/* * Top level design of the FPGC */ module FPGC( input clock, //50MHz input nreset, nBtnl, nBtnr, //HDMI output [3:0] TMDS_p, output [3:0] TMDS_n, //NTSC composite video signal output [7:0] composite, //SDRAM output SDRAM_CLK, output SDRAM_CSn, output SDRAM_WEn, output SDRAM_CASn, output SDRAM_RASn, output SDRAM_CKE, output [12:0] SDRAM_A, output [1:0] SDRAM_BA, output [3:0] SDRAM_DQM, inout [31:0] SDRAM_DQ, //SPI0 flash output SPI0_clk, output SPI0_cs, inout SPI0_data, inout SPI0_q, inout SPI0_wp, inout SPI0_hold, //SPI1 CH376 bottom output SPI1_clk, output SPI1_cs, output SPI1_mosi, input SPI1_miso, input SPI1_nint, output SPI1_rst, //SPI2 CH376 top output SPI2_clk, output SPI2_cs, output SPI2_mosi, input SPI2_miso, input SPI2_nint, output SPI2_rst, //SPI3 W5500 output SPI3_clk, output SPI3_cs, output SPI3_mosi, input SPI3_miso, input SPI3_int, output SPI3_nrst, //SPI4 GP output SPI4_clk, output SPI4_cs, output SPI4_mosi, input SPI4_miso, input SPI4_gp, //UART0 input UART0_in, output UART0_out, input UART0_dtr, //UART1 (currently unused because no UART midi synth anymore) //input UART1_in, //output UART1_out, //UART2 input UART2_in, output UART2_out, //PS/2 input PS2_clk, PS2_data, //Led for debugging output led, //GPIO input [3:0] GPI, output [3:0] GPO, //DIP switch input [3:0] DIPS, //I2S audio output I2S_SDIN, I2S_SCLK, I2S_LRCLK, I2S_MCLK, //Status leds output led_Booted, led_Eth, led_Flash, led_USB0, led_USB1, led_PS2, led_HDMI, led_QSPI, led_GPU, led_I2S ); // TMP FIXES FOR NEW PCB assign I2S_SDIN = 1'b0; assign I2S_SCLK = 1'b0; assign I2S_LRCLK = 1'b0; assign I2S_MCLK = 1'b0; //-------------------CLK------------------------- // Clock generator PLL wire clkPixel; // Pixel clock (25MHz) wire clkTMDShalf; // TMDS clock (pre-DDR), 5x pixel clock (125MHz) wire clk_SDRAM; // SDRAM clock (100MHz) wire clk; // System clock (50MHz) //clock_pll_v clkPll( //.refclk (clock), //.outclk_0 (clkPixel), //.outclk_1 (clkTMDShalf), //.outclk_2 (clk_SDRAM), //.outclk_3 (SDRAM_CLK), //.outclk_4 (clk) //); /* clock_pll clkPll( .inclk0 (clock), .areset (1'b0), .c0 (clk_SDRAM), .c1 (SDRAM_CLK), .c2 (clk), .c3 (clkPixel), .c4 (clkTMDShalf) ); */ mainpll mainClkPll( .refclk (clock), .rst (1'b0), .outclk_0 (clk_SDRAM), .outclk_1 (SDRAM_CLK), .outclk_2 (clk), .outclk_3 (clkPixel), .outclk_4 (clkTMDShalf) ); wire clk14; //14.31818MHz (50*63/220) wire clk114; //14.31818 * 8 MHz = 114.5454MHz (50*(63*2)/55) //NTSC_pll ntscPll( //.refclk (clock), //.outclk_0 (clk14), //.outclk_1 (clk114), //.outclk_2 (clkPixel), // 25.2MHz dirty fix to allow ALTCLKBUF //.outclk_3 (clkTMDShalf) //); /* NTSC_pll ntscPll( .inclk0 (clk), .areset (1'b0), //.c0 (clk14), //.c1 (clk114), .c2 (clkPixel), // 25.2MHz dirty fix to allow ALTCLKBUF .c3 (clkTMDShalf) ); */ wire clkMuxOut; //wire selectOutput; // 1 -> HDMI, 0 -> Composite /* clkMux clkmux( .inclk0x(clock), .inclk1x(clock), .inclk2x(clk14), .inclk3x(clkPixel), .clkselect({1'b1, selectOutput}), .outclk(clkMuxOut) ); */ assign clkMuxOut = clkPixel; //--------------------Reset&Stabilizers----------------------- // Reset signals wire nreset_stable, UART0_dtr_stable; wire nreset_unstable; assign nreset_unstable = nreset & nBtnl & nBtnr; // Dip switch wire boot_mode_stable; // GPU: High when frame just rendered (needs to be stabilized) wire frameDrawn, frameDrawn_stable; // Stabilized SPI interrupt signals wire SPI1_nint_stable, SPI2_nint_stable, SPI3_int_stable, SPI4_gp_stable; MultiStabilizer multistabilizer( .clk (clk), .u0 (nreset_unstable), .s0 (nreset_stable), .u1 (UART0_dtr), .s1 (UART0_dtr_stable), .u2 (SPI1_nint), .s2 (SPI1_nint_stable), .u3 (SPI2_nint), .s3 (SPI2_nint_stable), .u4 (SPI3_int), .s4 (SPI3_int_stable), .u5 (SPI4_gp), .s5 (SPI4_gp_stable), .u6 (frameDrawn), .s6 (frameDrawn_stable), .u7 (DIPS[0]), .s7 (boot_mode_stable) //.u8 (DIPS[1]), //.s8 (selectOutput) ); //assign selectOutput = 1'b0; // Debug: indicator for opened Serial port assign led = UART0_dtr_stable; // DTR to reset pulse wire dtrRst; DtrReset dtrReset( .clk (clk), .dtr (UART0_dtr_stable), .dtrRst (dtrRst) ); wire reset = (~nreset_stable) || dtrRst; // Global reset // External reset outputs assign SPI1_rst = reset; assign SPI2_rst = reset; assign SPI3_nrst = ~reset; //---------------------------VRAM32--------------------------------- // VRAM32 I/O wire vram32_gpu_clk; wire [13:0] vram32_gpu_addr; wire [31:0] vram32_gpu_d; wire vram32_gpu_we; wire [31:0] vram32_gpu_q; wire vram32_cpu_clk; wire [13:0] vram32_cpu_addr; wire [31:0] vram32_cpu_d; wire vram32_cpu_we; wire [31:0] vram32_cpu_q; // FSX will not write to VRAM assign vram32_gpu_we = 1'b0; assign vram32_gpu_d = 32'd0; VRAM #( .WIDTH(32), .WORDS(1056), .ADDR_BITS(14), .LIST("memory/vram32.list") ) vram32( // CPU port .cpu_clk (clk), .cpu_d (vram32_cpu_d), .cpu_addr (vram32_cpu_addr), .cpu_we (vram32_cpu_we), .cpu_q (vram32_cpu_q), // GPU port .gpu_clk (clkMuxOut), .gpu_d (vram32_gpu_d), .gpu_addr (vram32_gpu_addr), .gpu_we (vram32_gpu_we), .gpu_q (vram32_gpu_q) ); //---------------------------VRAM322-------------------------------- // VRAM322 I/O wire vram322_gpu_clk; wire [13:0] vram322_gpu_addr; wire [31:0] vram322_gpu_d; wire vram322_gpu_we; wire [31:0] vram322_gpu_q; // FSX will not write to VRAM assign vram322_gpu_we = 1'b0; assign vram322_gpu_d = 32'd0; VRAM #( .WIDTH(32), .WORDS(1056), .ADDR_BITS(14), .LIST("memory/vram32.list") ) vram322( // CPU port .cpu_clk (clk), .cpu_d (vram32_cpu_d), .cpu_addr (vram32_cpu_addr), .cpu_we (vram32_cpu_we), .cpu_q (), // GPU port .gpu_clk (clkMuxOut), .gpu_d (vram322_gpu_d), .gpu_addr (vram322_gpu_addr), .gpu_we (vram322_gpu_we), .gpu_q (vram322_gpu_q) ); //--------------------------VRAM8-------------------------------- //VRAM8 I/O wire vram8_gpu_clk; wire [13:0] vram8_gpu_addr; wire [7:0] vram8_gpu_d; wire vram8_gpu_we; wire [7:0] vram8_gpu_q; wire vram8_cpu_clk; wire [13:0] vram8_cpu_addr; wire [7:0] vram8_cpu_d; wire vram8_cpu_we; wire [7:0] vram8_cpu_q; // FSX will not write to VRAM assign vram8_gpu_we = 1'b0; assign vram8_gpu_d = 8'd0; VRAM #( .WIDTH(8), .WORDS(8194), .ADDR_BITS(14), .LIST("memory/vram8.list") ) vram8( // CPU port .cpu_clk (clk), .cpu_d (vram8_cpu_d), .cpu_addr (vram8_cpu_addr), .cpu_we (vram8_cpu_we), .cpu_q (vram8_cpu_q), // GPU port .gpu_clk (clkMuxOut), .gpu_d (vram8_gpu_d), .gpu_addr (vram8_gpu_addr), .gpu_we (vram8_gpu_we), .gpu_q (vram8_gpu_q) ); //--------------------------VRAMSPR-------------------------------- //VRAMSPR I/O wire vramSPR_gpu_clk; wire [13:0] vramSPR_gpu_addr; wire [8:0] vramSPR_gpu_d; wire vramSPR_gpu_we; wire [8:0] vramSPR_gpu_q; wire vramSPR_cpu_clk; wire [13:0] vramSPR_cpu_addr; wire [8:0] vramSPR_cpu_d; wire vramSPR_cpu_we; wire [8:0] vramSPR_cpu_q; // FSX will not write to VRAM assign vramSPR_gpu_we = 1'b0; assign vramSPR_gpu_d = 9'd0; VRAM #( .WIDTH(9), .WORDS(256), .ADDR_BITS(14), .LIST("memory/vramSPR.list") ) vramSPR( // CPU port .cpu_clk (clk), .cpu_d (vramSPR_cpu_d), .cpu_addr (vramSPR_cpu_addr), .cpu_we (vramSPR_cpu_we), .cpu_q (vramSPR_cpu_q), // GPU port .gpu_clk (clkMuxOut), .gpu_d (vramSPR_gpu_d), .gpu_addr (vramSPR_gpu_addr), .gpu_we (vramSPR_gpu_we), .gpu_q (vramSPR_gpu_q) ); //--------------------------VRAMPX-------------------------------- //VRAMPX I/O wire vramPX_gpu_clk; wire [16:0] vramPX_gpu_addr; wire [23:0] vramPX_gpu_d; wire vramPX_gpu_we; wire [23:0] vramPX_gpu_q; wire vramPX_cpu_clk; wire [16:0] vramPX_cpu_addr; wire [23:0] vramPX_cpu_d; wire vramPX_cpu_we; wire [23:0] vramPX_cpu_q; // FSX will not write to VRAM assign vramPX_gpu_we = 1'b0; assign vramPX_gpu_d = 24'd0; VRAM #( .WIDTH(24), .WORDS(76800), .ADDR_BITS(17), .LIST("memory/vramPX.list") ) vramPX( // CPU port .cpu_clk (clk), .cpu_d (vramPX_cpu_d), .cpu_addr (vramPX_cpu_addr), .cpu_we (vramPX_cpu_we), .cpu_q (vramPX_cpu_q), // GPU port .gpu_clk (clkMuxOut), .gpu_d (vramPX_gpu_d), .gpu_addr (vramPX_gpu_addr), .gpu_we (vramPX_gpu_we), .gpu_q (vramPX_gpu_q) ); //-------------------ROM------------------------- // ROM I/O wire [8:0] rom_addr; wire [31:0] rom_q; ROM rom( .clk (clk), .reset (reset), .address (rom_addr), .q (rom_q) ); //----------------SDRAM Controller------------------ // inputs wire [23:0] sdc_addr; // address to write or to start reading from wire [31:0] sdc_data; // data to write wire sdc_we; // write enable wire sdc_start; // start trigger // outputs wire [31:0] sdc_q; // memory output wire sdc_done; // output ready SDRAMcontroller sdramcontroller( // clock/reset inputs .clk (clk_SDRAM), .reset (reset), // interface inputs .sdc_addr (sdc_addr), .sdc_data (sdc_data), .sdc_we (sdc_we), .sdc_start (sdc_start), // interface outputs .sdc_q (sdc_q), .sdc_done (sdc_done), // SDRAM signals .SDRAM_CKE (SDRAM_CKE), .SDRAM_CSn (SDRAM_CSn), .SDRAM_WEn (SDRAM_WEn), .SDRAM_CASn (SDRAM_CASn), .SDRAM_RASn (SDRAM_RASn), .SDRAM_A (SDRAM_A), .SDRAM_BA (SDRAM_BA), .SDRAM_DQM (SDRAM_DQM), .SDRAM_DQ (SDRAM_DQ) ); //-----------------------FSX------------------------- // FSX I/O //wire [7:0] composite; // NTSC composite video signal FSX fsx( // Clocks .clkPixel (clkPixel), .clkTMDShalf (clkTMDShalf), //.clk14 (clk14), //.clk114 (clk114), .clkMuxOut (clkMuxOut), // HDMI .TMDS_p (TMDS_p), .TMDS_n (TMDS_n), // NTSC composite //.composite (composite), // Select output method //.selectOutput (selectOutput), // VRAM32 .vram32_addr (vram32_gpu_addr), .vram32_q (vram32_gpu_q), // VRAM32 .vram322_addr (vram322_gpu_addr), .vram322_q (vram322_gpu_q), // VRAM8 .vram8_addr (vram8_gpu_addr), .vram8_q (vram8_gpu_q), // VRAMSPR .vramSPR_addr (vramSPR_gpu_addr), .vramSPR_q (vramSPR_gpu_q), //VRAMPX .vramPX_addr (vramPX_gpu_addr), .vramPX_q (vramPX_gpu_q), // Interrupt signal .frameDrawn (frameDrawn) ); //----------------Memory Unit-------------------- // Memory Unit I/O // Bus wire [26:0] bus_addr; wire [31:0] bus_data; wire bus_we; wire bus_start; wire [31:0] bus_q; wire bus_done; // Interrupt signals wire OST1_int, OST2_int, OST3_int; wire UART0_rx_int, UART2_rx_int; wire PS2_int; wire SPI0_QSPI; MemoryUnit mu( // Clocks .clk (clk), .reset (reset), // Bus .bus_addr (bus_addr), .bus_data (bus_data), .bus_we (bus_we), .bus_start (bus_start), .bus_q (bus_q), .bus_done (bus_done), /******** * MEMORY ********/ // SPI Flash / SPI0 .SPIflash_data (SPI0_data), .SPIflash_q (SPI0_q), .SPIflash_wp (SPI0_wp), .SPIflash_hold (SPI0_hold), .SPIflash_cs (SPI0_cs), .SPIflash_clk (SPI0_clk), // VRAM32 cpu port .VRAM32_cpu_d (vram32_cpu_d), .VRAM32_cpu_addr (vram32_cpu_addr), .VRAM32_cpu_we (vram32_cpu_we), .VRAM32_cpu_q (vram32_cpu_q), // VRAM8 cpu port .VRAM8_cpu_d (vram8_cpu_d), .VRAM8_cpu_addr (vram8_cpu_addr), .VRAM8_cpu_we (vram8_cpu_we), .VRAM8_cpu_q (vram8_cpu_q), // VRAMspr cpu port .VRAMspr_cpu_d (vramSPR_cpu_d), .VRAMspr_cpu_addr (vramSPR_cpu_addr), .VRAMspr_cpu_we (vramSPR_cpu_we), .VRAMspr_cpu_q (vramSPR_cpu_q), // VRAMpx cpu port .VRAMpx_cpu_d (vramPX_cpu_d), .VRAMpx_cpu_addr (vramPX_cpu_addr), .VRAMpx_cpu_we (vramPX_cpu_we), .VRAMpx_cpu_q (vramPX_cpu_q), // ROM .ROM_addr (rom_addr), .ROM_q (rom_q), /******** * I/O ********/ // UART0 (Main USB) .UART0_in (UART0_in), .UART0_out (UART0_out), .UART0_rx_interrupt (UART0_rx_int), // UART1 (APU) /* .UART1_in (), .UART1_out (), .UART1_rx_interrupt (), */ // UART2 (GP) .UART2_in (UART2_in), .UART2_out (UART2_out), .UART2_rx_interrupt (UART2_rx_int), //SPI0 (Flash) //declared under MEMORY .SPI0_QSPI (SPI0_QSPI), // SPI1 (USB0/CH376T, bottom) .SPI1_clk (SPI1_clk), .SPI1_cs (SPI1_cs), .SPI1_mosi (SPI1_mosi), .SPI1_miso (SPI1_miso), .SPI1_nint (SPI1_nint_stable), // SPI2 (USB1/CH376T, top) .SPI2_clk (SPI2_clk), .SPI2_cs (SPI2_cs), .SPI2_mosi (SPI2_mosi), .SPI2_miso (SPI2_miso), .SPI2_nint (SPI2_nint_stable), // SPI3 (W5500) .SPI3_clk (SPI3_clk), .SPI3_cs (SPI3_cs), .SPI3_mosi (SPI3_mosi), .SPI3_miso (SPI3_miso), .SPI3_int (SPI3_int_stable), // SPI4 (EXT/GP) .SPI4_clk (SPI4_clk), .SPI4_cs (SPI4_cs), .SPI4_mosi (SPI4_mosi), .SPI4_miso (SPI4_miso), .SPI4_GP (SPI4_gp_stable), // GPIO (Separated GPI and GPO until GPIO module is implemented) .GPI (GPI[3:0]), .GPO (GPO[3:0]), // OStimers .OST1_int (OST1_int), .OST2_int (OST2_int), .OST3_int (OST3_int), // SNESpad /* .SNES_clk (), .SNES_latch (), .SNES_data (), */ // PS/2 .PS2_clk (PS2_clk), .PS2_data (PS2_data), .PS2_int (PS2_int), //Scan code ready signal // Boot mode .boot_mode (boot_mode_stable) ); //------------L2 Cache-------------- //CPU bus wire [23:0] l2_addr; // address to write or to start reading from wire [31:0] l2_data; // data to write wire l2_we; // write enable wire l2_start; // start trigger wire [31:0] l2_q; // memory output wire l2_done; // output ready L2cache l2cache( .clk (clk_SDRAM), .reset (reset), // CPU bus .l2_addr (l2_addr), .l2_data (l2_data), .l2_we (l2_we), .l2_start (l2_start), .l2_q (l2_q), .l2_done (l2_done), // sdram bus .sdc_addr (sdc_addr), .sdc_data (sdc_data), .sdc_we (sdc_we), .sdc_start (sdc_start), .sdc_q (sdc_q), .sdc_done (sdc_done) ); //---------------CPU---------------- // CPU I/O wire [26:0] PC; CPU cpu( // Clock/reset .clk (clk), .reset (reset), .int1 (OST1_int), //OStimer1 .int2 (OST2_int), //OStimer2 .int3 (UART0_rx_int), //UART0 rx (MAIN) .int4 (frameDrawn_stable), //GPU Frame Drawn .int5 (OST3_int), //OStimer3 .int6 (PS2_int), //PS/2 scancode ready .int7 (1'b0), //UART1 rx (APU) .int8 (UART2_rx_int), //UART2 rx (EXT) // Bus .bus_addr (bus_addr), .bus_data (bus_data), .bus_we (bus_we), .bus_start (bus_start), .bus_q (bus_q), .bus_done (bus_done), .PC (PC), // sdram bus .sdc_addr (l2_addr), .sdc_data (l2_data), .sdc_we (l2_we), .sdc_start (l2_start), .sdc_q (l2_q), .sdc_done (l2_done) ); //-----------STATUS LEDS----------- assign led_Booted = (PC >= 27'hC02522 | reset); assign led_HDMI = 1'b0; //(~selectOutput | reset); assign led_QSPI = (~SPI0_QSPI | reset); LEDvisualizer #(.MIN_CLK(100000)) LEDvisUSB0 ( .clk(clk), .reset(reset), .activity(~SPI1_cs), .LED(led_USB0) ); LEDvisualizer #(.MIN_CLK(100000)) LEDvisUSB1 ( .clk(clk), .reset(reset), .activity(~SPI2_cs), .LED(led_USB1) ); LEDvisualizer #(.MIN_CLK(100000)) LEDvisEth ( .clk(clk), .reset(reset), .activity(~SPI3_cs), .LED(led_Eth) ); LEDvisualizer #(.MIN_CLK(100000)) LEDvisPS2 ( .clk(clk), .reset(reset), .activity(PS2_int), .LED(led_PS2) ); LEDvisualizer #(.MIN_CLK(100000)) LEDvisFlash ( .clk(clk), .reset(reset), .activity(~SPI0_cs), .LED(led_Flash) ); LEDvisualizer #(.MIN_CLK(100000)) LEDvisGPU ( .clk(clk), .reset(reset), .activity(vram32_cpu_we|vram8_cpu_we|vramSPR_cpu_we|vramPX_cpu_we), .LED(led_GPU) ); LEDvisualizer #(.MIN_CLK(100000)) LEDvisI2S ( .clk(clk), .reset(reset), .activity(I2S_SDIN), .LED(led_I2S) ); endmodule