pluto_hdl_adi/library/jesd204/jesd204_rx/jesd204_rx.v

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// ***************************************************************************
// ***************************************************************************
// Copyright (C) 2017-2022 Analog Devices, Inc. All rights reserved.
// SPDX short identifier: ADIJESD204
// ***************************************************************************
// ***************************************************************************
`timescale 1ns/100ps
module jesd204_rx #(
parameter NUM_LANES = 1,
parameter NUM_LINKS = 1,
parameter NUM_INPUT_PIPELINE = 1,
parameter NUM_OUTPUT_PIPELINE = 1,
parameter LINK_MODE = 1, // 2 - 64B/66B; 1 - 8B/10B
/* Only 4 is supported at the moment for 8b/10b and 8 for 64b */
parameter DATA_PATH_WIDTH = LINK_MODE == 2 ? 8 : 4,
parameter ENABLE_FRAME_ALIGN_CHECK = 1,
parameter ENABLE_FRAME_ALIGN_ERR_RESET = 0,
parameter ENABLE_CHAR_REPLACE = 0,
parameter ASYNC_CLK = 1,
parameter TPL_DATA_PATH_WIDTH = LINK_MODE == 2 ? 8 : 4
) (
input clk, // Link clock, lane rate / 40 or lane rate / 20 or lane rate / 66
input reset,
input device_clk, // Integer multiple of frame clock
input device_reset,
input [DATA_PATH_WIDTH*8*NUM_LANES-1:0] phy_data,
input [2*NUM_LANES-1:0] phy_header,
input [DATA_PATH_WIDTH*NUM_LANES-1:0] phy_charisk,
input [DATA_PATH_WIDTH*NUM_LANES-1:0] phy_notintable,
input [DATA_PATH_WIDTH*NUM_LANES-1:0] phy_disperr,
input [NUM_LANES-1:0] phy_block_sync,
input sysref,
output lmfc_edge,
output lmfc_clk,
output device_event_sysref_alignment_error,
output device_event_sysref_edge,
output event_frame_alignment_error,
output event_unexpected_lane_state_error,
output [NUM_LINKS-1:0] sync,
output phy_en_char_align,
output [TPL_DATA_PATH_WIDTH*8*NUM_LANES-1:0] rx_data,
output rx_valid,
output [TPL_DATA_PATH_WIDTH-1:0] rx_eof,
output [TPL_DATA_PATH_WIDTH-1:0] rx_sof,
output [TPL_DATA_PATH_WIDTH-1:0] rx_eomf,
output [TPL_DATA_PATH_WIDTH-1:0] rx_somf,
input [NUM_LANES-1:0] cfg_lanes_disable,
input [NUM_LINKS-1:0] cfg_links_disable,
input [9:0] cfg_octets_per_multiframe,
input [7:0] cfg_octets_per_frame,
input cfg_disable_scrambler,
input cfg_disable_char_replacement,
input [7:0] cfg_frame_align_err_threshold,
input [9:0] device_cfg_octets_per_multiframe,
input [7:0] device_cfg_octets_per_frame,
input [7:0] device_cfg_beats_per_multiframe,
input [7:0] device_cfg_lmfc_offset,
input device_cfg_sysref_oneshot,
input device_cfg_sysref_disable,
input device_cfg_buffer_early_release,
input [7:0] device_cfg_buffer_delay,
input ctrl_err_statistics_reset,
input [6:0] ctrl_err_statistics_mask,
output [32*NUM_LANES-1:0] status_err_statistics_cnt,
output [NUM_LANES-1:0] ilas_config_valid,
output [NUM_LANES*2-1:0] ilas_config_addr,
output [NUM_LANES*DATA_PATH_WIDTH*8-1:0] ilas_config_data,
output [1:0] status_ctrl_state,
output [2*NUM_LANES-1:0] status_lane_cgs_state,
output [NUM_LANES-1:0] status_lane_ifs_ready,
output [14*NUM_LANES-1:0] status_lane_latency,
output [3*NUM_LANES-1:0] status_lane_emb_state,
output [8*NUM_LANES-1:0] status_lane_frame_align_err_cnt,
output [31:0] status_synth_params0,
output [31:0] status_synth_params1,
output [31:0] status_synth_params2
);
/*
* Can be used to enable additional pipeline stages to ease timing. Usually not
* necessary.
*/
localparam CHAR_INFO_REGISTERED = 0;
localparam ALIGN_MUX_REGISTERED = 1;
localparam SCRAMBLER_REGISTERED = 0;
/*
* Maximum number of octets per multiframe for ADI JESD204 DACs is 256 (Adjust
* as necessary). Divide by data path width.
*/
localparam MAX_OCTETS_PER_FRAME = 32;
localparam MAX_OCTETS_PER_MULTIFRAME =
(MAX_OCTETS_PER_FRAME * 32) > 1024 ? 1024 : (MAX_OCTETS_PER_FRAME * 32);
localparam MAX_BEATS_PER_MULTIFRAME = MAX_OCTETS_PER_MULTIFRAME / DATA_PATH_WIDTH;
localparam ELASTIC_BUFFER_SIZE = MAX_BEATS_PER_MULTIFRAME;
localparam DPW_LOG2 = DATA_PATH_WIDTH == 8 ? 3 : DATA_PATH_WIDTH == 4 ? 2 : 1;
localparam LMFC_COUNTER_WIDTH = MAX_BEATS_PER_MULTIFRAME > 256 ? 9 :
MAX_BEATS_PER_MULTIFRAME > 128 ? 8 :
MAX_BEATS_PER_MULTIFRAME > 64 ? 7 :
MAX_BEATS_PER_MULTIFRAME > 32 ? 6 :
MAX_BEATS_PER_MULTIFRAME > 16 ? 5 :
MAX_BEATS_PER_MULTIFRAME > 8 ? 4 :
MAX_BEATS_PER_MULTIFRAME > 4 ? 3 :
MAX_BEATS_PER_MULTIFRAME > 2 ? 2 : 1;
/* Helper for common expressions */
localparam DW = 8*DATA_PATH_WIDTH*NUM_LANES;
localparam ODW = 8*TPL_DATA_PATH_WIDTH*NUM_LANES;
localparam CW = DATA_PATH_WIDTH*NUM_LANES;
localparam HW = 2*NUM_LANES;
wire [7:0] cfg_beats_per_multiframe = cfg_octets_per_multiframe >> DPW_LOG2;
wire [7:0] device_cfg_beats_per_multiframe_s;
wire [NUM_LANES-1:0] cgs_reset;
wire [NUM_LANES-1:0] cgs_ready;
wire [NUM_LANES-1:0] ifs_reset;
reg buffer_release_n = 1'b1;
reg buffer_release_d1 = 1'b0;
wire [NUM_LANES-1:0] buffer_ready_n;
wire all_buffer_ready_n;
wire dev_all_buffer_ready_n;
reg eof_reset = 1'b1;
wire [DW-1:0] phy_data_r;
wire [HW-1:0] phy_header_r;
wire [CW-1:0] phy_charisk_r;
wire [CW-1:0] phy_notintable_r;
wire [CW-1:0] phy_disperr_r;
wire [NUM_LANES-1:0] phy_block_sync_r;
wire [ODW-1:0] rx_data_s;
wire rx_valid_s = buffer_release_d1;
wire [7:0] lmfc_counter;
wire latency_monitor_reset;
wire [3*NUM_LANES-1:0] frame_align;
wire [NUM_LANES-1:0] ifs_ready;
wire event_data_phase;
wire err_statistics_reset;
wire lmfc_edge_synced;
reg [NUM_LANES-1:0] frame_align_err_thresh_met = {NUM_LANES{1'b0}};
reg [NUM_LANES-1:0] event_frame_alignment_error_per_lane = {NUM_LANES{1'b0}};
reg buffer_release_opportunity = 1'b0;
always @(posedge device_clk) begin
if (lmfc_counter == device_cfg_buffer_delay ||
device_cfg_buffer_early_release == 1'b1) begin
buffer_release_opportunity <= 1'b1;
end else begin
buffer_release_opportunity <= 1'b0;
end
end
assign all_buffer_ready_n = |(buffer_ready_n & ~cfg_lanes_disable);
sync_bits #(
.NUM_OF_BITS (1),
.ASYNC_CLK(ASYNC_CLK)
) i_all_buffer_ready_cdc (
.in_bits(all_buffer_ready_n),
.out_clk(device_clk),
.out_resetn(1'b1),
.out_bits(dev_all_buffer_ready_n));
always @(posedge device_clk) begin
if (device_reset == 1'b1) begin
buffer_release_n <= 1'b1;
end else begin
if (buffer_release_opportunity == 1'b1) begin
buffer_release_n <= dev_all_buffer_ready_n;
end
end
buffer_release_d1 <= ~buffer_release_n;
eof_reset <= buffer_release_n;
end
pipeline_stage #(
.WIDTH(NUM_LANES + (3 * CW) + HW + DW),
.REGISTERED(NUM_INPUT_PIPELINE)
) i_input_pipeline_stage (
.clk(clk),
.in({
phy_data,
phy_header,
phy_charisk,
phy_notintable,
phy_disperr,
phy_block_sync
}),
.out({
phy_data_r,
phy_header_r,
phy_charisk_r,
phy_notintable_r,
phy_disperr_r,
phy_block_sync_r
}));
pipeline_stage #(
.WIDTH(ODW+2),
.REGISTERED(NUM_OUTPUT_PIPELINE)
) i_output_pipeline_stage (
.clk(device_clk),
.in({
eof_reset,
rx_data_s,
rx_valid_s
}),
.out({
eof_reset_d,
rx_data,
rx_valid
}));
// If input and output widths are symmetric keep the calculation for backwards
// compatibility of the software.
assign device_cfg_beats_per_multiframe_s = (TPL_DATA_PATH_WIDTH == DATA_PATH_WIDTH) ?
device_cfg_octets_per_multiframe >> DPW_LOG2 :
device_cfg_beats_per_multiframe;
jesd204_lmfc #(
.LINK_MODE (LINK_MODE),
.DATA_PATH_WIDTH (TPL_DATA_PATH_WIDTH)
) i_lmfc (
.clk (device_clk),
.reset (device_reset),
.cfg_octets_per_multiframe (device_cfg_octets_per_multiframe),
.cfg_beats_per_multiframe (device_cfg_beats_per_multiframe_s),
.cfg_lmfc_offset (device_cfg_lmfc_offset),
.cfg_sysref_oneshot (device_cfg_sysref_oneshot),
.cfg_sysref_disable (device_cfg_sysref_disable),
.sysref (sysref),
.lmfc_edge (lmfc_edge),
.lmfc_clk (lmfc_clk),
.lmfc_counter (lmfc_counter),
.lmc_edge (),
.lmc_quarter_edge (),
.eoemb (),
.sysref_edge (device_event_sysref_edge),
.sysref_alignment_error (device_event_sysref_alignment_error));
jesd204_frame_mark #(
.DATA_PATH_WIDTH (TPL_DATA_PATH_WIDTH)
) i_frame_mark (
.clk (device_clk),
.reset (eof_reset_d),
.cfg_beats_per_multiframe (device_cfg_beats_per_multiframe_s),
.cfg_octets_per_multiframe (device_cfg_octets_per_multiframe),
.cfg_octets_per_frame (device_cfg_octets_per_frame),
.sof (rx_sof),
.eof (rx_eof),
.somf (rx_somf),
.eomf (rx_eomf));
generate
genvar i;
sync_event #(
.NUM_OF_EVENTS (1),
.ASYNC_CLK(ASYNC_CLK)
) i_sync_lmfc (
.in_clk(device_clk),
.in_event(lmfc_edge),
.out_clk(clk),
.out_event(lmfc_edge_synced));
if (LINK_MODE[0] == 1) begin : mode_8b10b
wire unexpected_lane_state_error;
reg unexpected_lane_state_error_d = 1'b0;
jesd204_rx_ctrl #(
.NUM_LANES (NUM_LANES),
.NUM_LINKS (NUM_LINKS),
.ENABLE_FRAME_ALIGN_ERR_RESET (ENABLE_FRAME_ALIGN_ERR_RESET)
) i_rx_ctrl (
.clk (clk),
.reset (reset),
.cfg_lanes_disable (cfg_lanes_disable),
.cfg_links_disable (cfg_links_disable),
.phy_ready (1'b1),
.phy_en_char_align (phy_en_char_align),
.lmfc_edge (lmfc_edge_synced),
.frame_align_err_thresh_met (frame_align_err_thresh_met),
.sync (sync),
.latency_monitor_reset (latency_monitor_reset),
.cgs_reset (cgs_reset),
.cgs_ready (cgs_ready),
.ifs_reset (ifs_reset),
.status_state (status_ctrl_state),
.event_data_phase (event_data_phase));
assign err_statistics_reset = ctrl_err_statistics_reset ||
event_data_phase;
for (i = 0; i < NUM_LANES; i = i + 1) begin: gen_lane
localparam D_START = i * DATA_PATH_WIDTH*8;
localparam D_STOP = D_START + DATA_PATH_WIDTH*8-1;
localparam OD_START = i * TPL_DATA_PATH_WIDTH*8;
localparam OD_STOP = OD_START + TPL_DATA_PATH_WIDTH*8-1;
localparam C_START = i * DATA_PATH_WIDTH;
localparam C_STOP = C_START + DATA_PATH_WIDTH-1;
jesd204_rx_lane #(
.DATA_PATH_WIDTH(DATA_PATH_WIDTH),
.TPL_DATA_PATH_WIDTH(TPL_DATA_PATH_WIDTH),
.CHAR_INFO_REGISTERED(CHAR_INFO_REGISTERED),
.ALIGN_MUX_REGISTERED(ALIGN_MUX_REGISTERED),
.SCRAMBLER_REGISTERED(SCRAMBLER_REGISTERED),
.ELASTIC_BUFFER_SIZE(ELASTIC_BUFFER_SIZE),
.ENABLE_FRAME_ALIGN_CHECK(ENABLE_FRAME_ALIGN_CHECK),
.ENABLE_CHAR_REPLACE(ENABLE_CHAR_REPLACE),
.ASYNC_CLK(ASYNC_CLK)
) i_lane (
.clk(clk),
.reset(reset),
.device_clk(device_clk),
.device_reset(device_reset),
.phy_data(phy_data_r[D_STOP:D_START]),
.phy_charisk(phy_charisk_r[C_STOP:C_START]),
.phy_notintable(phy_notintable_r[C_STOP:C_START]),
.phy_disperr(phy_disperr_r[C_STOP:C_START]),
.cgs_reset(cgs_reset[i]),
.cgs_ready(cgs_ready[i]),
.ifs_reset(ifs_reset[i]),
.rx_data(rx_data_s[OD_STOP:OD_START]),
.buffer_release_n(buffer_release_n),
.buffer_ready_n(buffer_ready_n[i]),
.cfg_octets_per_multiframe(cfg_octets_per_multiframe),
.cfg_octets_per_frame(cfg_octets_per_frame),
.cfg_disable_char_replacement(cfg_disable_char_replacement),
.cfg_disable_scrambler(cfg_disable_scrambler),
.err_statistics_reset(err_statistics_reset),
.ctrl_err_statistics_mask(ctrl_err_statistics_mask[2:0]),
.status_err_statistics_cnt(status_err_statistics_cnt[32*i+31:32*i]),
.ilas_config_valid(ilas_config_valid[i]),
.ilas_config_addr(ilas_config_addr[2*i+1:2*i]),
.ilas_config_data(ilas_config_data[D_STOP:D_START]),
.status_cgs_state(status_lane_cgs_state[2*i+1:2*i]),
.status_ifs_ready(ifs_ready[i]),
.status_frame_align(frame_align[3*i+2:3*i]),
.status_frame_align_err_cnt(status_lane_frame_align_err_cnt[8*i+7:8*i]));
if(ENABLE_FRAME_ALIGN_CHECK) begin : gen_frame_align_err_thresh
always @(posedge clk) begin
if (reset) begin
frame_align_err_thresh_met[i] <= 1'b0;
event_frame_alignment_error_per_lane[i] <= 1'b0;
end else begin
if (status_lane_frame_align_err_cnt[8*i+7:8*i] >= cfg_frame_align_err_threshold) begin
frame_align_err_thresh_met[i] <= cgs_ready[i];
event_frame_alignment_error_per_lane[i] <= ~frame_align_err_thresh_met[i];
end else begin
frame_align_err_thresh_met[i] <= 1'b0;
event_frame_alignment_error_per_lane[i] <= 1'b0;
end
end
end
end else begin : gen_no_frame_align_err_thresh
always @(*) begin
frame_align_err_thresh_met[i] <= 1'b0;
event_frame_alignment_error_per_lane[i] <= 1'b0;
end
end
end
assign event_frame_alignment_error = |event_frame_alignment_error_per_lane;
/* If one of the enabled lanes falls out of DATA phase while the link is in DATA phase
* report an error event */
assign unexpected_lane_state_error = |(~(cgs_ready|cfg_lanes_disable)) & &status_ctrl_state;
always @(posedge clk) begin
unexpected_lane_state_error_d <= unexpected_lane_state_error;
end
assign event_unexpected_lane_state_error = unexpected_lane_state_error & ~unexpected_lane_state_error_d;
/* Delay matching based on the number of pipeline stages */
reg [NUM_LANES-1:0] ifs_ready_d1 = 1'b0;
reg [NUM_LANES-1:0] ifs_ready_d2 = 1'b0;
reg [NUM_LANES-1:0] ifs_ready_mux;
always @(posedge clk) begin
ifs_ready_d1 <= ifs_ready;
ifs_ready_d2 <= ifs_ready_d1;
end
always @(*) begin
case (SCRAMBLER_REGISTERED + ALIGN_MUX_REGISTERED)
1: ifs_ready_mux = ifs_ready_d1;
2: ifs_ready_mux = ifs_ready_d2;
default: ifs_ready_mux = ifs_ready;
endcase
end
jesd204_lane_latency_monitor #(
.NUM_LANES(NUM_LANES),
.DATA_PATH_WIDTH(DATA_PATH_WIDTH)
) i_lane_latency_monitor (
.clk(clk),
.reset(latency_monitor_reset),
.lane_ready(ifs_ready_mux),
.lane_frame_align(frame_align),
.lane_latency_ready(status_lane_ifs_ready),
.lane_latency(status_lane_latency));
assign status_lane_emb_state = 'b0;
end
if (LINK_MODE[1] == 1) begin : mode_64b66b
wire [NUM_LANES-1:0] emb_lock;
wire link_buffer_release_n;
sync_bits #(
.NUM_OF_BITS (1),
.ASYNC_CLK(ASYNC_CLK)
) i_buffer_release_cdc (
.in_bits(buffer_release_n),
.out_clk(clk),
.out_resetn(1'b1),
.out_bits(link_buffer_release_n));
jesd204_rx_ctrl_64b #(
.NUM_LANES(NUM_LANES)
) i_jesd204_rx_ctrl_64b (
.clk(clk),
.reset(reset),
.cfg_lanes_disable(cfg_lanes_disable),
.phy_block_sync(phy_block_sync_r),
.emb_lock(emb_lock),
.all_emb_lock(all_emb_lock),
.buffer_release_n(link_buffer_release_n),
.status_state(status_ctrl_state),
.event_unexpected_lane_state_error(event_unexpected_lane_state_error));
for (i = 0; i < NUM_LANES; i = i + 1) begin: gen_lane
localparam D_START = i * DATA_PATH_WIDTH*8;
localparam D_STOP = D_START + DATA_PATH_WIDTH*8-1;
localparam TPL_D_START = i * TPL_DATA_PATH_WIDTH*8;
localparam TPL_D_STOP = TPL_D_START + TPL_DATA_PATH_WIDTH*8-1;
localparam H_START = i * 2;
localparam H_STOP = H_START + 2-1;
wire [7:0] status_lane_skew;
jesd204_rx_lane_64b #(
.ELASTIC_BUFFER_SIZE(ELASTIC_BUFFER_SIZE),
.TPL_DATA_PATH_WIDTH(TPL_DATA_PATH_WIDTH),
.ASYNC_CLK(ASYNC_CLK)
) i_lane (
.clk(clk),
.reset(reset),
.device_clk(device_clk),
.device_reset(device_reset),
.phy_data(phy_data_r[D_STOP:D_START]),
.phy_header(phy_header_r[H_STOP:H_START]),
.phy_block_sync(phy_block_sync_r[i]),
.cfg_disable_scrambler(cfg_disable_scrambler),
.cfg_header_mode(2'b0),
.cfg_rx_thresh_emb_err(5'd8),
.cfg_beats_per_multiframe(cfg_beats_per_multiframe),
.rx_data(rx_data_s[TPL_D_STOP:TPL_D_START]),
.buffer_release_n(buffer_release_n),
.buffer_ready_n(buffer_ready_n[i]),
.all_buffer_ready_n(all_buffer_ready_n),
.lmfc_edge(lmfc_edge_synced),
.emb_lock(emb_lock[i]),
.ctrl_err_statistics_reset(ctrl_err_statistics_reset),
.ctrl_err_statistics_mask(ctrl_err_statistics_mask[6:3]),
.status_err_statistics_cnt(status_err_statistics_cnt[32*i+31:32*i]),
.status_lane_emb_state(status_lane_emb_state[3*i+2:3*i]),
.status_lane_skew(status_lane_skew));
assign status_lane_latency[14*(i+1)-1:14*i] = {3'b0,status_lane_skew,3'b0};
end
// Assign unused outputs
assign sync = 'b0;
assign phy_en_char_align = 1'b0;
assign ilas_config_valid ='b0;
assign ilas_config_addr = 'b0;
assign ilas_config_data = 'b0;
assign status_lane_cgs_state = 'b0;
assign status_lane_ifs_ready = {NUM_LANES{1'b1}};
assign event_frame_alignment_error = 1'b0;
end
endgenerate
// Core static parameters
assign status_synth_params0 = {NUM_LANES};
assign status_synth_params1 = {
/*31:16 */ 16'b0,
/*15: 8 */ 1'b0,TPL_DATA_PATH_WIDTH[6:0],
/* 7: 0 */ 4'b0,DPW_LOG2[3:0]};
assign status_synth_params2 = {
/*31:19 */ 13'b0,
/* 18 */ ENABLE_CHAR_REPLACE[0],
/* 17 */ ENABLE_FRAME_ALIGN_ERR_RESET[0],
/* 16 */ ENABLE_FRAME_ALIGN_CHECK[0],
/*15:13 */ 3'b0,
/* 12 */ ASYNC_CLK[0],
/*11:10 */ 2'b0,
/* 9: 8 */ LINK_MODE[1:0],
/* 7: 0 */ NUM_LINKS[7:0]};
endmodule