`timescale 1ns / 1ps ////////////////////////////////////////////////////////////////////////////////// module gpmc (input EM_CLK, inout [15:0] EM_D, input [10:1] EM_A, input [1:0] EM_NBE, input EM_WAIT0, input EM_NCS4, input EM_NCS6, input EM_NWE, input EM_NOE, input wb_clk, input wb_rst, output reg [10:0] wb_adr_o, output reg [15:0] wb_dat_mosi, input [15:0] wb_dat_miso, output reg [1:0] wb_sel_o, output wb_cyc_o, output reg wb_stb_o, output reg wb_we_o, input wb_ack_i ); wire EM_output_enable = (~EM_NOE & (~EM_NCS4 | ~EM_NCS6)); wire [15:0] EM_D_ram; wire [15:0] EM_D_wb; assign EM_D = ~EM_output_enable ? 16'bz : ~EM_NCS4 ? EM_D_ram : EM_D_wb; // CS4 is RAM_2PORT for high-speed data ram_2port #(.DWIDTH(16), .AWIDTH(10)) ram_2port (.clka(wb_clk), .ena(~EM_NCS4), .wea(~EM_NWE), .addra(EM_A), .dia(EM_D), .doa(EM_D_ram), .clkb(wb_clk), .enb(0), .web(0), .addrb(0), .dib(0), .dob()); // CS6 is Control, Wishbone bus bridge (wb master) // Sync version reg [1:0] cs_del, we_del, oe_del; // Synchronize the async control signals always @(posedge wb_clk) begin cs_del <= { cs_del[0], EM_NCS6 }; we_del <= { we_del[0], EM_NWE }; oe_del <= { oe_del[0], EM_NOE }; end always @(posedge wb_clk) if(cs_del == 2'b10) // Falling Edge wb_adr_o <= { EM_A, 1'b0 }; always @(posedge wb_clk) if(we_del == 2'b10) // Falling Edge begin wb_dat_mosi <= EM_D; wb_sel_o <= ~EM_NBE; end reg [15:0] EM_D_wb_reg; always @(posedge wb_clk) if(wb_ack_i) EM_D_wb_reg <= wb_dat_miso; assign EM_D_wb = wb_ack_i ? wb_dat_miso : EM_D_wb_reg; // stb, oe_del, we_del assign wb_cyc_o = wb_stb_o; always @(posedge wb_clk) if( ~cs_del[0] & (we_del == 2'b10) ) wb_we_o <= 1; else if(wb_ack_i) // Turn off we when done. Could also use we_del[0], others... wb_we_o <= 0; always @(posedge wb_clk) if( ~cs_del[0] & ((we_del == 2'b10) | (oe_del == 2'b10))) wb_stb_o <= 1; else if(wb_ack_i) wb_stb_o <= 0; endmodule // gpmc