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emu.sv
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emu.sv
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//=======================================================================================================
//
// Name: emu.sv
// Created: June 2018
// Author(s): Philip Smart
// Description: Sharp MZ series compatible logic.
//
// This module is the main bridge between the emulator (sharpmz.vhd) and the MiSTer
// framework (hps_io.v/sys_top.v).
//
// Copyright: (C) 2018 Sorgelig
// (C) 2018 Philip Smart <[email protected]>
//
// History: June 2018 - Initial creation.
//
//=======================================================================================================
// This source file is free software: you can redistribute it and-or modify
// it under the terms of the GNU General Public License as published
// by the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This source file is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//=======================================================================================================
module emu
(
//Master input clocks
input CLK_50M,
//Async reset from top-level module.
//Can be used as initial reset.
input RESET,
//Must be passed to hps_io module
inout [44:0] HPS_BUS,
//Base video clock. Usually equals to CLK_SYS.
output CLK_VIDEO,
//Multiple resolutions are supported using different CE_PIXEL rates.
//Must be based on CLK_VIDEO
output CE_PIXEL,
//Video aspect ratio for HDMI. Most retro systems have ratio 4:3.
output [7:0] VIDEO_ARX,
output [7:0] VIDEO_ARY,
// These video signals are defined in sys_top.v, via the video_mixer we output the video from the emulator onto these
// signals, which then get passed as follows:
// emu -> video_mixer -> vga_osd -> vga_out
output [7:0] VGA_R,
output [7:0] VGA_G,
output [7:0] VGA_B,
output VGA_HS,
output VGA_VS,
output VGA_DE, // = ~(VBlank | HBlank)
output LED_USER, // 1 - ON, 0 - OFF.
// b[1]: 0 - LED status is system status OR'd with b[0]
// 1 - LED status is controled solely by b[0]
// hint: supply 2'b00 to let the system control the LED.
output [1:0] LED_POWER,
output [1:0] LED_DISK,
output [7:0] LED_MB,
output [15:0] AUDIO_L,
output [15:0] AUDIO_R,
output AUDIO_S, // 1 - signed audio samples, 0 - unsigned
output [1:0] AUDIO_MIX, // 0 - no mix, 1 - 25%, 2 - 50%, 3 - 100% (mono)
// input TAPE_IN,
// SD-SPI
output SD_SCK,
output SD_MOSI,
input SD_MISO,
output SD_CS,
input SD_CD,
//High latency DDR3 RAM interface
//Use for non-critical time purposes
output DDRAM_CLK,
input DDRAM_BUSY,
output [7:0] DDRAM_BURSTCNT,
output [28:0] DDRAM_ADDR,
input [63:0] DDRAM_DOUT,
input DDRAM_DOUT_READY,
output DDRAM_RD,
output [63:0] DDRAM_DIN,
output [7:0] DDRAM_BE,
output DDRAM_WE,
//SDRAM interface with lower latency
output SDRAM_CLK,
output SDRAM_CKE,
output [12:0] SDRAM_A,
output [1:0] SDRAM_BA,
inout [15:0] SDRAM_DQ,
output SDRAM_DQML,
output SDRAM_DQMH,
output SDRAM_nCS,
output SDRAM_nCAS,
output SDRAM_nRAS,
output SDRAM_nWE,
input UART_RX_0,
output UART_TX_0,
input UART_RX_1,
output UART_TX_1
);
//assign {SD_SCK, SD_MOSI, SD_CS} = 'Z;
//assign {DRAM_DQ, SDRAM_A, SDRAM_BA, SDRAM_CLK, SDRAM_CKE, SDRAM_DQML, SDRAM_DQMH, SDRAM_nWE, SDRAM_nCAS, SDRAM_nRAS, SDRAM_nCS} = 'Z;
assign {DDRAM_CLK, DDRAM_BURSTCNT, DDRAM_ADDR, DDRAM_DIN, DDRAM_BE, DDRAM_RD, DDRAM_WE} = 0;
assign LED_USER = ioctl_download;
assign LED_DISK = 0;
assign LED_POWER = 0;
assign VIDEO_ARX = status[1] ? 8'd16 : 8'd4;
assign VIDEO_ARY = status[1] ? 8'd9 : 8'd3;
wire [2:0] scale = status[4:2];
// Menu is handled in the MiSTer c++ program.
//
`include "build_id.v"
localparam CONF_STR =
{
"SHARP MZ SERIES;;",
"J,Fire;",
"V,v1.02.",`BUILD_DATE
};
///////////////// CLOCKS ////////////////////////
wire clk_sys;
///////////////// HPS ///////////////////////////
wire [31:0] status;
wire [1:0] buttons;
wire [10:0] ps2_key;
wire [24:0] ps2_mouse;
wire ioctl_download;
wire ioctl_upload;
wire [7:0] ioctl_index;
wire ioctl_wr;
wire ioctl_rd;
wire [24:0] ioctl_addr;
wire [15:0] ioctl_dout;
wire [15:0] ioctl_din;
wire forced_scandoubler;
hps_io #(.STRLEN(($size(CONF_STR)>>3))) hps_io
(
.clk_sys(clk_sys),
.HPS_BUS(HPS_BUS),
.conf_str(CONF_STR),
.buttons(buttons),
.status(status),
.forced_scandoubler(forced_scandoubler),
.ioctl_download(ioctl_download),
.ioctl_upload(ioctl_upload),
.ioctl_index(ioctl_index),
.ioctl_wr(ioctl_wr),
.ioctl_rd(ioctl_rd),
.ioctl_addr(ioctl_addr),
.ioctl_dout(ioctl_dout),
.ioctl_din(ioctl_din),
.ioctl_wait(0),
.sd_conf(0),
.sd_ack_conf(),
//.ps2_kbd_led_use(0),
//.ps2_kbd_led_status(0),
.ps2_key(ps2_key),
.ps2_mouse(ps2_mouse)
// unused
//.joystick_0(),
//.joystick_1(),
//.new_vmode(),
//.img_mounted(),
//.img_readonly(),
//.img_size(),
//.sd_lba(),
//.sd_rd(),
//.sd_wr(),
//.sd_ack(),
//.sd_buff_addr(),
//.sd_buff_dout(),
//.sd_buff_din(),
//.sd_buff_wr(),
//.ps2_kbd_clk_out(),
//.ps2_kbd_data_out(),
//.ps2_kbd_clk_in(),
//.ps2_kbd_data_in(),
//.ps2_mouse_clk_out(),
//.ps2_mouse_data_out(),
//.ps2_mouse_data_in(),
//.ps2_mouse_clk_in(),
//.joystick_analog_0(),
//.joystick_analog_1(),
//.RTC(),
//.TIMESTAMP()
);
///////////////// RESET /////////////////////////
//wire reset = RESET | status[0] | buttons[1] | status[6] | ioctl_download;
wire reset = RESET;
wire warm_reset = status[0] | buttons[1]; //| ioctl_download;
//////////////// Machine ////////////////////////
wire [7:0] audio_l_emu;
wire [7:0] audio_r_emu;
assign AUDIO_L = {audio_l_emu,8'd0};
assign AUDIO_R = {audio_r_emu,8'd0};
assign AUDIO_S = 1;
assign AUDIO_MIX = 0;
wire clk_video_in;
wire [7:0] R_emu;
wire [7:0] G_emu;
wire [7:0] B_emu;
wire hblank_emu;
wire vblank_emu;
wire hsync_emu;
wire vsync_emu;
bridge sharp_mz
(
// Clocks Input to Emulator.
.clkmaster(CLK_50M),
// System clock.
.clksys(clk_sys),
// Clocks output by the emulator.
.clkvid(clk_video_in),
// Reset
.cold_reset(reset),
.warm_reset(warm_reset),
// LED on MB
.main_leds(LED_MB),
// PS2 via USB.
.ps2_key(ps2_key),
// VGA on IO daughter card.
.vga_hb_o(hblank_emu),
.vga_vb_o(vblank_emu),
.vga_hs_o(hsync_emu),
.vga_vs_o(vsync_emu),
.vga_r_o(R_emu),
.vga_g_o(G_emu),
.vga_b_o(B_emu),
// AUDIO on IO daughter card.
.audio_l_o(audio_l_emu),
.audio_r_o(audio_r_emu),
// ZPU UART for Console and Debug channels.
.uart_rx_0(UART_RX_0),
.uart_tx_0(UART_TX_0),
.uart_rx_1(UART_RX_1),
.uart_tx_1(UART_TX_1),
// SD Card on daughter board.
.sd_sck(SD_SCK),
.sd_mosi(SD_MOSI),
.sd_miso(SD_MISO),
.sd_cs(SD_CS),
.sd_cd(SD_CD),
// SDRAM
.sdram_clk(SDRAM_CLK),
.sdram_cke(SDRAM_CKE),
.sdram_addr(SDRAM_A[12:0]),
.sdram_ba(SDRAM_BA),
.sdram_dq(SDRAM_DQ),
.sdram_dqml(SDRAM_DQML),
.sdram_dqmh(SDRAM_DQMH),
.sdram_cs_n(SDRAM_nCS),
.sdram_cas_n(SDRAM_nCAS),
.sdram_ras_n(SDRAM_nRAS),
.sdram_we_n(SDRAM_nWE),
// HPS Interface
.ioctl_download(ioctl_download), // HPS Downloading to FPGA.
.ioctl_upload(ioctl_upload), // HPS Uploading from FPGA.
.ioctl_clk(clk_sys), // HPS I/O Clock.
.ioctl_wr(ioctl_wr), // HPS Write Enable to FPGA.
.ioctl_rd(ioctl_rd), // HPS Read Enable from FPGA.
.ioctl_addr(ioctl_addr), // HPS Address in FPGA to write into.
.ioctl_dout(ioctl_dout), // HPS Data to be written into FPGA.
.ioctl_din(ioctl_din) // HPS Data to be read into HPS.
);
// If ce_pix is same as pixel clock, uncomment below and remove CE_PIXEL from .ce_pix_out below.
//
//assign CE_PIXEL=1;
//assign CLK_VIDEO = clk_sys;
assign CLK_VIDEO = clk_video_in;
assign CE_PIXEL = clk_video_in;
assign VGA_R = R_emu;
assign VGA_G = G_emu;
assign VGA_B = B_emu;
assign VGA_VS = vsync_emu;
assign VGA_HS = hsync_emu;
assign VGA_DE = ~(vblank_emu | hblank_emu);
//video_mixer #(.HALF_DEPTH(0)) video_mixer
//video_mixer #(.LINE_LENGTH(320), .HALF_DEPTH(1)) video_mixer
//(
// .clk_sys(clk_sys),
// .ce_pix(clk_video_in), // Video pixel clock from core.
// //.ce_pix_out(CE_PIXEL),
//
// .scanlines({scale == 4, scale == 3, scale == 2}),
// .scandoubler(scale || forced_scandoubler),
// .hq2x(scale==1),
//
// .mono(0),
//
// // Input signals into the mixer, originating from the emulator.
// .R(R_emu),
// .G(G_emu),
// .B(B_emu),
//
// // Positive pulses.
// .HSync(hsync_emu),
// .VSync(vsync_emu),
// .HBlank(hblank_emu),
// .VBlank(vblank_emu),
//
// .VGA_R(VGA_R),
// .VGA_G(VGA_G),
// .VGA_B(VGA_B),
// .VGA_VS(VGA_VS),
// .VGA_HS(VGA_HS),
// .VGA_DE(VGA_DE)
//
// // Outputs of the mixer are bound to the VGA_x signals defined in the sys_top module and passed into this module as parameters.
// // These signals then feed the vga_osd -> vga_out modules in systop.v
//);
// Uncomment below and comment out video_mixer to pass original signal to sys_top.v.
// To output original signal, edit sys_top.v and comment out vga_osd and vga_out, uncomment the assign statements.
//
//assign VGA_R = R_emu;
//assign VGA_G = G_emu;
//assign VGA_B = B_emu;
//assign VGA_HS = hsync_emu;
//assign VGA_VS = vsync_emu;
//assign VGA_DE = ~(vblank_emu | hblank_emu);
endmodule