS = A ^ B; assign YC = A & B; endmodule
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module PDKGENOR2X1 ( input A, input B, output Y ); assign Y = A | B; endmodule
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module PDKGENAND2X1 ( input A, input B, output Y ); assign Y = A & B; endmodule
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module PDKGENINVX1 ( input A, output Y ); assign Y = ~A; endmodule
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module PDKGENFAX1 ( input A, input B, input C, output YS, output YC ); assign YS = (A ^ B) ^ C; assign YC = (A & B) | (B & C) | (A & C); endmodule
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module PDKGENBUFX2 ( input A, output Y ); assign Y = A; endmodule
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module PDKGENXNOR2X1 ( input A, input B, output Y ); assign Y = ~(A ^ B); endmodule
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