// Basic DFF module \$_DFF_P_ (D, C, Q); input D; input C; output Q; parameter _TECHMAP_WIREINIT_Q_ = 1'bx; dff _TECHMAP_REPLACE_ (.Q(Q), .D(D), .C(C)); endmodule // Async reset module \$_DFF_PP0_ (D, C, R, Q); input D; input C; input R; output Q; parameter _TECHMAP_WIREINIT_Q_ = 1'bx; dffr _TECHMAP_REPLACE_ (.Q(Q), .D(D), .C(C), .R(R)); endmodule // Async active-low reset module \$_DFF_PN0_ (D, C, R, Q); input D; input C; input R; output Q; parameter _TECHMAP_WIREINIT_Q_ = 1'bx; dffrn _TECHMAP_REPLACE_ (.Q(Q), .D(D), .C(C), .RN(R)); endmodule // Async reset, enable module \$_DFFE_PP0P_ (D, C, E, R, Q); input D; input C; input E; input R; output Q; parameter _TECHMAP_WIREINIT_Q_ = 1'bx; dffre _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E), .R(R)); endmodule // Latch with Async reset, enable module \$_DLATCH_PP0_ (input E, R, D, output Q); parameter _TECHMAP_WIREINIT_Q_ = 1'bx; latchre _TECHMAP_REPLACE_ (.D(D), .Q(Q), .E(1'b1), .G(E), .R(R)); endmodule // The following techmap operation are not performed right now // as Negative edge FF are not legalized in synth_quicklogic for qlf_k6n10 // but in case we implement clock inversion in the future, the support is ready for it. module \$_DFF_N_ (D, C, Q); input D; input C; output Q; parameter _TECHMAP_WIREINIT_Q_ = 1'bx; dff #(.IS_C_INVERTED(1'b1)) _TECHMAP_REPLACE_ (.Q(Q), .D(D), .C(C)); endmodule module \$_DFF_NP0_ (D, C, R, Q); input D; input C; input R; output Q; parameter _TECHMAP_WIREINIT_Q_ = 1'bx; dffr #(.IS_C_INVERTED(1'b1)) _TECHMAP_REPLACE_ (.Q(Q), .D(D), .C(C), .R(R)); endmodule module \$_DFFE_NP0P_ (D, C, E, R, Q); input D; input C; input E; input R; output Q; parameter _TECHMAP_WIREINIT_Q_ = 1'bx; dffre #(.IS_C_INVERTED(1'b1)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E), .R(R)); endmodule