module memory_bram ( input clk, n64_scb.bram n64_scb, mem_bus.memory mem_bus ); // Request logic logic [1:0] last_request; logic write; always_ff @(posedge clk) begin last_request <= {last_request[0], mem_bus.request}; end always_ff @(posedge clk) begin mem_bus.ack <= mem_bus.request && last_request[0] && !last_request[1]; end always_comb begin write = mem_bus.request && !last_request[0] && mem_bus.write; end // Address decoding logic buffer_selected; logic eeprom_selected; logic flashram_selected; logic dd_selected; always_comb begin buffer_selected = mem_bus.address[14:13] == 2'b00; eeprom_selected = mem_bus.address[14:13] == 2'b01; flashram_selected = mem_bus.address[14:13] == 2'b10; dd_selected = mem_bus.address[14:13] == 2'b11; end // Buffer memory logic [15:0] buffer_bram [0:4095]; logic [15:0] buffer_bram_rdata; always_ff @(posedge clk) begin if (write && buffer_selected) begin buffer_bram[mem_bus.address[12:1]] <= mem_bus.wdata; end end always_ff @(posedge clk) begin buffer_bram_rdata <= buffer_bram[mem_bus.address[12:1]]; end // EEPROM memory logic [7:0] eeprom_bram_high [0:1023]; logic [7:0] eeprom_bram_low [0:1023]; logic [7:0] eeprom_bram_high_rdata; logic [7:0] eeprom_bram_low_rdata; logic [7:0] eeprom_bram_high_n64_rdata; logic [7:0] eeprom_bram_low_n64_rdata; logic [15:0] eeprom_bram_rdata; always_ff @(posedge clk) begin if (write && eeprom_selected) begin eeprom_bram_high[mem_bus.address[10:1]] <= mem_bus.wdata[15:8]; end if (n64_scb.eeprom_write && !n64_scb.eeprom_address[0]) begin eeprom_bram_high[n64_scb.eeprom_address[10:1]] <= n64_scb.eeprom_wdata; end end always_ff @(posedge clk) begin if (write && eeprom_selected) begin eeprom_bram_low[mem_bus.address[10:1]] <= mem_bus.wdata[7:0]; end if (n64_scb.eeprom_write && n64_scb.eeprom_address[0]) begin eeprom_bram_low[n64_scb.eeprom_address[10:1]] <= n64_scb.eeprom_wdata; end end always_ff @(posedge clk) begin eeprom_bram_high_rdata <= eeprom_bram_high[mem_bus.address[10:1]]; end always_ff @(posedge clk) begin eeprom_bram_low_rdata <= eeprom_bram_low[mem_bus.address[10:1]]; end always_ff @(posedge clk) begin eeprom_bram_high_n64_rdata <= eeprom_bram_high[n64_scb.eeprom_address[10:1]]; end always_ff @(posedge clk) begin eeprom_bram_low_n64_rdata <= eeprom_bram_low[n64_scb.eeprom_address[10:1]]; end always_comb begin eeprom_bram_rdata = {eeprom_bram_high_rdata, eeprom_bram_low_rdata}; n64_scb.eeprom_rdata = n64_scb.eeprom_address[0] ? eeprom_bram_low_n64_rdata : eeprom_bram_high_n64_rdata; end // FlashRAM memory logic [15:0] flashram_bram [0:63]; logic [15:0] flashram_bram_rdata; always_ff @(posedge clk) begin if (n64_scb.flashram_write) begin flashram_bram[n64_scb.flashram_address] <= n64_scb.flashram_wdata; end end always_ff @(posedge clk) begin flashram_bram_rdata <= flashram_bram[mem_bus.address[6:1]]; end // DD memory logic [15:0] dd_bram [0:1023]; logic [15:0] dd_bram_rdata; always_ff @(posedge clk) begin if (write && dd_selected) begin dd_bram[mem_bus.address[9:1]] <= mem_bus.wdata; end if (n64_scb.dd_write) begin dd_bram[n64_scb.dd_address] <= n64_scb.dd_wdata; end end always_ff @(posedge clk) begin dd_bram_rdata <= dd_bram[mem_bus.address[9:1]]; end always_ff @(posedge clk) begin n64_scb.dd_rdata <= dd_bram[n64_scb.dd_address]; end // Output data mux always_ff @(posedge clk) begin mem_bus.rdata <= 16'd0; if (buffer_selected) mem_bus.rdata <= buffer_bram_rdata; if (eeprom_selected) mem_bus.rdata <= eeprom_bram_rdata; if (flashram_selected) mem_bus.rdata <= flashram_bram_rdata; if (dd_selected) mem_bus.rdata <= dd_bram_rdata; end endmodule