2020-03-19 18:59:11 -05:00
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read_verilog <<EOT
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module top(input a, output [3:0] y);
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assign y[0] = a^1'b0;
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assign y[1] = 1'b1^a;
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assign y[2] = a~^1'b0;
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assign y[3] = 1'b1^~a;
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endmodule
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EOT
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design -save read
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select -assert-count 2 t:$xor
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select -assert-count 2 t:$xnor
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equiv_opt opt_expr
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design -load postopt
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select -assert-none t:$xor
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select -assert-none t:$xnor
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2020-03-20 16:38:50 -05:00
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select -assert-count 2 t:$not
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2020-03-19 18:59:11 -05:00
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design -load read
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simplemap
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equiv_opt opt_expr
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design -load postopt
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select -assert-none t:$_XOR_
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select -assert-none t:$_XNOR_ # NB: simplemap does $xnor -> $_XOR_+$_NOT_
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select -assert-count 3 t:$_NOT_
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design -reset
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read_verilog -icells <<EOT
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module top(input a, output [1:0] y);
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$_XNOR_ u0(.A(a), .B(1'b0), .Y(y[0]));
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$_XNOR_ u1(.A(1'b1), .B(a), .Y(y[1]));
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endmodule
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EOT
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select -assert-count 2 t:$_XNOR_
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equiv_opt opt_expr
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design -load postopt
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select -assert-none t:$_XNOR_ # NB: simplemap does $xnor -> $_XOR_+$_NOT_
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select -assert-count 1 t:$_NOT_
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2020-03-20 16:38:50 -05:00
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design -reset
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read_verilog <<EOT
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module top(input a, output [1:0] w, x, y, z);
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assign w = a^1'b0;
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assign x = a^1'b1;
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assign y = a~^1'b0;
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assign z = a~^1'b1;
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endmodule
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EOT
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equiv_opt opt_expr
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