jduchniewicz
/
doom_riscv


			
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							/*
 * top.v
 *
 * Copyright (C) 2019  Sylvain Munaut <tnt@246tNt.com>
 * All rights reserved.
 *
 * BSD 3-clause, see LICENSE.bsd
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 *     * Redistributions of source code must retain the above copyright
 *       notice, this list of conditions and the following disclaimer.
 *     * Redistributions in binary form must reproduce the above copyright
 *       notice, this list of conditions and the following disclaimer in the
 *       documentation and/or other materials provided with the distribution.
 *     * Neither the name of the <organization> nor the
 *       names of its contributors may be used to endorse or promote products
 *       derived from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 * DISCLAIMED. IN NO EVENT SHALL <COPYRIGHT HOLDER> BE LIABLE FOR ANY
 * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
 * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 *
 * vim: ts=4 sw=4
 */

`default_nettype none

//`define STREAM
`define PATTERN
//`define VIDEO

module top (
	// RGB panel PMOD
	output wire [4:0] hub75_addr,
	output wire [5:0] hub75_data,
	output wire hub75_clk,
	output wire hub75_le,
	output wire hub75_blank,

	// SPI Flash interface
`ifdef VIDEO
	output wire flash_mosi,
	input  wire flash_miso,
	output wire flash_cs_n,
	output wire flash_clk,
`endif

	// SPI Slave interface
`ifdef STREAM
	input  wire slave_mosi,
	output wire slave_miso,
	input  wire slave_cs_n,
	input  wire slave_clk,
`endif

	// PMOD2 buttons
	input  wire [2:0] pmod_btn,

	// Clock
	input  wire clk_12m
);

	// Params
	localparam integer N_BANKS  = 2;
	localparam integer N_ROWS   = 32;
	localparam integer N_COLS   = 64;
	localparam integer N_CHANS  = 3;
	localparam integer N_PLANES = 10;
	localparam integer BITDEPTH = 16;

	localparam integer LOG_N_BANKS = $clog2(N_BANKS);
	localparam integer LOG_N_ROWS  = $clog2(N_ROWS);
	localparam integer LOG_N_COLS  = $clog2(N_COLS);


	// Signals
	// -------

	// Clock / Reset logic
`ifdef NO_PLL
	reg [7:0] rst_cnt = 8'h00;
	wire rst_i;
`endif

	wire clk;
	wire rst;

	// Frame buffer write port
	wire [LOG_N_BANKS-1:0] fbw_bank_addr;
	wire [LOG_N_ROWS-1:0]  fbw_row_addr;
	wire fbw_row_store;
	wire fbw_row_rdy;
	wire fbw_row_swap;

	wire [BITDEPTH-1:0] fbw_data;
	wire [LOG_N_COLS-1:0] fbw_col_addr;
	wire fbw_wren;

	wire frame_swap;
	wire frame_rdy;

	// Control
	reg  ctrl_run;


	// Hub75 driver
	// ------------

	hub75_top #(
		.N_BANKS(N_BANKS),
		.N_ROWS(N_ROWS),
		.N_COLS(N_COLS),
		.N_CHANS(N_CHANS),
		.N_PLANES(N_PLANES),
		.BITDEPTH(BITDEPTH)
	) hub75_I (
		.hub75_addr(hub75_addr),
		.hub75_data(hub75_data),
		.hub75_clk(hub75_clk),
		.hub75_le(hub75_le),
		.hub75_blank(hub75_blank),
		.fbw_bank_addr(fbw_bank_addr),
		.fbw_row_addr(fbw_row_addr),
		.fbw_row_store(fbw_row_store),
		.fbw_row_rdy(fbw_row_rdy),
		.fbw_row_swap(fbw_row_swap),
		.fbw_data(fbw_data),
		.fbw_col_addr(fbw_col_addr),
		.fbw_wren(fbw_wren),
		.frame_swap(frame_swap),
		.frame_rdy(frame_rdy),
		.ctrl_run(ctrl_run),
		.cfg_pre_latch_len(8'h80),
		.cfg_latch_len(8'h80),
		.cfg_post_latch_len(8'h80),
		.cfg_bcm_bit_len(8'h06),
		.clk(clk),
		.rst(rst)
	);

	// Only start the scan when we have our first frame
	always @(posedge clk or posedge rst)
		if (rst)
			ctrl_run <= 1'b0;
		else
			ctrl_run <= ctrl_run | frame_swap;


	// Host Streaming
	// --------------
`ifdef STREAM
	vstream #(
		.N_ROWS(N_BANKS * N_ROWS),
		.N_COLS(N_COLS),
		.BITDEPTH(BITDEPTH)
	) stream_I (
		.spi_mosi(slave_mosi),
		.spi_miso(slave_miso),
		.spi_cs_n(slave_cs_n),
		.spi_clk(slave_clk),
		.fbw_row_addr({fbw_bank_addr, fbw_row_addr}),
		.fbw_row_store(fbw_row_store),
		.fbw_row_rdy(fbw_row_rdy),
		.fbw_row_swap(fbw_row_swap),
		.fbw_data(fbw_data),
		.fbw_col_addr(fbw_col_addr),
		.fbw_wren(fbw_wren),
		.frame_swap(frame_swap),
		.frame_rdy(frame_rdy),
		.clk(clk),
		.rst(rst)
	);
`endif


	// Pattern generator
	// -----------------

`ifdef PATTERN
	pgen #(
		.N_ROWS(N_BANKS * N_ROWS),
		.N_COLS(N_COLS),
		.BITDEPTH(BITDEPTH)
	) pgen_I (
		.fbw_row_addr({fbw_bank_addr, fbw_row_addr}),
		.fbw_row_store(fbw_row_store),
		.fbw_row_rdy(fbw_row_rdy),
		.fbw_row_swap(fbw_row_swap),
		.fbw_data(fbw_data),
		.fbw_col_addr(fbw_col_addr),
		.fbw_wren(fbw_wren),
		.frame_swap(frame_swap),
		.frame_rdy(frame_rdy),
		.clk(clk),
		.rst(rst)
	);
`endif


	// Video generator (from SPI flash)
	// ---------------

`ifdef VIDEO
	// Signals
		// SPI reader interface
	wire [23:0] sr_addr;
	wire [15:0] sr_len;
	wire sr_go;
	wire sr_rdy;

	wire [7:0] sr_data;
	wire sr_valid;

		// UI
	wire btn_up;
	wire btn_mode;
	wire btn_down;

	// Main video generator / controller
	vgen #(
		.ADDR_BASE(24'h040000),
		.N_FRAMES(30),
		.N_ROWS(N_BANKS * N_ROWS),
		.N_COLS(N_COLS),
		.BITDEPTH(BITDEPTH)
	) vgen_I (
		.sr_addr(sr_addr),
		.sr_len(sr_len),
		.sr_go(sr_go),
		.sr_rdy(sr_rdy),
		.sr_data(sr_data),
		.sr_valid(sr_valid),
		.fbw_row_addr({fbw_bank_addr, fbw_row_addr}),
		.fbw_row_store(fbw_row_store),
		.fbw_row_rdy(fbw_row_rdy),
		.fbw_row_swap(fbw_row_swap),
		.fbw_data(fbw_data),
		.fbw_col_addr(fbw_col_addr),
		.fbw_wren(fbw_wren),
		.frame_swap(frame_swap),
		.frame_rdy(frame_rdy),
		.ui_up(btn_up),
		.ui_mode(btn_mode),
		.ui_down(btn_down),
		.clk(clk),
		.rst(rst)
	);

	// SPI reader to fetch frames from flash
	spi_flash_reader spi_reader_I (
		.spi_mosi(flash_mosi),
		.spi_miso(flash_miso),
		.spi_cs_n(flash_cs_n),
		.spi_clk(flash_clk),
		.addr(sr_addr),
		.len(sr_len),
		.go(sr_go),
		.rdy(sr_rdy),
		.data(sr_data),
		.valid(sr_valid),
		.clk(clk),
		.rst(rst)
	);

	// UI
	glitch_filter #( .L(8) ) gf_down_I (
		.pin_iob_reg(pmod_btn[0]),
		.cond(1'b1),
		.rise(btn_down),
		.clk(clk),
		.rst(rst)
	);

	glitch_filter #( .L(8) ) gf_mode_I (
		.pin_iob_reg(pmod_btn[1]),
		.cond(1'b1),
		.rise(btn_mode),
		.clk(clk),
		.rst(rst)
	);

	glitch_filter #( .L(8) ) gf_up_I (
		.pin_iob_reg(pmod_btn[2]),
		.cond(1'b1),
		.rise(btn_up),
		.clk(clk),
		.rst(rst)
	);
`endif


	// Clock / Reset
	// -------------

`ifdef NO_PLL
	always @(posedge clk)
		if (~rst_cnt[7])
			rst_cnt <= rst_cnt + 1;

	wire rst_i = ~rst_cnt[7];

	SB_GB clk_gbuf_I (
		.USER_SIGNAL_TO_GLOBAL_BUFFER(clk_12m),
		.GLOBAL_BUFFER_OUTPUT(clk)
	);

	SB_GB rst_gbuf_I (
		.USER_SIGNAL_TO_GLOBAL_BUFFER(rst_i),
		.GLOBAL_BUFFER_OUTPUT(rst)
	);
`else
	sysmgr sys_mgr_I (
		.clk_in(clk_12m),
		.rst_in(1'b0),
		.clk_out(clk),
		.rst_out(rst)
	);
`endif

endmodule // top