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- /*
- * hub75_top.v
- *
- * vim: ts=4 sw=4
- *
- * Copyright (C) 2019 Sylvain Munaut <tnt@246tNt.com>
- * All rights reserved.
- *
- * LGPL v3+, see LICENSE.lgpl3
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU Lesser General Public
- * License as published by the Free Software Foundation; either
- * version 3 of the License, or (at your option) any later version.
- *
- * This program 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
- * Lesser General Public License for more details.
- *
- * You should have received a copy of the GNU Lesser General Public License
- * along with this program; if not, write to the Free Software Foundation,
- * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
- */
- `default_nettype none
- module hub75_top #(
- parameter integer N_BANKS = 2, // # of parallel readout rows
- parameter integer N_ROWS = 32, // # of rows (must be power of 2!!!)
- parameter integer N_COLS = 64, // # of columns
- parameter integer N_CHANS = 3, // # of data channel
- parameter integer N_PLANES = 8, // # bitplanes
- parameter integer BITDEPTH = 24, // # bits per color
- parameter integer PHY_N = 1, // # of PHY in //
- parameter integer PHY_DDR = 0, // PHY DDR data output
- parameter integer PHY_AIR = 0, // PHY Address Inc/Reset
- parameter PANEL_INIT = "NONE", // 'NONE' or 'FM6126'
- parameter SCAN_MODE = "ZIGZAG", // 'LINEAR' or 'ZIGZAG'
- // Auto-set
- parameter integer SDW = N_BANKS * N_CHANS,
- parameter integer ESDW = SDW / (PHY_DDR ? 2 : 1),
- parameter integer LOG_N_BANKS = $clog2(N_BANKS),
- parameter integer LOG_N_ROWS = $clog2(N_ROWS),
- parameter integer LOG_N_COLS = $clog2(N_COLS)
- )(
- // Hub75 interface pads
- output wire [PHY_N-1:0] hub75_addr_inc,
- output wire [PHY_N-1:0] hub75_addr_rst,
- output wire [(PHY_N*LOG_N_ROWS)-1:0] hub75_addr,
- output wire [ESDW-1 :0] hub75_data,
- output wire [PHY_N-1:0] hub75_clk,
- output wire [PHY_N-1:0] hub75_le,
- output wire [PHY_N-1:0] hub75_blank,
- // Frame Buffer write interface
- // Row store/swap
- input wire [LOG_N_BANKS-1:0] fbw_bank_addr,
- input wire [LOG_N_ROWS-1:0] fbw_row_addr,
- input wire fbw_row_store,
- output wire fbw_row_rdy,
- input wire fbw_row_swap,
- // Line buffer access
- input wire [BITDEPTH-1:0] fbw_data,
- input wire [LOG_N_COLS-1:0] fbw_col_addr,
- input wire fbw_wren,
- // Frame buffer swap
- input wire frame_swap,
- output wire frame_rdy,
- // Control / Config
- input wire ctrl_run,
- input wire [7:0] cfg_pre_latch_len,
- input wire [7:0] cfg_latch_len,
- input wire [7:0] cfg_post_latch_len,
- input wire [7:0] cfg_bcm_bit_len,
- // Clock / Reset
- input wire clk,
- input wire clk_2x,
- input wire rst
- );
- // Signals
- // -------
- // Frame swap logic
- reg frame_swap_pending;
- wire frame_swap_fb;
- // PHY interface
- wire phy_addr_inc;
- wire phy_addr_rst;
- wire [LOG_N_ROWS-1:0] phy_addr;
- wire [SDW-1:0] phy_data;
- wire phy_clk;
- wire phy_le;
- wire phy_blank;
- wire phz_addr_inc;
- wire phz_addr_rst;
- wire [LOG_N_ROWS-1:0] phz_addr;
- wire [SDW-1:0] phz_data;
- wire phz_clk;
- wire phz_le;
- wire phz_blank;
- // Frame Buffer access
- // Read - Back Buffer loading
- wire [LOG_N_ROWS-1:0] fbr_row_addr;
- wire fbr_row_load;
- wire fbr_row_rdy;
- wire fbr_row_swap;
- // Read - Front Buffer access
- wire [(N_BANKS*N_CHANS*N_PLANES)-1:0] fbr_data;
- wire [LOG_N_COLS-1:0] fbr_col_addr;
- wire fbr_rden;
- // Scanning
- wire scan_go;
- wire scan_rdy;
- // Binary Code Modulator
- wire [LOG_N_ROWS-1:0] bcm_row;
- wire bcm_row_first;
- wire bcm_go;
- wire bcm_rdy, bcm_rdz;
- // Shifter
- wire [N_PLANES-1:0] shift_plane;
- wire shift_go;
- wire shift_rdy;
- // Blanking control
- wire [N_PLANES-1:0] blank_plane;
- wire blank_go;
- wire blank_rdy;
- // Sub-blocks
- // ----------
- // Synchronized frame swap logic
- always @(posedge clk or posedge rst)
- if (rst)
- frame_swap_pending <= 1'b0;
- else
- frame_swap_pending <= (frame_swap_pending & ~scan_rdy) | frame_swap;
- assign frame_rdy = ~frame_swap_pending;
- assign scan_go = scan_rdy & ~frame_swap_pending & ctrl_run;
- assign frame_swap_fb = frame_swap_pending & scan_rdy;
- // The signal direction usage legend to the right of the modules has the
- // following structure:
- // * Signal direction -> (output from the module)
- // * Signal direction <- (input to the module)
- // * top: signal is connected to top and exposed to the world
- // * pad: signal is a gpio pad id the direction indicates if the pad is an
- // input (<-), output (->) or bidir (<->)
- // * local: signal is conneted to some local module logic
- // * hub75_*: signal is connected to the module hub75_*
- // Frame Buffer
- hub75_framebuffer #(
- .N_BANKS(N_BANKS),
- .N_ROWS(N_ROWS),
- .N_COLS(N_COLS),
- .N_CHANS(N_CHANS),
- .N_PLANES(N_PLANES),
- .BITDEPTH(BITDEPTH)
- ) fb_I (
- .wr_bank_addr(fbw_bank_addr), // <- top
- .wr_row_addr(fbw_row_addr), // <- top
- .wr_row_store(fbw_row_store), // <- top
- .wr_row_rdy(fbw_row_rdy), // -> top
- .wr_row_swap(fbw_row_swap), // <- top
- .wr_data(fbw_data), // <- top
- .wr_col_addr(fbw_col_addr), // <- top
- .wr_en(fbw_wren), // <- top
- .rd_row_addr(fbr_row_addr), // <- hub75_scan
- .rd_row_load(fbr_row_load), // <- hub75_scan
- .rd_row_rdy(fbr_row_rdy), // -> hub75_scan
- .rd_row_swap(fbr_row_swap), // <- hub75_scan
- .rd_data(fbr_data), // -> hub75_shift
- .rd_col_addr(fbr_col_addr), // <- hub75_shift
- .rd_en(fbr_rden), // <- hub75_shift
- .frame_swap(frame_swap_fb), // <- local
- .clk(clk), // <- top
- .rst(rst) // <- top
- );
- // Scan
- hub75_scan #(
- .N_ROWS(N_ROWS),
- .SCAN_MODE(SCAN_MODE)
- ) scan_I (
- .bcm_row(bcm_row), // -> hub75_bcm
- .bcm_row_first(bcm_row_first), // -> hub75_bcm
- .bcm_go(bcm_go), // -> hub75_bcm
- .bcm_rdy(bcm_rdz), // <- hub75_bcm
- .fb_row_addr(fbr_row_addr), // -> hub75_framebuffer
- .fb_row_load(fbr_row_load), // -> hub75_framebuffer
- .fb_row_rdy(fbr_row_rdy), // <- hub75_framebuffer
- .fb_row_swap(fbr_row_swap), // -> hub75_framebuffer
- .ctrl_go(scan_go), // <- local
- .ctrl_rdy(scan_rdy), // -> local
- .clk(clk), // <- top
- .rst(rst) // <- top
- );
- // Binary Code Modulator control
- hub75_bcm #(
- .N_PLANES(N_PLANES)
- ) bcm_I (
- .phy_addr_inc(phy_addr_inc), // -> hub75_phy
- .phy_addr_rst(phy_addr_rst), // -> hub75_phy
- .phy_addr(phy_addr), // -> hub75_phy
- .phy_le(phy_le), // -> hub75_phy
- .shift_plane(shift_plane), // -> hub75_shift
- .shift_go(shift_go), // -> hub75_shift
- .shift_rdy(shift_rdy), // <- hub75_shift
- .blank_plane(blank_plane), // -> hub75_blanking
- .blank_go(blank_go), // -> hub75_blanking
- .blank_rdy(blank_rdy), // <- hub75_blanking
- .ctrl_row(bcm_row), // <- hub75_scan
- .ctrl_row_first(bcm_row_first), // <- hub75_scan
- .ctrl_go(bcm_go), // <- hub75_scan
- .ctrl_rdy(bcm_rdy), // -> hub75_scan
- .cfg_pre_latch_len(cfg_pre_latch_len), // <- top
- .cfg_latch_len(cfg_latch_len), // <- top
- .cfg_post_latch_len(cfg_post_latch_len), // <- top
- .clk(clk), // <- top
- .rst(rst) // <- top
- );
- // Shifter
- hub75_shift #(
- .N_BANKS(N_BANKS),
- .N_COLS(N_COLS),
- .N_CHANS(N_CHANS),
- .N_PLANES(N_PLANES)
- ) shift_I (
- .phy_data(phy_data), // -> hub75_phy
- .phy_clk(phy_clk), // -> hub75_phy
- .ram_data(fbr_data), // <- hub75_framebuffer
- .ram_col_addr(fbr_col_addr), // -> hub75_framebuffer
- .ram_rden(fbr_rden), // -> hub75_framebuffer
- .ctrl_plane(shift_plane), // <- hub75_bcm
- .ctrl_go(shift_go), // <- hub75_bcm
- .ctrl_rdy(shift_rdy), // -> hub75_bcm
- .clk(clk), // <- top
- .rst(rst) // <- top
- );
- // Blanking control
- hub75_blanking #(
- .N_PLANES(N_PLANES)
- ) blank_I (
- .phy_blank(phy_blank), // -> hub75_phy
- .ctrl_plane(blank_plane), // <- hub75_bcm
- .ctrl_go(blank_go), // <- hub75_bcm
- .ctrl_rdy(blank_rdy), // -> hub75_bcm
- .cfg_bcm_bit_len(cfg_bcm_bit_len), // <- top
- .clk(clk), // <- top
- .rst(rst) // <- top
- );
- // Init injector
- generate
- if (PANEL_INIT == "NONE") begin
- // Direct PHY connection
- assign phz_addr_inc = phy_addr_inc;
- assign phz_addr_rst = phy_addr_rst;
- assign phz_addr = phy_addr;
- assign phz_data = phy_data;
- assign phz_clk = phy_clk;
- assign phz_le = phy_le;
- assign phz_blank = phy_blank;
- // No gating
- assign bcm_rdz = bcm_rdy;
- end else begin
- hub75_init_inject #(
- .N_BANKS(N_BANKS),
- .N_ROWS(N_ROWS),
- .N_COLS(N_COLS),
- .N_CHANS(N_CHANS)
- ) init_I (
- .phy_in_addr_inc(phy_addr_inc),
- .phy_in_addr_rst(phy_addr_rst),
- .phy_in_addr(phy_addr),
- .phy_in_data(phy_data),
- .phy_in_clk(phy_clk),
- .phy_in_le(phy_le),
- .phy_in_blank(phy_blank),
- .phy_out_addr_inc(phz_addr_inc),
- .phy_out_addr_rst(phz_addr_rst),
- .phy_out_addr(phz_addr),
- .phy_out_data(phz_data),
- .phy_out_clk(phz_clk),
- .phy_out_le(phz_le),
- .phy_out_blank(phz_blank),
- .init_req(1'b1),
- .scan_go_in(scan_go),
- .bcm_rdy_in(bcm_rdy),
- .bcm_rdy_out(bcm_rdz),
- .shift_rdy_in(shift_rdy),
- .blank_rdy_in(blank_rdy),
- .clk(clk),
- .rst(rst)
- );
- end
- endgenerate
- // Physical layer control
- generate
- if (PHY_DDR == 0)
- hub75_phy #(
- .N_BANKS(N_BANKS),
- .N_ROWS(N_ROWS),
- .N_CHANS(N_CHANS),
- .PHY_N(PHY_N),
- .PHY_AIR(PHY_AIR)
- ) phy_I (
- .hub75_addr_inc(hub75_addr_inc),// -> pad
- .hub75_addr_rst(hub75_addr_rst),// -> pad
- .hub75_addr(hub75_addr), // -> pad
- .hub75_data(hub75_data), // -> pad
- .hub75_clk(hub75_clk), // -> pad
- .hub75_le(hub75_le), // -> pad
- .hub75_blank(hub75_blank), // -> pad
- .phy_addr_inc(phz_addr_inc), // <- hub75_bcm
- .phy_addr_rst(phz_addr_rst), // <- hub75_bcm
- .phy_addr(phz_addr), // <- hub75_bcm
- .phy_data(phz_data), // <- hub75_shift
- .phy_clk(phz_clk), // <- hub75_shift
- .phy_le(phz_le), // <- hub75_bcm
- .phy_blank(phz_blank), // <- hub75_blanking
- .clk(clk), // <- top
- .rst(rst) // <- top
- );
- else
- hub75_phy_ddr #(
- .N_BANKS(N_BANKS),
- .N_ROWS(N_ROWS),
- .N_CHANS(N_CHANS),
- .PHY_N(PHY_N),
- .PHY_DDR(PHY_DDR),
- .PHY_AIR(PHY_AIR)
- ) phy_I (
- .hub75_addr_inc(hub75_addr_inc),// -> pad
- .hub75_addr_rst(hub75_addr_rst),// -> pad
- .hub75_addr(hub75_addr), // -> pad
- .hub75_data(hub75_data), // -> pad
- .hub75_clk(hub75_clk), // -> pad
- .hub75_le(hub75_le), // -> pad
- .hub75_blank(hub75_blank), // -> pad
- .phy_addr_inc(phz_addr_inc), // <- hub75_bcm
- .phy_addr_rst(phz_addr_rst), // <- hub75_bcm
- .phy_addr(phz_addr), // <- hub75_bcm
- .phy_data(phz_data), // <- hub75_shift
- .phy_clk(phz_clk), // <- hub75_shift
- .phy_le(phz_le), // <- hub75_bcm
- .phy_blank(phz_blank), // <- hub75_blanking
- .clk(clk), // <- top
- .clk_2x(clk_2x), // <- top
- .rst(rst) // <- top
- );
- endgenerate
- endmodule // hub75_top
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