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AutoVCoder_round1

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float64
6.5
11.5
module nch_na25_macx ( D, S, G ); inout D; input G, S; nmos (D, S, G); // D S G //nmos (S, D, ~G); // D S G endmodule
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module nand3_lvt ( A, B, C, Y ); input A, B, C; output Y; assign Y = ~(A & B & C); endmodule
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module and2p_18_g ( y, a, b, bb, gnd_node ); output y; input a; input b; input bb; input gnd_node; reg y; always @(a or b or bb or gnd_node) begin if ((bb == 1'b1) && (b == 1'b0) && (gnd_node == 0)) y = 1'b0; else if ((b == 1'b1) && (bb == 1'b0) && (gnd_node == 0)) y = a; ...
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module anor21_18_g ( Y, A, B, C, gnd_node ); output Y; input A; input B; input C; input gnd_node; assign Y = ~(C | (B * A)); endmodule
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module anor21_25 ( Y, A, B, C ); output Y; input A; input B; input C; assign Y = ~(C | (B * A)); endmodule
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module anor21_25_g ( Y, A, B, C, gnd_node ); output Y; input A; input B; input C; input gnd_node; assign Y = ~(C | (B * A)); endmodule
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module anor21_33 ( Y, A, B, C ); output Y; input A; input B; input C; assign Y = ~(C | (B * A)); endmodule
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module anor21_33_g ( Y, A, B, C, gnd_node ); output Y; input A; input B; input C; input gnd_node; initial begin Y = 1; end reg Y; always @(A or B or C or gnd_node) assign Y = ~(C | (B * A)); endmodule
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module anor21_g ( Y, A, B, C, gnd_node ); output Y; input A; input B; input C; input gnd_node; initial begin Y = 1; end reg Y; always @(A or B or C or gnd_node) assign Y = ~(C | (B * A)); endmodule
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module anor21_hvt ( Y, A, B, C ); output Y; input A; input B; input C; initial begin Y = 1; end reg Y; always @(A or B or C) assign Y = ~(C | (B * A)); endmodule
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module anor21_hvt_g ( Y, A, B, C, gnd_node ); output Y; input A; input B; input C; input gnd_node; initial begin Y = 1; end reg Y; always @(A or B or C or gnd_node) assign Y = ~(C | (B * A)); endmodule
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module exor2_18 ( Y, A, B ); output Y; input A; input B; assign Y = (A & !B) | (!A & B); endmodule
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module exor2_18_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; assign Y = (A & !B) | (!A & B); endmodule
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module exor2_25 ( Y, A, B ); output Y; input A; input B; assign Y = (A & !B) | (!A & B); endmodule
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module exor2_25_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; assign Y = (A & !B) | (!A & B); endmodule
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module exor2_33 ( Y, A, B ); output Y; input A; input B; assign Y = (A & !B) | (!A & B); endmodule
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module exor2_33_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; assign Y = (A & !B) | (!A & B); endmodule
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module exor2 ( Y, A, B ); output Y; input A; input B; assign Y = (A & !B) | (!A & B); endmodule
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module exor2_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; reg Y; always @(A or B or gnd_node) assign Y = (A & !B) | (!A & B); endmodule
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module exor2_hvt ( Y, A, B ); output Y; input A; input B; assign Y = (A & !B) | (!A & B); endmodule
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module exor2_hvt_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; assign Y = (A & !B) | (!A & B); endmodule
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module inv_18 ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_18_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_25 (Y, A); output Y; input A; */ module inv_25 ( OUT, G, Gb, IN, P, Pb ); output OUT; input G, Gb, IN, P, Pb; assign OUT = !IN; endmodule
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module inv_25_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_25_hv ( out, in, vhi ); output out; input in; input vhi; assign out = ~in; endmodule
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module inv_33 ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_33_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_33_hv ( out, in, vhi ); output out; input in; input vhi; assign out = ~in; endmodule
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module inv ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_hvt ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_hvt_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_tri_2_25 ( Y, A, T, Tb ); output Y; input A; input T; input Tb; reg Y; always @(A or T or Tb) begin if ((T == 1) && (Tb == 0)) Y = !A; else Y = 1'bz; end endmodule
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module inv_tri_2_25_g ( Y, A, T, Tb, gnd_node ); output Y; input A; input T; input Tb; input gnd_node; reg Y; always @(A or T or Tb or gnd_node) begin if ((T == 1) && (Tb == 0) && (gnd_node == 0)) Y = !A; else Y = 1'bz; end endmodule
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module inv_tri_2_33 ( Y, A, T, Tb ); output Y; input A; input T; input Tb; reg Y; always @(A or T or Tb) begin if ((T == 1) && (Tb == 0)) Y = !A; else Y = 1'bz; end endmodule
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module inv_w_pd_18 ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_w_pd_18_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_w_pd_25 ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_w_pd_25_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_w_pd_33 ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_w_pd_33_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_w_pd ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_w_pd_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_w_pd_hvt ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_w_pd_hvt_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_w_pu_18 ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_w_pu_18_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_w_pu_25 ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_w_pu_25_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_w_pu_33 ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_w_pu_33_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_w_pu ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_w_pu_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module inv_w_pu_hvt ( Y, A ); output Y; input A; assign Y = !A; endmodule
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module inv_w_pu_hvt_g ( Y, A, gnd_node ); output Y; input A; input gnd_node; assign Y = !A; endmodule
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module mux2 ( out, in0, in1, sel ); output out; input in0; input in1; input sel; assign out = (sel) ? in1 : in0; endmodule
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module mux2_g ( out, in0, in1, sel, gnd_node ); output out; input in0; input in1; input sel; input gnd_node; assign out = (sel) ? in1 : in0; endmodule
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module mux2_hvt ( out, in0, in1, sel ); output out; input in0; input in1; input sel; assign out = (sel) ? in1 : in0; endmodule
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module mux2_hvt_g ( out, in0, in1, sel, gnd_node ); output out; input in0; input in1; input sel; input gnd_node; assign out = (sel) ? in1 : in0; endmodule
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module mux3_25 ( out, in0, in1, in2, sel ); output out; input in0; input in1; input in2; input [3:0] sel; reg out; always @(sel or in0 or in1 or in2) begin if (sel == 4'b1001) out = in0; else if (sel == 4'b1010) out = in1; else if (sel == 4'b1100) out = in2; else out...
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module mux3 ( out, in0, in1, in2, sel ); output out; input in0; input in1; input in2; input [3:0] sel; reg out; always @(sel or in0 or in1 or in2) begin if (sel == 4'b1001) out = in0; else if (sel == 4'b1010) out = in1; else if (sel == 4'b1100) out = in2; else out = ...
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module nand2_18 ( Y, A, B ); output Y; input A; input B; assign Y = ~(A & B); endmodule
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module nand2_18_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; initial begin Y = 1; end reg Y; always @(A or B or gnd_node) if (gnd_node == 1'b0) Y = ~(A & B); else Y = 1'bz; endmodule
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module nand2_25 (Y, A, B); output Y; input A; input B; */ module nand2_25 ( Y, A, B, G, Gb, P, Pb ); output Y; input A, B, G, Gb, P, Pb; assign Y = ~(A & B); endmodule
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module nand2_25_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; reg Y; always @(A or B or gnd_node) if (gnd_node == 1'b0) Y = ~(A & B); else Y = 1'bz; endmodule
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module nand2_33 ( Y, A, B ); output Y; input A; input B; assign Y = ~(A & B); endmodule
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module nand2_33_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; reg Y; always @(A or B or gnd_node) if (gnd_node == 1'b0) Y = ~(A & B); else Y = 1'bz; endmodule
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module nand2_33_hv ( out, in1, in2, vdd33 ); output out; input vdd33; input in1; input in2; assign out = ~(in1 & in2); endmodule
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module nand2 ( Y, A, B ); output Y; input A; input B; assign Y = ~(A & B); endmodule
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module nand2_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; reg Y; always @(A or B or gnd_node) if (gnd_node == 1'b0) Y = ~(A & B); else Y = 1'bz; endmodule
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module nand2_hvt ( Y, A, B ); output Y; input A; input B; assign Y = ~(A & B); endmodule
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module nand2_hvt_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; reg Y; always @(A or B or gnd_node) if (gnd_node == 1'b0) Y = ~(A & B); else Y = 1'bz; endmodule
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module nand3_18 ( Y, A, B, C ); output Y; input A; input B; input C; assign Y = ~(A & B & C); endmodule
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module nand3_25 (Y, A, B, C); output Y; input A; input B; input C; */ module nand3_25 ( Y, A, B, C, G, Gb, P, Pb ); output Y; input A, B, C, G, Gb, P, Pb; assign Y = ~(A & B & C); endmodule
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module nand3_33 ( Y, A, B, C ); output Y; input A; input B; input C; assign Y = ~(A & B & C); endmodule
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module nand3_33_g ( Y, A, B, C, gnd_node ); output Y; input A; input B; input C; input gnd_node; reg Y; always @(A or B or C or gnd_node) if (gnd_node == 1'b0) Y = ~(A & B & C); else Y = 1'bz; endmodule
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module nand3 ( Y, A, B, C ); output Y; input A; input B; input C; assign Y = ~(A & B & C); endmodule
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module nand3_hvt ( Y, A, B, C ); output Y; input A; input B; input C; assign Y = ~(A & B & C); endmodule
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module nand4_18 ( Y, A, B, C, D ); output Y; input A; input B; input C; input D; assign Y = ~(A & B & C & D); endmodule
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module nand4_25_g ( Y, A, B, C, D, gnd_node ); output Y; input A; input B; input C; input D; input gnd_node; reg Y; always @(A or B or C or D) if (gnd_node == 1'b0) Y = ~(A & B & C & D); else Y = 1'bz; endmodule
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module nand4_33 ( Y, A, B, C, D ); output Y; input A; input B; input C; input D; assign Y = ~(A & B & C & D); endmodule
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module nand4_33_g ( Y, A, B, C, D, gnd_node ); output Y; input A; input B; input C; input D; input gnd_node; reg Y; always @(A or B or C or D) if (gnd_node == 1'b0) Y = ~(A & B & C & D); else Y = 1'bz; endmodule
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module nand4 ( Y, A, B, C, D ); output Y; input A; input B; input C; input D; assign Y = ~(A & B & C & D); endmodule
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module nand4_g ( Y, A, B, C, D, gnd_node ); output Y; input A; input B; input C; input D; input gnd_node; reg Y; always @(A or B or C or D) if (gnd_node == 1'b0) Y = ~(A & B & C & D); else Y = 1'bz; endmodule
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module nand4_hvt ( Y, A, B, C, D ); output Y; input A; input B; input C; input D; assign Y = ~(A & B & C & D); endmodule
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module nand4_hvt_g ( Y, A, B, C, D, gnd_node ); output Y; input A; input B; input C; input D; input gnd_node; reg Y; always @(A or B or C or D) if (gnd_node == 1'b0) Y = ~(A & B & C & D); else Y = 1'bz; endmodule
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module nor2_18 ( Y, A, B ); output Y; input A; input B; assign Y = ~(A | B); endmodule
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module nor2_18_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; reg Y; always @(A or B or gnd_node) if (gnd_node == 1'b0) Y = ~(A | B); else Y = 1'bz; endmodule
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module nor2_33 ( Y, A, B ); output Y; input A; input B; assign Y = ~(A | B); endmodule
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module nor2_33_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; reg Y; always @(A or B or gnd_node) if (gnd_node == 1'b0) Y = ~(A | B); else Y = 1'bz; endmodule
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module nor2 ( Y, A, B ); output Y; input A; input B; assign Y = ~(A | B); endmodule
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module nor2_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; reg Y; always @(A or B or gnd_node) if (gnd_node == 1'b0) Y = ~(A | B); else Y = 1'bz; endmodule
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module nor2_hvt ( Y, A, B ); output Y; input A; input B; assign Y = ~(A | B); endmodule
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module nor2_hvt_g ( Y, A, B, gnd_node ); output Y; input A; input B; input gnd_node; reg Y; always @(A or B or gnd_node) if (gnd_node == 1'b0) Y = ~(A | B); else Y = 1'bz; endmodule
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module nor3_18 ( Y, A, B, C ); output Y; input A; input B; input C; assign Y = ~(A | B | C); endmodule
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module nor3_33 ( Y, A, B, C ); output Y; input A; input B; input C; assign Y = ~(A | B | C); endmodule
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module nor3 ( Y, A, B, C ); output Y; input A; input B; input C; assign Y = ~(A | B | C); endmodule
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module nor3_hvt ( Y, A, B, C ); output Y; input A; input B; input C; assign Y = ~(A | B | C); endmodule
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module nor4_hvt ( Y, A, B, C, D ); output Y; input A; input B; input C; input D; assign Y = ~(A | B | C | D); endmodule
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