`define DEF_FUNCS \ function [255:0] init_slice_x8; \ input integer idx; \ integer i; \ for (i = 0; i < 32; i = i + 1) begin \ init_slice_x8[i*8+:8] = INIT[(idx * 32 + i) * 9+:8]; \ end \ endfunction \ function [287:0] init_slice_x9; \ input integer idx; \ init_slice_x9 = INIT[idx * 288+:288]; \ endfunction \ `define x8_width(width) (width / 9 * 8 + width % 9) `define x8_rd_data(data) {1'bx, data[31:24], 1'bx, data[23:16], 1'bx, data[15:8], 1'bx, data[7:0]} `define x8_wr_data(data) {data[34:27], data[25:18], data[16:9], data[7:0]} `define addrbe_always(width, addr) (width < 18 ? addr : width == 18 ? {addr[13:4], 4'b0011} : {addr[13:5], 5'b01111}) `define INIT(func) \ .INIT_RAM_00(func('h00)), \ .INIT_RAM_01(func('h01)), \ .INIT_RAM_02(func('h02)), \ .INIT_RAM_03(func('h03)), \ .INIT_RAM_04(func('h04)), \ .INIT_RAM_05(func('h05)), \ .INIT_RAM_06(func('h06)), \ .INIT_RAM_07(func('h07)), \ .INIT_RAM_08(func('h08)), \ .INIT_RAM_09(func('h09)), \ .INIT_RAM_0A(func('h0a)), \ .INIT_RAM_0B(func('h0b)), \ .INIT_RAM_0C(func('h0c)), \ .INIT_RAM_0D(func('h0d)), \ .INIT_RAM_0E(func('h0e)), \ .INIT_RAM_0F(func('h0f)), \ .INIT_RAM_10(func('h10)), \ .INIT_RAM_11(func('h11)), \ .INIT_RAM_12(func('h12)), \ .INIT_RAM_13(func('h13)), \ .INIT_RAM_14(func('h14)), \ .INIT_RAM_15(func('h15)), \ .INIT_RAM_16(func('h16)), \ .INIT_RAM_17(func('h17)), \ .INIT_RAM_18(func('h18)), \ .INIT_RAM_19(func('h19)), \ .INIT_RAM_1A(func('h1a)), \ .INIT_RAM_1B(func('h1b)), \ .INIT_RAM_1C(func('h1c)), \ .INIT_RAM_1D(func('h1d)), \ .INIT_RAM_1E(func('h1e)), \ .INIT_RAM_1F(func('h1f)), \ .INIT_RAM_20(func('h20)), \ .INIT_RAM_21(func('h21)), \ .INIT_RAM_22(func('h22)), \ .INIT_RAM_23(func('h23)), \ .INIT_RAM_24(func('h24)), \ .INIT_RAM_25(func('h25)), \ .INIT_RAM_26(func('h26)), \ .INIT_RAM_27(func('h27)), \ .INIT_RAM_28(func('h28)), \ .INIT_RAM_29(func('h29)), \ .INIT_RAM_2A(func('h2a)), \ .INIT_RAM_2B(func('h2b)), \ .INIT_RAM_2C(func('h2c)), \ .INIT_RAM_2D(func('h2d)), \ .INIT_RAM_2E(func('h2e)), \ .INIT_RAM_2F(func('h2f)), \ .INIT_RAM_30(func('h30)), \ .INIT_RAM_31(func('h31)), \ .INIT_RAM_32(func('h32)), \ .INIT_RAM_33(func('h33)), \ .INIT_RAM_34(func('h34)), \ .INIT_RAM_35(func('h35)), \ .INIT_RAM_36(func('h36)), \ .INIT_RAM_37(func('h37)), \ .INIT_RAM_38(func('h38)), \ .INIT_RAM_39(func('h39)), \ .INIT_RAM_3A(func('h3a)), \ .INIT_RAM_3B(func('h3b)), \ .INIT_RAM_3C(func('h3c)), \ .INIT_RAM_3D(func('h3d)), \ .INIT_RAM_3E(func('h3e)), \ .INIT_RAM_3F(func('h3f)), module $__GOWIN_SP_ (...); parameter INIT = 0; parameter OPTION_RESET_MODE = "SYNC"; parameter PORT_A_WIDTH = 36; parameter PORT_A_OPTION_WRITE_MODE = 0; input PORT_A_CLK; input PORT_A_CLK_EN; input PORT_A_WR_EN; input PORT_A_RD_SRST; input PORT_A_RD_ARST; input [13:0] PORT_A_ADDR; input [PORT_A_WIDTH-1:0] PORT_A_WR_DATA; output [PORT_A_WIDTH-1:0] PORT_A_RD_DATA; `DEF_FUNCS wire RST = OPTION_RESET_MODE == "SYNC" ? PORT_A_RD_SRST : PORT_A_RD_ARST; wire [13:0] AD = `addrbe_always(PORT_A_WIDTH, PORT_A_ADDR); generate if (PORT_A_WIDTH < 9) begin wire [31:0] DI = `x8_wr_data(PORT_A_WR_DATA); wire [31:0] DO; assign PORT_A_RD_DATA = `x8_rd_data(DO); SP #( `INIT(init_slice_x8) .READ_MODE(1'b0), .WRITE_MODE(PORT_A_OPTION_WRITE_MODE), .BIT_WIDTH(`x8_width(PORT_A_WIDTH)), .BLK_SEL(3'b000), .RESET_MODE(OPTION_RESET_MODE), ) _TECHMAP_REPLACE_ ( .BLKSEL(3'b000), .CLK(PORT_A_CLK), .CE(PORT_A_CLK_EN), .WRE(PORT_A_WR_EN), .RESET(RST), .OCE(1'b1), .AD(AD), .DI(DI), .DO(DO), ); end else begin wire [35:0] DI = PORT_A_WR_DATA; wire [35:0] DO; assign PORT_A_RD_DATA = DO; SPX9 #( `INIT(init_slice_x9) .READ_MODE(1'b0), .WRITE_MODE(PORT_A_OPTION_WRITE_MODE), .BIT_WIDTH(PORT_A_WIDTH), .BLK_SEL(3'b000), .RESET_MODE(OPTION_RESET_MODE), ) _TECHMAP_REPLACE_ ( .BLKSEL(3'b000), .CLK(PORT_A_CLK), .CE(PORT_A_CLK_EN), .WRE(PORT_A_WR_EN), .RESET(RST), .OCE(1'b1), .AD(AD), .DI(DI), .DO(DO), ); end endgenerate endmodule module $__GOWIN_DP_ (...); parameter INIT = 0; parameter OPTION_RESET_MODE = "SYNC"; parameter PORT_A_WIDTH = 18; parameter PORT_A_OPTION_WRITE_MODE = 0; parameter PORT_B_WIDTH = 18; parameter PORT_B_OPTION_WRITE_MODE = 0; input PORT_A_CLK; input PORT_A_CLK_EN; input PORT_A_WR_EN; input PORT_A_RD_SRST; input PORT_A_RD_ARST; input [13:0] PORT_A_ADDR; input [PORT_A_WIDTH-1:0] PORT_A_WR_DATA; output [PORT_A_WIDTH-1:0] PORT_A_RD_DATA; input PORT_B_CLK; input PORT_B_CLK_EN; input PORT_B_WR_EN; input PORT_B_RD_SRST; input PORT_B_RD_ARST; input [13:0] PORT_B_ADDR; input [PORT_A_WIDTH-1:0] PORT_B_WR_DATA; output [PORT_A_WIDTH-1:0] PORT_B_RD_DATA; `DEF_FUNCS wire RSTA = OPTION_RESET_MODE == "SYNC" ? PORT_A_RD_SRST : PORT_A_RD_ARST; wire RSTB = OPTION_RESET_MODE == "SYNC" ? PORT_B_RD_SRST : PORT_B_RD_ARST; wire [13:0] ADA = `addrbe_always(PORT_A_WIDTH, PORT_A_ADDR); wire [13:0] ADB = `addrbe_always(PORT_B_WIDTH, PORT_B_ADDR); generate if (PORT_A_WIDTH < 9 || PORT_B_WIDTH < 9) begin wire [15:0] DIA = `x8_wr_data(PORT_A_WR_DATA); wire [15:0] DIB = `x8_wr_data(PORT_B_WR_DATA); wire [15:0] DOA; wire [15:0] DOB; assign PORT_A_RD_DATA = `x8_rd_data(DOA); assign PORT_B_RD_DATA = `x8_rd_data(DOB); DPB #( `INIT(init_slice_x8) .READ_MODE0(1'b0), .READ_MODE1(1'b0), .WRITE_MODE0(PORT_A_OPTION_WRITE_MODE), .WRITE_MODE1(PORT_B_OPTION_WRITE_MODE), .BIT_WIDTH_0(`x8_width(PORT_A_WIDTH)), .BIT_WIDTH_1(`x8_width(PORT_B_WIDTH)), .BLK_SEL_0(3'b000), .BLK_SEL_1(3'b000), .RESET_MODE(OPTION_RESET_MODE), ) _TECHMAP_REPLACE_ ( .BLKSELA(3'b000), .BLKSELB(3'b000), .CLKA(PORT_A_CLK), .CEA(PORT_A_CLK_EN), .WREA(PORT_A_WR_EN), .RESETA(RSTA), .OCEA(1'b1), .ADA(ADA), .DIA(DIA), .DOA(DOA), .CLKB(PORT_B_CLK), .CEB(PORT_B_CLK_EN), .WREB(PORT_B_WR_EN), .RESETB(RSTB), .OCEB(1'b1), .ADB(ADB), .DIB(DIB), .DOB(DOB), ); end else begin wire [17:0] DIA = PORT_A_WR_DATA; wire [17:0] DIB = PORT_B_WR_DATA; wire [17:0] DOA; wire [17:0] DOB; assign PORT_A_RD_DATA = DOA; assign PORT_B_RD_DATA = DOB; DPX9B #( `INIT(init_slice_x9) .READ_MODE0(1'b0), .READ_MODE1(1'b0), .WRITE_MODE0(PORT_A_OPTION_WRITE_MODE), .WRITE_MODE1(PORT_B_OPTION_WRITE_MODE), .BIT_WIDTH_0(PORT_A_WIDTH), .BIT_WIDTH_1(PORT_B_WIDTH), .BLK_SEL_0(3'b000), .BLK_SEL_1(3'b000), .RESET_MODE(OPTION_RESET_MODE), ) _TECHMAP_REPLACE_ ( .BLKSELA(3'b000), .BLKSELB(3'b000), .CLKA(PORT_A_CLK), .CEA(PORT_A_CLK_EN), .WREA(PORT_A_WR_EN), .RESETA(RSTA), .OCEA(1'b1), .ADA(ADA), .DIA(DIA), .DOA(DOA), .CLKB(PORT_B_CLK), .CEB(PORT_B_CLK_EN), .WREB(PORT_B_WR_EN), .RESETB(RSTB), .OCEB(1'b1), .ADB(ADB), .DIB(DIB), .DOB(DOB), ); end endgenerate endmodule module $__GOWIN_SDP_ (...); parameter INIT = 0; parameter OPTION_RESET_MODE = "SYNC"; parameter PORT_R_WIDTH = 18; parameter PORT_W_WIDTH = 18; input PORT_R_CLK; input PORT_R_CLK_EN; input PORT_R_RD_SRST; input PORT_R_RD_ARST; input [13:0] PORT_R_ADDR; output [PORT_R_WIDTH-1:0] PORT_R_RD_DATA; input PORT_W_CLK; input PORT_W_CLK_EN; input PORT_W_WR_EN; input [13:0] PORT_W_ADDR; input [PORT_W_WIDTH-1:0] PORT_W_WR_DATA; `DEF_FUNCS wire RST = OPTION_RESET_MODE == "SYNC" ? PORT_R_RD_SRST : PORT_R_RD_ARST; wire [13:0] ADW = `addrbe_always(PORT_W_WIDTH, PORT_W_ADDR); generate if (PORT_W_WIDTH < 9 || PORT_R_WIDTH < 9) begin wire [31:0] DI = `x8_wr_data(PORT_W_WR_DATA); wire [31:0] DO; assign PORT_R_RD_DATA = `x8_rd_data(DO); SDPB #( `INIT(init_slice_x8) .READ_MODE(1'b0), .BIT_WIDTH_0(`x8_width(PORT_W_WIDTH)), .BIT_WIDTH_1(`x8_width(PORT_R_WIDTH)), .BLK_SEL_0(3'b000), .BLK_SEL_1(3'b000), .RESET_MODE(OPTION_RESET_MODE), ) _TECHMAP_REPLACE_ ( .BLKSELA(3'b000), .BLKSELB(3'b000), .CLKA(PORT_W_CLK), .CEA(PORT_W_CLK_EN), .RESETA(1'b0), .ADA(ADW), .DI(DI), .CLKB(PORT_R_CLK), .CEB(PORT_R_CLK_EN), .RESETB(RST), .OCE(1'b1), .ADB(PORT_R_ADDR), .DO(DO), ); end else begin wire [35:0] DI = PORT_W_WR_DATA; wire [35:0] DO; assign PORT_R_RD_DATA = DO; SDPX9B #( `INIT(init_slice_x9) .READ_MODE(1'b0), .BIT_WIDTH_0(PORT_W_WIDTH), .BIT_WIDTH_1(PORT_R_WIDTH), .BLK_SEL_0(3'b000), .BLK_SEL_1(3'b000), .RESET_MODE(OPTION_RESET_MODE), ) _TECHMAP_REPLACE_ ( .BLKSELA(3'b000), .BLKSELB(3'b000), .CLKA(PORT_W_CLK), .CEA(PORT_W_CLK_EN), .RESETA(1'b0), .ADA(ADW), .DI(DI), .CLKB(PORT_R_CLK), .CEB(PORT_R_CLK_EN), .RESETB(RST), .OCE(1'b1), .ADB(PORT_R_ADDR), .DO(DO), ); end endgenerate endmodule