module TB_GND(ok); wire MY_G, XL_G; MY_GND MY(.G(MY_G)); XL_GND XL(.G(XL_G)); output ok = MY_G == XL_G; endmodule module TB_INV(ok, I); input I; wire MY_O, XL_O; MY_INV MY(.O(MY_O), .I(I)); XL_INV XL(.O(XL_O), .I(I)); output ok = MY_O == XL_O; endmodule module TB_LUT2(ok, I0, I1); input I0, I1; wire MY_O, XL_O; MY_LUT2 #(.INIT(1234567)) MY(.O(MY_O), .I0(I0), .I1(I1)); XL_LUT2 #(.INIT(1234567)) XL(.O(XL_O), .I0(I0), .I1(I1)); output ok = MY_O == XL_O; endmodule module TB_LUT3(ok, I0, I1, I2); input I0, I1, I2; wire MY_O, XL_O; MY_LUT3 #(.INIT(1234567)) MY(.O(MY_O), .I0(I0), .I1(I1), .I2(I2)); XL_LUT3 #(.INIT(1234567)) XL(.O(XL_O), .I0(I0), .I1(I1), .I2(I2)); output ok = MY_O == XL_O; endmodule module TB_LUT4(ok, I0, I1, I2, I3); input I0, I1, I2, I3; wire MY_O, XL_O; MY_LUT4 #(.INIT(1234567)) MY(.O(MY_O), .I0(I0), .I1(I1), .I2(I2), .I3(I3)); XL_LUT4 #(.INIT(1234567)) XL(.O(XL_O), .I0(I0), .I1(I1), .I2(I2), .I3(I3)); output ok = MY_O == XL_O; endmodule module TB_LUT5(ok, I0, I1, I2, I3, I4); input I0, I1, I2, I3, I4; wire MY_O, XL_O; MY_LUT5 #(.INIT(1234567)) MY(.O(MY_O), .I0(I0), .I1(I1), .I2(I2), .I3(I3), .I4(I4)); XL_LUT5 #(.INIT(1234567)) XL(.O(XL_O), .I0(I0), .I1(I1), .I2(I2), .I3(I3), .I4(I4)); output ok = MY_O == XL_O; endmodule module TB_LUT6(ok, I0, I1, I2, I3, I4, I5); input I0, I1, I2, I3, I4, I5; wire MY_O, XL_O; MY_LUT6 #(.INIT(1234567)) MY(.O(MY_O), .I0(I0), .I1(I1), .I2(I2), .I3(I3), .I4(I4), .I5(I5)); XL_LUT6 #(.INIT(1234567)) XL(.O(XL_O), .I0(I0), .I1(I1), .I2(I2), .I3(I3), .I4(I4), .I5(I5)); output ok = MY_O == XL_O; endmodule module TB_MUXCY(ok, CI, DI, S); input CI, DI, S; wire MY_O, XL_O; MY_MUXCY MY(.O(MY_O), .CI(CI), .DI(DI), .S(S)); XL_MUXCY XL(.O(XL_O), .CI(CI), .DI(DI), .S(S)); output ok = MY_O == XL_O; endmodule module TB_MUXF7(ok, I0, I1, S); input I0, I1, S; wire MY_O, XL_O; MY_MUXF7 MY(.O(MY_O), .I0(I0), .I1(I1), .S(S)); XL_MUXF7 XL(.O(XL_O), .I0(I0), .I1(I1), .S(S)); output ok = MY_O == XL_O; endmodule module TB_VCC(ok); wire MY_P, XL_P; MY_VCC MY(.P(MY_P)); XL_VCC XL(.P(XL_P)); output ok = MY_P == XL_P; endmodule module TB_XORCY(ok, CI, LI); input CI, LI; wire MY_O, XL_O; MY_XORCY MY(.O(MY_O), .CI(CI), .LI(LI)); XL_XORCY XL(.O(XL_O), .CI(CI), .LI(LI)); output ok = MY_O == XL_O; endmodule