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ariths-gen-mig/generated_circuits/verilog_circuits/hier/s_cla4.v
Jan Klhůfek 56c86c13ca
New multipliers (#13) 
* #10 CGP Circuits as inputs (#11)

* CGP Circuits as inputs

* #10 support of signed output in general circuit

* input as output works

* output connected to input (c)

* automated verilog testing

* output rename

* Implemented CSA and Wallace tree multiplier composing of CSAs. Also did some code cleanup.

* Typos fix and code cleanup.

* Added new (approximate) multiplier architectures and did some minor changes regarding sign extension for c output formats.

* Updated automated testing scripts.

* Small bugfix in python code generation (I initially thought this line is useless).

* Updated generated circuits folder.

Co-authored-by: Vojta Mrazek <mrazek@fit.vutbr.cz>
2022-04-17 16:00:00 +02:00

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module or_gate(input a, input b, output out);
assign out = a | b;
endmodule
module and_gate(input a, input b, output out);
assign out = a & b;
endmodule
module xor_gate(input a, input b, output out);
assign out = a ^ b;
endmodule
module pg_logic(input [0:0] a, input [0:0] b, output [0:0] pg_logic_or0, output [0:0] pg_logic_and0, output [0:0] pg_logic_xor0);
or_gate or_gate_pg_logic_or0(.a(a[0]), .b(b[0]), .out(pg_logic_or0));
and_gate and_gate_pg_logic_and0(.a(a[0]), .b(b[0]), .out(pg_logic_and0));
xor_gate xor_gate_pg_logic_xor0(.a(a[0]), .b(b[0]), .out(pg_logic_xor0));
endmodule
module s_cla4(input [3:0] a, input [3:0] b, output [4:0] s_cla4_out);
wire [0:0] s_cla4_pg_logic0_or0;
wire [0:0] s_cla4_pg_logic0_and0;
wire [0:0] s_cla4_pg_logic0_xor0;
wire [0:0] s_cla4_pg_logic1_or0;
wire [0:0] s_cla4_pg_logic1_and0;
wire [0:0] s_cla4_pg_logic1_xor0;
wire [0:0] s_cla4_xor1;
wire [0:0] s_cla4_and0;
wire [0:0] s_cla4_or0;
wire [0:0] s_cla4_pg_logic2_or0;
wire [0:0] s_cla4_pg_logic2_and0;
wire [0:0] s_cla4_pg_logic2_xor0;
wire [0:0] s_cla4_xor2;
wire [0:0] s_cla4_and1;
wire [0:0] s_cla4_and2;
wire [0:0] s_cla4_and3;
wire [0:0] s_cla4_and4;
wire [0:0] s_cla4_or1;
wire [0:0] s_cla4_or2;
wire [0:0] s_cla4_pg_logic3_or0;
wire [0:0] s_cla4_pg_logic3_and0;
wire [0:0] s_cla4_pg_logic3_xor0;
wire [0:0] s_cla4_xor3;
wire [0:0] s_cla4_and5;
wire [0:0] s_cla4_and6;
wire [0:0] s_cla4_and7;
wire [0:0] s_cla4_and8;
wire [0:0] s_cla4_and9;
wire [0:0] s_cla4_and10;
wire [0:0] s_cla4_and11;
wire [0:0] s_cla4_or3;
wire [0:0] s_cla4_or4;
wire [0:0] s_cla4_or5;
wire [0:0] s_cla4_xor4;
wire [0:0] s_cla4_xor5;
pg_logic pg_logic_s_cla4_pg_logic0_out(.a(a[0]), .b(b[0]), .pg_logic_or0(s_cla4_pg_logic0_or0), .pg_logic_and0(s_cla4_pg_logic0_and0), .pg_logic_xor0(s_cla4_pg_logic0_xor0));
pg_logic pg_logic_s_cla4_pg_logic1_out(.a(a[1]), .b(b[1]), .pg_logic_or0(s_cla4_pg_logic1_or0), .pg_logic_and0(s_cla4_pg_logic1_and0), .pg_logic_xor0(s_cla4_pg_logic1_xor0));
xor_gate xor_gate_s_cla4_xor1(.a(s_cla4_pg_logic1_xor0[0]), .b(s_cla4_pg_logic0_and0[0]), .out(s_cla4_xor1));
and_gate and_gate_s_cla4_and0(.a(s_cla4_pg_logic0_and0[0]), .b(s_cla4_pg_logic1_or0[0]), .out(s_cla4_and0));
or_gate or_gate_s_cla4_or0(.a(s_cla4_pg_logic1_and0[0]), .b(s_cla4_and0[0]), .out(s_cla4_or0));
pg_logic pg_logic_s_cla4_pg_logic2_out(.a(a[2]), .b(b[2]), .pg_logic_or0(s_cla4_pg_logic2_or0), .pg_logic_and0(s_cla4_pg_logic2_and0), .pg_logic_xor0(s_cla4_pg_logic2_xor0));
xor_gate xor_gate_s_cla4_xor2(.a(s_cla4_pg_logic2_xor0[0]), .b(s_cla4_or0[0]), .out(s_cla4_xor2));
and_gate and_gate_s_cla4_and1(.a(s_cla4_pg_logic2_or0[0]), .b(s_cla4_pg_logic0_or0[0]), .out(s_cla4_and1));
and_gate and_gate_s_cla4_and2(.a(s_cla4_pg_logic0_and0[0]), .b(s_cla4_pg_logic2_or0[0]), .out(s_cla4_and2));
and_gate and_gate_s_cla4_and3(.a(s_cla4_and2[0]), .b(s_cla4_pg_logic1_or0[0]), .out(s_cla4_and3));
and_gate and_gate_s_cla4_and4(.a(s_cla4_pg_logic1_and0[0]), .b(s_cla4_pg_logic2_or0[0]), .out(s_cla4_and4));
or_gate or_gate_s_cla4_or1(.a(s_cla4_and3[0]), .b(s_cla4_and4[0]), .out(s_cla4_or1));
or_gate or_gate_s_cla4_or2(.a(s_cla4_pg_logic2_and0[0]), .b(s_cla4_or1[0]), .out(s_cla4_or2));
pg_logic pg_logic_s_cla4_pg_logic3_out(.a(a[3]), .b(b[3]), .pg_logic_or0(s_cla4_pg_logic3_or0), .pg_logic_and0(s_cla4_pg_logic3_and0), .pg_logic_xor0(s_cla4_pg_logic3_xor0));
xor_gate xor_gate_s_cla4_xor3(.a(s_cla4_pg_logic3_xor0[0]), .b(s_cla4_or2[0]), .out(s_cla4_xor3));
and_gate and_gate_s_cla4_and5(.a(s_cla4_pg_logic3_or0[0]), .b(s_cla4_pg_logic1_or0[0]), .out(s_cla4_and5));
and_gate and_gate_s_cla4_and6(.a(s_cla4_pg_logic0_and0[0]), .b(s_cla4_pg_logic2_or0[0]), .out(s_cla4_and6));
and_gate and_gate_s_cla4_and7(.a(s_cla4_pg_logic3_or0[0]), .b(s_cla4_pg_logic1_or0[0]), .out(s_cla4_and7));
and_gate and_gate_s_cla4_and8(.a(s_cla4_and6[0]), .b(s_cla4_and7[0]), .out(s_cla4_and8));
and_gate and_gate_s_cla4_and9(.a(s_cla4_pg_logic1_and0[0]), .b(s_cla4_pg_logic3_or0[0]), .out(s_cla4_and9));
and_gate and_gate_s_cla4_and10(.a(s_cla4_and9[0]), .b(s_cla4_pg_logic2_or0[0]), .out(s_cla4_and10));
and_gate and_gate_s_cla4_and11(.a(s_cla4_pg_logic2_and0[0]), .b(s_cla4_pg_logic3_or0[0]), .out(s_cla4_and11));
or_gate or_gate_s_cla4_or3(.a(s_cla4_and8[0]), .b(s_cla4_and11[0]), .out(s_cla4_or3));
or_gate or_gate_s_cla4_or4(.a(s_cla4_and10[0]), .b(s_cla4_or3[0]), .out(s_cla4_or4));
or_gate or_gate_s_cla4_or5(.a(s_cla4_pg_logic3_and0[0]), .b(s_cla4_or4[0]), .out(s_cla4_or5));
xor_gate xor_gate_s_cla4_xor4(.a(a[3]), .b(b[3]), .out(s_cla4_xor4));
xor_gate xor_gate_s_cla4_xor5(.a(s_cla4_xor4[0]), .b(s_cla4_or5[0]), .out(s_cla4_xor5));
assign s_cla4_out[0] = s_cla4_pg_logic0_xor0[0];
assign s_cla4_out[1] = s_cla4_xor1[0];
assign s_cla4_out[2] = s_cla4_xor2[0];
assign s_cla4_out[3] = s_cla4_xor3[0];
assign s_cla4_out[4] = s_cla4_xor5[0];
endmodule
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