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Commit b482a8ea authored by Andrey Filippov's avatar Andrey Filippov
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Compressor bypass for raw (uncompressed) data

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compressor_jp/cmprs_raw_buf_iface.v 0 → 100644
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/*!
* <b>Module:</b>cmprs_raw_buf_iface
* @file cmprs_raw_buf_iface.v
* @date 2015-06-11
* @author Andrey Filippov
*
* @brief Communicates with compressor memory buffer in raw (uncompressed) mode
*
* @copyright Copyright (c) 2019 Elphel, Inc.
*
* <b>License:</b>
*
* cmprs_raw_buf_iface.v 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.
*
* cmprs_raw_buf_iface.v is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/> .
*
* Additional permission under GNU GPL version 3 section 7:
* If you modify this Program, or any covered work, by linking or combining it
* with independent modules provided by the FPGA vendor only (this permission
* does not extend to any 3-rd party modules, "soft cores" or macros) under
* different license terms solely for the purpose of generating binary "bitstream"
* files and/or simulating the code, the copyright holders of this Program give
* you the right to distribute the covered work without those independent modules
* as long as the source code for them is available from the FPGA vendor free of
* charge, and there is no dependence on any encrypted modules for simulating of
* the combined code. This permission applies to you if the distributed code
* contains all the components and scripts required to completely simulate it
* with at least one of the Free Software programs.
*/
`timescale 1ns/1ps
module cmprs_raw_buf_iface #(
// parameter DCT_PIPELINE_PAUSE = 48, // TODO: find really required value (minimal), adjust counter bits (now 6)
// // 48 seems to be OK (may be less)
parameter FRAME_QUEUE_WIDTH = 2
)(
input xclk, // global clock input, compressor single clock rate
input mclk, // global clock for commands (posedge) and write side of the memory buffer (negedge)
input mrst, // @posedge mclk, sync reset
input xrst, // @posedge xclk, sync reset
// Page is limited by 1kB or end of line
// buffer interface, DDR3 memory read
input xfer_reset_page_rd, // @ negedge mclk - reset ddr3 memory buffer. Use it to reset the read buffer too
input page_ready_chn, // single mclk (posedge)
output next_page_chn, // single mclk (posedge): Done with the page in the buffer, memory controller may read more data
// will be externally combined with "uncompressed"
input frame_en, // if 0 - will reset logic immediately (but not the page number)
input frame_start_xclk, // frame parameters are valid after this pulse (re-clocked from the memory controller)
input frame_go, // start frame: if idle, will start reading data (if available),
// if running - will not restart a new frame if 0.
input cmprs_run_mclk, // 0 - off or stopping, reset frame_pre_run
// input [ 4:0] left_marg, // left margin (for not-yet-implemented) mono JPEG (8 lines tile row) can need 7 bits (mod 32 - tile)
input [12:0] n_blocks_in_row_m1, // number of macroblocks in a macroblock row minus 1
input [12:0] n_block_rows_m1, // number of macroblock rows in a frame minus 1
input stuffer_running, // @xclk, active while bit stuffer or trailer are running
input raw_be16, // 0: bytes 0-1-2-3-4-5..., 1: bytes 1-0-3-2-5-4...
output [11:0] buf_ra, // buffer read address (2 MSB - page number)
output [ 1:0] buf_rd, // buf {regen, re}
output raw_start, // was color_first leading edge
output raw_prefb, // input
output raw_ts_copy, // input
output raw_flush // input
);
// TODO:
wire reset_page_rd; // xfer_reset_page_rd @ xclk
wire page_ready; // page_ready_chn @ xclk
wire frame_en_w;
reg frame_en_r;
wire frame_pre_start_w; // start sequence for a new frame
reg frame_pre_start_r;
reg frame_start_xclk_r; // next cycle after frame_start_xclk
reg cmprs_run_xclk;
reg frame_pre_run;
reg [FRAME_QUEUE_WIDTH:0] frame_que_cntr; // width+1
reg [1:0] frame_finish_r; // active after last macroblock in a frame
reg [ 2:0] next_valid; // number of next valid page (only 2 LSB are actual page number)
reg [ 2:0] needed_page; // calculate at MB start
wire [ 2:0] buf_diff; // difference between page needed and next valid - should be negative to have it ready
wire buf_ready_w; // External memory buffer has all the pages needed
reg [14:0] quads_left; // number of quad bytes left in a row (after this)
reg [16:0] rows_left; // number of rows left (after this)
reg [1:0] rows_last;
reg page_run;
reg [3:0] quad_r;
reg quad_last; // last quad byte in a row should be valid @quad_r[2]
wire page_start;
wire page_end_w;
wire release_buf; // send required "next_page" pulses to buffer. Having rather long minimal latency in the memory
wire frame_finish_w;
wire frames_pending;
reg starting; // from frame_start_r to first page start
assign frame_en_w = frame_en && frame_go; // both are inputs
// one extra at the end of frame is needed (sequence will be short) ???
//// assign mb_pre_start_w = mb_pre_end_in || (frame_start_xclk_r && !frame_pre_run); // && !starting);
// repeated start (if some are pending) and for the first frame
assign frame_pre_start_w = (frames_pending && frame_finish_w) || (frame_start_xclk_r && !frame_pre_run && !starting);
assign buf_diff = needed_page - next_valid;
assign buf_ready_w = buf_diff[2];
assign page_start = !page_run && buf_ready_w && frame_pre_run && (starting && stuffer_running); // frame_pre_run should deassert in time with frame end
reg page_end_r;
assign raw_start = frame_pre_start_r; // for JP - leading edge of color_first
assign page_end_w = frame_en && quad_r[2] && (&bufa_r[9:2] || quad_last);
assign release_buf = page_end_w;
assign frame_finish_w = frame_finish_r[1] && !frame_finish_r[0];
assign frames_pending = !frame_que_cntr[FRAME_QUEUE_WIDTH] && (|frame_que_cntr[FRAME_QUEUE_WIDTH-1:0]);
assign frame_en_w = frame_en && frame_go;
assign raw_prefb = buf_rd_r[0]; // delay if memory registered more. TODO Add parameter if it already used
assign raw_ts_copy = frame_en_r && rows_last[0] && !rows_last[1];
reg [11:0] bufa_r; // buffer read address (2 MSB - page number)
reg [1:0] buf_rd_r;
assign raw_flush = frame_finish_w;
assign buf_ra = bufa_r;
assign buf_rd = buf_rd_r[1:0];
always @(posedge xclk) begin
// pages read from the external memory, previous one is the last in the buffer
if (reset_page_rd) next_valid <= 0;
else if (page_ready) next_valid <= next_valid + 1;
cmprs_run_xclk <= cmprs_run_mclk;
frame_pre_start_r <= frame_pre_start_w; // same time as mb_pre_start
if (!frame_en) frame_start_xclk_r <= 0;
else frame_start_xclk_r <= frame_start_xclk;
if (!frame_en) starting <= 1'b0;
else if (frame_pre_start_w) starting <= 1'b1;
else if (page_start) starting <= 1'b0;
if (!frame_en) frame_en_r <= 0;
else frame_en_r <= frame_en_w; // stays on?
if (!cmprs_run_xclk) frame_que_cntr <= 0;
else if ( frame_start_xclk_r && !frame_pre_start_r) frame_que_cntr <= frame_que_cntr + 1;
else if (!frame_start_xclk_r && frame_pre_start_r) frame_que_cntr <= frame_que_cntr - 1;
if (reset_page_rd) needed_page[2:0] <= 0; // together with next_valid, next_invalid
else if (release_buf) begin
needed_page <= needed_page + 1;
end
page_end_r <= page_end_w; // quad_r[2] && (&bufa_r[9:2] || quad_last);
// page_run
if (!frame_pre_run) page_run <= 0;
else if (page_start) page_run <= 1;
else if (quad_r[2] && page_end_r) page_run <= 0;
if (!frame_pre_run) quad_r <= 0;
else quad_r <= {quad_r[2:0], page_start | (quad_r[3] & page_run)};
buf_rd_r <= {buf_rd_r[0], page_start | (|quad_r[2:0] | (quad_r[3] & page_run))};
if (!frame_en) frame_finish_r <= 0;
else frame_finish_r <= {frame_finish_r[0], quad_r[2] & quad_last & rows_last[0]};
//quads_left
if (frame_pre_start_r || (quad_r[2] && quad_last)) quads_left <= {n_blocks_in_row_m1, 2'b11};
else if (quad_r[2]) quads_left <= quads_left - 1;
quad_last <= !(|quads_left); // valid from 2 after frame_pre_start_r or after quad_r[3]
if (frame_pre_start_r) rows_left <= {n_block_rows_m1, 4'b1111};
else if ((quad_r[2] && quad_last)) rows_left <= rows_left - 1;
rows_last <= {rows_last[0], ~(|rows_left)};
if (frame_pre_start_r) bufa_r[11:10] <= needed_page[1:0];
if (frame_pre_start_r) bufa_r[9:1] <= 0;
else if (quad_r[3]) bufa_r[9:1] <= bufa_r[9:1] + 1;
if (frame_pre_start_r) bufa_r[0] <= raw_be16;
else if (buf_rd_r[0]) bufa_r[0] <= ~bufa_r[0];
if (!frame_en || (!frames_pending && frame_finish_w)) frame_pre_run <= 0;
else if (frame_pre_start_w) frame_pre_run <= 1;
end
reg nmrst;
always @(negedge mclk) nmrst <= mrst;
// synchronization between mclk and xclk clock domains
// negedge mclk -> xclk (verify clock inversion is absorbed)
pulse_cross_clock reset_page_rd_i (.rst(nmrst), .src_clk(~mclk),.dst_clk(xclk), .in_pulse(xfer_reset_page_rd), .out_pulse(reset_page_rd), .busy());
// mclk -> xclk
pulse_cross_clock page_ready_i (.rst(mrst), .src_clk(mclk), .dst_clk(xclk), .in_pulse(page_ready_chn), .out_pulse(page_ready), .busy());
// xclk -> mclk
pulse_cross_clock next_page_chn_i (.rst(xrst), .src_clk(xclk), .dst_clk(mclk), .in_pulse(page_end_r), .out_pulse(next_page_chn), .busy());
endmodule
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