module $__ANALOGDEVICES_LUTRAM_SP_ (...); parameter INIT = 0; parameter OPTION_ABITS = 5; output PORT_RW_RD_DATA; input PORT_RW_WR_DATA; input [OPTION_ABITS-1:0] PORT_RW_ADDR; input PORT_RW_WR_EN; input PORT_RW_CLK; generate case(OPTION_ABITS) 5: RAMS32X1 #( .INIT(INIT) ) _TECHMAP_REPLACE_ ( .O(PORT_RW_RD_DATA), .A0(PORT_RW_ADDR[0]), .A1(PORT_RW_ADDR[1]), .A2(PORT_RW_ADDR[2]), .A3(PORT_RW_ADDR[3]), .A4(PORT_RW_ADDR[4]), .D(PORT_RW_WR_DATA), .WCLK(PORT_RW_CLK), .WE(PORT_RW_WR_EN) ); 6: RAMS64X1 #( .INIT(INIT) ) _TECHMAP_REPLACE_ ( .O(PORT_RW_RD_DATA), .A0(PORT_RW_ADDR[0]), .A1(PORT_RW_ADDR[1]), .A2(PORT_RW_ADDR[2]), .A3(PORT_RW_ADDR[3]), .A4(PORT_RW_ADDR[4]), .A5(PORT_RW_ADDR[5]), .D(PORT_RW_WR_DATA), .WCLK(PORT_RW_CLK), .WE(PORT_RW_WR_EN) ); default: $error("invalid OPTION_ABITS"); endcase endgenerate endmodule module $__ANALOGDEVICES_LUTRAM_DP_ (...); parameter INIT = 0; parameter OPTION_ABITS = 5; output PORT_RW_RD_DATA; input PORT_RW_WR_DATA; input [OPTION_ABITS-1:0] PORT_RW_ADDR; input PORT_RW_WR_EN; input PORT_RW_CLK; output PORT_R_RD_DATA; input [OPTION_ABITS-1:0] PORT_R_ADDR; generate case (OPTION_ABITS) 5: RAMD32X1 #( .INIT(INIT) ) _TECHMAP_REPLACE_ ( .DPO(PORT_R_RD_DATA), .SPO(PORT_RW_RD_DATA), .A0(PORT_RW_ADDR[0]), .A1(PORT_RW_ADDR[1]), .A2(PORT_RW_ADDR[2]), .A3(PORT_RW_ADDR[3]), .A4(PORT_RW_ADDR[4]), .D(PORT_RW_WR_DATA), .DPRA0(PORT_R_ADDR[0]), .DPRA1(PORT_R_ADDR[1]), .DPRA2(PORT_R_ADDR[2]), .DPRA3(PORT_R_ADDR[3]), .DPRA4(PORT_R_ADDR[4]), .WCLK(PORT_RW_CLK), .WE(PORT_RW_WR_EN) ); 6: RAMD64X1 #( .INIT(INIT) ) _TECHMAP_REPLACE_ ( .DPO(PORT_R_RD_DATA), .SPO(PORT_RW_RD_DATA), .A0(PORT_RW_ADDR[0]), .A1(PORT_RW_ADDR[1]), .A2(PORT_RW_ADDR[2]), .A3(PORT_RW_ADDR[3]), .A4(PORT_RW_ADDR[4]), .A5(PORT_RW_ADDR[5]), .D(PORT_RW_WR_DATA), .DPRA0(PORT_R_ADDR[0]), .DPRA1(PORT_R_ADDR[1]), .DPRA2(PORT_R_ADDR[2]), .DPRA3(PORT_R_ADDR[3]), .DPRA4(PORT_R_ADDR[4]), .DPRA5(PORT_R_ADDR[5]), .WCLK(PORT_RW_CLK), .WE(PORT_RW_WR_EN) ); default: $error("invalid OPTION_ABITS/WIDTH combination"); endcase endgenerate endmodule