////////////////////////////////////////////////////////////////// // Translated Verilog Source File // Auto-Generated By Xilinx's Blf2lang. // Copyright (c) 2003. Xilinx, Inc. ////////////////////////////////////////////////////////////////// //Main register bus `timescale 1ns/1ns module regbus ( clock1,r0,r1,r2,r3,x0,x1,x2,ea0,ea1,ea2,sr,sl,inp0,inp1,inp2,sw0,sw1,sw2,mem0,mem1,mem2,mb0,mb1,mb2,ma0,ma1,ma2,ac0,ac1,ac2,pc0,pc1,pc2 ); input clock1; input r0; input r1; input r2; input r3; input x0; input x1; input x2; input ea0; input ea1; input ea2; input sr; input sl; input inp0; input inp1; input inp2; input sw0; input sw1; input sw2; inout mem0; inout mem1; inout mem2; inout mb0; inout mb1; inout mb2; inout ma0; inout ma1; inout ma2; inout ac0; inout ac1; inout ac2; inout pc0; inout pc1; inout pc2; // Global and port properties... // Declarations for internal nets... wire f0; wire f1; wire f2; wire mux0; wire mux1; wire mux2; wire AIM_0_DATAA0; wire AIM_0_DATAA1; wire AIM_0_DATAA2; wire AIM_0_DATAB0; wire AIM_0_DATAB1; wire AIM_0_DATAB2; wire AIM_0_ADD_SUB; wire AIM_0_RESULT0; wire AIM_0_RESULT1; wire AIM_0_RESULT2; wire mem0_xcD; wire mem0_xcQ; wire mem0_xcCLOCK; wire mem0_xcR; wire mem1_xcD; wire mem1_xcQ; wire mem1_xcCLOCK; wire mem1_xcR; wire mem2_xcD; wire mem2_xcQ; wire mem2_xcCLOCK; wire mem2_xcR; wire mb0_xcD; wire mb0_xcQ; wire mb0_xcCLOCK; wire mb0_xcR; wire mb1_xcD; wire mb1_xcQ; wire mb1_xcCLOCK; wire mb1_xcR; wire mb2_xcD; wire mb2_xcQ; wire mb2_xcCLOCK; wire mb2_xcR; wire ma0_xcD; wire ma0_xcQ; wire ma0_xcCLOCK; wire ma0_xcR; wire ma1_xcD; wire ma1_xcQ; wire ma1_xcCLOCK; wire ma1_xcR; wire ma2_xcD; wire ma2_xcQ; wire ma2_xcCLOCK; wire ma2_xcR; wire ac0_xcD; wire ac0_xcQ; wire ac0_xcCLOCK; wire ac0_xcR; wire ac1_xcD; wire ac1_xcQ; wire ac1_xcCLOCK; wire ac1_xcR; wire ac2_xcD; wire ac2_xcQ; wire ac2_xcCLOCK; wire ac2_xcR; wire pc0_xcD; wire pc0_xcQ; wire pc0_xcCLOCK; wire pc0_xcR; wire pc1_xcD; wire pc1_xcQ; wire pc1_xcCLOCK; wire pc1_xcR; wire pc2_xcD; wire pc2_xcQ; wire pc2_xcCLOCK; wire pc2_xcR; // Properties on instances and internal nets... //Logic implementation... aim_add_sub_3 AIM_0 ( .DATAA0(AIM_0_DATAA0) , .DATAA1(AIM_0_DATAA1) , .DATAA2(AIM_0_DATAA2) , .DATAB0(AIM_0_DATAB0) , .DATAB1(AIM_0_DATAB1) , .DATAB2(AIM_0_DATAB2) , .ADD_SUB(AIM_0_ADD_SUB) , .RESULT0(AIM_0_RESULT0) , .RESULT1(AIM_0_RESULT1) , .RESULT2(AIM_0_RESULT2)); assign mem0_xcCLOCK = ((clock1)); assign mem0_xcR = (1'b0); assign mem0_xcD = ((mem0 & ~(r0)) | (mem0 & ~(r1)) | (mb0 & r0 & r1)); G_DEC mem0_B2LINST_1 ( .q(mem0_xcQ), .d(mem0_xcD), .clk(mem0_xcCLOCK), .e(1'b1), .c(mem0_xcR)); assign mem0 = (mem0_xcQ); assign mem1_xcCLOCK = ((clock1)); assign mem1_xcR = (1'b0); assign mem1_xcD = ((mem1 & ~(r0)) | (mem1 & ~(r1)) | (mb1 & r0 & r1)); G_DEC mem1_B2LINST_2 ( .q(mem1_xcQ), .d(mem1_xcD), .clk(mem1_xcCLOCK), .e(1'b1), .c(mem1_xcR)); assign mem1 = (mem1_xcQ); assign mem2_xcCLOCK = ((clock1)); assign mem2_xcR = (1'b0); assign mem2_xcD = ((mem2 & ~(r0)) | (mem2 & ~(r1)) | (mb2 & r0 & r1)); G_DEC mem2_B2LINST_3 ( .q(mem2_xcQ), .d(mem2_xcD), .clk(mem2_xcCLOCK), .e(1'b1), .c(mem2_xcR)); assign mem2 = (mem2_xcQ); assign mb0_xcCLOCK = ((clock1)); assign mb0_xcR = (1'b0); assign mb0_xcD = ((mb0 & r2) | (mb0 & r0 & r1) | (mb0 & ~(r0) & ~(r1)) | (mb0 & r0 & r3) | (mem0 & ~(r0) & r1 & ~(r2)) | (f0 & r0 & ~(r1) & ~(r2) & ~(r3))); G_DEC mb0_B2LINST_4 ( .q(mb0_xcQ), .d(mb0_xcD), .clk(mb0_xcCLOCK), .e(1'b1), .c(mb0_xcR)); assign mb0 = (mb0_xcQ); assign mb1_xcCLOCK = ((clock1)); assign mb1_xcR = (1'b0); assign mb1_xcD = ((mb1 & r2) | (mb1 & r0 & r1) | (mb1 & ~(r0) & ~(r1)) | (mb1 & r0 & r3) | (mem1 & ~(r0) & r1 & ~(r2)) | (f1 & r0 & ~(r1) & ~(r2) & ~(r3))); G_DEC mb1_B2LINST_5 ( .q(mb1_xcQ), .d(mb1_xcD), .clk(mb1_xcCLOCK), .e(1'b1), .c(mb1_xcR)); assign mb1 = (mb1_xcQ); assign mb2_xcCLOCK = ((clock1)); assign mb2_xcR = (1'b0); assign mb2_xcD = ((mb2 & r2) | (mb2 & r0 & r1) | (mb2 & ~(r0) & ~(r1)) | (mb2 & r0 & r3) | (mem2 & ~(r0) & r1 & ~(r2)) | (f2 & r0 & ~(r1) & ~(r2) & ~(r3))); G_DEC mb2_B2LINST_6 ( .q(mb2_xcQ), .d(mb2_xcD), .clk(mb2_xcCLOCK), .e(1'b1), .c(mb2_xcR)); assign mb2 = (mb2_xcQ); assign ma0_xcCLOCK = ((clock1)); assign ma0_xcR = (1'b0); assign ma0_xcD = ((ma0 & r2) | (ma0 & ~(r3)) | (f0 & r0 & ~(r2) & r3) | (mem0 & ~(r0) & r1 & ~(r2) & r3) | (ea0 & ~(r0) & ~(r1) & ~(r2) & r3)); G_DEC ma0_B2LINST_7 ( .q(ma0_xcQ), .d(ma0_xcD), .clk(ma0_xcCLOCK), .e(1'b1), .c(ma0_xcR)); assign ma0 = (ma0_xcQ); assign ma1_xcCLOCK = ((clock1)); assign ma1_xcR = (1'b0); assign ma1_xcD = ((ma1 & r2) | (ma1 & ~(r3)) | (f1 & r0 & ~(r2) & r3) | (mem1 & ~(r0) & r1 & ~(r2) & r3) | (ea1 & ~(r0) & ~(r1) & ~(r2) & r3)); G_DEC ma1_B2LINST_8 ( .q(ma1_xcQ), .d(ma1_xcD), .clk(ma1_xcCLOCK), .e(1'b1), .c(ma1_xcR)); assign ma1 = (ma1_xcQ); assign ma2_xcCLOCK = ((clock1)); assign ma2_xcR = (1'b0); assign ma2_xcD = ((ma2 & r2) | (ma2 & ~(r3)) | (f2 & r0 & ~(r2) & r3) | (mem2 & ~(r0) & r1 & ~(r2) & r3) | (ea2 & ~(r0) & ~(r1) & ~(r2) & r3)); G_DEC ma2_B2LINST_9 ( .q(ma2_xcQ), .d(ma2_xcD), .clk(ma2_xcCLOCK), .e(1'b1), .c(ma2_xcR)); assign ma2 = (ma2_xcQ); assign ac0_xcCLOCK = ((clock1)); assign ac0_xcR = (1'b0); assign ac0_xcD = ((ac0 & ~(r2)) | (ac0 & r3) | (f0 & r0 & r2 & ~(r3)) | ( ~(r0) & r1 & r2 & ~(r3) & sl) | ( ~(r0) & ~(r1) & r2 & ~(r3) & sr)); G_DEC ac0_B2LINST_10 ( .q(ac0_xcQ), .d(ac0_xcD), .clk(ac0_xcCLOCK), .e(1'b1), .c(ac0_xcR)); assign ac0 = (ac0_xcQ); assign ac1_xcCLOCK = ((clock1)); assign ac1_xcR = (1'b0); assign ac1_xcD = ((ac1 & ~(r2)) | (ac1 & r3) | (f1 & r0 & r2 & ~(r3)) | ( ~(r0) & r1 & r2 & ~(r3) & sl) | ( ~(r0) & ~(r1) & r2 & ~(r3) & sr)); G_DEC ac1_B2LINST_11 ( .q(ac1_xcQ), .d(ac1_xcD), .clk(ac1_xcCLOCK), .e(1'b1), .c(ac1_xcR)); assign ac1 = (ac1_xcQ); assign ac2_xcCLOCK = ((clock1)); assign ac2_xcR = (1'b0); assign ac2_xcD = ((ac2 & ~(r2)) | (ac2 & r3) | (f2 & r0 & r2 & ~(r3)) | ( ~(r0) & r1 & r2 & ~(r3) & sl) | ( ~(r0) & ~(r1) & r2 & ~(r3) & sr)); G_DEC ac2_B2LINST_12 ( .q(ac2_xcQ), .d(ac2_xcD), .clk(ac2_xcCLOCK), .e(1'b1), .c(ac2_xcR)); assign ac2 = (ac2_xcQ); assign pc0_xcCLOCK = ((clock1)); assign pc0_xcR = (1'b0); assign pc0_xcD = ((pc0 & ~(r0) & r1) | (pc0 & ~(r0) & r2) | (pc0 & ~(r0) & ~(r3)) | (pc0 & r2 & ~(r3)) | (f0 & r0 & r2 & r3) | (pc0 & r0 & ~(r2) & r3) | (f0 & ~(r0) & ~(r1) & ~(r2) & r3)); G_DEC pc0_B2LINST_13 ( .q(pc0_xcQ), .d(pc0_xcD), .clk(pc0_xcCLOCK), .e(1'b1), .c(pc0_xcR)); assign pc0 = (pc0_xcQ); assign pc1_xcCLOCK = ((clock1)); assign pc1_xcR = (1'b0); assign pc1_xcD = ((pc1 & ~(r0) & r1) | (pc1 & ~(r0) & r2) | (pc1 & ~(r0) & ~(r3)) | (pc1 & r2 & ~(r3)) | (f1 & r0 & r2 & r3) | (pc1 & r0 & ~(r2) & r3) | (f1 & ~(r0) & ~(r1) & ~(r2) & r3)); G_DEC pc1_B2LINST_14 ( .q(pc1_xcQ), .d(pc1_xcD), .clk(pc1_xcCLOCK), .e(1'b1), .c(pc1_xcR)); assign pc1 = (pc1_xcQ); assign pc2_xcCLOCK = ((clock1)); assign pc2_xcR = (1'b0); assign pc2_xcD = ((pc2 & ~(r0) & r1) | (pc2 & ~(r0) & r2) | (pc2 & ~(r0) & ~(r3)) | (pc2 & r2 & ~(r3)) | (f2 & r0 & r2 & r3) | (pc2 & r0 & ~(r2) & r3) | (f2 & ~(r0) & ~(r1) & ~(r2) & r3)); G_DEC pc2_B2LINST_15 ( .q(pc2_xcQ), .d(pc2_xcD), .clk(pc2_xcCLOCK), .e(1'b1), .c(pc2_xcR)); assign pc2 = (pc2_xcQ); assign f0 = ((AIM_0_RESULT2)); assign f1 = ((AIM_0_RESULT1)); assign f2 = ((AIM_0_RESULT0)); assign mux0 = ((inp0 & x0 & ~(x1) & x2) | (sw0 & ~(x0) & ~(x1) & x2) | (pc0 & x0 & x1 & ~(x2)) | (ac0 & ~(x0) & x1 & ~(x2)) | (ma0 & x0 & ~(x1) & ~(x2)) | (mb0 & ~(x0) & ~(x1) & ~(x2))); assign mux1 = ((inp1 & x0 & ~(x1) & x2) | (sw1 & ~(x0) & ~(x1) & x2) | (pc1 & x0 & x1 & ~(x2)) | (ac1 & ~(x0) & x1 & ~(x2)) | (ma1 & x0 & ~(x1) & ~(x2)) | (mb1 & ~(x0) & ~(x1) & ~(x2))); assign mux2 = ((inp2 & x0 & ~(x1) & x2) | (sw2 & ~(x0) & ~(x1) & x2) | (pc2 & x0 & x1 & ~(x2)) | (ac2 & ~(x0) & x1 & ~(x2)) | (ma2 & x0 & ~(x1) & ~(x2)) | (mb2 & ~(x0) & ~(x1) & ~(x2))); assign AIM_0_DATAA0 = ((mux2)); assign AIM_0_DATAA1 = ((mux1)); assign AIM_0_DATAA2 = ((mux0)); assign AIM_0_DATAB0 = ((ac2)); assign AIM_0_DATAB1 = ((ac1)); assign AIM_0_DATAB2 = ((ac0)); assign AIM_0_ADD_SUB = (1'b1); endmodule