(* abc9_lut=1 *) module NX_LUT(input I1, I2, I3, I4, output O); parameter lut_table = 16'h0000; wire [7:0] s1 = I4 ? lut_table[15:8] : lut_table[7:0]; wire [3:0] s2 = I3 ? s1[7:4] : s1[3:0]; wire [1:0] s3 = I2 ? s2[3:2] : s2[1:0]; assign O = I1 ? s3[1] : s3[0]; endmodule (* abc9_box, lib_whitebox *) module NX_DFF(input I, CK, L, R, output reg O); parameter dff_ctxt = 1'bx; parameter dff_edge = 1'b0; parameter dff_init = 1'b0; parameter dff_load = 1'b0; parameter dff_sync = 1'b0; parameter dff_type = 1'b0; initial begin O = dff_ctxt; end wire clock = CK ^ dff_edge; wire load = dff_load ? L : 1'b1; wire async_reset = !dff_sync && dff_init && R; wire sync_reset = dff_sync && dff_init && R; always @(posedge clock, posedge async_reset) if (async_reset) O <= dff_type; else if (sync_reset) O <= dff_type; else if (load) O <= I; endmodule (* abc9_box, lib_whitebox *) module NX_DFR(input I, CK, L, R, output O); parameter data_inv = 1'b0; parameter dff_edge = 1'b0; parameter dff_init = 1'b0; parameter dff_load = 1'b0; parameter dff_sync = 1'b0; parameter dff_type = 1'b0; parameter iobname = ""; parameter location = ""; parameter mode = 0; parameter path = 0; parameter ring = 0; wire clock = CK ^ dff_edge; wire load = dff_load ? L : 1'b1; wire async_reset = !dff_sync && dff_init && R; wire sync_reset = dff_sync && dff_init && R; reg O_reg; always @(posedge clock, posedge async_reset) if (async_reset) O_reg <= dff_type; else if (sync_reset) O_reg <= dff_type; else if (load) O_reg <= I; assign O = data_inv ? O_reg : ~O_reg; endmodule (* abc9_box, lib_whitebox *) module NX_CY(input A1, A2, A3, A4, B1, B2, B3, B4, (* abc9_carry *) input CI, output S1, S2, S3, S4, (* abc9_carry *) output CO); parameter add_carry = 0; wire CI_1; wire CO1, CO2, CO3; assign CI_1 = (add_carry==2) ? CI : ((add_carry==1) ? 1'b1 : 1'b0); assign { CO1, S1 } = A1 + B1 + CI_1; assign { CO2, S2 } = A2 + B2 + CO1; assign { CO3, S3 } = A3 + B3 + CO2; assign { CO, S4 } = A4 + B4 + CO3; endmodule module NX_IOB(I, C, T, O, IO); input C; input I; (* iopad_external_pin *) inout IO; output O; input T; parameter differential = ""; parameter drive = ""; parameter dynDrive = ""; parameter dynInput = ""; parameter dynTerm = ""; parameter extra = 3; parameter inputDelayLine = ""; parameter inputDelayOn = ""; parameter inputSignalSlope = ""; parameter location = ""; parameter locked = 1'b0; parameter outputCapacity = ""; parameter outputDelayLine = ""; parameter outputDelayOn = ""; parameter slewRate = ""; parameter standard = ""; parameter termination = ""; parameter terminationReference = ""; parameter turbo = ""; parameter weakTermination = ""; assign O = IO; assign IO = C ? I : 1'bz; endmodule module NX_IOB_I(C, T, IO, O); input C; (* iopad_external_pin *) input IO; output O; input T; parameter differential = ""; parameter drive = ""; parameter dynDrive = ""; parameter dynInput = ""; parameter dynTerm = ""; parameter extra = 1; parameter inputDelayLine = ""; parameter inputDelayOn = ""; parameter inputSignalSlope = ""; parameter location = ""; parameter locked = 1'b0; parameter outputCapacity = ""; parameter outputDelayLine = ""; parameter outputDelayOn = ""; parameter slewRate = ""; parameter standard = ""; parameter termination = ""; parameter terminationReference = ""; parameter turbo = ""; parameter weakTermination = ""; assign O = IO; endmodule module NX_IOB_O(I, C, T, IO); input C; input I; (* iopad_external_pin *) output IO; input T; parameter differential = ""; parameter drive = ""; parameter dynDrive = ""; parameter dynInput = ""; parameter dynTerm = ""; parameter extra = 2; parameter inputDelayLine = ""; parameter inputDelayOn = ""; parameter inputSignalSlope = ""; parameter location = ""; parameter locked = 1'b0; parameter outputCapacity = ""; parameter outputDelayLine = ""; parameter outputDelayOn = ""; parameter slewRate = ""; parameter standard = ""; parameter termination = ""; parameter terminationReference = ""; parameter turbo = ""; parameter weakTermination = ""; assign IO = C ? I : 1'bz; endmodule (* abc9_box, lib_whitebox *) module NX_CY_1BIT(CI, A, B, S, CO); (* abc9_carry *) input CI; input A; input B; output S; (* abc9_carry *) output CO; parameter first = 1'b0; assign {CO, S} = A + B + CI; endmodule module NX_BD(I, O); input I; output O; parameter mode = "global_lowskew"; assign O = I; endmodule module NX_BFF(I, O); input I; output O; assign O = I; endmodule module NX_BFR(I, O); input I; output O; parameter data_inv = 1'b0; parameter iobname = ""; parameter location = ""; parameter mode = 0; parameter path = 0; parameter ring = 0; assign O = data_inv ? ~I : I; endmodule (* abc9_box, lib_whitebox *) module NX_RAM(ACK, ACKC, ACKD, ACKR, BCK, BCKC, BCKD, BCKR, AI1, AI2, AI3, AI4, AI5, AI6, AI7, AI8, AI9, AI10, AI11, AI12, AI13 , AI14, AI15, AI16, AI17, AI18, AI19, AI20, AI21, AI22, AI23, AI24, BI1, BI2, BI3, BI4, BI5, BI6, BI7, BI8, BI9, BI10 , BI11, BI12, BI13, BI14, BI15, BI16, BI17, BI18, BI19, BI20, BI21, BI22, BI23, BI24, ACOR, AERR, BCOR, BERR, AO1, AO2, AO3 , AO4, AO5, AO6, AO7, AO8, AO9, AO10, AO11, AO12, AO13, AO14, AO15, AO16, AO17, AO18, AO19, AO20, AO21, AO22, AO23, AO24 , BO1, BO2, BO3, BO4, BO5, BO6, BO7, BO8, BO9, BO10, BO11, BO12, BO13, BO14, BO15, BO16, BO17, BO18, BO19, BO20, BO21 , BO22, BO23, BO24, AA1, AA2, AA3, AA4, AA5, AA6, AA7, AA8, AA9, AA10, AA11, AA12, AA13, AA14, AA15, AA16, ACS, AWE , AR, BA1, BA2, BA3, BA4, BA5, BA6, BA7, BA8, BA9, BA10, BA11, BA12, BA13, BA14, BA15, BA16, BCS, BWE, BR); input AA1; input AA10; input AA11; input AA12; input AA13; input AA14; input AA15; input AA16; input AA2; input AA3; input AA4; input AA5; input AA6; input AA7; input AA8; input AA9; input ACK; input ACKC; input ACKD; input ACKR; output ACOR; input ACS; output AERR; input AI1; input AI10; input AI11; input AI12; input AI13; input AI14; input AI15; input AI16; input AI17; input AI18; input AI19; input AI2; input AI20; input AI21; input AI22; input AI23; input AI24; input AI3; input AI4; input AI5; input AI6; input AI7; input AI8; input AI9; output reg AO1; output reg AO10; output reg AO11; output reg AO12; output reg AO13; output reg AO14; output reg AO15; output reg AO16; output reg AO17; output reg AO18; output reg AO19; output reg AO2; output reg AO20; output reg AO21; output reg AO22; output reg AO23; output reg AO24; output reg AO3; output reg AO4; output reg AO5; output reg AO6; output reg AO7; output reg AO8; output reg AO9; input AR; input AWE; input BA1; input BA10; input BA11; input BA12; input BA13; input BA14; input BA15; input BA16; input BA2; input BA3; input BA4; input BA5; input BA6; input BA7; input BA8; input BA9; input BCK; input BCKC; input BCKD; input BCKR; output BCOR; input BCS; output BERR; input BI1; input BI10; input BI11; input BI12; input BI13; input BI14; input BI15; input BI16; input BI17; input BI18; input BI19; input BI2; input BI20; input BI21; input BI22; input BI23; input BI24; input BI3; input BI4; input BI5; input BI6; input BI7; input BI8; input BI9; output reg BO1; output reg BO10; output reg BO11; output reg BO12; output reg BO13; output reg BO14; output reg BO15; output reg BO16; output reg BO17; output reg BO18; output reg BO19; output reg BO2; output reg BO20; output reg BO21; output reg BO22; output reg BO23; output reg BO24; output reg BO3; output reg BO4; output reg BO5; output reg BO6; output reg BO7; output reg BO8; output reg BO9; input BR; input BWE; parameter mcka_edge = 1'b0; parameter mckb_edge = 1'b0; parameter mem_ctxt = ""; parameter pcka_edge = 1'b0; parameter pckb_edge = 1'b0; parameter pipe_ia = 1'b0; parameter pipe_ib = 1'b0; parameter pipe_oa = 1'b0; parameter pipe_ob = 1'b0; parameter raw_config0 = 4'b0000; parameter raw_config1 = 16'b0000000000000000; //parameter raw_l_enable = 1'b0; //parameter raw_l_extend = 4'b0000; //parameter raw_u_enable = 1'b0; //parameter raw_u_extend = 8'b00000000; parameter std_mode = ""; reg [24-1:0] mem [2048-1:0]; // 48 Kbit of memory /*integer i; initial begin for (i = 0; i < 2048; i = i + 1) mem[i] = 24'b0; end*/ wire [15:0] AA = { AA16, AA15, AA14, AA13, AA12, AA11, AA10, AA9, AA8, AA7, AA6, AA5, AA4, AA3, AA2, AA1 }; wire [23:0] AI = { AI24, AI23, AI22, AI21, AI20, AI19, AI18, AI17, AI16, AI15, AI14, AI13, AI12, AI11, AI10, AI9, AI8, AI7, AI6, AI5, AI4, AI3, AI2, AI1 }; wire [23:0] AO = { AO24, AO23, AO22, AO21, AO20, AO19, AO18, AO17, AO16, AO15, AO14, AO13, AO12, AO11, AO10, AO9, AO8, AO7, AO6, AO5, AO4, AO3, AO2, AO1 }; wire [15:0] BA = { BA16, BA15, BA14, BA13, BA12, BA11, BA10, BA9, BA8, BA7, BA6, BA5, BA4, BA3, BA2, BA1 }; wire [23:0] BI = { BI24, BI23, BI22, BI21, BI20, BI19, BI18, BI17, BI16, BI15, BI14, BI13, BI12, BI11, BI10, BI9, BI8, BI7, BI6, BI5, BI4, BI3, BI2, BI1 }; wire [23:0] BO = { BO24, BO23, BO22, BO21, BO20, BO19, BO18, BO17, BO16, BO15, BO14, BO13, BO12, BO11, BO10, BO9, BO8, BO7, BO6, BO5, BO4, BO3, BO2, BO1 }; always @(posedge ACK) if (AWE) mem[AA[10:0]] <= AI; else { AO24, AO23, AO22, AO21, AO20, AO19, AO18, AO17, AO16, AO15, AO14, AO13, AO12, AO11, AO10, AO9, AO8, AO7, AO6, AO5, AO4, AO3, AO2, AO1 } <= mem[AA[10:0]]; assign ACOR = 1'b0; assign AERR = 1'b0; always @(posedge BCK) if (BWE) mem[BA[10:0]] <= BI; else { BO24, BO23, BO22, BO21, BO20, BO19, BO18, BO17, BO16, BO15, BO14, BO13, BO12, BO11, BO10, BO9, BO8, BO7, BO6, BO5, BO4, BO3, BO2, BO1 } <= mem[BA[10:0]]; assign BCOR = 1'b0; assign BERR = 1'b0; endmodule