mirror of
https://github.com/YosysHQ/yosys
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250 lines
6.1 KiB
Text
250 lines
6.1 KiB
Text
##################################################################
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read_verilog -sv -icells <<EOT
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module top(input E, D, S, R, output [9:0] Q);
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$_DLATCH_P_ latch0 (.E(E), .D(D), .Q(Q[0]));
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$_DLATCH_PP0_ latch1 (.E(E), .D(D), .R(R), .Q(Q[1]));
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$_DLATCH_PP1_ latch2 (.E(E), .D(D), .R(R), .Q(Q[2]));
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assume property (~R || ~S);
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$_DLATCHSR_PPP_ latch3 (.E(E), .D(D), .R( R), .S( S), .Q(Q[3]));
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$_DLATCHSR_NNN_ latch4 (.E(E), .D(D), .R(~R), .S(~S), .Q(Q[4]));
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assign Q[9:5] = ~Q[4:0];
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endmodule
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EOT
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proc
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opt
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read_liberty dlatchlibmap_dlatchsr_s.lib
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copy top top_unmapped
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dfflibmap -liberty dlatchlibmap_dlatchsr_s.lib top
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clk2fflogic
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flatten
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opt_clean -purge
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miter -equiv -make_assert -flatten top_unmapped top miter
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hierarchy -top miter
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# Prove that this is equivalent with the assumption
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sat -verify -prove-asserts -set-assumes -enable_undef -set-init-undef -show-public -seq 3 miter
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# Prove that this is NOT equivalent WITHOUT the assumption
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sat -falsify -prove-asserts -enable_undef -set-init-undef -seq 3 miter
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##################################################################
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design -reset
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read_verilog -sv -icells <<EOT
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module top(input E, D, S, R, output [9:0] Q);
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$_DLATCH_P_ latch0 (.E(E), .D(D), .Q(Q[0]));
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$_DLATCH_PP0_ latch1 (.E(E), .D(D), .R(R), .Q(Q[1]));
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$_DLATCH_PP1_ latch2 (.E(E), .D(D), .R(R), .Q(Q[2]));
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assume property (~R || ~S);
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$_DLATCHSR_PPP_ latch3 (.E(E), .D(D), .R( R), .S( S), .Q(Q[3]));
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$_DLATCHSR_NNN_ latch4 (.E(E), .D(D), .R(~R), .S(~S), .Q(Q[4]));
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assign Q[9:5] = ~Q[4:0];
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endmodule
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EOT
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proc
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opt
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read_liberty dlatchlibmap_dlatchsr_r.lib
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copy top top_unmapped
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dfflibmap -liberty dlatchlibmap_dlatchsr_r.lib top
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clk2fflogic
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flatten
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opt_clean -purge
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miter -equiv -make_assert -flatten top_unmapped top miter
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hierarchy -top miter
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# Prove that this is equivalent with the assumption
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sat -verify -prove-asserts -set-assumes -enable_undef -set-init-undef -show-public -seq 3 miter
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# Prove that this is NOT equivalent WITHOUT the assumption
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sat -falsify -prove-asserts -enable_undef -set-init-undef -seq 3 miter
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##################################################################
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design -reset
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read_verilog -sv -icells <<EOT
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module top(input E, D, S, R, output [9:0] Q);
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$_DLATCH_P_ latch0 (.E(E), .D(D), .Q(Q[0]));
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$_DLATCH_PP0_ latch1 (.E(E), .D(D), .R(R), .Q(Q[1]));
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$_DLATCH_PP1_ latch2 (.E(E), .D(D), .R(R), .Q(Q[2]));
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// no assume when mapping to X
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$_DLATCHSR_PPP_ latch3 (.E(E), .D(D), .R( R), .S( S), .Q(Q[3]));
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$_DLATCHSR_NNN_ latch4 (.E(E), .D(D), .R(~R), .S(~S), .Q(Q[4]));
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assign Q[9:5] = ~Q[4:0];
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endmodule
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EOT
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proc
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opt
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read_liberty dlatchlibmap_dlatchsr_x.lib
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opt
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copy top top_unmapped
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dfflibmap -liberty dlatchlibmap_dlatchsr_x.lib top
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clk2fflogic
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flatten
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opt_clean -purge
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miter -equiv -make_assert -flatten top_unmapped top miter
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hierarchy -top miter
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# Prove that this is equivalent
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sat -verify -prove-asserts -set-init-undef -show-public -seq 3 miter
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##################################################################
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design -reset
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read_verilog -sv -icells <<EOT
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module top(input E, D, S, R, output [9:0] Q);
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$_DLATCH_P_ latch0 (.E(E), .D(D), .Q(Q[0]));
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$_DLATCH_PP0_ latch1 (.E(E), .D(D), .R(R), .Q(Q[1]));
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$_DLATCH_PP1_ latch2 (.E(E), .D(D), .R(R), .Q(Q[2]));
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// no assume when mapping to unset clear_preset_var
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$_DLATCHSR_PPP_ latch3 (.E(E), .D(D), .R( R), .S( S), .Q(Q[3]));
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$_DLATCHSR_NNN_ latch4 (.E(E), .D(D), .R(~R), .S(~S), .Q(Q[4]));
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assign Q[9:5] = ~Q[4:0];
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endmodule
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EOT
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proc
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opt
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read_liberty dlatchlibmap_dlatchn.lib
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read_liberty dlatchlibmap_dlatchsr_not_data.lib
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copy top top_unmapped
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dfflibmap -liberty dlatchlibmap_dlatchn.lib -liberty dlatchlibmap_dlatchsr_not_data.lib top
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clk2fflogic
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flatten
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opt_clean -purge
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miter -equiv -make_assert -flatten top_unmapped top miter
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hierarchy -top miter
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# Prove that this is equivalent
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sat -verify -prove-asserts -set-init-undef -show-public -seq 3 miter
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##################################################################
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design -reset
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read_verilog -sv -icells <<EOT
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module top(input E, D, S, R, output [9:0] Q);
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$_DLATCH_P_ latch0 (.E(E), .D(D), .Q(Q[0]));
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$_DLATCH_PP0_ latch1 (.E(E), .D(D), .R(R), .Q(Q[1]));
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$_DLATCH_PP1_ latch2 (.E(E), .D(D), .R(R), .Q(Q[2]));
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assume property (~R || ~S);
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$_DLATCHSR_PPP_ latch3 (.E(E), .D(D), .R( R), .S( S), .Q(Q[3]));
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$_DLATCHSR_NNN_ latch4 (.E(E), .D(D), .R(~R), .S(~S), .Q(Q[4]));
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assign Q[9:5] = ~Q[4:0];
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endmodule
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EOT
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proc
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opt
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read_liberty dlatchlibmap_dlatchsr_not_data_l.lib
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copy top top_unmapped
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dfflibmap -liberty dlatchlibmap_dlatchsr_not_data_l.lib top
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clk2fflogic
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flatten
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opt_clean -purge
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miter -equiv -make_assert -flatten top_unmapped top miter
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hierarchy -top miter
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# Prove that this is equivalent with the assumption
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sat -verify -prove-asserts -set-assumes -enable_undef -set-init-undef -show-public -seq 3 miter
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# Prove that this is NOT equivalent WITHOUT the assumption
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sat -falsify -prove-asserts -enable_undef -set-init-undef -seq 3 miter
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##################################################################
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design -reset
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read_verilog <<EOT
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module top(input E, D, S, R, output Q);
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// DLATCHSR with priority R over S
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always @*
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if (R) Q <= 1'b0;
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else if (S) Q <= 1'b1;
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else if (E) Q <= D;
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endmodule
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EOT
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proc
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opt
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read_liberty dlatchlibmap_dlatchn.lib
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read_liberty dlatchlibmap_dlatchsr_not_data.lib
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copy top top_unmapped
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simplemap top
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dfflibmap -liberty dlatchlibmap_dlatchn.lib -liberty dlatchlibmap_dlatchsr_not_data.lib top
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clk2fflogic
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flatten
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opt_clean -purge
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equiv_make top top_unmapped equiv
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equiv_induct -set-assumes equiv
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equiv_status -assert equiv
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##################################################################
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design -reset
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read_verilog <<EOT
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module top(input E, D, R, output Q);
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// DLATCH with preset
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always @*
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if (~R) Q <= 1'b1;
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else if (E) Q <= D;
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endmodule
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EOT
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proc
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opt
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read_liberty dlatchlibmap_dlatchn.lib
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read_liberty dlatchlibmap_dlatch_not_data.lib
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copy top top_unmapped
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simplemap top
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dfflibmap -liberty dlatchlibmap_dlatchn.lib -liberty dlatchlibmap_dlatch_not_data.lib top
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clk2fflogic
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flatten
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opt_clean -purge
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equiv_make top top_unmapped equiv
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equiv_induct -set-assumes equiv
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equiv_status -assert equiv
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