?? example_en_24bit_a.v
字號:
input B1, B2, C1, C2, D1, D2, E1, E2, F1, F2, F3, F4, F5, F6;
output FZ;
input MP, MS, NP, NS;
output NZ;
input OP, OS;
output OZ;
input PP, PS;
output Q2Z;
input QC /* synthesis syn_isclock=1 */;
//exemplar attribute QC syn_isclock true
input QR, QS;
output QZ;
// exemplar attribute super_logic dont_touch true
parameter syn_macro = 1;
parameter ql_gate = `LOGIC;
super_cell I2 ( .A1(A1), .A2(A2), .A3(A3), .A4(A4), .A5(A5), .A6(A6), .AZ(AZ),
.B1(B1), .B2(B2), .C1(C1), .C2(C2), .D1(D1), .D2(D2), .E1(E1),
.E2(E2), .F1(F1), .F2(F2), .F3(F3), .F4(F4), .F5(F5), .F6(F6),
.FZ(FZ), .MP(MP), .MS(MS), .NP(NP), .NS(NS), .NZ(NZ), .OP(OP),
.OS(OS), .OZ(OZ), .PP(PP), .PS(PS), .Q2Z(Q2Z), .QC(QC), .QR(QR),
.QS(QS), .QZ(QZ) );
endmodule // super_logic
`endif
`ifdef eio_cell
`else
`define eio_cell
module eio_cell( EQE , ESEL, IE, IQC, IQE, IQR, OQI, OSEL, IQQ, IZ, OQQ, IP );
input EQE, ESEL, IE;
inout IP;
input IQC, IQE;
output IQQ;
input IQR;
output IZ;
input OQI;
output OQQ;
input OSEL;
parameter syn_macro = 1;
parameter ql_frag = 1;
// exemplar attribute eio_cell noopt true
wire EQMUX_Z, OQMUX_Z;
reg EQZ, OQQ, IQQ;
assign #1 EQMUX_Z = ESEL ? IE : EQZ;
assign #1 OQMUX_Z = OSEL ? OQI : OQQ;
assign #1 IP = EQMUX_Z ? OQMUX_Z : 1'bz;
assign #1 IZ = IP;
`ifdef synthesis
always @ (posedge IQC or posedge IQR)
if (IQR)
#1 EQZ = 1'b0;
else if (EQE)
#1 EQZ = IE;
always @ (posedge IQC or posedge IQR)
if (IQR)
#1 IQQ = 1'b0;
else if (IQE)
#1 IQQ = IP;
always @ (posedge IQC or posedge IQR)
if (IQR)
#1 OQQ = 1'b0;
else
#1 OQQ = OQI;
`else
/* synopsys translate_off */
always @ (posedge IQC)
if (~IQR & EQE)
#1 EQZ = IE;
else if (IQR)
#1 EQZ = 1'b0;
always @ (posedge IQC)
if (~IQR & IQE)
#1 IQQ = IP;
else if (IQR)
#1 IQQ = 1'b0; always @ (posedge IQC)
if (~IQR)
#1 OQQ = OQI;
else if (IQR)
#1 OQQ = 1'b0;
/* synopsys translate_on */
`endif
endmodule // eio_cell
`endif
`ifdef ckcell_25um
`else
`define ckcell_25um
module ckcell_25um( IP , IC );
output IC;
input IP;
parameter syn_macro = 1;
parameter ql_frag = 1;
// exemplar attribute ckcell_25um noopt true
assign #1 IC = IP;
endmodule // ckcell_25um
`endif
`ifdef counter_en_4bit_s
`else
`define counter_en_4bit_s
module counter_en_4bit_s( clear , clk, enable, qa_r, qb_r, qc_r, qd_r );
input clear;
input clk /* synthesis syn_isclock=1 */;
//exemplar attribute clk syn_isclock true
input enable;
output qa_r, qb_r, qc_r, qd_r;
// exemplar attribute counter_en_4bit_s dont_touch true
parameter syn_macro = 1;
wire ED_a;
wire ABCDE_a;
wire BCD_a;
supply0 GND;
supply1 VCC;
super_logic I1 ( .A1(BCD_a), .A2(GND), .A3(ED_a), .A4(GND), .A5(qa_r), .A6(GND),
.AZ(ABCDE_a), .B1(ED_a), .B2(qc_r), .C1(qc_r), .C2(ED_a),
.D1(qb_r), .D2(GND), .E1(VCC), .E2(qb_r), .F1(enable), .F2(GND),
.F3(qd_r), .F4(GND), .F5(VCC), .F6(GND), .FZ(ED_a), .MP(GND),
.MS(qc_r), .NP(qc_r), .NS(GND), .OP(GND), .OS(GND), .PP(GND),
.PS(GND), .Q2Z(qb_r), .QC(clk), .QR(clear), .QS(GND), .QZ(qc_r), .NZ(), .OZ() );
super_logic I2 ( .A1(VCC), .A2(GND), .A3(VCC), .A4(GND), .A5(VCC), .A6(GND),
.B1(qa_r), .B2(GND), .C1(VCC), .C2(qa_r), .D1(enable), .D2(qd_r),
.E1(qd_r), .E2(enable), .F1(qb_r), .F2(GND), .F3(qc_r), .F4(GND),
.F5(qd_r), .F6(GND), .FZ(BCD_a), .MP(enable), .MS(GND), .NP(GND),
.NS(qd_r), .OP(GND), .OS(GND), .PP(GND), .PS(GND), .Q2Z(qd_r),
.QC(clk), .QR(clear), .QS(GND), .QZ(qa_r), .AZ(), .NZ(), .OZ() );
endmodule // counter_en_4bit_s
`endif
`ifdef counter_en_4bit_a
`else
`define counter_en_4bit_a
module counter_en_4bit_a( clear , clk, enable, enablehbit_a, qa_r, qb_r, qc_r, qd_r );
input clear;
input clk /* synthesis syn_isclock=1 */;
//exemplar attribute clk syn_isclock true
input enable;
output enablehbit_a, qa_r, qb_r, qc_r, qd_r;
// exemplar attribute counter_en_4bit_a dont_touch true
parameter syn_macro = 1;
wire ED_a;
wire BCD_a;
supply0 GND;
supply1 VCC;
super_logic I1 ( .A1(BCD_a), .A2(GND), .A3(ED_a), .A4(GND), .A5(qa_r), .A6(GND),
.AZ(enablehbit_a), .B1(ED_a), .B2(qc_r), .C1(qc_r), .C2(ED_a),
.D1(qb_r), .D2(GND), .E1(VCC), .E2(qb_r), .F1(enable), .F2(GND),
.F3(qd_r), .F4(GND), .F5(VCC), .F6(GND), .FZ(ED_a), .MP(GND),
.MS(qc_r), .NP(qc_r), .NS(GND), .OP(GND), .OS(GND), .PP(GND),
.PS(GND), .Q2Z(qb_r), .QC(clk), .QR(clear), .QS(GND), .QZ(qc_r), .NZ(), .OZ() );
super_logic I2 ( .A1(VCC), .A2(GND), .A3(VCC), .A4(GND), .A5(VCC), .A6(GND),
.B1(qa_r), .B2(GND), .C1(VCC), .C2(qa_r), .D1(enable), .D2(qd_r),
.E1(qd_r), .E2(enable), .F1(qb_r), .F2(GND), .F3(qc_r), .F4(GND),
.F5(qd_r), .F6(GND), .FZ(BCD_a), .MP(enable), .MS(GND), .NP(GND),
.NS(qd_r), .OP(GND), .OS(GND), .PP(GND), .PS(GND), .Q2Z(qd_r),
.QC(clk), .QR(clear), .QS(GND), .QZ(qa_r), .AZ(), .NZ(), .OZ() );
endmodule // counter_en_4bit_a
`endif
`ifdef counter_en_8bit_i_a
`else
`define counter_en_8bit_i_a
module counter_en_8bit_i_a( clear , clk, enable, count, en_8bit_a );
input clear;
input clk /* synthesis syn_isclock=1 */;
//exemplar attribute clk syn_isclock true
output [7:0] count;
output en_8bit_a;
input enable;
// exemplar attribute counter_en_8bit_i_a dont_touch true
parameter syn_macro = 1;
wire en_8bit3_a;
wire en_8bit2_a;
wire en_8bit1_a;
wire enableh4bit;
supply1 vcc;
supply0 gnd;
counter_en_4bit_a I8 ( .clear(clear), .clk(clk), .enable(enable),
.enablehbit_a(enableh4bit), .qa_r(count[3]),
.qb_r(count[2]), .qc_r(count[1]), .qd_r(count[0]) );
counter_en_4bit_a I9 ( .clear(clear), .clk(clk), .enable(enableh4bit),
.qa_r(count[7]), .qb_r(count[6]), .qc_r(count[5]),
.qd_r(count[4]) );
super_logic I1 ( .A1(count[0]), .A2(gnd), .A3(count[1]), .A4(gnd), .A5(count[2]),
.A6(gnd), .AZ(en_8bit1_a), .B1(vcc), .B2(gnd), .C1(vcc), .C2(gnd),
.D1(vcc), .D2(gnd), .E1(vcc), .E2(gnd), .F1(count[6]), .F2(gnd),
.F3(count[7]), .F4(gnd), .F5(enable), .F6(gnd), .FZ(en_8bit2_a),
.MP(gnd), .MS(gnd), .NP(gnd), .NS(gnd), .OP(gnd), .OS(gnd),
.PP(gnd), .PS(gnd), .QC(gnd), .QR(gnd), .QS(gnd), .NZ(), .OZ(), .Q2Z(), .QZ() );
super_logic I2 ( .A1(count[3]), .A2(gnd), .A3(count[4]), .A4(gnd), .A5(count[5]),
.A6(gnd), .AZ(en_8bit3_a), .B1(vcc), .B2(gnd), .C1(vcc), .C2(gnd),
.D1(vcc), .D2(gnd), .E1(vcc), .E2(gnd), .F1(en_8bit1_a), .F2(gnd),
.F3(en_8bit2_a), .F4(gnd), .F5(en_8bit3_a), .F6(gnd),
.FZ(en_8bit_a), .MP(gnd), .MS(gnd), .NP(gnd), .NS(gnd), .OP(gnd),
.OS(gnd), .PP(gnd), .PS(gnd), .QC(gnd), .QR(gnd), .QS(gnd), .NZ(), .OZ(), .Q2Z(), .QZ() );
endmodule // counter_en_8bit_i_a
`endif
`ifdef super_cell
`else
`define super_cell
module super_cell( A1 , A2, A3, A4, A5, A6, B1, B2, C1, C2, D1, D2, E1, E2, F1,
F2, F3, F4, F5, F6, MP, MS, NP, NS, OP, OS, PP, PS, QC, QR,
QS, AZ, FZ, NZ, OZ, Q2Z, QZ );
input A1, A2, A3, A4, A5, A6;
output AZ;
input B1, B2, C1, C2, D1, D2, E1, E2, F1, F2, F3, F4, F5, F6;
output FZ;
input MP, MS, NP, NS;
output NZ;
input OP, OS;
output OZ;
input PP, PS;
output Q2Z;
input QC, QR, QS;
output QZ;
parameter syn_macro = 1;
parameter ql_frag = 1;
// exemplar attribute super_cell noopt true
wire TOPMUX_Z, MIDMUX_Z, BOTMUX_Z, FFMUX_Z, CLKMUX_Z;
wire MZ;
reg QZ, Q2Z;
assign #1 AZ = A1 & ~A2 & A3 & ~A4 & A5 & ~A6;
assign #1 TOPMUX_Z = OP ? AZ : OS;
assign #1 MZ = MIDMUX_Z ? (C1 & ~C2) : (B1 & ~B2);
assign #1 MIDMUX_Z = MP ? FZ : MS;
assign #1 NZ = BOTMUX_Z ? (E1 & ~E2) : (D1 & ~D2);
assign #1 BOTMUX_Z = NP ? FZ : NS;
assign #1 FZ = F1 & ~F2 & F3 & ~F4 & F5 & ~F6;
assign #1 OZ = TOPMUX_Z ? NZ : MZ;
assign #1 FFMUX_Z = PP ? PS : NZ;
`ifdef synthesis
always @ (posedge QC or posedge QR or posedge QS)
if (QR)
#1 QZ = 1'b0;
else if (QS)
#1 QZ = 1'b1;
else
#1 QZ = OZ;
always @ (posedge QC or posedge QR or posedge QS)
if (QR)
#1 Q2Z = 1'b0;
else if (QS)
#1 Q2Z = 1'b1;
else
#1 Q2Z = FFMUX_Z;
`else
/* synopsys translate_off */
always @ (posedge QC)
if (~QR && ~QS)
#1 QZ = OZ;
always @ (QR or QS)
if (QR)
#1 QZ = 1'b0;
else if (QS)
#1 QZ = 1'b1;
always @ (posedge QC)
if (~QR && ~QS)
#1 Q2Z = FFMUX_Z;
always @ (QR or QS)
if (QR)
#1 Q2Z = 1'b0;
else if (QS)
#1 Q2Z = 1'b1;
/* synopsys translate_on */
`endif
endmodule // super_cell
`endif
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