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AutoVCoder_round1

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35
6.69k
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float64
6.5
11.5
module GG_3 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(G_PREV), .B2(P_CURRENT), .A (G_CURRENT), .ZN(n3) ); endmodule
7.142291
module GG_2 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(G_PREV), .B2(P_CURRENT), .A (G_CURRENT), .ZN(n3) ); endmodule
7.185372
module GG_1 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
6.69631
module RCA_NBIT4_0 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0])...
7.740963
module RCA_NBIT4_14 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0]...
7.934078
module RCA_NBIT4_13 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0]...
7.780681
module CSB_NBIT4_0 ( A, B, Cin, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Cin; output Co; wire Co0, Co1, n7, n8, n9, n10, n11, n6; wire [3:0] S0; wire [3:0] S1; RCA_NBIT4_14 U_RCA0 ( .A (A), .B (B), .Ci(1'b0), .S (S0), .Co(Co0) );...
6.659237
module RCA_NBIT4_12 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0]...
7.992663
module RCA_NBIT4_11 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] , n1, n2, n3, n4; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0])...
7.846434
module CSB_NBIT4_6 ( A, B, Cin, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Cin; output Co; wire Co0, Co1, n6, n12, n13, n14, n15, n16; wire [3:0] S0; wire [3:0] S1; RCA_NBIT4_12 U_RCA0 ( .A (A), .B (B), .Ci(1'b0), .S (S0), .Co(Co0) ...
6.820512
module RCA_NBIT4_10 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0]...
7.738482
module RCA_NBIT4_9 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0])...
7.787699
module CSB_NBIT4_5 ( A, B, Cin, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Cin; output Co; wire Co0, Co1, n6, n12, n13, n14, n15, n16; wire [3:0] S0; wire [3:0] S1; RCA_NBIT4_10 U_RCA0 ( .A (A), .B (B), .Ci(1'b0), .S (S0), .Co(Co0) ...
6.939997
module RCA_NBIT4_8 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0])...
7.986719
module RCA_NBIT4_7 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0])...
7.936123
module CSB_NBIT4_4 ( A, B, Cin, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Cin; output Co; wire Co0, Co1, n1, n12, n13, n14, n15, n16, n17; wire [3:0] S0; wire [3:0] S1; RCA_NBIT4_8 U_RCA0 ( .A (A), .B (B), .Ci(1'b0), .S (S0), .Co(Co...
6.949805
module RCA_NBIT4_6 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0])...
7.931223
module RCA_NBIT4_5 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0])...
8.124965
module CSB_NBIT4_3 ( A, B, Cin, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Cin; output Co; wire Co0, Co1, n1, n2, n3, n14, n15, n16, n17, n18, n19; wire [3:0] S0; wire [3:0] S1; RCA_NBIT4_6 U_RCA0 ( .A (A), .B (B), .Ci(1'b0), .S (S0), ...
6.679258
module RCA_NBIT4_4 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0])...
7.974063
module RCA_NBIT4_3 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0])...
7.787572
module CSB_NBIT4_2 ( A, B, Cin, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Cin; output Co; wire Co0, Co1, n1, n2, n4, n5, n7, n8, n12, n13, n16, n17, n18; wire [3:0] S0; wire [3:0] S1; RCA_NBIT4_4 U_RCA0 ( .A (A), .B (B), .Ci(1'b0), .S (S0...
6.843705
module RCA_NBIT4_2 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0])...
7.968296
module RCA_NBIT4_1 ( A, B, Ci, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Ci; output Co; wire \add_1_root_add_74_2/carry[3] , \add_1_root_add_74_2/carry[2] , \add_1_root_add_74_2/carry[1] ; FA_X1 \add_1_root_add_74_2/U1_0 ( .A (A[0]), .B (B[0])...
7.874833
module CSB_NBIT4_1 ( A, B, Cin, S, Co ); input [3:0] A; input [3:0] B; output [3:0] S; input Cin; output Co; wire Co0, Co1, n1, n2, n4, n5, n7, n8, n15, n16, n17, n18; wire [3:0] S0; wire [3:0] S1; RCA_NBIT4_2 U_RCA0 ( .A (A), .B (B), .Ci(1'b0), .S (S0), ...
6.730586
module P4_ADDER_NBIT32 ( A, B, Cin, S, Cout ); input [31:0] A; input [31:0] B; output [31:0] S; input Cin; output Cout; wire n1, n2, n3, n4, n5, n6, n7, n8, n9, n10, n11, n12, n13, n14, n15; wire [6:0] carry_gen_Co; CARRY_GENERATOR_NBIT32_NBIT_PER_BLOCK4 U_CARRY_GENERATOR ( .A...
7.456858
module PG_PRIM_32 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.94448
module GG_37 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire net24009, n1, n2; assign G = net24009; NOR2_X1 U1 ( .A1(G_CURRENT), .A2(G_PREV), .ZN(n1) ); NOR2_X1 U2 ( .A1(n2), .A2(n1), .ZN(net24009) ); NOR2_X1 ...
6.732419
module PG_PRIM_63 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.763278
module PG_PRIM_62 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.994498
module PG_PRIM_61 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
7.083129
module PG_PRIM_60 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
7.020369
module PG_PRIM_59 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.737879
module PG_PRIM_58 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
7.465215
module PG_PRIM_57 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
7.350523
module PG_PRIM_56 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
7.131188
module PG_PRIM_55 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(A), .A2(B), .ZN(G) ); endmodule
6.753776
module PG_PRIM_53 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.659463
module PG_PRIM_52 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.711491
module PG_PRIM_51 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.683878
module PG_PRIM_50 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.811037
module PG_PRIM_49 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.572943
module PG_PRIM_48 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
7.118779
module PG_PRIM_47 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
7.328099
module PG_PRIM_46 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
7.055183
module PG_PRIM_44 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.797866
module PG_PRIM_43 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.904732
module PG_PRIM_42 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.887232
module PG_PRIM_38 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
7.024048
module PG_PRIM_37 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
7.303177
module PG_PRIM_36 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.777839
module PG_PRIM_35 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.582191
module PG_PRIM_33 ( A, B, G, P ); input A, B; output G, P; XOR2_X1 U2 ( .A(B), .B(A), .Z(P) ); AND2_X1 U1 ( .A1(B), .A2(A), .ZN(G) ); endmodule
6.863149
module GG_73 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire net24509, n1, n2; assign G = net24509; NOR2_X1 U1 ( .A1(P_CURRENT), .A2(G_CURRENT), .ZN(n1) ); NOR2_X1 U2 ( .A1(n2), .A2(n1), .ZN(net24509) ); NOR2_...
6.801883
module GG_72 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.098349
module GP_27 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.079833
module GG_71 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
6.94888
module GP_53 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.799661
module GG_70 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.189816
module GP_52 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.195291
module GG_69 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
6.827495
module GP_51 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.795992
module GG_68 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.195697
module GP_50 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.201189
module GG_67 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.477647
module GP_49 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.099241
module GG_66 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.181514
module GP_48 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.476605
module GG_65 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
6.962767
module GP_47 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.837764
module GG_64 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.000578
module GP_46 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.43936
module GG_63 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
6.926406
module GP_45 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.633781
module GG_62 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.184129
module GP_44 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.467057
module GG_61 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.149163
module GP_43 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.217678
module GG_60 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.258579
module GP_42 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.382832
module GG_59 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
6.933273
module GP_41 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.712584
module GG_58 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.083048
module GP_40 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.101544
module GG_57 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire net24493, n1; assign G = net24493; AOI21_X1 U1 ( .B1(G_PREV), .B2(P_CURRENT), .A (G_CURRENT), .ZN(n1) ); INV_X1 U2 ( .A (n1), .ZN(net24493) ); endmodu...
7.321432
module GG_56 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.325422
module GP_39 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.653185
module GG_55 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(G_PREV), .B2(P_CURRENT), .A (G_CURRENT), .ZN(n3) ); endmodule
6.926616
module GP_38 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.271783
module GG_54 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
6.775226
module GP_37 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.628013
module GG_53 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
6.878648
module GP_36 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.999098
module GG_52 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
7.126489
module GP_35 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.981552
module GG_51 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
6.997895
module GP_34 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.611238
module GG_50 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n3; INV_X1 U1 ( .A (n3), .ZN(G) ); AOI21_X1 U2 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n3) ); endmodule
6.977032
module GP_33 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.01514
module GG_49 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire net24485, n1; assign G = net24485; AOI21_X1 U1 ( .B1(G_PREV), .B2(P_CURRENT), .A (G_CURRENT), .ZN(n1) ); INV_X1 U2 ( .A (n1), .ZN(net24485) ); endmodu...
6.728461