diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/README.txt b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/README.txt index 1885b754..701865d0 100644 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/README.txt +++ b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/README.txt @@ -1,7 +1,5 @@ Super Bagman Port to Mist FPGA by Gehstock -ToDO: CleanUp - SBAGMAN.ROM is required at the root of the SD-Card. ------------------------------------------------- diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/Release/SuperBagman.rbf b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/Release/SuperBagman.rbf index a12aa2bb..b024058f 100644 Binary files a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/Release/SuperBagman.rbf and b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/Release/SuperBagman.rbf differ diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/SuperBagman.qsf b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/SuperBagman.qsf index 13656712..7c19d418 100644 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/SuperBagman.qsf +++ b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/SuperBagman.qsf @@ -62,17 +62,9 @@ set_global_assignment -name VHDL_FILE rtl/T80/T80_MCode.vhd set_global_assignment -name VHDL_FILE rtl/T80/T80_ALU.vhd set_global_assignment -name VHDL_FILE rtl/T80/T80.vhd set_global_assignment -name VHDL_FILE rtl/ym_2149_linmix.vhd -set_global_assignment -name SYSTEMVERILOG_FILE rtl/video_mixer.sv set_global_assignment -name VHDL_FILE rtl/video_gen.vhd -set_global_assignment -name SYSTEMVERILOG_FILE rtl/scandoubler.sv -set_global_assignment -name SYSTEMVERILOG_FILE rtl/osd.sv -set_global_assignment -name SYSTEMVERILOG_FILE rtl/mist_io.sv -set_global_assignment -name SYSTEMVERILOG_FILE rtl/hq2x.sv set_global_assignment -name VHDL_FILE rtl/gen_ram.vhd -set_global_assignment -name SYSTEMVERILOG_FILE rtl/dac.sv set_global_assignment -name VERILOG_FILE rtl/pll.v -set_global_assignment -name SYSTEMVERILOG_FILE rtl/sdram.sv -set_global_assignment -name VERILOG_FILE rtl/data_io.v # Pin & Location Assignments # ========================== @@ -213,4 +205,5 @@ set_global_assignment -name OUTPUT_IO_TIMING_FAR_END_VMEAS "HALF SIGNAL SWING" - # end ENTITY(bagman_mist) # ----------------------- +set_global_assignment -name QIP_FILE ../../../common/mist/mist.qip set_instance_assignment -name PARTITION_HIERARCHY root_partition -to | -section_id Top \ No newline at end of file diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/bagman.vhd b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/bagman.vhd index d98467d3..2c3947db 100644 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/bagman.vhd +++ b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/bagman.vhd @@ -1,5 +1,5 @@ --------------------------------------------------------------------------------- --- Bagman (stern) - Dar - Feb 2014 +-- Super Bagman - Dar - Feb 2014 -- -- Remove sram multiplexing - Dar -June 2018 --------------------------------------------------------------------------------- @@ -8,7 +8,7 @@ use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.numeric_std.all; -entity bagman is +entity sbagman is port( clock_12 : in std_logic; reset : in std_logic; @@ -40,9 +40,9 @@ port( down2 : in std_logic; up2 : in std_logic ); -end bagman; +end sbagman; -architecture struct of bagman is +architecture struct of sbagman is -- clocks signal clock_12n : std_logic; diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/bagman_mist.sv b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/bagman_mist.sv index 48ced2f8..02539616 100644 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/bagman_mist.sv +++ b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/bagman_mist.sv @@ -40,15 +40,13 @@ localparam CONF_STR = { assign LED = 1; assign AUDIO_R = AUDIO_L; -assign SDRAM_CLK = clock_96; +assign SDRAM_CLK = clock_48; -wire clock_24, clock_12, clock_6, clock_96, pll_locked; +wire clock_48, clock_12, pll_locked; pll pll( .inclk0(CLOCK_27), - .c0(clock_24), + .c0(clock_48), .c1(clock_12), - .c2(clock_6), - .c3(clock_96), .locked(pll_locked) ); @@ -75,9 +73,12 @@ wire [7:0] ioctl_index; wire ioctl_wr; wire [24:0] ioctl_addr; wire [7:0] ioctl_dout; +wire key_strobe; +wire key_pressed; +wire [7:0] key_code; -data_io data_io ( - .clk_sys ( clock_96 ), +data_io data_io( + .clk_sys ( clock_48 ), .SPI_SCK ( SPI_SCK ), .SPI_SS2 ( SPI_SS2 ), .SPI_DI ( SPI_DI ), @@ -88,11 +89,10 @@ data_io data_io ( .ioctl_dout ( ioctl_dout ) ); -sdram cart -( +sdram rom( .*, .init ( ~pll_locked ), - .clk ( clock_96 ), + .clk ( clock_48 ), .wtbt ( 2'b00 ), .dout ( rom_do ), .din ( {ioctl_dout, ioctl_dout} ), @@ -102,10 +102,19 @@ sdram cart .ready() ); +reg reset = 1; +reg rom_loaded = 0; +always @(posedge clock_48) begin + reg ioctl_downlD; + ioctl_downlD <= ioctl_downl; -bagman bagman( + if (ioctl_downlD & ~ioctl_downl) rom_loaded <= 1; + reset <= status[0] | buttons[1] | status[6] | ~rom_loaded; +end + +sbagman sbagman( .clock_12(clock_12), - .reset(status[0] | status[6] | buttons[1]), + .reset(reset), .video_r(r), .video_g(g), .video_b(b), @@ -117,8 +126,8 @@ bagman bagman( .roms_addr ( rom_addr ), .roms_do ( rom_do[7:0] ), .roms_rd ( rom_rd ), - .start2(btn_two_players), - .start1(btn_one_player), + .start2(btn_two_players | m_bomb),//double-function button, start and shoot + .start1(btn_one_player | m_bomb),//double-function button, start and shoot .coin1(btn_coin), .fire1(m_fire), .right1(m_right), @@ -131,62 +140,53 @@ bagman bagman( .down2(m_down), .up2(m_up) ); + +mist_video #(.COLOR_DEPTH(3), .SD_HCNT_WIDTH(10)) mist_video( + .clk_sys ( clock_48 ), + .SPI_SCK ( SPI_SCK ), + .SPI_SS3 ( SPI_SS3 ), + .SPI_DI ( SPI_DI ), + .R ( blankn ? r : 0 ), + .G ( blankn ? g : 0 ), + .B ( blankn ? {b,b[0]} : 0 ), + .HSync ( hs ), + .VSync ( vs ), + .VGA_R ( VGA_R ), + .VGA_G ( VGA_G ), + .VGA_B ( VGA_B ), + .VGA_VS ( VGA_VS ), + .VGA_HS ( VGA_HS ), + .rotate ( {1'b0,status[2]} ), + .scandoubler_disable( scandoublerD ), + .scanlines ( status[4:3] ), + .ypbpr ( ypbpr ) + ); -video_mixer video_mixer( - .clk_sys(clock_24), - .ce_pix(clock_6), - .ce_pix_actual(clock_6), - .SPI_SCK(SPI_SCK), - .SPI_SS3(SPI_SS3), - .SPI_DI(SPI_DI), - .R(blankn ? r : "000"), - .G(blankn ? g : "000"), - .B(blankn ? {b,b[0]} : "000"), - .HSync(hs), - .VSync(vs), - .VGA_R(VGA_R), - .VGA_G(VGA_G), - .VGA_B(VGA_B), - .VGA_VS(VGA_VS), - .VGA_HS(VGA_HS), - .scandoublerD(scandoublerD), - .scanlines(scandoublerD ? 2'b00 : status[4:3]), - .rotate({1'b1,status[2]}),//(left/right,on/off) - .ypbpr(ypbpr), - .ypbpr_full(1), - .line_start(0), - .mono(0) -); - -mist_io #( - .STRLEN(($size(CONF_STR)>>3))) -mist_io( - .clk_sys (clock_96 ), +user_io #(.STRLEN(($size(CONF_STR)>>3)))user_io( + .clk_sys (clock_48 ), .conf_str (CONF_STR ), - .SPI_SCK (SPI_SCK ), - .CONF_DATA0 (CONF_DATA0 ), - .SPI_SS2 (SPI_SS2 ), - .SPI_DO (SPI_DO ), - .SPI_DI (SPI_DI ), + .SPI_CLK (SPI_SCK ), + .SPI_SS_IO (CONF_DATA0 ), + .SPI_MISO (SPI_DO ), + .SPI_MOSI (SPI_DI ), .buttons (buttons ), - .switches (switches ), - .scandoublerD (scandoublerD ), + .switches (switches ), + .scandoubler_disable (scandoublerD ), .ypbpr (ypbpr ), - .ps2_key (ps2_key ), - .joystick_0 (joystick_0 ), + .key_strobe (key_strobe ), + .key_pressed (key_pressed ), + .key_code (key_code ), + .joystick_0 (joystick_0 ), .joystick_1 (joystick_1 ), .status (status ) ); - -dac #( - .MSBI(12)) -dac( - .CLK(clock_24), - .RESET(1'b0), - .DACin(audio), - .DACout(AUDIO_L) + +dac #(.C_bits(16))dac( + .clk_i(clock_48), + .res_n_i(1), + .dac_i({audio,4'b0}), + .dac_o(AUDIO_L) ); - // Rotated Normal wire m_up = ~status[2] ? btn_left | joystick_0[1] | joystick_1[1] : btn_up | joystick_0[3] | joystick_1[3]; wire m_down = ~status[2] ? btn_right | joystick_0[0] | joystick_1[0] : btn_down | joystick_0[2] | joystick_1[2]; @@ -205,24 +205,22 @@ reg btn_fire1 = 0; reg btn_fire2 = 0; reg btn_fire3 = 0; reg btn_coin = 0; -wire pressed = ps2_key[9]; -wire [7:0] code = ps2_key[7:0]; -always @(posedge clock_24) begin +always @(posedge clock_48) begin reg old_state; - old_state <= ps2_key[10]; - if(old_state != ps2_key[10]) begin - case(code) - 'h75: btn_up <= pressed; // up - 'h72: btn_down <= pressed; // down - 'h6B: btn_left <= pressed; // left - 'h74: btn_right <= pressed; // right - 'h76: btn_coin <= pressed; // ESC - 'h05: btn_one_player <= pressed; // F1 - 'h06: btn_two_players <= pressed; // F2 - 'h14: btn_fire3 <= pressed; // ctrl - 'h11: btn_fire2 <= pressed; // alt - 'h29: btn_fire1 <= pressed; // Space + old_state <= key_strobe; + if(old_state != key_strobe) begin + case(key_code) + 'h75: btn_up <= key_pressed; // up + 'h72: btn_down <= key_pressed; // down + 'h6B: btn_left <= key_pressed; // left + 'h74: btn_right <= key_pressed; // right + 'h76: btn_coin <= key_pressed; // ESC + 'h05: btn_one_player <= key_pressed; // F1 + 'h06: btn_two_players <= key_pressed; // F2 + 'h14: btn_fire3 <= key_pressed; // ctrl + 'h11: btn_fire2 <= key_pressed; // alt + 'h29: btn_fire1 <= key_pressed; // Space endcase end end diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/build_id.sv b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/build_id.sv index 01f8c59d..f9da8f15 100644 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/build_id.sv +++ b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/build_id.sv @@ -1,2 +1,2 @@ `define BUILD_DATE "190909" -`define BUILD_TIME "014000" +`define BUILD_TIME "130142" diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/dac.sv b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/dac.sv deleted file mode 100644 index a4b44584..00000000 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/dac.sv +++ /dev/null @@ -1,33 +0,0 @@ -// -// PWM DAC -// -// MSBI is the highest bit number. NOT amount of bits! -// -module dac #(parameter MSBI=12, parameter INV=1'b1) -( - output reg DACout, //Average Output feeding analog lowpass - input [MSBI:0] DACin, //DAC input (excess 2**MSBI) - input CLK, - input RESET -); - -reg [MSBI+2:0] DeltaAdder; //Output of Delta Adder -reg [MSBI+2:0] SigmaAdder; //Output of Sigma Adder -reg [MSBI+2:0] SigmaLatch; //Latches output of Sigma Adder -reg [MSBI+2:0] DeltaB; //B input of Delta Adder - -always @(*) DeltaB = {SigmaLatch[MSBI+2], SigmaLatch[MSBI+2]} << (MSBI+1); -always @(*) DeltaAdder = DACin + DeltaB; -always @(*) SigmaAdder = DeltaAdder + SigmaLatch; - -always @(posedge CLK or posedge RESET) begin - if(RESET) begin - SigmaLatch <= 1'b1 << (MSBI+1); - DACout <= INV; - end else begin - SigmaLatch <= SigmaAdder; - DACout <= SigmaLatch[MSBI+2] ^ INV; - end -end - -endmodule diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/data_io.v b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/data_io.v deleted file mode 100644 index 4ca9518c..00000000 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/data_io.v +++ /dev/null @@ -1,115 +0,0 @@ -// -// data_io.v -// -// data_io for the MiST board -// http://code.google.com/p/mist-board/ -// -// Copyright (c) 2014 Till Harbaum -// -// 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 . -// -/////////////////////////////////////////////////////////////////////// - -module data_io -( - input clk_sys, - input SPI_SCK, - input SPI_SS2, - input SPI_DI, - - // ARM -> FPGA download - output reg ioctl_download = 0, // signal indicating an active download - output reg [7:0] ioctl_index, // menu index used to upload the file - output ioctl_wr, - output reg [24:0] ioctl_addr, - output reg [7:0] ioctl_dout -); - -/////////////////////////////// DOWNLOADING /////////////////////////////// - -reg [7:0] data_w; -reg [24:0] addr_w; -reg rclk = 0; - -localparam UIO_FILE_TX = 8'h53; -localparam UIO_FILE_TX_DAT = 8'h54; -localparam UIO_FILE_INDEX = 8'h55; - -// data_io has its own SPI interface to the io controller -always@(posedge SPI_SCK, posedge SPI_SS2) begin - reg [6:0] sbuf; - reg [7:0] cmd; - reg [4:0] cnt; - reg [24:0] addr; - - if(SPI_SS2) cnt <= 0; - else begin - rclk <= 0; - - // don't shift in last bit. It is evaluated directly - // when writing to ram - if(cnt != 15) sbuf <= { sbuf[5:0], SPI_DI}; - - // increase target address after write - if(rclk) addr <= addr + 1'd1; - - // count 0-7 8-15 8-15 ... - if(cnt < 15) cnt <= cnt + 1'd1; - else cnt <= 8; - - // finished command byte - if(cnt == 7) cmd <= {sbuf, SPI_DI}; - - // prepare/end transmission - if((cmd == UIO_FILE_TX) && (cnt == 15)) begin - // prepare - if(SPI_DI) begin - addr <= 0; - ioctl_download <= 1; - end else begin - addr_w <= addr; - ioctl_download <= 0; - end - end - - // command 0x54: UIO_FILE_TX - if((cmd == UIO_FILE_TX_DAT) && (cnt == 15)) begin - addr_w <= addr; - data_w <= {sbuf, SPI_DI}; - rclk <= 1; - end - - // expose file (menu) index - if((cmd == UIO_FILE_INDEX) && (cnt == 15)) ioctl_index <= {sbuf, SPI_DI}; - end -end - -assign ioctl_wr = |ioctl_wrd; -reg [1:0] ioctl_wrd; - -always@(negedge clk_sys) begin - reg rclkD, rclkD2; - - rclkD <= rclk; - rclkD2 <= rclkD; - ioctl_wrd<= {ioctl_wrd[0],1'b0}; - - if(rclkD & ~rclkD2) begin - ioctl_dout <= data_w; - ioctl_addr <= addr_w; - ioctl_wrd <= 2'b11; - end -end - -endmodule diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/hq2x.sv b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/hq2x.sv deleted file mode 100644 index f17732b6..00000000 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/hq2x.sv +++ /dev/null @@ -1,454 +0,0 @@ -// -// -// Copyright (c) 2012-2013 Ludvig Strigeus -// Copyright (c) 2017 Sorgelig -// -// This program is GPL Licensed. See COPYING for the full license. -// -// -//////////////////////////////////////////////////////////////////////////////////////////////////////// - -// synopsys translate_off -`timescale 1 ps / 1 ps -// synopsys translate_on - -`define BITS_TO_FIT(N) ( \ - N <= 2 ? 0 : \ - N <= 4 ? 1 : \ - N <= 8 ? 2 : \ - N <= 16 ? 3 : \ - N <= 32 ? 4 : \ - N <= 64 ? 5 : \ - N <= 128 ? 6 : \ - N <= 256 ? 7 : \ - N <= 512 ? 8 : \ - N <=1024 ? 9 : 10 ) - -module hq2x_in #(parameter LENGTH, parameter DWIDTH) -( - input clk, - - input [AWIDTH:0] rdaddr, - input rdbuf, - output[DWIDTH:0] q, - - input [AWIDTH:0] wraddr, - input wrbuf, - input [DWIDTH:0] data, - input wren -); - - localparam AWIDTH = `BITS_TO_FIT(LENGTH); - wire [DWIDTH:0] out[2]; - assign q = out[rdbuf]; - - hq2x_buf #(.NUMWORDS(LENGTH), .AWIDTH(AWIDTH), .DWIDTH(DWIDTH)) buf0(clk,data,rdaddr,wraddr,wren && (wrbuf == 0),out[0]); - hq2x_buf #(.NUMWORDS(LENGTH), .AWIDTH(AWIDTH), .DWIDTH(DWIDTH)) buf1(clk,data,rdaddr,wraddr,wren && (wrbuf == 1),out[1]); -endmodule - - -module hq2x_out #(parameter LENGTH, parameter DWIDTH) -( - input clk, - - input [AWIDTH:0] rdaddr, - input [1:0] rdbuf, - output[DWIDTH:0] q, - - input [AWIDTH:0] wraddr, - input [1:0] wrbuf, - input [DWIDTH:0] data, - input wren -); - - localparam AWIDTH = `BITS_TO_FIT(LENGTH*2); - wire [DWIDTH:0] out[4]; - assign q = out[rdbuf]; - - hq2x_buf #(.NUMWORDS(LENGTH*2), .AWIDTH(AWIDTH), .DWIDTH(DWIDTH)) buf0(clk,data,rdaddr,wraddr,wren && (wrbuf == 0),out[0]); - hq2x_buf #(.NUMWORDS(LENGTH*2), .AWIDTH(AWIDTH), .DWIDTH(DWIDTH)) buf1(clk,data,rdaddr,wraddr,wren && (wrbuf == 1),out[1]); - hq2x_buf #(.NUMWORDS(LENGTH*2), .AWIDTH(AWIDTH), .DWIDTH(DWIDTH)) buf2(clk,data,rdaddr,wraddr,wren && (wrbuf == 2),out[2]); - hq2x_buf #(.NUMWORDS(LENGTH*2), .AWIDTH(AWIDTH), .DWIDTH(DWIDTH)) buf3(clk,data,rdaddr,wraddr,wren && (wrbuf == 3),out[3]); -endmodule - - -module hq2x_buf #(parameter NUMWORDS, parameter AWIDTH, parameter DWIDTH) -( - input clock, - input [DWIDTH:0] data, - input [AWIDTH:0] rdaddress, - input [AWIDTH:0] wraddress, - input wren, - output [DWIDTH:0] q -); - - altsyncram altsyncram_component ( - .address_a (wraddress), - .clock0 (clock), - .data_a (data), - .wren_a (wren), - .address_b (rdaddress), - .q_b(q), - .aclr0 (1'b0), - .aclr1 (1'b0), - .addressstall_a (1'b0), - .addressstall_b (1'b0), - .byteena_a (1'b1), - .byteena_b (1'b1), - .clock1 (1'b1), - .clocken0 (1'b1), - .clocken1 (1'b1), - .clocken2 (1'b1), - .clocken3 (1'b1), - .data_b ({(DWIDTH+1){1'b1}}), - .eccstatus (), - .q_a (), - .rden_a (1'b1), - .rden_b (1'b1), - .wren_b (1'b0)); - defparam - altsyncram_component.address_aclr_b = "NONE", - altsyncram_component.address_reg_b = "CLOCK0", - altsyncram_component.clock_enable_input_a = "BYPASS", - altsyncram_component.clock_enable_input_b = "BYPASS", - altsyncram_component.clock_enable_output_b = "BYPASS", - altsyncram_component.intended_device_family = "Cyclone III", - altsyncram_component.lpm_type = "altsyncram", - altsyncram_component.numwords_a = NUMWORDS, - altsyncram_component.numwords_b = NUMWORDS, - altsyncram_component.operation_mode = "DUAL_PORT", - altsyncram_component.outdata_aclr_b = "NONE", - altsyncram_component.outdata_reg_b = "UNREGISTERED", - altsyncram_component.power_up_uninitialized = "FALSE", - altsyncram_component.read_during_write_mode_mixed_ports = "DONT_CARE", - altsyncram_component.widthad_a = AWIDTH+1, - altsyncram_component.widthad_b = AWIDTH+1, - altsyncram_component.width_a = DWIDTH+1, - altsyncram_component.width_b = DWIDTH+1, - altsyncram_component.width_byteena_a = 1; - -endmodule - -//////////////////////////////////////////////////////////////////////////////////////////////////////// - -module DiffCheck -( - input [17:0] rgb1, - input [17:0] rgb2, - output result -); - - wire [5:0] r = rgb1[5:1] - rgb2[5:1]; - wire [5:0] g = rgb1[11:7] - rgb2[11:7]; - wire [5:0] b = rgb1[17:13] - rgb2[17:13]; - wire [6:0] t = $signed(r) + $signed(b); - wire [6:0] gx = {g[5], g}; - wire [7:0] y = $signed(t) + $signed(gx); - wire [6:0] u = $signed(r) - $signed(b); - wire [7:0] v = $signed({g, 1'b0}) - $signed(t); - - // if y is inside (-24..24) - wire y_inside = (y < 8'h18 || y >= 8'he8); - - // if u is inside (-4, 4) - wire u_inside = (u < 7'h4 || u >= 7'h7c); - - // if v is inside (-6, 6) - wire v_inside = (v < 8'h6 || v >= 8'hfA); - assign result = !(y_inside && u_inside && v_inside); -endmodule - -module InnerBlend -( - input [8:0] Op, - input [5:0] A, - input [5:0] B, - input [5:0] C, - output [5:0] O -); - - function [8:0] mul6x3; - input [5:0] op1; - input [2:0] op2; - begin - mul6x3 = 9'd0; - if(op2[0]) mul6x3 = mul6x3 + op1; - if(op2[1]) mul6x3 = mul6x3 + {op1, 1'b0}; - if(op2[2]) mul6x3 = mul6x3 + {op1, 2'b00}; - end - endfunction - - wire OpOnes = Op[4]; - wire [8:0] Amul = mul6x3(A, Op[7:5]); - wire [8:0] Bmul = mul6x3(B, {Op[3:2], 1'b0}); - wire [8:0] Cmul = mul6x3(C, {Op[1:0], 1'b0}); - wire [8:0] At = Amul; - wire [8:0] Bt = (OpOnes == 0) ? Bmul : {3'b0, B}; - wire [8:0] Ct = (OpOnes == 0) ? Cmul : {3'b0, C}; - wire [9:0] Res = {At, 1'b0} + Bt + Ct; - assign O = Op[8] ? A : Res[9:4]; -endmodule - -module Blend -( - input [5:0] rule, - input disable_hq2x, - input [17:0] E, - input [17:0] A, - input [17:0] B, - input [17:0] D, - input [17:0] F, - input [17:0] H, - output [17:0] Result -); - - reg [1:0] input_ctrl; - reg [8:0] op; - localparam BLEND0 = 9'b1_xxx_x_xx_xx; // 0: A - localparam BLEND1 = 9'b0_110_0_10_00; // 1: (A * 12 + B * 4) >> 4 - localparam BLEND2 = 9'b0_100_0_10_10; // 2: (A * 8 + B * 4 + C * 4) >> 4 - localparam BLEND3 = 9'b0_101_0_10_01; // 3: (A * 10 + B * 4 + C * 2) >> 4 - localparam BLEND4 = 9'b0_110_0_01_01; // 4: (A * 12 + B * 2 + C * 2) >> 4 - localparam BLEND5 = 9'b0_010_0_11_11; // 5: (A * 4 + (B + C) * 6) >> 4 - localparam BLEND6 = 9'b0_111_1_xx_xx; // 6: (A * 14 + B + C) >> 4 - localparam AB = 2'b00; - localparam AD = 2'b01; - localparam DB = 2'b10; - localparam BD = 2'b11; - wire is_diff; - DiffCheck diff_checker(rule[1] ? B : H, rule[0] ? D : F, is_diff); - - always @* begin - case({!is_diff, rule[5:2]}) - 1,17: {op, input_ctrl} = {BLEND1, AB}; - 2,18: {op, input_ctrl} = {BLEND1, DB}; - 3,19: {op, input_ctrl} = {BLEND1, BD}; - 4,20: {op, input_ctrl} = {BLEND2, DB}; - 5,21: {op, input_ctrl} = {BLEND2, AB}; - 6,22: {op, input_ctrl} = {BLEND2, AD}; - - 8: {op, input_ctrl} = {BLEND0, 2'bxx}; - 9: {op, input_ctrl} = {BLEND0, 2'bxx}; - 10: {op, input_ctrl} = {BLEND0, 2'bxx}; - 11: {op, input_ctrl} = {BLEND1, AB}; - 12: {op, input_ctrl} = {BLEND1, AB}; - 13: {op, input_ctrl} = {BLEND1, AB}; - 14: {op, input_ctrl} = {BLEND1, DB}; - 15: {op, input_ctrl} = {BLEND1, BD}; - - 24: {op, input_ctrl} = {BLEND2, DB}; - 25: {op, input_ctrl} = {BLEND5, DB}; - 26: {op, input_ctrl} = {BLEND6, DB}; - 27: {op, input_ctrl} = {BLEND2, DB}; - 28: {op, input_ctrl} = {BLEND4, DB}; - 29: {op, input_ctrl} = {BLEND5, DB}; - 30: {op, input_ctrl} = {BLEND3, BD}; - 31: {op, input_ctrl} = {BLEND3, DB}; - default: {op, input_ctrl} = 11'bx; - endcase - - // Setting op[8] effectively disables HQ2X because blend will always return E. - if (disable_hq2x) op[8] = 1; - end - - // Generate inputs to the inner blender. Valid combinations. - // 00: E A B - // 01: E A D - // 10: E D B - // 11: E B D - wire [17:0] Input1 = E; - wire [17:0] Input2 = !input_ctrl[1] ? A : - !input_ctrl[0] ? D : B; - - wire [17:0] Input3 = !input_ctrl[0] ? B : D; - InnerBlend inner_blend1(op, Input1[5:0], Input2[5:0], Input3[5:0], Result[5:0]); - InnerBlend inner_blend2(op, Input1[11:6], Input2[11:6], Input3[11:6], Result[11:6]); - InnerBlend inner_blend3(op, Input1[17:12], Input2[17:12], Input3[17:12], Result[17:12]); -endmodule - - -//////////////////////////////////////////////////////////////////////////////////////////////////// - -module Hq2x #(parameter LENGTH, parameter HALF_DEPTH) -( - input clk, - input ce_x4, - input [DWIDTH:0] inputpixel, - input mono, - input disable_hq2x, - input reset_frame, - input reset_line, - input [1:0] read_y, - input [AWIDTH+1:0] read_x, - output [DWIDTH:0] outpixel -); - - -localparam AWIDTH = `BITS_TO_FIT(LENGTH); -localparam DWIDTH = HALF_DEPTH ? 8 : 17; - -wire [5:0] hqTable[256] = '{ - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 47, 35, 23, 15, 55, 39, - 19, 19, 26, 58, 19, 19, 26, 58, 23, 15, 35, 35, 23, 15, 7, 35, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 55, 39, 23, 15, 51, 43, - 19, 19, 26, 58, 19, 19, 26, 58, 23, 15, 51, 35, 23, 15, 7, 43, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 61, 35, 35, 23, 61, 51, 35, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 51, 35, 23, 15, 51, 35, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 61, 7, 35, 23, 61, 7, 43, - 19, 19, 26, 11, 19, 19, 26, 58, 23, 15, 51, 35, 23, 61, 7, 43, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 47, 35, 23, 15, 55, 39, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 51, 35, 23, 15, 51, 35, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 55, 39, 23, 15, 51, 43, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 51, 39, 23, 15, 7, 43, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 51, 35, 23, 15, 51, 39, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 51, 35, 23, 15, 7, 35, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 51, 35, 23, 15, 7, 43, - 19, 19, 26, 11, 19, 19, 26, 11, 23, 15, 7, 35, 23, 15, 7, 43 -}; - -reg [17:0] Prev0, Prev1, Prev2, Curr0, Curr1, Next0, Next1, Next2; -reg [17:0] A, B, D, F, G, H; -reg [7:0] pattern, nextpatt; -reg [1:0] i; -reg [7:0] y; - -wire curbuf = y[0]; -reg prevbuf = 0; -wire iobuf = !curbuf; - -wire diff0, diff1; -DiffCheck diffcheck0(Curr1, (i == 0) ? Prev0 : (i == 1) ? Curr0 : (i == 2) ? Prev2 : Next1, diff0); -DiffCheck diffcheck1(Curr1, (i == 0) ? Prev1 : (i == 1) ? Next0 : (i == 2) ? Curr2 : Next2, diff1); - -wire [7:0] new_pattern = {diff1, diff0, pattern[7:2]}; - -wire [17:0] X = (i == 0) ? A : (i == 1) ? Prev1 : (i == 2) ? Next1 : G; -wire [17:0] blend_result; -Blend blender(hqTable[nextpatt], disable_hq2x, Curr0, X, B, D, F, H, blend_result); - -reg Curr2_addr1; -reg [AWIDTH:0] Curr2_addr2; -wire [17:0] Curr2 = HALF_DEPTH ? h2rgb(Curr2tmp) : Curr2tmp; -wire [DWIDTH:0] Curr2tmp; - -reg [AWIDTH:0] wrin_addr2; -reg [DWIDTH:0] wrpix; -reg wrin_en; - -function [17:0] h2rgb; - input [8:0] v; -begin - h2rgb = mono ? {v[5:3],v[2:0], v[5:3],v[2:0], v[5:3],v[2:0]} : {v[8:6],v[8:6],v[5:3],v[5:3],v[2:0],v[2:0]}; -end -endfunction - -function [8:0] rgb2h; - input [17:0] v; -begin - rgb2h = mono ? {3'b000, v[17:15], v[14:12]} : {v[17:15], v[11:9], v[5:3]}; -end -endfunction - -hq2x_in #(.LENGTH(LENGTH), .DWIDTH(DWIDTH)) hq2x_in -( - .clk(clk), - - .rdaddr(Curr2_addr2), - .rdbuf(Curr2_addr1), - .q(Curr2tmp), - - .wraddr(wrin_addr2), - .wrbuf(iobuf), - .data(wrpix), - .wren(wrin_en) -); - -reg [1:0] wrout_addr1; -reg [AWIDTH+1:0] wrout_addr2; -reg wrout_en; -reg [DWIDTH:0] wrdata; - -hq2x_out #(.LENGTH(LENGTH), .DWIDTH(DWIDTH)) hq2x_out -( - .clk(clk), - - .rdaddr(read_x), - .rdbuf(read_y), - .q(outpixel), - - .wraddr(wrout_addr2), - .wrbuf(wrout_addr1), - .data(wrdata), - .wren(wrout_en) -); - -always @(posedge clk) begin - reg [AWIDTH:0] offs; - reg old_reset_line; - reg old_reset_frame; - - wrout_en <= 0; - wrin_en <= 0; - - if(ce_x4) begin - - pattern <= new_pattern; - - if(~&offs) begin - if (i == 0) begin - Curr2_addr1 <= prevbuf; - Curr2_addr2 <= offs; - end - if (i == 1) begin - Prev2 <= Curr2; - Curr2_addr1 <= curbuf; - Curr2_addr2 <= offs; - end - if (i == 2) begin - Next2 <= HALF_DEPTH ? h2rgb(inputpixel) : inputpixel; - wrpix <= inputpixel; - wrin_addr2 <= offs; - wrin_en <= 1; - end - if (i == 3) begin - offs <= offs + 1'd1; - end - - if(HALF_DEPTH) wrdata <= rgb2h(blend_result); - else wrdata <= blend_result; - - wrout_addr1 <= {curbuf, i[1]}; - wrout_addr2 <= {offs, i[1]^i[0]}; - wrout_en <= 1; - end - - if(i==3) begin - nextpatt <= {new_pattern[7:6], new_pattern[3], new_pattern[5], new_pattern[2], new_pattern[4], new_pattern[1:0]}; - {A, G} <= {Prev0, Next0}; - {B, F, H, D} <= {Prev1, Curr2, Next1, Curr0}; - {Prev0, Prev1} <= {Prev1, Prev2}; - {Curr0, Curr1} <= {Curr1, Curr2}; - {Next0, Next1} <= {Next1, Next2}; - end else begin - nextpatt <= {nextpatt[5], nextpatt[3], nextpatt[0], nextpatt[6], nextpatt[1], nextpatt[7], nextpatt[4], nextpatt[2]}; - {B, F, H, D} <= {F, H, D, B}; - end - - i <= i + 1'b1; - if(old_reset_line && ~reset_line) begin - old_reset_frame <= reset_frame; - offs <= 0; - i <= 0; - y <= y + 1'd1; - prevbuf <= curbuf; - if(old_reset_frame & ~reset_frame) begin - y <= 0; - prevbuf <= 0; - end - end - - old_reset_line <= reset_line; - end -end - -endmodule // Hq2x diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/mist_io.sv b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/mist_io.sv deleted file mode 100644 index 2f41221f..00000000 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/mist_io.sv +++ /dev/null @@ -1,530 +0,0 @@ -// -// mist_io.v -// -// mist_io for the MiST board -// http://code.google.com/p/mist-board/ -// -// Copyright (c) 2014 Till Harbaum -// Copyright (c) 2015-2017 Sorgelig -// -// 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 . -// -/////////////////////////////////////////////////////////////////////// - -// -// Use buffer to access SD card. It's time-critical part. -// Made module synchroneous with 2 clock domains: clk_sys and SPI_SCK -// (Sorgelig) -// -// for synchronous projects default value for PS2DIV is fine for any frequency of system clock. -// clk_ps2 = clk_sys/(PS2DIV*2) -// - -module mist_io #(parameter STRLEN=0, parameter PS2DIV=100) -( - - // parameter STRLEN and the actual length of conf_str have to match - input [(8*STRLEN)-1:0] conf_str, - - // Global clock. It should be around 100MHz (higher is better). - input clk_sys, - - // Global SPI clock from ARM. 24MHz - input SPI_SCK, - - input CONF_DATA0, - input SPI_SS2, - output SPI_DO, - input SPI_DI, - - output reg [7:0] joystick_0, - output reg [7:0] joystick_1, -// output reg [31:0] joystick_2, -// output reg [31:0] joystick_3, -// output reg [31:0] joystick_4, - output reg [15:0] joystick_analog_0, - output reg [15:0] joystick_analog_1, - output [1:0] buttons, - output [1:0] switches, - output scandoublerD, - output ypbpr, - - output reg [31:0] status, - - // SD config - input sd_conf, - input sd_sdhc, - output [1:0] img_mounted, // signaling that new image has been mounted - output reg [31:0] img_size, // size of image in bytes - - // SD block level access - input [31:0] sd_lba, - input [1:0] sd_rd, - input [1:0] sd_wr, - output reg sd_ack, - output reg sd_ack_conf, - - // SD byte level access. Signals for 2-PORT altsyncram. - output reg [8:0] sd_buff_addr, - output reg [7:0] sd_buff_dout, - input [7:0] sd_buff_din, - output reg sd_buff_wr, - - // ps2 keyboard emulation - output ps2_kbd_clk, - output reg ps2_kbd_data, - output ps2_mouse_clk, - output reg ps2_mouse_data, - - // ps2 alternative interface. - - // [8] - extended, [9] - pressed, [10] - toggles with every press/release - output reg [10:0] ps2_key = 0, - - // [24] - toggles with every event - output reg [24:0] ps2_mouse = 0, - - // ARM -> FPGA download - input ioctl_ce, - output reg ioctl_download = 0, // signal indicating an active download - output reg [7:0] ioctl_index, // menu index used to upload the file - output reg ioctl_wr = 0, - output reg [24:0] ioctl_addr, - output reg [7:0] ioctl_dout -); - -reg [7:0] but_sw; -reg [2:0] stick_idx; - -reg [1:0] mount_strobe = 0; -assign img_mounted = mount_strobe; - -assign buttons = but_sw[1:0]; -assign switches = but_sw[3:2]; -assign scandoublerD = but_sw[4]; -assign ypbpr = but_sw[5]; - -// this variant of user_io is for 8 bit cores (type == a4) only -wire [7:0] core_type = 8'ha4; - -// command byte read by the io controller -wire drive_sel = sd_rd[1] | sd_wr[1]; -wire [7:0] sd_cmd = { 4'h6, sd_conf, sd_sdhc, sd_wr[drive_sel], sd_rd[drive_sel] }; - -reg [7:0] cmd; -reg [2:0] bit_cnt; // counts bits 0-7 0-7 ... -reg [9:0] byte_cnt; // counts bytes - -reg spi_do; -assign SPI_DO = CONF_DATA0 ? 1'bZ : spi_do; - -reg [7:0] spi_data_out; - -// SPI transmitter -always@(negedge SPI_SCK) spi_do <= spi_data_out[~bit_cnt]; - -reg [7:0] spi_data_in; -reg spi_data_ready = 0; - -// SPI receiver -always@(posedge SPI_SCK or posedge CONF_DATA0) begin - reg [6:0] sbuf; - reg [31:0] sd_lba_r; - reg drive_sel_r; - - if(CONF_DATA0) begin - bit_cnt <= 0; - byte_cnt <= 0; - spi_data_out <= core_type; - end - else - begin - bit_cnt <= bit_cnt + 1'd1; - sbuf <= {sbuf[5:0], SPI_DI}; - - // finished reading command byte - if(bit_cnt == 7) begin - if(!byte_cnt) cmd <= {sbuf, SPI_DI}; - - spi_data_in <= {sbuf, SPI_DI}; - spi_data_ready <= ~spi_data_ready; - if(~&byte_cnt) byte_cnt <= byte_cnt + 8'd1; - - spi_data_out <= 0; - case({(!byte_cnt) ? {sbuf, SPI_DI} : cmd}) - // reading config string - 8'h14: if(byte_cnt < STRLEN) spi_data_out <= conf_str[(STRLEN - byte_cnt - 1)<<3 +:8]; - - // reading sd card status - 8'h16: if(byte_cnt == 0) begin - spi_data_out <= sd_cmd; - sd_lba_r <= sd_lba; - drive_sel_r <= drive_sel; - end else if (byte_cnt == 1) begin - spi_data_out <= drive_sel_r; - end else if(byte_cnt < 6) spi_data_out <= sd_lba_r[(5-byte_cnt)<<3 +:8]; - - // reading sd card write data - 8'h18: spi_data_out <= sd_buff_din; - endcase - end - end -end - -reg [31:0] ps2_key_raw = 0; -wire pressed = (ps2_key_raw[15:8] != 8'hf0); -wire extended = (~pressed ? (ps2_key_raw[23:16] == 8'he0) : (ps2_key_raw[15:8] == 8'he0)); - -// transfer to clk_sys domain -always@(posedge clk_sys) begin - reg old_ss1, old_ss2; - reg old_ready1, old_ready2; - reg [2:0] b_wr; - reg got_ps2 = 0; - - old_ss1 <= CONF_DATA0; - old_ss2 <= old_ss1; - old_ready1 <= spi_data_ready; - old_ready2 <= old_ready1; - - sd_buff_wr <= b_wr[0]; - if(b_wr[2] && (~&sd_buff_addr)) sd_buff_addr <= sd_buff_addr + 1'b1; - b_wr <= (b_wr<<1); - - if(old_ss2) begin - got_ps2 <= 0; - sd_ack <= 0; - sd_ack_conf <= 0; - sd_buff_addr <= 0; - if(got_ps2) begin - if(cmd == 4) ps2_mouse[24] <= ~ps2_mouse[24]; - if(cmd == 5) begin - ps2_key <= {~ps2_key[10], pressed, extended, ps2_key_raw[7:0]}; - if(ps2_key_raw == 'hE012E07C) ps2_key[9:0] <= 'h37C; // prnscr pressed - if(ps2_key_raw == 'h7CE0F012) ps2_key[9:0] <= 'h17C; // prnscr released - if(ps2_key_raw == 'hF014F077) ps2_key[9:0] <= 'h377; // pause pressed - end - end - end - else - if(old_ready2 ^ old_ready1) begin - - if(cmd == 8'h18 && ~&sd_buff_addr) sd_buff_addr <= sd_buff_addr + 1'b1; - - if(byte_cnt < 2) begin - - if (cmd == 8'h19) sd_ack_conf <= 1; - if((cmd == 8'h17) || (cmd == 8'h18)) sd_ack <= 1; - mount_strobe <= 0; - - if(cmd == 5) ps2_key_raw <= 0; - end else begin - - case(cmd) - // buttons and switches - 8'h01: but_sw <= spi_data_in; - 8'h02: joystick_0 <= spi_data_in; - 8'h03: joystick_1 <= spi_data_in; -// 8'h60: if (byte_cnt < 5) joystick_0[(byte_cnt-1)<<3 +:8] <= spi_data_in; -// 8'h61: if (byte_cnt < 5) joystick_1[(byte_cnt-1)<<3 +:8] <= spi_data_in; -// 8'h62: if (byte_cnt < 5) joystick_2[(byte_cnt-1)<<3 +:8] <= spi_data_in; -// 8'h63: if (byte_cnt < 5) joystick_3[(byte_cnt-1)<<3 +:8] <= spi_data_in; -// 8'h64: if (byte_cnt < 5) joystick_4[(byte_cnt-1)<<3 +:8] <= spi_data_in; - // store incoming ps2 mouse bytes - 8'h04: begin - got_ps2 <= 1; - case(byte_cnt) - 2: ps2_mouse[7:0] <= spi_data_in; - 3: ps2_mouse[15:8] <= spi_data_in; - 4: ps2_mouse[23:16] <= spi_data_in; - endcase - ps2_mouse_fifo[ps2_mouse_wptr] <= spi_data_in; - ps2_mouse_wptr <= ps2_mouse_wptr + 1'd1; - end - - // store incoming ps2 keyboard bytes - 8'h05: begin - got_ps2 <= 1; - ps2_key_raw[31:0] <= {ps2_key_raw[23:0], spi_data_in}; - ps2_kbd_fifo[ps2_kbd_wptr] <= spi_data_in; - ps2_kbd_wptr <= ps2_kbd_wptr + 1'd1; - end - - 8'h15: status[7:0] <= spi_data_in; - - // send SD config IO -> FPGA - // flag that download begins - // sd card knows data is config if sd_dout_strobe is asserted - // with sd_ack still being inactive (low) - 8'h19, - // send sector IO -> FPGA - // flag that download begins - 8'h17: begin - sd_buff_dout <= spi_data_in; - b_wr <= 1; - end - - // joystick analog - 8'h1a: begin - // first byte is joystick index - if(byte_cnt == 2) stick_idx <= spi_data_in[2:0]; - else if(byte_cnt == 3) begin - // second byte is x axis - if(stick_idx == 0) joystick_analog_0[15:8] <= spi_data_in; - else if(stick_idx == 1) joystick_analog_1[15:8] <= spi_data_in; - end else if(byte_cnt == 4) begin - // third byte is y axis - if(stick_idx == 0) joystick_analog_0[7:0] <= spi_data_in; - else if(stick_idx == 1) joystick_analog_1[7:0] <= spi_data_in; - end - end - - // notify image selection - 8'h1c: mount_strobe[spi_data_in[0]] <= 1; - - // send image info - 8'h1d: if(byte_cnt<6) img_size[(byte_cnt-2)<<3 +:8] <= spi_data_in; - - // status, 32bit version - 8'h1e: if(byte_cnt<6) status[(byte_cnt-2)<<3 +:8] <= spi_data_in; - default: ; - endcase - end - end -end - - -/////////////////////////////// PS2 /////////////////////////////// -// 8 byte fifos to store ps2 bytes -localparam PS2_FIFO_BITS = 3; - -reg clk_ps2; -always @(negedge clk_sys) begin - integer cnt; - cnt <= cnt + 1'd1; - if(cnt == PS2DIV) begin - clk_ps2 <= ~clk_ps2; - cnt <= 0; - end -end - -// keyboard -reg [7:0] ps2_kbd_fifo[1<= 1)&&(ps2_kbd_tx_state < 9)) begin - ps2_kbd_data <= ps2_kbd_tx_byte[0]; // data bits - ps2_kbd_tx_byte[6:0] <= ps2_kbd_tx_byte[7:1]; // shift down - if(ps2_kbd_tx_byte[0]) - ps2_kbd_parity <= !ps2_kbd_parity; - end - - // transmission of parity - if(ps2_kbd_tx_state == 9) ps2_kbd_data <= ps2_kbd_parity; - - // transmission of stop bit - if(ps2_kbd_tx_state == 10) ps2_kbd_data <= 1; // stop bit is 1 - - // advance state machine - if(ps2_kbd_tx_state < 11) ps2_kbd_tx_state <= ps2_kbd_tx_state + 1'd1; - else ps2_kbd_tx_state <= 0; - end - end -end - -// mouse -reg [7:0] ps2_mouse_fifo[1<= 1)&&(ps2_mouse_tx_state < 9)) begin - ps2_mouse_data <= ps2_mouse_tx_byte[0]; // data bits - ps2_mouse_tx_byte[6:0] <= ps2_mouse_tx_byte[7:1]; // shift down - if(ps2_mouse_tx_byte[0]) - ps2_mouse_parity <= !ps2_mouse_parity; - end - - // transmission of parity - if(ps2_mouse_tx_state == 9) ps2_mouse_data <= ps2_mouse_parity; - - // transmission of stop bit - if(ps2_mouse_tx_state == 10) ps2_mouse_data <= 1; // stop bit is 1 - - // advance state machine - if(ps2_mouse_tx_state < 11) ps2_mouse_tx_state <= ps2_mouse_tx_state + 1'd1; - else ps2_mouse_tx_state <= 0; - end - end -end - - -/////////////////////////////// DOWNLOADING /////////////////////////////// - -reg [7:0] data_w; -reg [24:0] addr_w; -reg rclk = 0; - -localparam UIO_FILE_TX = 8'h53; -localparam UIO_FILE_TX_DAT = 8'h54; -localparam UIO_FILE_INDEX = 8'h55; - -reg rdownload = 0; - -// data_io has its own SPI interface to the io controller -always@(posedge SPI_SCK, posedge SPI_SS2) begin - reg [6:0] sbuf; - reg [7:0] cmd; - reg [4:0] cnt; - reg [24:0] addr; - - if(SPI_SS2) cnt <= 0; - else begin - // don't shift in last bit. It is evaluated directly - // when writing to ram - if(cnt != 15) sbuf <= { sbuf[5:0], SPI_DI}; - - // count 0-7 8-15 8-15 ... - if(cnt < 15) cnt <= cnt + 1'd1; - else cnt <= 8; - - // finished command byte - if(cnt == 7) cmd <= {sbuf, SPI_DI}; - - // prepare/end transmission - if((cmd == UIO_FILE_TX) && (cnt == 15)) begin - // prepare - if(SPI_DI) begin - case(ioctl_index[4:0]) - 1: addr <= 25'h200000; // TRD buffer at 2MB - 2: addr <= 25'h400000; // tape buffer at 4MB - default: addr <= 25'h150000; // boot rom - endcase - rdownload <= 1; - end else begin - addr_w <= addr; - rdownload <= 0; - end - end - - // command 0x54: UIO_FILE_TX - if((cmd == UIO_FILE_TX_DAT) && (cnt == 15)) begin - addr_w <= addr; - data_w <= {sbuf, SPI_DI}; - addr <= addr + 1'd1; - rclk <= ~rclk; - end - - // expose file (menu) index - if((cmd == UIO_FILE_INDEX) && (cnt == 15)) ioctl_index <= {sbuf, SPI_DI}; - end -end - -// transfer to ioctl_clk domain. -// ioctl_index is set before ioctl_download, so it's stable already -always@(posedge clk_sys) begin - reg rclkD, rclkD2; - - if(ioctl_ce) begin - ioctl_download <= rdownload; - - rclkD <= rclk; - rclkD2 <= rclkD; - ioctl_wr <= 0; - - if(rclkD != rclkD2) begin - ioctl_dout <= data_w; - ioctl_addr <= addr_w; - ioctl_wr <= 1; - end - end -end - -endmodule \ No newline at end of file diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/osd.sv b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/osd.sv deleted file mode 100644 index b9181763..00000000 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/osd.sv +++ /dev/null @@ -1,194 +0,0 @@ -// A simple OSD implementation. Can be hooked up between a cores -// VGA output and the physical VGA pins - -module osd ( - // OSDs pixel clock, should be synchronous to cores pixel clock to - // avoid jitter. - input clk_sys, - - // SPI interface - input SPI_SCK, - input SPI_SS3, - input SPI_DI, - - input [1:0] rotate, //[0] - rotate [1] - left or right - - // VGA signals coming from core - input [5:0] R_in, - input [5:0] G_in, - input [5:0] B_in, - input HSync, - input VSync, - - // VGA signals going to video connector - output [5:0] R_out, - output [5:0] G_out, - output [5:0] B_out -); - -parameter OSD_X_OFFSET = 10'd0; -parameter OSD_Y_OFFSET = 10'd0; -parameter OSD_COLOR = 3'd0; - -localparam OSD_WIDTH = 10'd256; -localparam OSD_HEIGHT = 10'd128; - -// ********************************************************************************* -// spi client -// ********************************************************************************* - -// this core supports only the display related OSD commands -// of the minimig -reg osd_enable; -(* ramstyle = "no_rw_check" *) reg [7:0] osd_buffer[2047:0]; // the OSD buffer itself - -// the OSD has its own SPI interface to the io controller -always@(posedge SPI_SCK, posedge SPI_SS3) begin - reg [4:0] cnt; - reg [10:0] bcnt; - reg [7:0] sbuf; - reg [7:0] cmd; - - if(SPI_SS3) begin - cnt <= 0; - bcnt <= 0; - end else begin - sbuf <= {sbuf[6:0], SPI_DI}; - - // 0:7 is command, rest payload - if(cnt < 15) cnt <= cnt + 1'd1; - else cnt <= 8; - - if(cnt == 7) begin - cmd <= {sbuf[6:0], SPI_DI}; - - // lower three command bits are line address - bcnt <= {sbuf[1:0], SPI_DI, 8'h00}; - - // command 0x40: OSDCMDENABLE, OSDCMDDISABLE - if(sbuf[6:3] == 4'b0100) osd_enable <= SPI_DI; - end - - // command 0x20: OSDCMDWRITE - if((cmd[7:3] == 5'b00100) && (cnt == 15)) begin - osd_buffer[bcnt] <= {sbuf[6:0], SPI_DI}; - bcnt <= bcnt + 1'd1; - end - end -end - -// ********************************************************************************* -// video timing and sync polarity anaylsis -// ********************************************************************************* - -// horizontal counter -reg [9:0] h_cnt; -reg [9:0] hs_low, hs_high; -wire hs_pol = hs_high < hs_low; -wire [9:0] dsp_width = hs_pol ? hs_low : hs_high; - -// vertical counter -reg [9:0] v_cnt; -reg [9:0] vs_low, vs_high; -wire vs_pol = vs_high < vs_low; -wire [9:0] dsp_height = vs_pol ? vs_low : vs_high; - -wire doublescan = (dsp_height>350); - -reg ce_pix; -always @(negedge clk_sys) begin - integer cnt = 0; - integer pixsz, pixcnt; - reg hs; - - cnt <= cnt + 1; - hs <= HSync; - - pixcnt <= pixcnt + 1; - if(pixcnt == pixsz) pixcnt <= 0; - ce_pix <= !pixcnt; - - if(hs && ~HSync) begin - cnt <= 0; - pixsz <= (cnt >> 9) - 1; - pixcnt <= 0; - ce_pix <= 1; - end -end - -always @(posedge clk_sys) begin - reg hsD, hsD2; - reg vsD, vsD2; - - if(ce_pix) begin - // bring hsync into local clock domain - hsD <= HSync; - hsD2 <= hsD; - - // falling edge of HSync - if(!hsD && hsD2) begin - h_cnt <= 0; - hs_high <= h_cnt; - end - - // rising edge of HSync - else if(hsD && !hsD2) begin - h_cnt <= 0; - hs_low <= h_cnt; - v_cnt <= v_cnt + 1'd1; - end else begin - h_cnt <= h_cnt + 1'd1; - end - - vsD <= VSync; - vsD2 <= vsD; - - // falling edge of VSync - if(!vsD && vsD2) begin - v_cnt <= 0; - vs_high <= v_cnt; - end - - // rising edge of VSync - else if(vsD && !vsD2) begin - v_cnt <= 0; - vs_low <= v_cnt; - end - end -end - -// area in which OSD is being displayed -wire [9:0] h_osd_start = ((dsp_width - OSD_WIDTH)>> 1) + OSD_X_OFFSET; -wire [9:0] h_osd_end = h_osd_start + OSD_WIDTH; -wire [9:0] v_osd_start = ((dsp_height- (OSD_HEIGHT<> 1) + OSD_Y_OFFSET; -wire [9:0] v_osd_end = v_osd_start + (OSD_HEIGHT<= h_osd_start) && (h_cnt < h_osd_end) && - (VSync != vs_pol) && (v_cnt >= v_osd_start) && (v_cnt < v_osd_end); - -reg [10:0] osd_buffer_addr; -wire [7:0] osd_byte = osd_buffer[osd_buffer_addr]; -reg osd_pixel; - -always @(posedge clk_sys) begin - if(ce_pix) begin - osd_buffer_addr <= rotate[0] ? {rotate[1] ? osd_hcnt_next2[7:5] : ~osd_hcnt_next2[7:5], - rotate[1] ? (doublescan ? ~osd_vcnt[7:0] : ~{osd_vcnt[6:0], 1'b0}) : - (doublescan ? osd_vcnt[7:0] : {osd_vcnt[6:0], 1'b0})} : - {doublescan ? osd_vcnt[7:5] : osd_vcnt[6:4], osd_hcnt_next2[7:0]}; - - osd_pixel <= rotate[0] ? osd_byte[rotate[1] ? osd_hcnt_next[4:2] : ~osd_hcnt_next[4:2]] : - osd_byte[doublescan ? osd_vcnt[4:2] : osd_vcnt[3:1]]; - end -end - -assign R_out = !osd_de ? R_in : {osd_pixel, osd_pixel, OSD_COLOR[2], R_in[5:3]}; -assign G_out = !osd_de ? G_in : {osd_pixel, osd_pixel, OSD_COLOR[1], G_in[5:3]}; -assign B_out = !osd_de ? B_in : {osd_pixel, osd_pixel, OSD_COLOR[0], B_in[5:3]}; - -endmodule diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/pll.v b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/pll.v index 973a7f0a..4808fdd7 100644 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/pll.v +++ b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/pll.v @@ -40,36 +40,28 @@ module pll ( inclk0, c0, c1, - c2, - c3, locked); input inclk0; output c0; output c1; - output c2; - output c3; output locked; wire [4:0] sub_wire0; - wire sub_wire3; - wire [0:0] sub_wire8 = 1'h0; - wire [2:2] sub_wire5 = sub_wire0[2:2]; - wire [0:0] sub_wire4 = sub_wire0[0:0]; - wire [3:3] sub_wire2 = sub_wire0[3:3]; + wire sub_wire2; + wire [0:0] sub_wire6 = 1'h0; + wire [0:0] sub_wire3 = sub_wire0[0:0]; wire [1:1] sub_wire1 = sub_wire0[1:1]; wire c1 = sub_wire1; - wire c3 = sub_wire2; - wire locked = sub_wire3; - wire c0 = sub_wire4; - wire c2 = sub_wire5; - wire sub_wire6 = inclk0; - wire [1:0] sub_wire7 = {sub_wire8, sub_wire6}; + wire locked = sub_wire2; + wire c0 = sub_wire3; + wire sub_wire4 = inclk0; + wire [1:0] sub_wire5 = {sub_wire6, sub_wire4}; altpll altpll_component ( - .inclk (sub_wire7), + .inclk (sub_wire5), .clk (sub_wire0), - .locked (sub_wire3), + .locked (sub_wire2), .activeclock (), .areset (1'b0), .clkbad (), @@ -106,7 +98,7 @@ module pll ( .vcounderrange ()); defparam altpll_component.bandwidth_type = "AUTO", - altpll_component.clk0_divide_by = 52, + altpll_component.clk0_divide_by = 26, altpll_component.clk0_duty_cycle = 50, altpll_component.clk0_multiply_by = 47, altpll_component.clk0_phase_shift = "0", @@ -114,14 +106,6 @@ module pll ( altpll_component.clk1_duty_cycle = 50, altpll_component.clk1_multiply_by = 47, altpll_component.clk1_phase_shift = "0", - altpll_component.clk2_divide_by = 208, - altpll_component.clk2_duty_cycle = 50, - altpll_component.clk2_multiply_by = 47, - altpll_component.clk2_phase_shift = "0", - altpll_component.clk3_divide_by = 26, - altpll_component.clk3_duty_cycle = 50, - altpll_component.clk3_multiply_by = 47, - altpll_component.clk3_phase_shift = "0", altpll_component.compensate_clock = "CLK0", altpll_component.inclk0_input_frequency = 37037, altpll_component.intended_device_family = "Cyclone III", @@ -156,8 +140,8 @@ module pll ( altpll_component.port_scanwrite = "PORT_UNUSED", altpll_component.port_clk0 = "PORT_USED", altpll_component.port_clk1 = "PORT_USED", - altpll_component.port_clk2 = "PORT_USED", - altpll_component.port_clk3 = "PORT_USED", + altpll_component.port_clk2 = "PORT_UNUSED", + altpll_component.port_clk3 = "PORT_UNUSED", altpll_component.port_clk4 = "PORT_UNUSED", altpll_component.port_clk5 = "PORT_UNUSED", altpll_component.port_clkena0 = "PORT_UNUSED", @@ -195,18 +179,12 @@ endmodule // Retrieval info: PRIVATE: CUR_DEDICATED_CLK STRING "c0" // Retrieval info: PRIVATE: CUR_FBIN_CLK STRING "c0" // Retrieval info: PRIVATE: DEVICE_SPEED_GRADE STRING "8" -// Retrieval info: PRIVATE: DIV_FACTOR0 NUMERIC "52" +// Retrieval info: PRIVATE: DIV_FACTOR0 NUMERIC "26" // Retrieval info: PRIVATE: DIV_FACTOR1 NUMERIC "104" -// Retrieval info: PRIVATE: DIV_FACTOR2 NUMERIC "208" -// Retrieval info: PRIVATE: DIV_FACTOR3 NUMERIC "26" // Retrieval info: PRIVATE: DUTY_CYCLE0 STRING "50.00000000" // Retrieval info: PRIVATE: DUTY_CYCLE1 STRING "50.00000000" -// Retrieval info: PRIVATE: DUTY_CYCLE2 STRING "50.00000000" -// Retrieval info: PRIVATE: DUTY_CYCLE3 STRING "50.00000000" -// Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "24.403847" +// Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE0 STRING "48.807693" // Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE1 STRING "12.201923" -// Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE2 STRING "6.100962" -// Retrieval info: PRIVATE: EFF_OUTPUT_FREQ_VALUE3 STRING "48.807693" // Retrieval info: PRIVATE: EXPLICIT_SWITCHOVER_COUNTER STRING "0" // Retrieval info: PRIVATE: EXT_FEEDBACK_RADIO STRING "0" // Retrieval info: PRIVATE: GLOCKED_COUNTER_EDIT_CHANGED STRING "1" @@ -228,41 +206,25 @@ endmodule // Retrieval info: PRIVATE: LVDS_MODE_DATA_RATE_DIRTY NUMERIC "0" // Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT0 STRING "deg" // Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT1 STRING "ps" -// Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT2 STRING "ps" -// Retrieval info: PRIVATE: LVDS_PHASE_SHIFT_UNIT3 STRING "ps" // Retrieval info: PRIVATE: MIG_DEVICE_SPEED_GRADE STRING "Any" // Retrieval info: PRIVATE: MIRROR_CLK0 STRING "0" // Retrieval info: PRIVATE: MIRROR_CLK1 STRING "0" -// Retrieval info: PRIVATE: MIRROR_CLK2 STRING "0" -// Retrieval info: PRIVATE: MIRROR_CLK3 STRING "0" // Retrieval info: PRIVATE: MULT_FACTOR0 NUMERIC "47" // Retrieval info: PRIVATE: MULT_FACTOR1 NUMERIC "47" -// Retrieval info: PRIVATE: MULT_FACTOR2 NUMERIC "47" -// Retrieval info: PRIVATE: MULT_FACTOR3 NUMERIC "47" // Retrieval info: PRIVATE: NORMAL_MODE_RADIO STRING "1" -// Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "24.39200000" +// Retrieval info: PRIVATE: OUTPUT_FREQ0 STRING "48.78400000" // Retrieval info: PRIVATE: OUTPUT_FREQ1 STRING "12.19600000" -// Retrieval info: PRIVATE: OUTPUT_FREQ2 STRING "6.09800000" -// Retrieval info: PRIVATE: OUTPUT_FREQ3 STRING "48.78000000" // Retrieval info: PRIVATE: OUTPUT_FREQ_MODE0 STRING "0" // Retrieval info: PRIVATE: OUTPUT_FREQ_MODE1 STRING "0" -// Retrieval info: PRIVATE: OUTPUT_FREQ_MODE2 STRING "0" -// Retrieval info: PRIVATE: OUTPUT_FREQ_MODE3 STRING "0" // Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT0 STRING "MHz" // Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT1 STRING "MHz" -// Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT2 STRING "MHz" -// Retrieval info: PRIVATE: OUTPUT_FREQ_UNIT3 STRING "MHz" // Retrieval info: PRIVATE: PHASE_RECONFIG_FEATURE_ENABLED STRING "1" // Retrieval info: PRIVATE: PHASE_RECONFIG_INPUTS_CHECK STRING "0" // Retrieval info: PRIVATE: PHASE_SHIFT0 STRING "0.00000000" // Retrieval info: PRIVATE: PHASE_SHIFT1 STRING "0.00000000" -// Retrieval info: PRIVATE: PHASE_SHIFT2 STRING "0.00000000" -// Retrieval info: PRIVATE: PHASE_SHIFT3 STRING "0.00000000" // Retrieval info: PRIVATE: PHASE_SHIFT_STEP_ENABLED_CHECK STRING "0" // Retrieval info: PRIVATE: PHASE_SHIFT_UNIT0 STRING "deg" // Retrieval info: PRIVATE: PHASE_SHIFT_UNIT1 STRING "deg" -// Retrieval info: PRIVATE: PHASE_SHIFT_UNIT2 STRING "deg" -// Retrieval info: PRIVATE: PHASE_SHIFT_UNIT3 STRING "ps" // Retrieval info: PRIVATE: PLL_ADVANCED_PARAM_CHECK STRING "0" // Retrieval info: PRIVATE: PLL_ARESET_CHECK STRING "0" // Retrieval info: PRIVATE: PLL_AUTOPLL_CHECK NUMERIC "1" @@ -286,24 +248,18 @@ endmodule // Retrieval info: PRIVATE: SRC_SYNCH_COMP_RADIO STRING "0" // Retrieval info: PRIVATE: STICKY_CLK0 STRING "1" // Retrieval info: PRIVATE: STICKY_CLK1 STRING "1" -// Retrieval info: PRIVATE: STICKY_CLK2 STRING "1" -// Retrieval info: PRIVATE: STICKY_CLK3 STRING "1" // Retrieval info: PRIVATE: SWITCHOVER_COUNT_EDIT NUMERIC "1" // Retrieval info: PRIVATE: SWITCHOVER_FEATURE_ENABLED STRING "1" // Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0" // Retrieval info: PRIVATE: USE_CLK0 STRING "1" // Retrieval info: PRIVATE: USE_CLK1 STRING "1" -// Retrieval info: PRIVATE: USE_CLK2 STRING "1" -// Retrieval info: PRIVATE: USE_CLK3 STRING "1" // Retrieval info: PRIVATE: USE_CLKENA0 STRING "0" // Retrieval info: PRIVATE: USE_CLKENA1 STRING "0" -// Retrieval info: PRIVATE: USE_CLKENA2 STRING "0" -// Retrieval info: PRIVATE: USE_CLKENA3 STRING "0" // Retrieval info: PRIVATE: USE_MIL_SPEED_GRADE NUMERIC "0" // Retrieval info: PRIVATE: ZERO_DELAY_RADIO STRING "0" // Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all // Retrieval info: CONSTANT: BANDWIDTH_TYPE STRING "AUTO" -// Retrieval info: CONSTANT: CLK0_DIVIDE_BY NUMERIC "52" +// Retrieval info: CONSTANT: CLK0_DIVIDE_BY NUMERIC "26" // Retrieval info: CONSTANT: CLK0_DUTY_CYCLE NUMERIC "50" // Retrieval info: CONSTANT: CLK0_MULTIPLY_BY NUMERIC "47" // Retrieval info: CONSTANT: CLK0_PHASE_SHIFT STRING "0" @@ -311,14 +267,6 @@ endmodule // Retrieval info: CONSTANT: CLK1_DUTY_CYCLE NUMERIC "50" // Retrieval info: CONSTANT: CLK1_MULTIPLY_BY NUMERIC "47" // Retrieval info: CONSTANT: CLK1_PHASE_SHIFT STRING "0" -// Retrieval info: CONSTANT: CLK2_DIVIDE_BY NUMERIC "208" -// Retrieval info: CONSTANT: CLK2_DUTY_CYCLE NUMERIC "50" -// Retrieval info: CONSTANT: CLK2_MULTIPLY_BY NUMERIC "47" -// Retrieval info: CONSTANT: CLK2_PHASE_SHIFT STRING "0" -// Retrieval info: CONSTANT: CLK3_DIVIDE_BY NUMERIC "26" -// Retrieval info: CONSTANT: CLK3_DUTY_CYCLE NUMERIC "50" -// Retrieval info: CONSTANT: CLK3_MULTIPLY_BY NUMERIC "47" -// Retrieval info: CONSTANT: CLK3_PHASE_SHIFT STRING "0" // Retrieval info: CONSTANT: COMPENSATE_CLOCK STRING "CLK0" // Retrieval info: CONSTANT: INCLK0_INPUT_FREQUENCY NUMERIC "37037" // Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III" @@ -352,8 +300,8 @@ endmodule // Retrieval info: CONSTANT: PORT_SCANWRITE STRING "PORT_UNUSED" // Retrieval info: CONSTANT: PORT_clk0 STRING "PORT_USED" // Retrieval info: CONSTANT: PORT_clk1 STRING "PORT_USED" -// Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_USED" -// Retrieval info: CONSTANT: PORT_clk3 STRING "PORT_USED" +// Retrieval info: CONSTANT: PORT_clk2 STRING "PORT_UNUSED" +// Retrieval info: CONSTANT: PORT_clk3 STRING "PORT_UNUSED" // Retrieval info: CONSTANT: PORT_clk4 STRING "PORT_UNUSED" // Retrieval info: CONSTANT: PORT_clk5 STRING "PORT_UNUSED" // Retrieval info: CONSTANT: PORT_clkena0 STRING "PORT_UNUSED" @@ -371,16 +319,12 @@ endmodule // Retrieval info: USED_PORT: @clk 0 0 5 0 OUTPUT_CLK_EXT VCC "@clk[4..0]" // Retrieval info: USED_PORT: c0 0 0 0 0 OUTPUT_CLK_EXT VCC "c0" // Retrieval info: USED_PORT: c1 0 0 0 0 OUTPUT_CLK_EXT VCC "c1" -// Retrieval info: USED_PORT: c2 0 0 0 0 OUTPUT_CLK_EXT VCC "c2" -// Retrieval info: USED_PORT: c3 0 0 0 0 OUTPUT_CLK_EXT VCC "c3" // Retrieval info: USED_PORT: inclk0 0 0 0 0 INPUT_CLK_EXT GND "inclk0" // Retrieval info: USED_PORT: locked 0 0 0 0 OUTPUT GND "locked" // Retrieval info: CONNECT: @inclk 0 0 1 1 GND 0 0 0 0 // Retrieval info: CONNECT: @inclk 0 0 1 0 inclk0 0 0 0 0 // Retrieval info: CONNECT: c0 0 0 0 0 @clk 0 0 1 0 // Retrieval info: CONNECT: c1 0 0 0 0 @clk 0 0 1 1 -// Retrieval info: CONNECT: c2 0 0 0 0 @clk 0 0 1 2 -// Retrieval info: CONNECT: c3 0 0 0 0 @clk 0 0 1 3 // Retrieval info: CONNECT: locked 0 0 0 0 @locked 0 0 0 0 // Retrieval info: GEN_FILE: TYPE_NORMAL pll.v TRUE // Retrieval info: GEN_FILE: TYPE_NORMAL pll.ppf TRUE diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/scandoubler.sv b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/scandoubler.sv deleted file mode 100644 index 0213d20c..00000000 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/scandoubler.sv +++ /dev/null @@ -1,195 +0,0 @@ -// -// scandoubler.v -// -// Copyright (c) 2015 Till Harbaum -// Copyright (c) 2017 Sorgelig -// -// 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 . - -// TODO: Delay vsync one line - -module scandoubler #(parameter LENGTH, parameter HALF_DEPTH) -( - // system interface - input clk_sys, - input ce_pix, - input ce_pix_actual, - - input hq2x, - - // shifter video interface - input hs_in, - input vs_in, - input line_start, - - input [DWIDTH:0] r_in, - input [DWIDTH:0] g_in, - input [DWIDTH:0] b_in, - input mono, - - // output interface - output reg hs_out, - output vs_out, - output [DWIDTH:0] r_out, - output [DWIDTH:0] g_out, - output [DWIDTH:0] b_out -); - - -localparam DWIDTH = HALF_DEPTH ? 2 : 5; - -assign vs_out = vs_in; - -reg [2:0] phase; -reg [2:0] ce_div; -reg [7:0] pix_len = 0; -wire [7:0] pl = pix_len + 1'b1; - -reg ce_x1, ce_x4; -reg req_line_reset; -wire ls_in = hs_in | line_start; -always @(negedge clk_sys) begin - reg old_ce; - reg [2:0] ce_cnt; - - reg [7:0] pixsz2, pixsz4 = 0; - - old_ce <= ce_pix; - if(~&pix_len) pix_len <= pix_len + 1'd1; - - ce_x4 <= 0; - ce_x1 <= 0; - - // use such odd comparison to place c_x4 evenly if master clock isn't multiple 4. - if((pl == pixsz4) || (pl == pixsz2) || (pl == (pixsz2+pixsz4))) begin - phase <= phase + 1'd1; - ce_x4 <= 1; - end - - if(~old_ce & ce_pix) begin - pixsz2 <= {1'b0, pl[7:1]}; - pixsz4 <= {2'b00, pl[7:2]}; - ce_x1 <= 1; - ce_x4 <= 1; - pix_len <= 0; - phase <= phase + 1'd1; - - ce_cnt <= ce_cnt + 1'd1; - if(ce_pix_actual) begin - phase <= 0; - ce_div <= ce_cnt + 1'd1; - ce_cnt <= 0; - req_line_reset <= 0; - end - - if(ls_in) req_line_reset <= 1; - end -end - -reg ce_sd; -always @(*) begin - case(ce_div) - 2: ce_sd = !phase[0]; - 4: ce_sd = !phase[1:0]; - default: ce_sd <= 1; - endcase -end - -`define BITS_TO_FIT(N) ( \ - N <= 2 ? 0 : \ - N <= 4 ? 1 : \ - N <= 8 ? 2 : \ - N <= 16 ? 3 : \ - N <= 32 ? 4 : \ - N <= 64 ? 5 : \ - N <= 128 ? 6 : \ - N <= 256 ? 7 : \ - N <= 512 ? 8 : \ - N <=1024 ? 9 : 10 ) - -localparam AWIDTH = `BITS_TO_FIT(LENGTH); -Hq2x #(.LENGTH(LENGTH), .HALF_DEPTH(HALF_DEPTH)) Hq2x -( - .clk(clk_sys), - .ce_x4(ce_x4 & ce_sd), - .inputpixel({b_in,g_in,r_in}), - .mono(mono), - .disable_hq2x(~hq2x), - .reset_frame(vs_in), - .reset_line(req_line_reset), - .read_y(sd_line), - .read_x(sd_h_actual), - .outpixel({b_out,g_out,r_out}) -); - -reg [10:0] sd_h_actual; -always @(*) begin - case(ce_div) - 2: sd_h_actual = sd_h[10:1]; - 4: sd_h_actual = sd_h[10:2]; - default: sd_h_actual = sd_h; - endcase -end - -reg [10:0] sd_h; -reg [1:0] sd_line; -always @(posedge clk_sys) begin - - reg [11:0] hs_max,hs_rise,hs_ls; - reg [10:0] hcnt; - reg [11:0] sd_hcnt; - - reg hs, hs2, vs, ls; - - if(ce_x1) begin - hs <= hs_in; - ls <= ls_in; - - if(ls && !ls_in) hs_ls <= {hcnt,1'b1}; - - // falling edge of hsync indicates start of line - if(hs && !hs_in) begin - hs_max <= {hcnt,1'b1}; - hcnt <= 0; - if(ls && !ls_in) hs_ls <= {10'd0,1'b1}; - end else begin - hcnt <= hcnt + 1'd1; - end - - // save position of rising edge - if(!hs && hs_in) hs_rise <= {hcnt,1'b1}; - - vs <= vs_in; - if(vs && ~vs_in) sd_line <= 0; - end - - if(ce_x4) begin - hs2 <= hs_in; - - // output counter synchronous to input and at twice the rate - sd_hcnt <= sd_hcnt + 1'd1; - sd_h <= sd_h + 1'd1; - if(hs2 && !hs_in) sd_hcnt <= hs_max; - if(sd_hcnt == hs_max) sd_hcnt <= 0; - - // replicate horizontal sync at twice the speed - if(sd_hcnt == hs_max) hs_out <= 0; - if(sd_hcnt == hs_rise) hs_out <= 1; - - if(sd_hcnt == hs_ls) sd_h <= 0; - if(sd_hcnt == hs_ls) sd_line <= sd_line + 1'd1; - end -end - -endmodule diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/sdram.sv b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/sdram.sv deleted file mode 100644 index 8f927d05..00000000 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/sdram.sv +++ /dev/null @@ -1,254 +0,0 @@ -// -// sdram.v -// -// Static RAM controller implementation using SDRAM MT48LC16M16A2 -// -// Copyright (c) 2015,2016 Sorgelig -// -// Some parts of SDRAM code used from project: -// http://hamsterworks.co.nz/mediawiki/index.php/Simple_SDRAM_Controller -// -// 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 . -// -// ------------------------------------------ -// -// v2.1 - Add universal 8/16 bit mode. -// - -module sdram -( - input init, // reset to initialize RAM - input clk, // clock ~100MHz - // - // SDRAM_* - signals to the MT48LC16M16 chip - inout reg [15:0] SDRAM_DQ, // 16 bit bidirectional data bus - output reg [12:0] SDRAM_A, // 13 bit multiplexed address bus - output reg SDRAM_DQML, // two byte masks - output reg SDRAM_DQMH, // - output reg [1:0] SDRAM_BA, // two banks - output SDRAM_nCS, // a single chip select - output SDRAM_nWE, // write enable - output SDRAM_nRAS, // row address select - output SDRAM_nCAS, // columns address select - output SDRAM_CKE, // clock enable - // - input [1:0] wtbt, // 16bit mode: bit1 - write high byte, bit0 - write low byte, - // 8bit mode: 2'b00 - use addr[0] to decide which byte to write - // Ignored while reading. - // - input [24:0] addr, // 25 bit address for 8bit mode. addr[0] = 0 for 16bit mode for correct operations. - output [15:0] dout, // data output to cpu - input [15:0] din, // data input from cpu - input we, // cpu requests write - input rd, // cpu requests read - output reg ready // dout is valid. Ready to accept new read/write. -); - -assign SDRAM_nCS = command[3]; -assign SDRAM_nRAS = command[2]; -assign SDRAM_nCAS = command[1]; -assign SDRAM_nWE = command[0]; -assign SDRAM_CKE = cke; - -// no burst configured -localparam BURST_LENGTH = 3'b000; // 000=1, 001=2, 010=4, 011=8 -localparam ACCESS_TYPE = 1'b0; // 0=sequential, 1=interleaved -localparam CAS_LATENCY = 3'd2; // 2 for < 100MHz, 3 for >100MHz -localparam OP_MODE = 2'b00; // only 00 (standard operation) allowed -localparam NO_WRITE_BURST = 1'b1; // 0= write burst enabled, 1=only single access write -localparam MODE = {3'b000, NO_WRITE_BURST, OP_MODE, CAS_LATENCY, ACCESS_TYPE, BURST_LENGTH}; - -localparam sdram_startup_cycles= 14'd12100;// 100us, plus a little more, @ 100MHz -localparam cycles_per_refresh = 14'd186; // (64000*36)/8192-1 Calc'd as (64ms @ 36MHz)/8192 rose -localparam startup_refresh_max = 14'b11111111111111; - -// SDRAM commands -localparam CMD_INHIBIT = 4'b1111; -localparam CMD_NOP = 4'b0111; -localparam CMD_ACTIVE = 4'b0011; -localparam CMD_READ = 4'b0101; -localparam CMD_WRITE = 4'b0100; -localparam CMD_BURST_TERMINATE = 4'b0110; -localparam CMD_PRECHARGE = 4'b0010; -localparam CMD_AUTO_REFRESH = 4'b0001; -localparam CMD_LOAD_MODE = 4'b0000; - -reg [13:0] refresh_count = startup_refresh_max - sdram_startup_cycles; -reg [3:0] command = CMD_INHIBIT; -reg cke = 0; -reg [24:0] save_addr; -reg [15:0] data; - -assign dout = save_addr[0] ? {data[7:0], data[15:8]} : {data[15:8], data[7:0]}; -typedef enum -{ - STATE_STARTUP, - STATE_OPEN_1, - STATE_WRITE, - STATE_READ, - STATE_IDLE, STATE_IDLE_1, STATE_IDLE_2, STATE_IDLE_3, - STATE_IDLE_4, STATE_IDLE_5, STATE_IDLE_6, STATE_IDLE_7 -} state_t; - -state_t state = STATE_STARTUP; - -always @(posedge clk) begin - reg old_we, old_rd; - reg [CAS_LATENCY:0] data_ready_delay; - - reg [15:0] new_data; - reg [1:0] new_wtbt; - reg new_we; - reg new_rd; - reg save_we = 1; - - - command <= CMD_NOP; - refresh_count <= refresh_count+1'b1; - - data_ready_delay <= {1'b0, data_ready_delay[CAS_LATENCY:1]}; - - if(data_ready_delay[0]) data <= SDRAM_DQ; - - case(state) - STATE_STARTUP: begin - //------------------------------------------------------------------------ - //-- This is the initial startup state, where we wait for at least 100us - //-- before starting the start sequence - //-- - //-- The initialisation is sequence is - //-- * de-assert SDRAM_CKE - //-- * 100us wait, - //-- * assert SDRAM_CKE - //-- * wait at least one cycle, - //-- * PRECHARGE - //-- * wait 2 cycles - //-- * REFRESH, - //-- * tREF wait - //-- * REFRESH, - //-- * tREF wait - //-- * LOAD_MODE_REG - //-- * 2 cycles wait - //------------------------------------------------------------------------ - cke <= 1; - SDRAM_DQ <= 16'bZZZZZZZZZZZZZZZZ; - SDRAM_DQML <= 1; - SDRAM_DQMH <= 1; - SDRAM_A <= 0; - SDRAM_BA <= 0; - - // All the commands during the startup are NOPS, except these - if(refresh_count == startup_refresh_max-31) begin - // ensure all rows are closed - command <= CMD_PRECHARGE; - SDRAM_A[10] <= 1; // all banks - SDRAM_BA <= 2'b00; - end else if (refresh_count == startup_refresh_max-23) begin - // these refreshes need to be at least tREF (66ns) apart - command <= CMD_AUTO_REFRESH; - end else if (refresh_count == startup_refresh_max-15) - command <= CMD_AUTO_REFRESH; - else if (refresh_count == startup_refresh_max-7) begin - // Now load the mode register - command <= CMD_LOAD_MODE; - SDRAM_A <= MODE; - end - - //------------------------------------------------------ - //-- if startup is complete then go into idle mode, - //-- get prepared to accept a new command, and schedule - //-- the first refresh cycle - //------------------------------------------------------ - if(!refresh_count) begin - state <= STATE_IDLE; - ready <= 1; - refresh_count <= 0; - end - end - - STATE_IDLE_7: state <= STATE_IDLE_6; - STATE_IDLE_6: state <= STATE_IDLE_5; - STATE_IDLE_5: state <= STATE_IDLE_4; - STATE_IDLE_4: state <= STATE_IDLE_3; - STATE_IDLE_3: state <= STATE_IDLE_2; - STATE_IDLE_2: state <= STATE_IDLE_1; - STATE_IDLE_1: begin - SDRAM_DQ <= 16'bZZZZZZZZZZZZZZZZ; - state <= STATE_IDLE; - // mask possible refresh to reduce colliding. - if(refresh_count > cycles_per_refresh) begin - //------------------------------------------------------------------------ - //-- Start the refresh cycle. - //-- This tasks tRFC (66ns), so 2 idle cycles are needed @ 36MHz - //------------------------------------------------------------------------ - state <= STATE_IDLE_2; - command <= CMD_AUTO_REFRESH; - refresh_count <= refresh_count - cycles_per_refresh + 1'd1; - end - end - - STATE_IDLE: begin - // Priority is to issue a refresh if one is outstanding - if(refresh_count > (cycles_per_refresh<<1)) state <= STATE_IDLE_1; - else if(new_rd | new_we) begin - new_we <= 0; - new_rd <= 0; - save_addr<= addr; - save_we <= new_we; - state <= STATE_OPEN_1; - command <= CMD_ACTIVE; - SDRAM_A <= addr[13:1]; - SDRAM_BA <= addr[24:23]; - end - end - - // ACTIVE-to-READ or WRITE delay >20ns (1 cycle @ 36 MHz)(-75) - STATE_OPEN_1: begin - SDRAM_A <= {4'b0010, save_addr[22:14]}; - SDRAM_DQML <= save_we & (new_wtbt ? ~new_wtbt[0] : save_addr[0]); - SDRAM_DQMH <= save_we & (new_wtbt ? ~new_wtbt[1] : ~save_addr[0]); - state <= save_we ? STATE_WRITE : STATE_READ; - end - - STATE_READ: begin - state <= STATE_IDLE_5; - command <= CMD_READ; - SDRAM_DQ <= 16'bZZZZZZZZZZZZZZZZ; - - // Schedule reading the data values off the bus - data_ready_delay[CAS_LATENCY] <= 1; - end - - STATE_WRITE: begin - state <= STATE_IDLE_5; - command <= CMD_WRITE; - SDRAM_DQ <= new_wtbt ? new_data : {new_data[7:0], new_data[7:0]}; - ready <= 1; - end - endcase - - if(init) begin - state <= STATE_STARTUP; - refresh_count <= startup_refresh_max - sdram_startup_cycles; - end - - old_we <= we; - old_rd <= rd; - if(we & ~old_we) {ready, new_we, new_data, new_wtbt} <= {1'b0, 1'b1, din, wtbt}; - else - if((rd & ~old_rd) || (rd & old_rd & (save_addr != addr))) {ready, new_rd} <= {1'b0, 1'b1}; - -end - -endmodule diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/video_gen.vhd b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/video_gen.vhd index 2abe45d1..39f0458d 100644 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/video_gen.vhd +++ b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/video_gen.vhd @@ -116,8 +116,8 @@ begin elsif vcnt = 250 then vsync <= '1';-- end if; - if hcnt = (127+8+1) then hblank <= '1'; -- +8 = retard du shift_register + 1 pixel-- - elsif hcnt = (255+8+1) then hblank <= '0'; -- +8 = retard du shift_register + 1 pixel-- + if hcnt = (127+8+2) then hblank <= '1'; -- +8 = retard du shift_register + 1 pixel-- + elsif hcnt = (255+8+2) then hblank <= '0'; -- +8 = retard du shift_register + 1 pixel-- end if; if vcnt = (495+1+0) then vblank <= '1'; diff --git a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/video_mixer.sv b/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/video_mixer.sv deleted file mode 100644 index 79d8ca03..00000000 --- a/Arcade_MiST/Bagman Hardware/Super Bagman_MiST/rtl/video_mixer.sv +++ /dev/null @@ -1,243 +0,0 @@ -// -// -// Copyright (c) 2017 Sorgelig -// -// This program is GPL Licensed. See COPYING for the full license. -// -// -//////////////////////////////////////////////////////////////////////////////////////////////////////// - -`timescale 1ns / 1ps - -// -// LINE_LENGTH: Length of display line in pixels -// Usually it's length from HSync to HSync. -// May be less if line_start is used. -// -// HALF_DEPTH: If =1 then color dept is 3 bits per component -// For half depth 6 bits monochrome is available with -// mono signal enabled and color = {G, R} - -module video_mixer -#( - parameter LINE_LENGTH = 480, - parameter HALF_DEPTH = 1, - - parameter OSD_COLOR = 3'd4, - parameter OSD_X_OFFSET = 10'd0, - parameter OSD_Y_OFFSET = 10'd0 -) -( - // master clock - // it should be multiple by (ce_pix*4). - input clk_sys, - - // Pixel clock or clock_enable (both are accepted). - input ce_pix, - - // Some systems have multiple resolutions. - // ce_pix_actual should match ce_pix where every second or fourth pulse is enabled, - // thus half or qurter resolutions can be used without brake video sync while switching resolutions. - // For fixed single resolution (or when video sync stability isn't required) ce_pix_actual = ce_pix. - input ce_pix_actual, - - // OSD SPI interface - input SPI_SCK, - input SPI_SS3, - input SPI_DI, - - // scanlines (00-none 01-25% 10-50% 11-75%) - input [1:0] scanlines, - - // 0 = HVSync 31KHz, 1 = CSync 15KHz - input scandoublerD, - - // High quality 2x scaling - input hq2x, - - // YPbPr always uses composite sync - input ypbpr, - - // 0 = 16-240 range. 1 = 0-255 range. (only for YPbPr color space) - input ypbpr_full, - input [1:0] rotate, //[0] - rotate [1] - left or right - // color - input [DWIDTH:0] R, - input [DWIDTH:0] G, - input [DWIDTH:0] B, - - // Monochrome mode (for HALF_DEPTH only) - input mono, - - // interlace sync. Positive pulses. - input HSync, - input VSync, - - // Falling of this signal means start of informative part of line. - // It can be horizontal blank signal. - // This signal can be used to reduce amount of required FPGA RAM for HQ2x scan doubler - // If FPGA RAM is not an issue, then simply set it to 0 for whole line processing. - // Keep in mind: due to algo first and last pixels of line should be black to avoid side artefacts. - // Thus, if blank signal is used to reduce the line, make sure to feed at least one black (or paper) pixel - // before first informative pixel. - input line_start, - - // MiST video output signals - output [5:0] VGA_R, - output [5:0] VGA_G, - output [5:0] VGA_B, - output VGA_VS, - output VGA_HS -); - -localparam DWIDTH = HALF_DEPTH ? 2 : 5; - -wire [DWIDTH:0] R_sd; -wire [DWIDTH:0] G_sd; -wire [DWIDTH:0] B_sd; -wire hs_sd, vs_sd; - -scandoubler #(.LENGTH(LINE_LENGTH), .HALF_DEPTH(HALF_DEPTH)) scandoubler -( - .*, - .hs_in(HSync), - .vs_in(VSync), - .r_in(R), - .g_in(G), - .b_in(B), - - .hs_out(hs_sd), - .vs_out(vs_sd), - .r_out(R_sd), - .g_out(G_sd), - .b_out(B_sd) -); - -wire [DWIDTH:0] rt = (scandoublerD ? R : R_sd); -wire [DWIDTH:0] gt = (scandoublerD ? G : G_sd); -wire [DWIDTH:0] bt = (scandoublerD ? B : B_sd); - -generate - if(HALF_DEPTH) begin - wire [5:0] r = mono ? {gt,rt} : {rt,rt}; - wire [5:0] g = mono ? {gt,rt} : {gt,gt}; - wire [5:0] b = mono ? {gt,rt} : {bt,bt}; - end else begin - wire [5:0] r = rt; - wire [5:0] g = gt; - wire [5:0] b = bt; - end -endgenerate - -wire hs = (scandoublerD ? HSync : hs_sd); -wire vs = (scandoublerD ? VSync : vs_sd); - -reg scanline = 0; -always @(posedge clk_sys) begin - reg old_hs, old_vs; - - old_hs <= hs; - old_vs <= vs; - - if(old_hs && ~hs) scanline <= ~scanline; - if(old_vs && ~vs) scanline <= 0; -end - -wire [5:0] r_out, g_out, b_out; -always @(*) begin - case(scanlines & {scanline, scanline}) - 1: begin // reduce 25% = 1/2 + 1/4 - r_out = {1'b0, r[5:1]} + {2'b00, r[5:2]}; - g_out = {1'b0, g[5:1]} + {2'b00, g[5:2]}; - b_out = {1'b0, b[5:1]} + {2'b00, b[5:2]}; - end - - 2: begin // reduce 50% = 1/2 - r_out = {1'b0, r[5:1]}; - g_out = {1'b0, g[5:1]}; - b_out = {1'b0, b[5:1]}; - end - - 3: begin // reduce 75% = 1/4 - r_out = {2'b00, r[5:2]}; - g_out = {2'b00, g[5:2]}; - b_out = {2'b00, b[5:2]}; - end - - default: begin - r_out = r; - g_out = g; - b_out = b; - end - endcase -end - -wire [5:0] red, green, blue; -osd #(OSD_X_OFFSET, OSD_Y_OFFSET, OSD_COLOR) osd -( - .*, - - .R_in(r_out), - .G_in(g_out), - .B_in(b_out), - .HSync(hs), - .VSync(vs), - .rotate(rotate), - - .R_out(red), - .G_out(green), - .B_out(blue) -); - -wire [5:0] yuv_full[225] = '{ - 6'd0, 6'd0, 6'd0, 6'd0, 6'd1, 6'd1, 6'd1, 6'd1, - 6'd2, 6'd2, 6'd2, 6'd3, 6'd3, 6'd3, 6'd3, 6'd4, - 6'd4, 6'd4, 6'd5, 6'd5, 6'd5, 6'd5, 6'd6, 6'd6, - 6'd6, 6'd7, 6'd7, 6'd7, 6'd7, 6'd8, 6'd8, 6'd8, - 6'd9, 6'd9, 6'd9, 6'd9, 6'd10, 6'd10, 6'd10, 6'd11, - 6'd11, 6'd11, 6'd11, 6'd12, 6'd12, 6'd12, 6'd13, 6'd13, - 6'd13, 6'd13, 6'd14, 6'd14, 6'd14, 6'd15, 6'd15, 6'd15, - 6'd15, 6'd16, 6'd16, 6'd16, 6'd17, 6'd17, 6'd17, 6'd17, - 6'd18, 6'd18, 6'd18, 6'd19, 6'd19, 6'd19, 6'd19, 6'd20, - 6'd20, 6'd20, 6'd21, 6'd21, 6'd21, 6'd21, 6'd22, 6'd22, - 6'd22, 6'd23, 6'd23, 6'd23, 6'd23, 6'd24, 6'd24, 6'd24, - 6'd25, 6'd25, 6'd25, 6'd25, 6'd26, 6'd26, 6'd26, 6'd27, - 6'd27, 6'd27, 6'd27, 6'd28, 6'd28, 6'd28, 6'd29, 6'd29, - 6'd29, 6'd29, 6'd30, 6'd30, 6'd30, 6'd31, 6'd31, 6'd31, - 6'd31, 6'd32, 6'd32, 6'd32, 6'd33, 6'd33, 6'd33, 6'd33, - 6'd34, 6'd34, 6'd34, 6'd35, 6'd35, 6'd35, 6'd35, 6'd36, - 6'd36, 6'd36, 6'd36, 6'd37, 6'd37, 6'd37, 6'd38, 6'd38, - 6'd38, 6'd38, 6'd39, 6'd39, 6'd39, 6'd40, 6'd40, 6'd40, - 6'd40, 6'd41, 6'd41, 6'd41, 6'd42, 6'd42, 6'd42, 6'd42, - 6'd43, 6'd43, 6'd43, 6'd44, 6'd44, 6'd44, 6'd44, 6'd45, - 6'd45, 6'd45, 6'd46, 6'd46, 6'd46, 6'd46, 6'd47, 6'd47, - 6'd47, 6'd48, 6'd48, 6'd48, 6'd48, 6'd49, 6'd49, 6'd49, - 6'd50, 6'd50, 6'd50, 6'd50, 6'd51, 6'd51, 6'd51, 6'd52, - 6'd52, 6'd52, 6'd52, 6'd53, 6'd53, 6'd53, 6'd54, 6'd54, - 6'd54, 6'd54, 6'd55, 6'd55, 6'd55, 6'd56, 6'd56, 6'd56, - 6'd56, 6'd57, 6'd57, 6'd57, 6'd58, 6'd58, 6'd58, 6'd58, - 6'd59, 6'd59, 6'd59, 6'd60, 6'd60, 6'd60, 6'd60, 6'd61, - 6'd61, 6'd61, 6'd62, 6'd62, 6'd62, 6'd62, 6'd63, 6'd63, - 6'd63 -}; - -// http://marsee101.blog19.fc2.com/blog-entry-2311.html -// Y = 16 + 0.257*R + 0.504*G + 0.098*B (Y = 0.299*R + 0.587*G + 0.114*B) -// Pb = 128 - 0.148*R - 0.291*G + 0.439*B (Pb = -0.169*R - 0.331*G + 0.500*B) -// Pr = 128 + 0.439*R - 0.368*G - 0.071*B (Pr = 0.500*R - 0.419*G - 0.081*B) - -wire [18:0] y_8 = 19'd04096 + ({red, 8'd0} + {red, 3'd0}) + ({green, 9'd0} + {green, 2'd0}) + ({blue, 6'd0} + {blue, 5'd0} + {blue, 2'd0}); -wire [18:0] pb_8 = 19'd32768 - ({red, 7'd0} + {red, 4'd0} + {red, 3'd0}) - ({green, 8'd0} + {green, 5'd0} + {green, 3'd0}) + ({blue, 8'd0} + {blue, 7'd0} + {blue, 6'd0}); -wire [18:0] pr_8 = 19'd32768 + ({red, 8'd0} + {red, 7'd0} + {red, 6'd0}) - ({green, 8'd0} + {green, 6'd0} + {green, 5'd0} + {green, 4'd0} + {green, 3'd0}) - ({blue, 6'd0} + {blue , 3'd0}); - -wire [7:0] y = ( y_8[17:8] < 16) ? 8'd16 : ( y_8[17:8] > 235) ? 8'd235 : y_8[15:8]; -wire [7:0] pb = (pb_8[17:8] < 16) ? 8'd16 : (pb_8[17:8] > 240) ? 8'd240 : pb_8[15:8]; -wire [7:0] pr = (pr_8[17:8] < 16) ? 8'd16 : (pr_8[17:8] > 240) ? 8'd240 : pr_8[15:8]; - -assign VGA_R = ypbpr ? (ypbpr_full ? yuv_full[pr-8'd16] : pr[7:2]) : red; -assign VGA_G = ypbpr ? (ypbpr_full ? yuv_full[y -8'd16] : y[7:2]) : green; -assign VGA_B = ypbpr ? (ypbpr_full ? yuv_full[pb-8'd16] : pb[7:2]) : blue; -assign VGA_VS = (scandoublerD | ypbpr) ? 1'b1 : ~vs_sd; -assign VGA_HS = scandoublerD ? ~(HSync ^ VSync) : ypbpr ? ~(hs_sd ^ vs_sd) : ~hs_sd; - -endmodule