428 lines
14 KiB
Verilog
428 lines
14 KiB
Verilog
// ***************************************************************************
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// ***************************************************************************
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// Copyright 2014 - 2017 (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 responsabilities 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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module axi_ad5766 #(
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parameter ASYNC_SPI_CLK = 0,
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parameter CMD_MEM_ADDRESS_WIDTH = 4,
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parameter SDO_MEM_ADDRESS_WIDTH = 4)(
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// Slave AXI interface
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input s_axi_aclk,
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input s_axi_aresetn,
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input s_axi_awvalid,
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input [15:0] s_axi_awaddr,
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output s_axi_awready,
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input [ 2:0] s_axi_awprot,
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input s_axi_wvalid,
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input [31:0] s_axi_wdata,
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input [ 3:0] s_axi_wstrb,
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output s_axi_wready,
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output s_axi_bvalid,
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output [ 1:0] s_axi_bresp,
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input s_axi_bready,
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input s_axi_arvalid,
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input [15:0] s_axi_araddr,
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output s_axi_arready,
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input [ 2:0] s_axi_arprot,
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output s_axi_rvalid,
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input s_axi_rready,
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output [ 1:0] s_axi_rresp,
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output [31:0] s_axi_rdata,
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// FIFO transmit
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output dma_clk,
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output reg dma_valid,
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input dma_enable,
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input [15:0] dma_data,
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input dma_xfer_req,
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input dma_underflow,
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// SPI engine control interface (to the SPI engine interconnect)
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input spi_clk, // should be connected to up_clk
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input spi_resetn,
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input cmd_ready,
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output cmd_valid,
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output [15:0] cmd_data,
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input sdo_data_ready,
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output sdo_data_valid,
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output [ 7:0] sdo_data,
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output sdi_data_ready,
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input sdi_data_valid,
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input [ 7:0] sdi_data,
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output sync_ready,
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input sync_valid,
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input [ 7:0] sync_data,
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// SPI engine offload interface (to the AXI SPI engine)
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input ctrl_clk,
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input ctrl_cmd_wr_en,
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input [15:0] ctrl_cmd_wr_data,
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input ctrl_enable,
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output ctrl_enabled,
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input ctrl_mem_reset);
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// internal wires
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wire up_wreq_s;
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wire [13:0] up_waddr_s;
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wire [31:0] up_wdata_s;
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wire up_rreq_s;
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wire [13:0] up_raddr_s;
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wire [31:0] up_rdata_s[0:1];
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wire up_rack_s[0:1];
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wire up_wack_s[0:1];
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wire trigger_s;
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wire [31:0] pulse_period_s;
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wire [15:0] dac_datarate_s;
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wire spi_reset;
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wire spi_enable_s;
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wire [ 3:0] sequencer[15:0];
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wire [ 3:0] cmd_bits;
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wire [ 3:0] end_of_sequence;
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wire spi_mem_reset_s;
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wire sequence_valid_s;
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wire [ 7:0] sequence_data_s;
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wire dac_rst_s;
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wire dac_rstn_s;
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wire [CMD_MEM_ADDRESS_WIDTH-1:0] spi_cmd_rd_addr_next;
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// registers
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reg [31:0] up_rdata = 32'b0;
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reg up_rack = 0;
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reg up_wack = 1'b0;
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reg [15:0] cmd_mem[0:2**CMD_MEM_ADDRESS_WIDTH-1];
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reg [ 7:0] sdo_mem[0:2];
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reg [CMD_MEM_ADDRESS_WIDTH-1:0] ctrl_cmd_wr_addr = 'b0;
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reg [CMD_MEM_ADDRESS_WIDTH-1:0] spi_cmd_rd_addr = 'b0;
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reg [SDO_MEM_ADDRESS_WIDTH-1:0] ctrl_sdo_wr_addr = 'b0;
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reg [SDO_MEM_ADDRESS_WIDTH-1:0] spi_sdo_rd_addr = 'b0;
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reg spi_active = 1'b0;
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assign up_rstn = s_axi_aresetn;
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// the dma interface runs on SPI_CLK
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assign dma_clk = spi_clk;
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// command and SDO data offload
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assign cmd_valid = spi_active;
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assign cmd_data = cmd_mem[spi_cmd_rd_addr];
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assign sdo_data_valid = spi_active;
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assign sdo_data = sdo_mem[spi_sdo_rd_addr];
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assign sync_ready = 1'b1;
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assign sdi_data_ready = 1'b0;
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generate if (ASYNC_SPI_CLK) begin
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/*
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* The synchronization circuit takes care that there are no glitches on the
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* ctrl_enabled signal. ctrl_do_enable is asserted whenever ctrl_enable is
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* asserted, but only deasserted once the signal has been synchronized back from
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* the SPI domain. This makes sure that we can't end up in a state where the
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* enable signal in the SPI domain is asserted, but neither enable nor enabled
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* is asserted in the control domain.
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*/
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reg ctrl_do_enable = 1'b0;
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wire ctrl_is_enabled;
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reg spi_enabled = 1'b0;
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always @(posedge ctrl_clk) begin
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if (ctrl_enable == 1'b1) begin
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ctrl_do_enable <= 1'b1;
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end else if (ctrl_is_enabled == 1'b1) begin
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ctrl_do_enable <= 1'b0;
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end
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end
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assign ctrl_enabled = ctrl_is_enabled | ctrl_do_enable;
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always @(posedge spi_clk) begin
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spi_enabled <= spi_enable_s | spi_active;
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end
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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_sync_enable (
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.in(ctrl_do_enable),
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.out_clk(spi_clk),
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.out_resetn(1'b1),
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.out(spi_enable_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_sync_enabled (
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.in(spi_enabled),
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.out_clk(ctrl_clk),
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.out_resetn(1'b1),
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.out(ctrl_is_enabled)
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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_sync_mem_reset (
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.in(ctrl_mem_reset),
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.out_clk(spi_clk),
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.out_resetn(1'b1),
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.out(spi_mem_reset_s)
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);
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end else begin
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assign spi_enable_s = ctrl_enable;
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assign ctrl_enabled = spi_enable_s | spi_active;
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assign spi_mem_reset_s = ctrl_mem_reset;
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end endgenerate
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assign spi_cmd_rd_addr_next = spi_cmd_rd_addr + 1;
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always @(posedge spi_clk) begin
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if (spi_resetn == 1'b0) begin
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spi_active <= 1'b0;
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end else begin
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if (spi_active == 1'b0) begin
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if ((trigger_s == 1'b1 && spi_enable_s == 1'b1)) begin
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spi_active <= 1'b1;
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end
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end else if (cmd_ready == 1'b1 && spi_cmd_rd_addr_next == ctrl_cmd_wr_addr) begin
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spi_active <= 1'b0;
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end
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end
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end
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always @(posedge spi_clk) begin
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if (cmd_valid == 1'b0) begin
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spi_cmd_rd_addr <= 'h00;
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end else if (cmd_ready == 1'b1) begin
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spi_cmd_rd_addr <= spi_cmd_rd_addr_next;
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end
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end
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always @(posedge spi_clk) begin
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if (spi_active == 1'b0) begin
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spi_sdo_rd_addr <= 'h00;
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end else if (sdo_data_ready == 1'b1) begin
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spi_sdo_rd_addr <= spi_sdo_rd_addr + 1'b1;
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end
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end
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always @(posedge ctrl_clk) begin
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if (ctrl_cmd_wr_en == 1'b1) begin
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cmd_mem[ctrl_cmd_wr_addr] <= ctrl_cmd_wr_data;
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end
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end
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always @(posedge ctrl_clk) begin
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if (ctrl_mem_reset == 1'b1) begin
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ctrl_cmd_wr_addr <= 0;
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end else if (ctrl_cmd_wr_en == 1'b1) begin
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ctrl_cmd_wr_addr <= ctrl_cmd_wr_addr + 1;
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end
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end
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// request data from the DMA at the desired rate
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always @(posedge dma_clk) begin
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if (dma_xfer_req == 1'b0) begin
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dma_valid <= 1'b0;
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end else begin
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if ((trigger_s == 1'b1) && (dma_enable == 1'b1) && (spi_enable_s == 1'b1)) begin
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dma_valid <= 1'b1;
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end
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if (dma_valid == 1'b1) begin
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dma_valid <= 1'b0;
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end
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end
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if (dma_valid == 1'b1) begin
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sdo_mem[1] <= dma_data[15:8];
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sdo_mem[2] <= dma_data[ 7:0];
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end
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if (sequence_valid_s == 1'b1) begin
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sdo_mem[0] <= sequence_data_s;
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end
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end
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// rate controller
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assign dac_rstn_s = ~dac_rst_s;
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util_pulse_gen #(.PULSE_WIDTH(1)) i_trigger_gen (
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.clk (spi_clk),
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.rstn (dac_rstn_s),
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.pulse_period (pulse_period_s),
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.pulse_period_en (1'b1),
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.pulse (trigger_s)
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);
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// offset of the sequencer registers are 8'h40
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always @(negedge up_rstn or posedge spi_clk) begin
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if (up_rstn == 1'b0) begin
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up_rdata <= 'd0;
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up_rack <= 'd0;
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up_wack <= 'd0;
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end else begin
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up_rdata <= up_rdata_s[0] | up_rdata_s[1];
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up_rack <= up_rack_s[0] | up_rack_s[1];
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up_wack <= up_wack_s[0] | up_wack_s[1];
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end
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end
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// DAC common registermap
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assign pulse_period_s = {16'h0, dac_datarate_s};
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up_ad5766_sequencer #(
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.SEQ_ID(4))
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i_sequencer (
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.sequence_clk (spi_clk),
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.sequence_rst (spi_mem_reset_s),
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.sequence_req (dma_valid),
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.sequence_valid (sequence_valid_s),
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.sequence_data (sequence_data_s),
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.up_rstn (up_rstn),
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.up_clk (spi_clk),
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.up_wreq (up_wreq_s),
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.up_waddr (up_waddr_s),
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.up_wdata (up_wdata_s),
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.up_wack (up_wack_s[1]),
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.up_rreq (up_rreq_s),
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.up_raddr (up_raddr_s),
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.up_rdata (up_rdata_s[1]),
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.up_rack (up_rack_s[1]));
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up_dac_common #(
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.COMMON_ID (0),
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.CONFIG (0),
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.CLK_EDGE_SEL (0),
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.DRP_DISABLE (6'h00),
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.USERPORTS_DISABLE (0),
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.GPIO_DISABLE (0)
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) i_dac_common (
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.mmcm_rst (),
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.dac_clk (spi_clk),
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.dac_rst (dac_rst_s),
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.dac_sync (),
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.dac_frame (),
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.dac_clksel (),
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.dac_par_type (),
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.dac_par_enb (),
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.dac_r1_mode (),
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.dac_datafmt (dac_datafmt),
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.dac_datarate (dac_datarate_s),
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.dac_status (1'b0),
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.dac_status_ovf (1'b0),
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.dac_status_unf (dma_underflow),
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.dac_clk_ratio (32'b0),
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.up_dac_ce (),
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.up_pps_rcounter (32'b0),
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.up_pps_status (1'b0),
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.up_pps_irq_mask (),
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.up_drp_sel (),
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.up_drp_wr (),
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.up_drp_addr (),
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.up_drp_wdata (),
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.up_drp_rdata (16'b0),
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.up_drp_ready (1'b0),
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.up_drp_locked (1'b0),
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.up_usr_chanmax (),
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.dac_usr_chanmax (8'b0),
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.up_dac_gpio_in (32'b0),
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.up_dac_gpio_out (),
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.up_rstn (up_rstn),
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.up_clk (spi_clk),
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.up_wreq (up_wreq_s),
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.up_waddr (up_waddr_s),
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.up_wdata (up_wdata_s),
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.up_wack (up_wack_s[0]),
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.up_rreq (up_rreq_s),
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.up_raddr (up_raddr_s),
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.up_rdata (up_rdata_s[0]),
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.up_rack (up_rack_s[0]));
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// AXI wrapper
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up_axi #(
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.ADDRESS_WIDTH (14)
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) i_up_axi (
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.up_rstn (up_rstn),
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.up_clk (spi_clk),
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.up_axi_awvalid (s_axi_awvalid),
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.up_axi_awaddr (s_axi_awaddr),
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.up_axi_awready (s_axi_awready),
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.up_axi_wvalid (s_axi_wvalid),
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.up_axi_wdata (s_axi_wdata),
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.up_axi_wstrb (s_axi_wstrb),
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.up_axi_wready (s_axi_wready),
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.up_axi_bvalid (s_axi_bvalid),
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.up_axi_bresp (s_axi_bresp),
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.up_axi_bready (s_axi_bready),
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.up_axi_arvalid (s_axi_arvalid),
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.up_axi_araddr (s_axi_araddr),
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.up_axi_arready (s_axi_arready),
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.up_axi_rvalid (s_axi_rvalid),
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.up_axi_rresp (s_axi_rresp),
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.up_axi_rdata (s_axi_rdata),
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.up_axi_rready (s_axi_rready),
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.up_wreq (up_wreq_s),
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.up_waddr (up_waddr_s),
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.up_wdata (up_wdata_s),
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.up_wack (up_wack),
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.up_rreq (up_rreq_s),
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.up_raddr (up_raddr_s),
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.up_rdata (up_rdata),
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.up_rack (up_rack));
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endmodule
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