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AutoVCoder_round1

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float64
6.5
11.5
module DIG_ROM_8X8_INA ( input [2:0] A, input sel, output reg [7:0] D ); reg [7:0] my_rom[0:4]; always @(*) begin if (~sel) D = 8'hz; else if (A > 3'h4) D = 8'h0; else D = my_rom[A]; end initial begin my_rom[0] = 8'h93; my_rom[1] = 8'h89; my_rom[2] = 8'h8d; my_rom[3] = ...
7.725301
module DIG_ROM_2X8_RES ( input [0:0] A, input sel, output reg [7:0] D ); reg [7:0] my_rom[0:1]; always @(*) begin if (~sel) D = 8'hz; else D = my_rom[A]; end initial begin my_rom[0] = 8'h79; my_rom[1] = 8'ha9; end endmodule
8.451676
module DIG_ROM_128X8_INST1 ( input [6:0] A, input sel, output reg [7:0] D ); reg [7:0] my_rom[0:118]; always @(*) begin if (~sel) D = 8'hz; else if (A > 7'h76) D = 8'h0; else D = my_rom[A]; end initial begin my_rom[0] = 8'h99; my_rom[1] = 8'h0; my_rom[2] = 8'h0; m...
7.469709
module PriorityEncoder2 ( input in0, input in1, input in2, input in3, output reg [1:0] num, output any ); always @(*) begin if (in3 == 1'b1) num = 2'h3; else if (in2 == 1'b1) num = 2'h2; else if (in1 == 1'b1) num = 2'h1; else num = 2'h0; end assign any = in0 | in1 | in2 | ...
6.599169
module DIG_ROM_8X2_PRI ( input [2:0] A, input sel, output reg [1:0] D ); reg [1:0] my_rom[0:7]; always @(*) begin if (~sel) D = 2'hz; else D = my_rom[A]; end initial begin my_rom[0] = 2'h0; my_rom[1] = 2'h3; my_rom[2] = 2'h0; my_rom[3] = 2'h1; my_rom[4] = 2'h0; my_r...
7.619917
module CE_M_CPU ( input R_CPU, // Reset input C_CPU, input [7:0] DI_CPU, // Data Input input nIRQ_CPU, // Interrupt Request input nNMI_CPU, // Non-Maskable Interrupt input nABT_CPU, // Abort input nSOB_CPU, // Set Overflow Bit input nRDY_CPU, // Ready input BE_CPU, // Bus Ena...
6.688177
module CE_net #( parameter MULT = 0, // 1/0 -> Multiplier by FullAdders / * (both 2's compliment) parameter useCLA = 1, // 0/1 -> use ripleCarry/CLA parameter CL_IN = 5, // 1, 2...8, 16, 32, 64, 128, 256 (25, 49), number of input features parameter CL_OUT = 4, // ...
7.527438
module cfeb_bit_check ( // Ports clock, reset, check_pulse, single_bx_mode, bit_in, bit_bad //Debug `ifdef DEBUG_CFEB_BIT_CHECK ,sm_dsp `endif ); //-------------------------------------------------------------------------------------------------------- // Ports //------------------------------------...
6.538525
module my_not ( out, in ); output out; input in; //define power and ground supply1 pwr; supply0 gnd; //instantiate nmos and pmos switches pmos (out, pwr, in); nmos (out, gnd, in); endmodule
6.922159
module takes data from a Lutag config-node, and sends // it to the raw network. Input data has some extra bits for // getting synced at first not to send noise data. Moreover, // for avoiding dropping data due to no handshake, it has a // FIFO of 2 elements inside, and valid-credit protocol in // connection to raw ne...
6.540512
module cfg_bead ( // Bead interface input wire scan_clk_in, input wire scan_data_in, input wire capture_in, input wire update_in, input wire clr_n_in, // Bead interface output wire scan_data_out, // BEAD_CFG_IF output wire bead_val ); wire bead_val_int; wire scan_reg_in_in...
7.077464
module cfg_chip ( input clock50, start, output i2c_c, done, inout i2c_d ); // Shift register holding all the config data reg [0:15] data[0:mcount-1]; parameter addr = 8'b00110100; // Run I2C bus clock @ 50Mhz/256 = ~200kHz reg [7:0] counter; assign i2c_c = counter[7]; wire fsm_c = ...
6.981393
module cfg_cmn_non_scan_reg ( input din, input clk, output reg dout ); always @(posedge clk) dout <= din; endmodule
6.590887
module cfg_count_stat #( parameter DATA_WIDTH = 1 ) ( input clk, input rstn, input rd_count_mode, // 0:rd clear 1: no rd clear input sample_mode, // 0:up edge sample 1:level sample input ...
7.262356
module PG_PRIM_0 ( 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
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module GG_0 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n2; AOI21_X1 U1 ( .B1(P_CURRENT), .B2(G_PREV), .A (G_CURRENT), .ZN(n2) ); INV_X1 U2 ( .A (n2), .ZN(G) ); endmodule
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module PG_PRIM_31 ( 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
6.506884
module PG_PRIM_30 ( 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
6.92009
module PG_PRIM_28 ( 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
6.591705
module PG_PRIM_27 ( 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
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module PG_PRIM_26 ( 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
6.789191
module PG_PRIM_25 ( 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
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module PG_PRIM_24 ( 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
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module PG_PRIM_23 ( 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
6.940566
module PG_PRIM_22 ( 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
6.969433
module PG_PRIM_20 ( 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
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module PG_PRIM_19 ( 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
7.234616
module PG_PRIM_18 ( 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
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module PG_PRIM_17 ( 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
6.824657
module PG_PRIM_16 ( 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
6.934328
module PG_PRIM_15 ( 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
7.090332
module PG_PRIM_14 ( 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
6.768742
module PG_PRIM_13 ( 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
6.956673
module PG_PRIM_12 ( 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
6.816594
module PG_PRIM_11 ( 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
6.77165
module PG_PRIM_10 ( 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
7.139217
module PG_PRIM_9 ( 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
7.090893
module PG_PRIM_8 ( 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
7.376356
module PG_PRIM_7 ( 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
6.731576
module PG_PRIM_6 ( 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
6.917603
module PG_PRIM_5 ( 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
6.879807
module PG_PRIM_4 ( 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
6.970268
module PG_PRIM_3 ( 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
6.840091
module PG_PRIM_2 ( 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
7.241739
module PG_PRIM_1 ( 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
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module GG_36 ( 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
6.798792
module GG_35 ( 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
6.66741
module GP_0 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.78759
module GP_26 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.726143
module GG_33 ( 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
6.812457
module GP_25 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.299142
module GG_32 ( 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
6.733683
module GP_24 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.75749
module GG_31 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire net19539, n1, n2, n3; assign G = net19539; OAI21_X1 U1 ( .B1(n1), .B2(n2), .A (n3), .ZN(net19539) ); INV_X1 U2 ( .A (P_CURRENT), .ZN(n1) ); INV_X1 U...
6.509093
module GP_23 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.028675
module GG_30 ( 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
6.625491
module GP_22 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.262295
module GG_29 ( 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
6.543768
module GP_21 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.522471
module GG_28 ( 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
6.576458
module GP_20 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.698979
module GG_27 ( 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
7.006144
module GP_19 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.497553
module GG_26 ( 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
6.692108
module GP_18 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.520154
module GG_25 ( 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
6.910352
module GP_17 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.311245
module GG_24 ( 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
6.963818
module GP_16 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.302935
module GG_23 ( 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
6.887183
module GP_15 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.320759
module GG_22 ( 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
6.943249
module GP_14 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.934907
module GG_21 ( 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
6.819763
module GP_13 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.942651
module GG_20 ( 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
7.122359
module GG_19 ( 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
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module GP_12 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
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module GG_18 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire net19526, n1; assign G = net19526; AOI21_X1 U1 ( .B1(G_PREV), .B2(P_CURRENT), .A (G_CURRENT), .ZN(n1) ); INV_X1 U2 ( .A (n1), .ZN(net19526) ); endmodu...
7.119173
module GP_11 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.769966
module GG_17 ( 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
7.149894
module GP_10 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.122156
module GG_16 ( 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
7.130425
module GP_9 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.424217
module GG_15 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire n1, n2; NOR2_X1 U1 ( .A1(G_PREV), .A2(G_CURRENT), .ZN(n1) ); NOR2_X1 U2 ( .A1(P_CURRENT), .A2(G_CURRENT), .ZN(n2) ); NOR2_X1 U3 ( .A1(n1), ...
6.964591
module GP_8 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.437781
module GG_14 ( 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
6.942219
module GP_7 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.92423
module GG_13 ( 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
6.965553
module GP_6 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.027971
module GG_12 ( 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
7.114971
module GG_11 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire net19519, n1; assign G = net19519; AOI21_X1 U1 ( .B1(G_PREV), .B2(P_CURRENT), .A (G_CURRENT), .ZN(n1) ); INV_X1 U2 ( .A (n1), .ZN(net19519) ); endmodu...
6.590728
module GP_5 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
6.967327
module GG_10 ( 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
6.783617
module GP_4 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.090485
module GG_9 ( 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
6.979936
module GP_3 ( P_CURRENT, P_PREV, P ); input P_CURRENT, P_PREV; output P; AND2_X1 U1 ( .A1(P_PREV), .A2(P_CURRENT), .ZN(P) ); endmodule
7.136824
module GG_8 ( 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
7.150432
module GG_7 ( G_CURRENT, P_CURRENT, G_PREV, G ); input G_CURRENT, P_CURRENT, G_PREV; output G; wire net19515, n1; assign G = net19515; AOI21_X1 U1 ( .B1(G_PREV), .B2(P_CURRENT), .A (G_CURRENT), .ZN(n1) ); INV_X1 U2 ( .A (n1), .ZN(net19515) ); endmodul...
7.126887
module GG_6 ( 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
7.000066