580 lines
17 KiB
Verilog
580 lines
17 KiB
Verilog
// ***************************************************************************
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// ***************************************************************************
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// Copyright 2018 (c) Analog Devices, Inc. All rights reserved.
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//
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// In this HDL repository, there are many different and unique modules, consisting
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// of various HDL (Verilog or VHDL) components. The individual modules are
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// developed independently, and may be accompanied by separate and unique license
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// terms.
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//
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// The user should read each of these license terms, and understand the
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// freedoms and responsibilities that he or she has by using this source/core.
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//
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// This core is distributed in the hope that it will be useful, but WITHOUT ANY
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// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
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// A PARTICULAR PURPOSE.
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//
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// Redistribution and use of source or resulting binaries, with or without modification
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// of this file, are permitted under one of the following two license terms:
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//
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// 1. The GNU General Public License version 2 as published by the
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// Free Software Foundation, which can be found in the top level directory
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// of this repository (LICENSE_GPL2), and also online at:
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// <https://www.gnu.org/licenses/old-licenses/gpl-2.0.html>
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//
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// OR
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//
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// 2. An ADI specific BSD license, which can be found in the top level directory
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// of this repository (LICENSE_ADIBSD), and also on-line at:
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// https://github.com/analogdevicesinc/hdl/blob/master/LICENSE_ADIBSD
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// This will allow to generate bit files and not release the source code,
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// as long as it attaches to an ADI device.
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//
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// ***************************************************************************
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// ***************************************************************************
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`timescale 1ns/100ps
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/* This module controls the read and write access to the storage unit. It is
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* used for both transmit and receive use cases
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*/
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module data_offload_fsm #(
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parameter TX_OR_RXN_PATH = 0,
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parameter WR_ADDRESS_WIDTH = 4,
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parameter WR_DATA_WIDTH = 128,
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parameter RD_ADDRESS_WIDTH = 4,
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parameter RD_DATA_WIDTH = 128)(
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// write control interface
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input wr_clk,
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input wr_resetn_in,
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output reg wr_resetn_out,
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input wr_valid_in,
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output wr_valid_out,
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output wr_ready,
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output reg [WR_ADDRESS_WIDTH-1:0] wr_addr,
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input wr_last,
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input [WR_DATA_WIDTH/8-1:0] wr_tkeep,
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// read control interface
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input rd_clk,
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input rd_resetn_in,
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output reg rd_resetn_out,
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input rd_ready,
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output reg rd_valid = 1'b0,
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output reg [RD_ADDRESS_WIDTH-1:0] rd_addr,
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output rd_last,
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output reg [RD_DATA_WIDTH/8-1:0] rd_tkeep,
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input rd_oneshot, // 0 - CYCLIC; 1 - ONE_SHOT;
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// Synchronization interface - synchronous to the device clock (ADC or DAC)
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input init_req,
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output init_ack,
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input [ 1:0] sync_config,
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input sync_external,
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input sync_internal,
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// FSM debug
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output [ 1:0] wr_fsm_state,
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output [ 1:0] rd_fsm_state,
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output reg [63:0] sample_count
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);
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// FSM states
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localparam WR_IDLE = 2'b00;
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localparam WR_SYNC = 2'b01;
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localparam WR_WRITE_TO_MEM = 2'b11;
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localparam WR_WAIT_TO_END = 2'b10;
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localparam RD_IDLE = 2'b00;
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localparam RD_SYNC = 2'b01;
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localparam RD_READ_FROM_MEM = 2'b11;
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// Synchronization options
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localparam AUTOMATIC = 2'b00;
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localparam HARDWARE = 2'b01;
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localparam SOFTWARE = 2'b10;
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// helper parameters for last address, tkeep conversion
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localparam LSB = (WR_ADDRESS_WIDTH > RD_ADDRESS_WIDTH) ? WR_ADDRESS_WIDTH - RD_ADDRESS_WIDTH :
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RD_ADDRESS_WIDTH - WR_ADDRESS_WIDTH;
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localparam POW2_LSB = 1 << LSB;
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// internal registers
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reg [WR_ADDRESS_WIDTH-1:0] wr_last_addr;
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reg [WR_DATA_WIDTH/8-1:0] wr_last_keep;
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reg [RD_DATA_WIDTH/8-1:0] rd_tkeep_last;
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reg [RD_ADDRESS_WIDTH-1:0] rd_last_addr;
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reg rd_isempty;
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reg rd_init_req_d;
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reg wr_init_req_d;
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reg wr_ready_d;
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// internal signals
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wire wr_almost_full;
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wire wr_init_req_s;
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wire wr_init_req_pos_s;
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wire wr_init_ack_s;
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wire rd_isfull_s;
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wire wr_isempty_s;
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wire rd_empty_s;
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wire rd_wr_last_s;
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wire rd_init_req_s;
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wire rd_init_req_neg_s;
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wire rd_init_ack_s;
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wire [WR_ADDRESS_WIDTH-1:0] rd_wr_last_addr_s;
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wire [WR_DATA_WIDTH/8-1:0] rd_wr_last_tkeep_s;
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wire wr_sync_internal_s;
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wire rd_sync_internal_s;
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wire wr_sync_external_s;
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wire rd_sync_external_s;
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wire wr_oneshot;
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(* DONT_TOUCH = "TRUE" *) reg [1:0] wr_fsm_state = 2'b00;
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(* DONT_TOUCH = "TRUE" *) reg [1:0] rd_fsm_state = 2'b00;
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// Mealy state machine for write control
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always @(posedge wr_clk) begin
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if (wr_resetn_in == 1'b0) begin
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wr_fsm_state <= WR_IDLE;
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end else begin
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case (wr_fsm_state)
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WR_IDLE: begin
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if (wr_init_req_s) begin
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wr_fsm_state <= (TX_OR_RXN_PATH) ? WR_WRITE_TO_MEM : WR_SYNC;
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end else begin
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wr_fsm_state <= WR_IDLE;
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end
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end
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WR_SYNC: begin
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// do not lock the FSM if something goes wrong
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if (TX_OR_RXN_PATH) begin
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wr_fsm_state <= WR_WRITE_TO_MEM;
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end else begin // SOURCE_IS_BACK_END
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case (sync_config)
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AUTOMATIC: begin
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wr_fsm_state <= WR_WRITE_TO_MEM;
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end
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HARDWARE: begin
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if (wr_sync_external_s) begin
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wr_fsm_state <= WR_WRITE_TO_MEM;
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end
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end
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SOFTWARE: begin
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if (wr_sync_internal_s) begin
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wr_fsm_state <= WR_WRITE_TO_MEM;
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end
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end
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default: begin
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wr_fsm_state <= WR_WRITE_TO_MEM;
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end
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endcase
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end
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end
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WR_WRITE_TO_MEM: begin
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if ((wr_almost_full || wr_last) && wr_valid_out) begin
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wr_fsm_state <= WR_WAIT_TO_END;
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end else begin
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wr_fsm_state <= WR_WRITE_TO_MEM;
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end
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end
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WR_WAIT_TO_END: begin
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if (wr_isempty_s && (wr_oneshot || wr_init_req_s)) begin
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wr_fsm_state <= WR_IDLE;
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end else begin
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wr_fsm_state <= WR_WAIT_TO_END;
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end
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end
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default: wr_fsm_state <= WR_IDLE;
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endcase
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end
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end
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// the initialization interface (init_req) is edge sensitive
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always @(posedge wr_clk) begin
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wr_init_req_d <= wr_init_req_s;
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end
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assign wr_init_req_pos_s = ~wr_init_req_d & wr_init_req_s;
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// status bits
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assign wr_almost_full = (wr_addr == {{(WR_ADDRESS_WIDTH-1){1'b1}}, 1'b0}) ? 1'b1 : 1'b0;
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assign wr_full = &wr_addr;
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// generate INIT acknowledge signal in WRITE domain (in case of ADCs)
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assign wr_init_ack_s = (wr_fsm_state == WR_SYNC) ? 1'b1 : 1'b0;
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// write address generation
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always @(posedge wr_clk) begin
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if ((wr_resetn_in == 1'b0) || (wr_fsm_state == WR_IDLE)) begin
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wr_addr <= 'b0;
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end else begin
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if (wr_valid_out) begin
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wr_addr <= wr_addr + 1'b1;
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end
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end
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end
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// reset the storage unit's FMS before each transfer
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always @(posedge wr_clk) begin
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if ((wr_resetn_in == 1'b0) || (wr_fsm_state == WR_IDLE)) begin
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wr_resetn_out <= 1'b0;
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end else begin
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wr_resetn_out <= 1'b1;
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end
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end
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always @(posedge wr_clk) begin
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if (wr_resetn_in == 1'b0) begin
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wr_last_addr <= {WR_ADDRESS_WIDTH{1'b1}};
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end else begin
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wr_last_addr <= (wr_valid_out) ? wr_addr : wr_last_addr;
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end
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end
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always @(posedge wr_clk) begin
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if (wr_resetn_in == 1'b0) begin
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wr_last_keep <= {WR_DATA_WIDTH/8{1'b1}};
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end else begin
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if (wr_last) begin
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// if the SOURCE is at back-end, the interface is FIFO, set the tkeep
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// to its default
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wr_last_keep <= (TX_OR_RXN_PATH) ? wr_tkeep : {WR_DATA_WIDTH/8{1'b1}};
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end
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end
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end
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always @(posedge wr_clk) begin
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wr_ready_d <= wr_ready;
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end
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// flush out the DMA if the transfer is bigger than the storage size
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assign wr_ready = ((wr_fsm_state == WR_WRITE_TO_MEM) ||
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((wr_fsm_state == WR_WAIT_TO_END) && wr_valid_in && wr_ready_d && wr_full)) ? 1'b1 : 1'b0;
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// write control
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assign wr_valid_out = (wr_fsm_state == WR_WRITE_TO_MEM) & wr_valid_in;
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// sample counter for debug purposes, the value of the counter resets at
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// every new incoming request
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always @(posedge wr_clk) begin
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if (wr_init_req_pos_s == 1'b1) begin
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sample_count <= 64'b0;
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end else begin
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if (wr_ready && wr_valid_in) begin
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sample_count <= sample_count + 1'b1;
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end
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end
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end
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// Mealy state machine for read control
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always @(posedge rd_clk) begin
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if (rd_resetn_in == 1'b0) begin
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rd_fsm_state <= RD_IDLE;
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end else begin
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case (rd_fsm_state)
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RD_IDLE: begin
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if (((!TX_OR_RXN_PATH) & rd_isfull_s) || (rd_wr_last_s)) begin
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if (TX_OR_RXN_PATH) begin
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rd_fsm_state <= RD_SYNC;
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end else begin
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rd_fsm_state <= RD_READ_FROM_MEM;
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end
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end else begin
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rd_fsm_state <= RD_IDLE;
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end
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end
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RD_SYNC : begin
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// do not lock the FSM if something goes wrong
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if (!TX_OR_RXN_PATH) begin
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rd_fsm_state <= RD_READ_FROM_MEM;
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end else begin // TX_OR_RXN_PATH
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case (sync_config)
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AUTOMATIC: begin
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rd_fsm_state <= RD_READ_FROM_MEM;
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end
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HARDWARE: begin
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if (rd_sync_external_s) begin
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rd_fsm_state <= RD_READ_FROM_MEM;
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end
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end
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SOFTWARE: begin
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if (rd_sync_internal_s) begin
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rd_fsm_state <= RD_READ_FROM_MEM;
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end
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end
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default: begin
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rd_fsm_state <= RD_READ_FROM_MEM;
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end
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endcase
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end
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end
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// read until empty or next init_req
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RD_READ_FROM_MEM : begin
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if ((rd_empty_s && (rd_init_req_s || (rd_oneshot && rd_last)) && rd_ready)) begin
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rd_fsm_state <= RD_IDLE;
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end else begin
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rd_fsm_state <= RD_READ_FROM_MEM;
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end
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end
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default : rd_fsm_state <= RD_IDLE;
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endcase
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end
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end
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// the initialization interface (init_req) is edge sensitive
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// TODO: This should be redefined! Will work only of init_req is active
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// during the whole DMA transfer (use xfer_req for driving init_req)
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always @(posedge rd_clk) begin
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rd_init_req_d <= rd_init_req_s;
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end
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assign rd_init_req_neg_s = rd_init_req_d & ~rd_init_req_s;
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// generate INIT acknowledge signal in WRITE domain (in case of ADCs)
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assign rd_init_ack_s = (rd_fsm_state == RD_SYNC) ? 1'b1 : 1'b0;
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// Reset the storage unit's FSM before each transfer
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always @(posedge rd_clk) begin
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if ((rd_resetn_in == 1'b0) || (rd_fsm_state == RD_IDLE)) begin
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rd_resetn_out <= 1'b0;
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end else begin
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rd_resetn_out <= 1'b1;
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end
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end
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// read address generation
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always @(posedge rd_clk) begin
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if (rd_fsm_state != RD_READ_FROM_MEM) begin
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rd_addr <= 'b0;
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end else begin
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if (rd_valid) begin
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if (rd_oneshot)
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rd_addr <= (rd_last_addr == rd_addr) ? rd_addr : rd_addr + 1'b1;
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else
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rd_addr <= (rd_last_addr == rd_addr) ? {RD_ADDRESS_WIDTH{1'b0}} : rd_addr + 1'b1;
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end
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end
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end
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assign rd_empty_s = (rd_addr == rd_last_addr) ? 1'b1 : 1'b0;
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assign rd_last = rd_oneshot & rd_empty_s;
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always @(posedge rd_clk) begin
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if (rd_resetn_in == 1'b0) begin
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rd_isempty <= 1'b0;
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end else begin
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rd_isempty <= rd_empty_s;
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end
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end
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always @(posedge rd_clk) begin
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if (rd_resetn_in == 1'b0) begin
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rd_valid <= 1'b0;
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end else begin
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if ((rd_ready) && (rd_fsm_state == RD_READ_FROM_MEM) && !(rd_valid && rd_last && rd_oneshot)) begin
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rd_valid <= 1'b1;
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end else begin
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rd_valid <= 1'b0;
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end
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end
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end
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// CDC circuits
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sync_event #(
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.NUM_OF_EVENTS (1),
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.ASYNC_CLK (1))
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i_wr_empty_sync (
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.in_clk (rd_clk),
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.in_event (rd_isempty),
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.out_clk (wr_clk),
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.out_event (wr_isempty_s)
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);
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sync_event #(
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.NUM_OF_EVENTS (1),
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.ASYNC_CLK(1))
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i_rd_full_sync (
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.in_clk (wr_clk),
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.in_event (wr_almost_full),
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.out_clk (rd_clk),
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.out_event (rd_isfull_s)
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);
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sync_event #(
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.NUM_OF_EVENTS (1),
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.ASYNC_CLK (1))
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i_rd_wr_last_sync (
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.in_clk (wr_clk),
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.in_event ((wr_last & wr_valid_in)),
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.out_clk (rd_clk),
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.out_event (rd_wr_last_s)
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);
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sync_bits #(
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.NUM_OF_BITS (1),
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.ASYNC_CLK (1))
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i_wr_oneshot_sync (
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.in_bits (rd_oneshot),
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.out_clk (wr_clk),
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.out_resetn (1'b1),
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.out_bits (wr_oneshot)
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);
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sync_bits #(
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.NUM_OF_BITS (1),
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.ASYNC_CLK (1))
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i_rd_init_req_sync (
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.in_bits (init_req),
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.out_clk (rd_clk),
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.out_resetn (1'b1),
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.out_bits (rd_init_req_s)
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);
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sync_bits #(
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.NUM_OF_BITS (1),
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.ASYNC_CLK (1))
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i_wr_init_req_sync (
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.in_bits (init_req),
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.out_clk (wr_clk),
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.out_resetn (1'b1),
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.out_bits (wr_init_req_s)
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);
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generate if (TX_OR_RXN_PATH == 0) begin : adc_init_sync
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sync_event #(
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.NUM_OF_EVENTS (1),
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.ASYNC_CLK (1))
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i_rd_init_ack_sync (
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.in_clk (wr_clk),
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.in_event (wr_init_ack_s),
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.out_clk (rd_clk),
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.out_event (init_ack)
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);
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end else begin : dac_init_sync
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sync_event #(
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.NUM_OF_EVENTS (1),
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.ASYNC_CLK (1))
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i_wr_init_ack_sync (
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.in_clk (rd_clk),
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.in_event (rd_init_ack_s),
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.out_clk (wr_clk),
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.out_event (init_ack)
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);
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end
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endgenerate
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// convert write address and last/keep to read address and last/keep
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sync_bits #(
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.NUM_OF_BITS (WR_ADDRESS_WIDTH),
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.ASYNC_CLK (1))
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i_rd_last_address (
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.in_bits (wr_last_addr),
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.out_clk (rd_clk),
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.out_resetn (1'b1),
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.out_bits (rd_wr_last_addr_s)
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);
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sync_bits #(
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.NUM_OF_BITS (WR_DATA_WIDTH/8),
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.ASYNC_CLK (1))
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i_rd_last_keep (
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.in_bits (wr_last_keep),
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.out_clk (rd_clk),
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.out_resetn (1'b1),
|
|
.out_bits (rd_wr_last_tkeep_s)
|
|
);
|
|
|
|
// upsizing - WR_DATA_WIDTH < RD_DATA_WIDTH
|
|
generate if (WR_ADDRESS_WIDTH > RD_ADDRESS_WIDTH) begin
|
|
|
|
always @(posedge rd_clk) begin
|
|
rd_last_addr <= rd_wr_last_addr_s[WR_ADDRESS_WIDTH-1 : LSB];
|
|
end
|
|
|
|
// the read tkeep will be wider than the write tkeep, and its value
|
|
// depends on when the write tlast was asserted
|
|
always @(posedge rd_clk) begin :tkeep_gen
|
|
integer i;
|
|
for (i = 0; i < POW2_LSB; i = i + 1) begin : a_tkeep
|
|
if (rd_last_addr[LSB-1:0] < i)
|
|
rd_tkeep_last[(i+1)*WR_DATA_WIDTH/8-1 -: WR_DATA_WIDTH/8] <= {WR_DATA_WIDTH/8{1'b0}};
|
|
else
|
|
rd_tkeep_last[(i+1)*WR_DATA_WIDTH/8-1 -: WR_DATA_WIDTH/8] <= (i == 0) ? rd_wr_last_tkeep_s : {WR_DATA_WIDTH/8{1'b1}};
|
|
end
|
|
end
|
|
|
|
end else if (WR_ADDRESS_WIDTH < RD_ADDRESS_WIDTH) begin // downsizing - WR_DATA_WIDTH > RD_DATA_WIDTH or equal
|
|
|
|
always @(posedge rd_clk) begin
|
|
rd_tkeep_last <= rd_wr_last_tkeep_s[RD_DATA_WIDTH/8-1 : 0];
|
|
rd_last_addr <= {rd_wr_last_addr_s, {LSB{1'b1}}};
|
|
end
|
|
|
|
end else begin
|
|
|
|
always @(posedge rd_clk) begin
|
|
rd_tkeep_last <= rd_wr_last_tkeep_s;
|
|
rd_last_addr <= rd_wr_last_addr_s;
|
|
end
|
|
|
|
end
|
|
endgenerate
|
|
|
|
always @(posedge rd_clk) begin
|
|
if (rd_fsm_state == RD_IDLE) begin
|
|
rd_tkeep <= {(RD_DATA_WIDTH/8){1'b1}};
|
|
end else begin
|
|
if (rd_empty_s && rd_ready)
|
|
rd_tkeep <= rd_tkeep_last;
|
|
else if (rd_ready)
|
|
rd_tkeep <= {(RD_DATA_WIDTH/8){1'b1}};
|
|
end
|
|
end
|
|
|
|
sync_bits #(
|
|
.NUM_OF_BITS (2),
|
|
.ASYNC_CLK (1))
|
|
i_sync_wr_sync (
|
|
.in_bits ({ sync_internal, sync_external }),
|
|
.out_clk (wr_clk),
|
|
.out_resetn (1'b1),
|
|
.out_bits ({ wr_sync_internal_s, wr_sync_external_s })
|
|
);
|
|
|
|
sync_bits #(
|
|
.NUM_OF_BITS (2),
|
|
.ASYNC_CLK (1))
|
|
i_sync_rd_sync (
|
|
.in_bits ({ sync_internal, sync_external }),
|
|
.out_clk (rd_clk),
|
|
.out_resetn (1'b1),
|
|
.out_bits ({ rd_sync_internal_s, rd_sync_external_s })
|
|
);
|
|
|
|
endmodule
|
|
|