ethernet/rtl/pmd_dp83223_rx.v

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// SPDX-License-Identifier: AGPL-3.0-Only OR CERN-OHL-S-2.0
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/*
* Copyright (C) 2022 Sean Anderson <seanga2@gmail.com>
*
* This roughly follows the design of XAPP225. However, we use a 2x rate DDR
* clock instead of two clocks 90 degrees out of phase. Yosys/nextpnr cannot
* guarantee the phase relationship of any clocks, even those from the same
* PLL. Because of this, we assume that clk_250 and clk_125 are unrelated.
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*/
`include "common.vh"
`include "io.vh"
`timescale 1ns/1ps
module pmd_dp83223_rx (
input clk_250,
input clk_125,
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input signal_detect,
input indicate_data,
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/* PMD */
output signal_status,
output reg [1:0] rx_data,
output reg [1:0] rx_data_valid
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);
reg [1:0] rx_p, rx_n;
reg [4:0] sd_delay;
initial sd_delay[4:0] = 5'b0;
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`ifdef SYNTHESIS
SB_IO #(
.PIN_TYPE(`PIN_OUTPUT_NEVER | `PIN_INPUT_DDR),
) rx_data_pin (
.PACKAGE_PIN(indicate_data),
.INPUT_CLK(clk_250),
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.D_IN_0(rx_p[0]),
.D_IN_1(rx_n[0])
);
`else
always @(posedge clk_250)
rx_p[0] <= indicate_data;
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always @(negedge clk_250)
rx_n[0] <= indicate_data;
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`endif
/*
* Delay signal status until the known good data has had a chance to
* make it through the pipeline. This isn't necessary for real hardware
* (since signal status is asserted long after we have good data), but
* it helps out during simulation. It also helps avoid metastability.
*/
always @(posedge clk_125)
sd_delay[4:0] <= { sd_delay[3:0], signal_detect };
assign signal_status = sd_delay[4];
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/*
* Get things into the clk_250 domain so that we sample posedge before
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* negedge. Without this we can have a negedge which happens before the
* posedge.
*/
always @(posedge clk_250) begin
rx_p[1] <= rx_p[0];
rx_n[1] <= rx_n[0];
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end
reg [3:0] rx_a, rx_b, rx_c, rx_d;
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/* Get everything in the clk_125 domain */
always @(posedge clk_125) begin
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rx_a[0] <= rx_p[1];
rx_b[0] <= rx_n[1];
end
always @(negedge clk_125) begin
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rx_c[0] <= rx_p[1];
rx_d[0] <= rx_n[1];
end
/*
* Buffer things a bit. We wait a cycle to avoid metastability. After
* that, we need two cycles of history to detect edges, plus a final
* cycle to select from.
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*/
always @(posedge clk_125) begin
rx_a[3:1] <= rx_a[2:0];
rx_b[3:1] <= rx_b[2:0];
rx_c[3:1] <= rx_c[2:0];
rx_d[3:1] <= rx_d[2:0];
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end
localparam A = 0;
localparam B = 1;
localparam C = 2;
localparam D = 3;
reg [1:0] state, state_next;
initial state = A;
reg valid, valid_next;
reg wraparound, wraparound_next;
initial valid = 0;
reg [1:0] rx_data_next, rx_data_valid_next;
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reg [3:0] rx_r, rx_f;
always @(*) begin
rx_r = {
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rx_a[1] & ~rx_a[2],
rx_b[1] & ~rx_b[2],
rx_c[1] & ~rx_c[2],
rx_d[1] & ~rx_d[2]
};
rx_f = {
~rx_a[1] & rx_a[2],
~rx_b[1] & rx_b[2],
~rx_c[1] & rx_c[2],
~rx_d[1] & rx_d[2]
};
state_next = state;
valid_next = 1;
wraparound_next = 0;
if (rx_r == 4'b1111 || rx_f == 4'b1111) begin
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state_next = C;
end else if (rx_r == 4'b1000 || rx_f == 4'b1000) begin
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state_next = D;
wraparound_next = state == A;
end else if (rx_r == 4'b1100 || rx_f == 4'b1100) begin
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state_next = A;
wraparound_next = state == D;
end else if (rx_r == 4'b1110 || rx_f == 4'b1110) begin
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state_next = B;
end else begin
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valid_next = valid;
end
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if (!signal_status) begin
state_next = A;
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valid_next = 0;
end
rx_data_next[0] = rx_d[3];
rx_data_valid_next = 1;
case (state)
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A: begin
rx_data_next[1] = rx_a[3];
rx_data_valid_next = !wraparound;
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end
B: begin
rx_data_next[1] = rx_b[3];
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end
C: begin
rx_data_next[1] = rx_c[3];
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end
D: begin
rx_data_next[1] = rx_d[3];
if (wraparound) begin
rx_data_next[1] = rx_a[3];
rx_data_valid_next = 2;
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end
end
endcase
if (!valid_next)
rx_data_valid_next = 0;
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end
always @(posedge clk_125) begin
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state <= state_next;
valid <= valid_next;
wraparound <= wraparound_next;
rx_data <= rx_data_next;
rx_data_valid <= rx_data_valid_next;
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end
`ifndef SYNTHESIS
reg [255:0] state_text;
wire [13:0] delay;
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always @(*) begin
case (state)
A: state_text = "A";
B: state_text = "B";
C: state_text = "C";
D: state_text = "D";
endcase
end
`endif
endmodule