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x393_sata
Commit 90a85abd authored by Andrey Filippov's avatar Andrey Filippov
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trying to clean up resynchronization, make async reset propagate to control... 

trying to clean up resynchronization, make async reset propagate to control outputs even with no clocks
parent e150ca2f
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.project
View file @ 90a85abd
......@@ -46,7 +46,7 @@
<link>
<name>vivado_logs/VivadoBitstream.log</name>
<type>1</type>
<location>/home/andrey/git/x393_sata/vivado_logs/VivadoBitstream-20151221195334703.log</location>
<location>/home/andrey/git/x393_sata/vivado_logs/VivadoBitstream-20151222105615706.log</location>
</link>
<link>
<name>vivado_logs/VivadoOpt.log</name>
......
dma/top.v
View file @ 90a85abd
This diff is collapsed.
host/gtx_wrap.v
View file @ 90a85abd
......@@ -129,7 +129,61 @@ generate
if (DATA_BYTE_WIDTH == 4) begin
// resync to txusrclk
// 2*Fin = Fout => WIDTHin = 2*WIDTHout
wire txdata_resync_nempty;
// Andrey:
reg txdata_resync_strobe;
reg [15:0] txdata_enc_in_r;
reg [ 1:0] txcharisk_enc_in_r;
wire [38:0] txdata_resync_out;
wire txdata_resync_valid;
reg txcomwake_gtx_f;
reg txcominit_gtx_f;
reg txelecidle_gtx_f;
resync_data #( // TODO: update output register.. OK as it is
.DATA_WIDTH(39),
.DATA_DEPTH(3),
.INITIAL_VALUE(39'h4000000000) // All 0 but txelecidle_gtx
) txdata_resynchro (
.arst (txreset), // input
.srst (~wrap_txreset_), // input
.wclk (txusrclk2), // input
.rclk (txusrclk), // input
.we (1'b1), // input
.re (txdata_resync_strobe), // input
.data_in ({txelecidle, txcominit, txcomwake, txcharisk, txdata}), // input[15:0]
.data_out (txdata_resync_out), // output[15:0] reg
.valid (txdata_resync_valid) // output reg
);
always @ (posedge txreset or posedge txusrclk) begin
if (txreset) txdata_resync_strobe <= 0;
else if (txdata_resync_valid) txdata_resync_strobe <= ~txdata_resync_strobe[0];
if (txreset) begin
txdata_enc_in_r <= 0;
txcharisk_enc_in_r <= 0;
end else if (txdata_resync_valid) begin
txdata_enc_in_r <= txdata_resync_strobe? txdata_resync_out[31:16]: txdata_resync_out[15:0];
txcharisk_enc_in_r <= txdata_resync_strobe? txdata_resync_out[35:34]: txdata_resync_out[33:32];
end
if (txreset) begin
txcomwake_gtx_f <= 0;
txcominit_gtx_f <= 0;
txelecidle_gtx_f <= 0;
end else begin
txcomwake_gtx_f <= txdata_resync_out[36];
txcominit_gtx_f <= txdata_resync_out[37];
txelecidle_gtx_f <= txdata_resync_out[38];
end
end
assign txdata_enc_in = txdata_enc_in_r;
assign txcharisk_enc_in = txcharisk_enc_in_r;
assign txcominit_gtx = txcominit_gtx_f;
assign txcomwake_gtx = txcomwake_gtx_f;
assign txelecidle_gtx = txelecidle_gtx_f;
/*wire txdata_resync_nempty;
reg txdata_resync_nempty_r;
reg txdata_resync_nempty_rr;
reg txdata_resync_strobe;
......@@ -138,13 +192,14 @@ if (DATA_BYTE_WIDTH == 4) begin
assign txdata_enc_in = {16{~txdata_resync_strobe}} & txdata_resync[15:0] | {16{txdata_resync_strobe}} & txdata_resync[31:16];
assign txcharisk_enc_in = {2{~txdata_resync_strobe}} & txdata_resync[33:32] | {2{txdata_resync_strobe}} & txdata_resync[35:34];
// Andrey: wrap_txreset_ has different clock domain
always @ (posedge txusrclk)
begin
txdata_resync <= ~wrap_txreset_ ? 36'h0 : txdata_resync_nempty & txdata_resync_strobe ? txdata_resync_out[35:0] : txdata_resync;
txdata_resync_strobe <= ~wrap_txreset_ ? 1'b0 : ~txdata_resync_nempty ? txdata_resync_strobe : ~txdata_resync_strobe; // -> 1 once every resynced dword = signal to latch it
txdata_resync <= ~wrap_txreset_ ? 36'h0 : ((txdata_resync_nempty & txdata_resync_strobe) ? txdata_resync_out[35:0] : txdata_resync);
txdata_resync_strobe <= ~wrap_txreset_ ? 1'b0 : ((~txdata_resync_nempty) ? txdata_resync_strobe : ~txdata_resync_strobe); // -> 1 once every resynced dword = signal to latch it
end
// nempty_rr & nempty => shall be at least 2 elements in fifo - safe to read
// nempty_rr & nempty => shall be at least 2 elements in fifo
always @ (posedge txusrclk2)
begin
txdata_resync_nempty_r <= txdata_resync_nempty;
......@@ -182,7 +237,9 @@ if (DATA_BYTE_WIDTH == 4) begin
assign txcomwake_gtx = txcomwake_gtx_f;
assign txcominit_gtx = txcominit_gtx_f;
assign txelecidle_gtx = txelecidle_gtx_f;
*/
end
else
if (DATA_BYTE_WIDTH == 2) begin
// no resync is needed => straightforward assignments
......
host/sata_phy.v
View file @ 90a85abd
......@@ -27,7 +27,7 @@ module sata_phy #(
// initial reset, resets PLL. After pll is locked, an internal sata reset is generated.
input wire extrst,
// sata clk, generated in pll as usrclk2
output wire clk, // 75KHz, bufg
output wire clk, // 75MHz, bufg
output wire rst,
// reliable clock to source drp and cpll lock det circuits
......
tb_top.sav
View file @ 90a85abd
This diff is collapsed.
utils/resync_data.v 0 → 100644
View file @ 90a85abd
/*******************************************************************************
* Module: resync_data
* Date:2015-12-22
* Author: Andrey Filippov
* Description: Resynchronize data between clock domains. No over/underruns
* are checker, start with half FIFO full. Async reset sets
* specifies output values regardless of the clocks
*
* Copyright (c) 2014 Elphel, Inc.
* resync_data.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.
*
* resync_data.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/> .
*******************************************************************************/
`timescale 1ns/1ps
module resync_data
#(
parameter integer DATA_WIDTH=16,
parameter integer DATA_DEPTH=4, // >= 2
parameter INITIAL_VALUE = 0
) (
input arst, // async reset, active high (global)
input srst, // same as arst, but relies on the clocks
input wclk, // write clock - positive edge
input rclk, // read clock - positive edge
input we, // write enable
input re, // read enable
input [DATA_WIDTH-1:0] data_in, // input data
output reg [DATA_WIDTH-1:0] data_out, // output data
output reg valid // data valid @ rclk
);
localparam integer DATA_2DEPTH=(1<<DATA_DEPTH)-1;
reg [DATA_WIDTH-1:0] ram [0:DATA_2DEPTH];
reg [DATA_DEPTH-1:0] raddr;
reg [DATA_DEPTH-1:0] waddr;
reg [1:0] rrst = 3;
always @ (posedge rclk or posedge arst) begin
if (arst) valid <= 0;
else if (srst) valid <= 0;
else if (&waddr[DATA_DEPTH-2:0] && we) valid <= 1; // just once set and stays until reset
end
always @ (posedge wclk or posedge arst) begin
if (arst) waddr <= 0;
else if (srst) waddr <= 0;
else if (we) waddr <= waddr + 1;
end
always @ (posedge rclk or posedge arst) begin
if (arst) rrst <= 3;
else if (srst) rrst <= 3; // resync to rclk
else rrst <= rrst << 1;
if (arst) raddr <= 0;
else if (rrst[0]) raddr <= 0;
else if (re || rrst[1]) raddr <= raddr + 1;
if (arst) data_out <= INITIAL_VALUE;
else if (rrst[0]) data_out <= INITIAL_VALUE;
else if (re || rrst[1]) data_out <= ram[raddr];
end
always @ (posedge wclk) begin
if (we) ram[waddr] <= data_in;
end
endmodule
x393 @ 8af3d0c0
Subproject commit 9a17dbfae721f542dc546b8659620ecdc441a9ee
Subproject commit 8af3d0c0ec45090474e57e1501e852187287fdbb
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