935 lines
24 KiB
Verilog
935 lines
24 KiB
Verilog
// ***************************************************************************
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// ***************************************************************************
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// Copyright 2013(c) Analog Devices, Inc.
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// Author: Lars-Peter Clausen <lars@metafoo.de>
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//
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without modification,
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// are permitted provided that the following conditions are met:
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// - Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// - Redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in
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// the documentation and/or other materials provided with the
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// distribution.
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// - Neither the name of Analog Devices, Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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// - The use of this software may or may not infringe the patent rights
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// of one or more patent holders. This license does not release you
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// from the requirement that you obtain separate licenses from these
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// patent holders to use this software.
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// - Use of the software either in source or binary form, must be run
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// on or directly connected to an Analog Devices Inc. component.
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//
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// THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
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// INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A
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// PARTICULAR PURPOSE ARE DISCLAIMED.
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//
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// IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY
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// RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
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// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
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// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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// ***************************************************************************
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// ***************************************************************************
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module dmac_request_arb (
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input req_aclk,
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input req_aresetn,
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input req_valid,
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output req_ready,
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input [31:C_ADDR_ALIGN_BITS] req_dest_address,
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input [31:C_ADDR_ALIGN_BITS] req_src_address,
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input [C_DMA_LENGTH_WIDTH-1:0] req_length,
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input req_sync_transfer_start,
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output reg eot,
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input enable,
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input pause,
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// Master AXI interface
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input m_dest_axi_aclk,
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input m_dest_axi_aresetn,
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input m_src_axi_aclk,
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input m_src_axi_aresetn,
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// Write address
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output [31:0] m_axi_awaddr,
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output [ 7:0] m_axi_awlen,
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output [ 2:0] m_axi_awsize,
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output [ 1:0] m_axi_awburst,
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output [ 2:0] m_axi_awprot,
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output [ 3:0] m_axi_awcache,
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output m_axi_awvalid,
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input m_axi_awready,
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// Write data
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output [C_M_AXI_DATA_WIDTH-1:0] m_axi_wdata,
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output [(C_M_AXI_DATA_WIDTH/8)-1:0] m_axi_wstrb,
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input m_axi_wready,
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output m_axi_wvalid,
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output m_axi_wlast,
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// Write response
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input m_axi_bvalid,
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input [ 1:0] m_axi_bresp,
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output m_axi_bready,
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// Read address
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input m_axi_arready,
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output m_axi_arvalid,
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output [31:0] m_axi_araddr,
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output [ 7:0] m_axi_arlen,
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output [ 2:0] m_axi_arsize,
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output [ 1:0] m_axi_arburst,
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output [ 2:0] m_axi_arprot,
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output [ 3:0] m_axi_arcache,
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// Read data and response
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input [C_M_AXI_DATA_WIDTH-1:0] m_axi_rdata,
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output m_axi_rready,
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input m_axi_rvalid,
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input [ 1:0] m_axi_rresp,
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// Slave streaming AXI interface
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input s_axis_aclk,
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output s_axis_ready,
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input s_axis_valid,
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input [C_M_AXI_DATA_WIDTH-1:0] s_axis_data,
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input [0:0] s_axis_user,
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// Master streaming AXI interface
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input m_axis_aclk,
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input m_axis_ready,
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output m_axis_valid,
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output [C_M_AXI_DATA_WIDTH-1:0] m_axis_data,
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// Input FIFO interface
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input fifo_wr_clk,
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input fifo_wr_en,
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input [C_M_AXI_DATA_WIDTH-1:0] fifo_wr_din,
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output fifo_wr_overflow,
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input fifo_wr_sync,
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// Input FIFO interface
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input fifo_rd_clk,
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input fifo_rd_en,
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output fifo_rd_valid,
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output [C_M_AXI_DATA_WIDTH-1:0] fifo_rd_dout,
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output fifo_rd_underflow,
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output [C_ID_WIDTH-1:0] dbg_dest_request_id,
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output [C_ID_WIDTH-1:0] dbg_dest_address_id,
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output [C_ID_WIDTH-1:0] dbg_dest_data_id,
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output [C_ID_WIDTH-1:0] dbg_dest_response_id,
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output [C_ID_WIDTH-1:0] dbg_src_request_id,
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output [C_ID_WIDTH-1:0] dbg_src_address_id,
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output [C_ID_WIDTH-1:0] dbg_src_data_id,
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output [C_ID_WIDTH-1:0] dbg_src_response_id,
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output [7:0] dbg_status
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);
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parameter C_ID_WIDTH = 3;
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parameter C_M_AXI_DATA_WIDTH = 64;
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parameter C_DMA_LENGTH_WIDTH = 24;
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parameter C_ADDR_ALIGN_BITS = 3;
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parameter C_DMA_TYPE_DEST = DMA_TYPE_MM_AXI;
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parameter C_DMA_TYPE_SRC = DMA_TYPE_FIFO;
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parameter C_CLKS_ASYNC_REQ_SRC = 1;
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parameter C_CLKS_ASYNC_SRC_DEST = 1;
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parameter C_CLKS_ASYNC_DEST_REQ = 1;
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parameter C_AXI_SLICE_DEST = 0;
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parameter C_AXI_SLICE_SRC = 0;
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localparam DMA_TYPE_MM_AXI = 0;
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localparam DMA_TYPE_STREAM_AXI = 1;
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localparam DMA_TYPE_FIFO = 2;
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localparam DMA_ADDR_WIDTH = 32 - C_ADDR_ALIGN_BITS;
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reg eot_mem_src[0:2**C_ID_WIDTH-1];
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reg eot_mem_dest[0:2**C_ID_WIDTH-1];
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wire request_eot;
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wire [C_ID_WIDTH-1:0] request_id;
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wire [C_ID_WIDTH-1:0] response_id;
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wire [C_DMA_LENGTH_WIDTH-7:0] req_burst_count = req_length[C_DMA_LENGTH_WIDTH-1:7];
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wire [3:0] req_last_burst_length = req_length[6:3];
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wire [2:0] req_last_beat_bytes = req_length[2:0];
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wire enabled_src;
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wire enabled_dest;
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wire sync_id;
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wire sync_id_ret_dest;
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wire sync_id_ret_src;
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wire dest_enable;
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wire dest_enabled;
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wire dest_pause;
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wire dest_sync_id;
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wire dest_sync_id_ret;
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wire src_enable;
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wire src_enabled;
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wire src_pause;
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wire src_sync_id;
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wire src_sync_id_ret;
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wire req_dest_valid;
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wire req_dest_ready;
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wire req_dest_empty;
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wire req_src_valid;
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wire req_src_ready;
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wire req_src_empty;
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wire dest_clk;
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wire dest_resetn;
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wire dest_req_valid;
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wire dest_req_ready;
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wire [DMA_ADDR_WIDTH-1:0] dest_req_address;
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wire [3:0] dest_req_last_burst_length;
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wire [2:0] dest_req_last_beat_bytes;
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wire dest_response_valid;
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wire dest_response_ready;
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wire dest_response_empty;
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wire [1:0] dest_response_resp;
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wire dest_response_resp_eot;
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wire [C_ID_WIDTH-1:0] dest_request_id;
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wire [C_ID_WIDTH-1:0] dest_response_id;
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wire dest_valid;
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wire dest_ready;
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wire [C_M_AXI_DATA_WIDTH-1:0] dest_data;
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wire dest_fifo_valid;
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wire dest_fifo_ready;
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wire [C_M_AXI_DATA_WIDTH-1:0] dest_fifo_data;
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wire src_clk;
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wire src_resetn;
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wire src_req_valid;
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wire src_req_ready;
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wire [DMA_ADDR_WIDTH-1:0] src_req_address;
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wire [3:0] src_req_last_burst_length;
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wire [2:0] src_req_last_beat_bytes;
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wire src_req_sync_transfer_start;
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wire src_response_valid;
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wire src_response_ready;
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wire src_response_empty;
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wire [1:0] src_response_resp;
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wire [C_ID_WIDTH-1:0] src_request_id;
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wire [C_ID_WIDTH-1:0] src_response_id;
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wire src_valid;
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wire src_ready;
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wire [C_M_AXI_DATA_WIDTH-1:0] src_data;
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wire src_fifo_valid;
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wire src_fifo_ready;
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wire [C_M_AXI_DATA_WIDTH-1:0] src_fifo_data;
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wire src_fifo_empty;
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wire fifo_empty;
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wire response_dest_valid;
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wire response_dest_ready = 1'b1;
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wire [1:0] response_dest_resp;
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wire response_dest_resp_eot;
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wire response_src_valid;
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wire response_src_ready = 1'b1;
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wire [1:0] response_src_resp;
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assign dbg_dest_request_id = dest_request_id;
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assign dbg_dest_response_id = dest_response_id;
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assign dbg_src_request_id = src_request_id;
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assign dbg_src_response_id = src_response_id;
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assign sync_id = ~enabled_dest && ~enabled_src && request_id != response_id;
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reg enabled;
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reg do_enable;
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// Enable src and dest if we are in sync
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always @(posedge req_aclk)
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begin
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if (req_aresetn == 1'b0) begin
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do_enable <= 1'b0;
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end else begin
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if (enable) begin
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// First make sure we are fully disabled
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if (~sync_id_ret_dest && ~sync_id_ret_src &&
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response_id == request_id && ~enabled_dest && ~enabled_src &&
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req_dest_empty && req_src_empty && fifo_empty)
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do_enable <= 1'b1;
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end else begin
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do_enable <= 1'b0;
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end
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end
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end
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// Flag enabled once both src and dest are enabled
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always @(posedge req_aclk)
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begin
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if (req_aresetn == 1'b0) begin
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enabled <= 1'b0;
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end else begin
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if (do_enable == 1'b0)
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enabled <= 1'b0;
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else if (enabled_dest && enabled_src)
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enabled <= 1'b1;
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end
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end
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assign dbg_status = {do_enable, enabled, enabled_dest, enabled_src, fifo_empty,
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sync_id, sync_id_ret_dest, sync_id_ret_src};
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always @(posedge req_aclk)
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begin
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eot_mem_src[request_id] <= request_eot;
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eot_mem_dest[request_id] <= request_eot;
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end
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always @(posedge req_aclk)
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begin
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if (req_aresetn == 1'b0) begin
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eot <= 1'b0;
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end else begin
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eot <= response_dest_valid & response_dest_ready & response_dest_resp_eot;
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end
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end
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// Generate reset for reset-less interfaces
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generate if (C_DMA_TYPE_SRC == DMA_TYPE_STREAM_AXI || C_DMA_TYPE_SRC == DMA_TYPE_FIFO) begin
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reg [2:0] src_resetn_shift = 3'b0;
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assign src_resetn = src_resetn_shift[2];
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always @(negedge req_aresetn or posedge src_clk) begin
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if (~req_aresetn)
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src_resetn_shift <= 3'b000;
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else
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src_resetn_shift <= {src_resetn_shift[1:0], 1'b1};
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end
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end endgenerate
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generate if (C_DMA_TYPE_DEST == DMA_TYPE_STREAM_AXI || C_DMA_TYPE_DEST == DMA_TYPE_FIFO) begin
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reg [2:0] dest_resetn_shift = 3'b0;
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assign dest_resetn = dest_resetn_shift[2];
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always @(negedge req_aresetn or posedge dest_clk) begin
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if (~req_aresetn)
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dest_resetn_shift <= 3'b000;
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else
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dest_resetn_shift <= {dest_resetn_shift[1:0], 1'b1};
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end
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end endgenerate
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generate if (C_DMA_TYPE_DEST == DMA_TYPE_MM_AXI) begin
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assign dest_clk = m_dest_axi_aclk;
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assign dest_resetn = m_dest_axi_aresetn;
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wire [C_ID_WIDTH-1:0] dest_data_id;
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wire [C_ID_WIDTH-1:0] dest_address_id;
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wire dest_address_eot = eot_mem_dest[dest_address_id];
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wire dest_data_eot = eot_mem_dest[dest_data_id];
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wire dest_response_eot = eot_mem_dest[dest_response_id];
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assign dbg_dest_address_id = dest_address_id;
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assign dbg_dest_data_id = dest_data_id;
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dmac_dest_mm_axi #(
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.C_ID_WIDTH(C_ID_WIDTH),
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.C_M_AXI_DATA_WIDTH(C_M_AXI_DATA_WIDTH),
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.C_ADDR_ALIGN_BITS(C_ADDR_ALIGN_BITS),
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.C_DMA_LENGTH_WIDTH(C_DMA_LENGTH_WIDTH)
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) i_dest_dma_mm (
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.m_axi_aclk(m_dest_axi_aclk),
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.m_axi_aresetn(m_dest_axi_aresetn),
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.enable(dest_enable),
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.enabled(dest_enabled),
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.pause(dest_pause),
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.req_valid(dest_req_valid),
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.req_ready(dest_req_ready),
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.req_address(dest_req_address),
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.req_last_burst_length(dest_req_last_burst_length),
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.req_last_beat_bytes(dest_req_last_beat_bytes),
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.response_valid(dest_response_valid),
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.response_ready(dest_response_ready),
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.response_resp(dest_response_resp),
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.response_resp_eot(dest_response_resp_eot),
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.request_id(dest_request_id),
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.response_id(dest_response_id),
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.sync_id(dest_sync_id),
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.sync_id_ret(dest_sync_id_ret),
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.data_id(dest_data_id),
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.address_id(dest_address_id),
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.address_eot(dest_address_eot),
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.data_eot(dest_data_eot),
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.response_eot(dest_response_eot),
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.fifo_valid(dest_valid),
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.fifo_ready(dest_ready),
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.fifo_data(dest_data),
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.m_axi_awready(m_axi_awready),
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.m_axi_awvalid(m_axi_awvalid),
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.m_axi_awaddr(m_axi_awaddr),
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.m_axi_awlen(m_axi_awlen),
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.m_axi_awsize(m_axi_awsize),
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.m_axi_awburst(m_axi_awburst),
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.m_axi_awprot(m_axi_awprot),
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.m_axi_awcache(m_axi_awcache),
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.m_axi_wready(m_axi_wready),
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.m_axi_wvalid(m_axi_wvalid),
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.m_axi_wdata(m_axi_wdata),
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.m_axi_wstrb(m_axi_wstrb),
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.m_axi_wlast(m_axi_wlast),
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.m_axi_bvalid(m_axi_bvalid),
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.m_axi_bresp(m_axi_bresp),
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.m_axi_bready(m_axi_bready)
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);
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end else if (C_DMA_TYPE_DEST == DMA_TYPE_STREAM_AXI) begin
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assign dest_clk = m_axis_aclk;
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wire [C_ID_WIDTH-1:0] data_id;
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wire data_eot = eot_mem_dest[data_id];
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wire response_eot = eot_mem_dest[dest_response_id];
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assign dbg_dest_address_id = dest_request_id;
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assign dbg_dest_data_id = data_id;
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dmac_dest_axi_stream #(
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.C_ID_WIDTH(C_ID_WIDTH),
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.C_S_AXIS_DATA_WIDTH(C_M_AXI_DATA_WIDTH)
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) i_dest_dma_stream (
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.s_axis_aclk(m_axis_aclk),
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.s_axis_aresetn(dest_resetn),
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.enable(dest_enable),
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.enabled(dest_enabled),
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.req_valid(dest_req_valid),
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.req_ready(dest_req_ready),
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.req_last_burst_length(dest_req_last_burst_length),
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.response_valid(dest_response_valid),
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.response_ready(dest_response_ready),
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.response_resp(dest_response_resp),
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.response_resp_eot(dest_response_resp_eot),
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.request_id(dest_request_id),
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.response_id(dest_response_id),
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.data_id(data_id),
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.sync_id(dest_sync_id),
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.sync_id_ret(dest_sync_id_ret),
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.data_eot(data_eot),
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.response_eot(response_eot),
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.fifo_valid(dest_valid),
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.fifo_ready(dest_ready),
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.fifo_data(dest_data),
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.m_axis_valid(m_axis_valid),
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.m_axis_ready(m_axis_ready),
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.m_axis_data(m_axis_data)
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);
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end else /* if (C_DMA_TYPE_DEST == DMA_TYPE_FIFO) */ begin
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assign dest_clk = fifo_rd_clk;
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wire [C_ID_WIDTH-1:0] data_id;
|
|
|
|
wire data_eot = eot_mem_dest[data_id];
|
|
wire response_eot = eot_mem_dest[dest_response_id];
|
|
|
|
dmac_dest_fifo_inf #(
|
|
.C_ID_WIDTH(C_ID_WIDTH),
|
|
.C_DATA_WIDTH(C_M_AXI_DATA_WIDTH)
|
|
) i_dest_dma_fifo (
|
|
.clk(fifo_rd_clk),
|
|
.resetn(dest_resetn),
|
|
|
|
.enable(dest_enable),
|
|
.enabled(dest_enabled),
|
|
|
|
.req_valid(dest_req_valid),
|
|
.req_ready(dest_req_ready),
|
|
.req_last_burst_length(dest_req_last_burst_length),
|
|
|
|
.response_valid(dest_response_valid),
|
|
.response_ready(dest_response_ready),
|
|
.response_resp(dest_response_resp),
|
|
.response_resp_eot(dest_response_resp_eot),
|
|
|
|
.request_id(dest_request_id),
|
|
.response_id(dest_response_id),
|
|
.data_id(data_id),
|
|
.sync_id(dest_sync_id),
|
|
.sync_id_ret(dest_sync_id_ret),
|
|
|
|
.data_eot(data_eot),
|
|
.response_eot(response_eot),
|
|
|
|
.fifo_valid(dest_valid),
|
|
.fifo_ready(dest_ready),
|
|
.fifo_data(dest_data),
|
|
|
|
.en(fifo_rd_en),
|
|
.valid(fifo_rd_valid),
|
|
.dout(fifo_rd_dout),
|
|
.underflow(fifo_rd_underflow)
|
|
);
|
|
|
|
end endgenerate
|
|
|
|
generate if (C_DMA_TYPE_SRC == DMA_TYPE_MM_AXI) begin
|
|
|
|
assign src_clk = m_src_axi_aclk;
|
|
assign src_resetn = m_src_axi_aresetn;
|
|
|
|
wire [C_ID_WIDTH-1:0] src_data_id;
|
|
wire [C_ID_WIDTH-1:0] src_address_id;
|
|
wire src_address_eot = eot_mem_src[src_address_id];
|
|
wire src_data_eot = eot_mem_src[src_data_id];
|
|
|
|
assign dbg_src_address_id = src_address_id;
|
|
assign dbg_src_data_id = src_data_id;
|
|
|
|
dmac_src_mm_axi #(
|
|
.C_ID_WIDTH(C_ID_WIDTH),
|
|
.C_M_AXI_DATA_WIDTH(C_M_AXI_DATA_WIDTH),
|
|
.C_ADDR_ALIGN_BITS(C_ADDR_ALIGN_BITS),
|
|
.C_DMA_LENGTH_WIDTH(C_DMA_LENGTH_WIDTH)
|
|
) i_src_dma_mm (
|
|
.m_axi_aclk(m_src_axi_aclk),
|
|
.m_axi_aresetn(m_src_axi_aresetn),
|
|
|
|
.enable(src_enable),
|
|
.enabled(src_enabled),
|
|
.sync_id(src_sync_id),
|
|
.sync_id_ret(src_sync_id_ret),
|
|
|
|
.req_valid(src_req_valid),
|
|
.req_ready(src_req_ready),
|
|
.req_address(src_req_address),
|
|
.req_last_burst_length(src_req_last_burst_length),
|
|
.req_last_beat_bytes(src_req_last_beat_bytes),
|
|
|
|
.response_valid(src_response_valid),
|
|
.response_ready(src_response_ready),
|
|
.response_resp(src_response_resp),
|
|
|
|
.request_id(src_request_id),
|
|
.response_id(src_response_id),
|
|
.address_id(src_address_id),
|
|
.data_id(src_data_id),
|
|
|
|
.address_eot(src_address_eot),
|
|
.data_eot(src_data_eot),
|
|
|
|
.fifo_valid(src_valid),
|
|
.fifo_ready(src_ready),
|
|
.fifo_data(src_data),
|
|
|
|
.m_axi_arready(m_axi_arready),
|
|
.m_axi_arvalid(m_axi_arvalid),
|
|
.m_axi_araddr(m_axi_araddr),
|
|
.m_axi_arlen(m_axi_arlen),
|
|
.m_axi_arsize(m_axi_arsize),
|
|
.m_axi_arburst(m_axi_arburst),
|
|
.m_axi_arprot(m_axi_arprot),
|
|
.m_axi_arcache(m_axi_arcache),
|
|
|
|
.m_axi_rready(m_axi_rready),
|
|
.m_axi_rvalid(m_axi_rvalid),
|
|
.m_axi_rdata(m_axi_rdata),
|
|
.m_axi_rresp(m_axi_rresp)
|
|
);
|
|
|
|
end else if (C_DMA_TYPE_SRC == DMA_TYPE_STREAM_AXI) begin
|
|
|
|
assign src_clk = s_axis_aclk;
|
|
|
|
wire src_eot = eot_mem_src[src_response_id];
|
|
|
|
dmac_src_axi_stream #(
|
|
.C_ID_WIDTH(C_ID_WIDTH),
|
|
.C_S_AXIS_DATA_WIDTH(C_M_AXI_DATA_WIDTH)
|
|
) i_src_dma_stream (
|
|
.s_axis_aclk(s_axis_aclk),
|
|
.s_axis_aresetn(src_resetn),
|
|
|
|
.enable(src_enable),
|
|
.enabled(src_enabled),
|
|
.sync_id(src_sync_id),
|
|
.sync_id_ret(src_sync_id_ret),
|
|
|
|
.req_valid(src_req_valid),
|
|
.req_ready(src_req_ready),
|
|
.req_last_burst_length(src_req_last_burst_length),
|
|
.req_sync_transfer_start(src_req_sync_transfer_start),
|
|
|
|
.request_id(src_request_id),
|
|
.response_id(src_response_id),
|
|
|
|
.eot(src_eot),
|
|
|
|
.fifo_valid(src_valid),
|
|
.fifo_ready(src_ready),
|
|
.fifo_data(src_data),
|
|
|
|
.s_axis_valid(s_axis_valid),
|
|
.s_axis_ready(s_axis_ready),
|
|
.s_axis_data(s_axis_data),
|
|
.s_axis_user(s_axis_user)
|
|
);
|
|
|
|
end else /* if (C_DMA_TYPE_SRC == DMA_TYPE_FIFO) */ begin
|
|
|
|
assign src_clk = fifo_wr_clk;
|
|
|
|
wire src_eot = eot_mem_src[src_response_id];
|
|
|
|
dmac_src_fifo_inf #(
|
|
.C_ID_WIDTH(C_ID_WIDTH),
|
|
.C_DATA_WIDTH(C_M_AXI_DATA_WIDTH)
|
|
) i_src_dma_fifo (
|
|
.clk(fifo_wr_clk),
|
|
.resetn(src_resetn),
|
|
|
|
.enable(src_enable),
|
|
.enabled(src_enabled),
|
|
.sync_id(src_sync_id),
|
|
.sync_id_ret(src_sync_id_ret),
|
|
|
|
.req_valid(src_req_valid),
|
|
.req_ready(src_req_ready),
|
|
.req_last_burst_length(src_req_last_burst_length),
|
|
.req_sync_transfer_start(src_req_sync_transfer_start),
|
|
|
|
.request_id(src_request_id),
|
|
.response_id(src_response_id),
|
|
|
|
.eot(src_eot),
|
|
|
|
.fifo_valid(src_valid),
|
|
.fifo_ready(src_ready),
|
|
.fifo_data(src_data),
|
|
|
|
.en(fifo_wr_en),
|
|
.din(fifo_wr_din),
|
|
.overflow(fifo_wr_overflow),
|
|
.sync(fifo_wr_sync)
|
|
);
|
|
|
|
end endgenerate
|
|
|
|
sync_bits #(
|
|
.NUM_BITS(C_ID_WIDTH),
|
|
.CLK_ASYNC(C_CLKS_ASYNC_REQ_SRC)
|
|
) i_sync_src_request_id (
|
|
.out_clk(src_clk),
|
|
.out_resetn(src_resetn),
|
|
.in(request_id),
|
|
.out(src_request_id)
|
|
);
|
|
|
|
sync_bits #(
|
|
.NUM_BITS(C_ID_WIDTH),
|
|
.CLK_ASYNC(C_CLKS_ASYNC_SRC_DEST)
|
|
) i_sync_dest_request_id (
|
|
.out_clk(dest_clk),
|
|
.out_resetn(dest_resetn),
|
|
.in(src_response_id),
|
|
.out(dest_request_id)
|
|
);
|
|
|
|
sync_bits #(
|
|
.NUM_BITS(C_ID_WIDTH),
|
|
.CLK_ASYNC(C_CLKS_ASYNC_DEST_REQ)
|
|
) i_sync_req_response_id (
|
|
.out_clk(req_aclk),
|
|
.out_resetn(req_aresetn),
|
|
.in(dest_response_id),
|
|
.out(response_id)
|
|
);
|
|
|
|
axi_register_slice #(
|
|
.DATA_WIDTH(C_M_AXI_DATA_WIDTH),
|
|
.FORWARD_REGISTERED(C_AXI_SLICE_SRC),
|
|
.BACKWARD_REGISTERED(C_AXI_SLICE_SRC)
|
|
) i_src_slice (
|
|
.clk(src_clk),
|
|
.resetn(src_resetn),
|
|
.s_axi_valid(src_valid),
|
|
.s_axi_ready(src_ready),
|
|
.s_axi_data(src_data),
|
|
.m_axi_valid(src_fifo_valid),
|
|
.m_axi_ready(src_fifo_ready),
|
|
.m_axi_data(src_fifo_data)
|
|
);
|
|
|
|
axi_fifo #(
|
|
.C_DATA_WIDTH(C_M_AXI_DATA_WIDTH),
|
|
.C_ADDRESS_WIDTH(6),
|
|
.C_CLKS_ASYNC(C_CLKS_ASYNC_SRC_DEST)
|
|
) i_fifo (
|
|
.s_axis_aclk(src_clk),
|
|
.s_axis_aresetn(src_resetn),
|
|
.s_axis_valid(src_fifo_valid),
|
|
.s_axis_ready(src_fifo_ready),
|
|
.s_axis_data(src_fifo_data),
|
|
.s_axis_empty(src_fifo_empty),
|
|
|
|
.m_axis_aclk(dest_clk),
|
|
.m_axis_aresetn(dest_resetn),
|
|
.m_axis_valid(dest_fifo_valid),
|
|
.m_axis_ready(dest_fifo_ready),
|
|
.m_axis_data(dest_fifo_data)
|
|
);
|
|
|
|
wire _dest_valid;
|
|
wire _dest_ready;
|
|
wire [C_M_AXI_DATA_WIDTH-1:0] _dest_data;
|
|
|
|
axi_register_slice #(
|
|
.DATA_WIDTH(C_M_AXI_DATA_WIDTH),
|
|
.FORWARD_REGISTERED(C_AXI_SLICE_DEST)
|
|
) i_dest_slice2 (
|
|
.clk(dest_clk),
|
|
.resetn(dest_resetn),
|
|
.s_axi_valid(dest_fifo_valid),
|
|
.s_axi_ready(dest_fifo_ready),
|
|
.s_axi_data(dest_fifo_data),
|
|
.m_axi_valid(_dest_valid),
|
|
.m_axi_ready(_dest_ready),
|
|
.m_axi_data(_dest_data)
|
|
);
|
|
|
|
axi_register_slice #(
|
|
.DATA_WIDTH(C_M_AXI_DATA_WIDTH),
|
|
.FORWARD_REGISTERED(C_AXI_SLICE_DEST),
|
|
.BACKWARD_REGISTERED(C_AXI_SLICE_DEST)
|
|
) i_dest_slice (
|
|
.clk(dest_clk),
|
|
.resetn(dest_resetn),
|
|
.s_axi_valid(_dest_valid),
|
|
.s_axi_ready(_dest_ready),
|
|
.s_axi_data(_dest_data),
|
|
.m_axi_valid(dest_valid),
|
|
.m_axi_ready(dest_ready),
|
|
.m_axi_data(dest_data)
|
|
);
|
|
|
|
|
|
// We do not accept any requests until all components are enabled
|
|
wire _req_ready;
|
|
assign req_ready = _req_ready & enabled;
|
|
|
|
splitter #(
|
|
.C_NUM_M(3)
|
|
) i_req_splitter (
|
|
.clk(req_aclk),
|
|
.resetn(req_aresetn),
|
|
.s_valid(req_valid & enabled),
|
|
.s_ready(_req_ready),
|
|
.m_valid({
|
|
req_gen_valid,
|
|
req_dest_valid,
|
|
req_src_valid
|
|
}),
|
|
.m_ready({
|
|
req_gen_ready,
|
|
req_dest_ready,
|
|
req_src_ready
|
|
})
|
|
);
|
|
|
|
axi_fifo #(
|
|
.C_DATA_WIDTH(DMA_ADDR_WIDTH + 4 + 3),
|
|
.C_ADDRESS_WIDTH(0),
|
|
.C_CLKS_ASYNC(C_CLKS_ASYNC_DEST_REQ)
|
|
) i_dest_req_fifo (
|
|
.s_axis_aclk(req_aclk),
|
|
.s_axis_aresetn(req_aresetn),
|
|
.s_axis_valid(req_dest_valid),
|
|
.s_axis_ready(req_dest_ready),
|
|
.s_axis_empty(req_dest_empty),
|
|
.s_axis_data({
|
|
req_dest_address,
|
|
req_last_burst_length,
|
|
req_last_beat_bytes
|
|
}),
|
|
.m_axis_aclk(dest_clk),
|
|
.m_axis_aresetn(dest_resetn),
|
|
.m_axis_valid(dest_req_valid),
|
|
.m_axis_ready(dest_req_ready),
|
|
.m_axis_data({
|
|
dest_req_address,
|
|
dest_req_last_burst_length,
|
|
dest_req_last_beat_bytes
|
|
})
|
|
);
|
|
|
|
axi_fifo #(
|
|
.C_DATA_WIDTH(DMA_ADDR_WIDTH + 4 + 3 + 1),
|
|
.C_ADDRESS_WIDTH(0),
|
|
.C_CLKS_ASYNC(C_CLKS_ASYNC_REQ_SRC)
|
|
) i_src_req_fifo (
|
|
.s_axis_aclk(req_aclk),
|
|
.s_axis_aresetn(req_aresetn),
|
|
.s_axis_valid(req_src_valid),
|
|
.s_axis_ready(req_src_ready),
|
|
.s_axis_empty(req_src_empty),
|
|
.s_axis_data({
|
|
req_src_address,
|
|
req_last_burst_length,
|
|
req_last_beat_bytes,
|
|
req_sync_transfer_start
|
|
}),
|
|
.m_axis_aclk(src_clk),
|
|
.m_axis_aresetn(src_resetn),
|
|
.m_axis_valid(src_req_valid),
|
|
.m_axis_ready(src_req_ready),
|
|
.m_axis_data({
|
|
src_req_address,
|
|
src_req_last_burst_length,
|
|
src_req_last_beat_bytes,
|
|
src_req_sync_transfer_start
|
|
})
|
|
);
|
|
|
|
axi_fifo #(
|
|
.C_DATA_WIDTH(3),
|
|
.C_ADDRESS_WIDTH(0),
|
|
.C_CLKS_ASYNC(C_CLKS_ASYNC_DEST_REQ)
|
|
) i_dest_response_fifo (
|
|
.s_axis_aclk(dest_clk),
|
|
.s_axis_aresetn(dest_resetn),
|
|
.s_axis_valid(dest_response_valid),
|
|
.s_axis_ready(dest_response_ready),
|
|
.s_axis_empty(dest_response_empty),
|
|
.s_axis_data({
|
|
dest_response_resp,
|
|
dest_response_resp_eot
|
|
}),
|
|
.m_axis_aclk(req_aclk),
|
|
.m_axis_aresetn(req_aresetn),
|
|
.m_axis_valid(response_dest_valid),
|
|
.m_axis_ready(response_dest_ready),
|
|
.m_axis_data({
|
|
response_dest_resp,
|
|
response_dest_resp_eot
|
|
})
|
|
);
|
|
|
|
axi_fifo #(
|
|
.C_DATA_WIDTH(2),
|
|
.C_ADDRESS_WIDTH(0),
|
|
.C_CLKS_ASYNC(C_CLKS_ASYNC_REQ_SRC)
|
|
) i_src_response_fifo (
|
|
.s_axis_aclk(src_clk),
|
|
.s_axis_aresetn(src_resetn),
|
|
.s_axis_valid(src_response_valid),
|
|
.s_axis_ready(src_response_ready),
|
|
.s_axis_empty(src_response_empty),
|
|
.s_axis_data(src_response_resp),
|
|
.m_axis_aclk(req_aclk),
|
|
.m_axis_aresetn(req_aresetn),
|
|
.m_axis_valid(response_src_valid),
|
|
.m_axis_ready(response_src_ready),
|
|
.m_axis_data(response_src_resp)
|
|
);
|
|
|
|
dmac_request_generator #(
|
|
.C_DMA_LENGTH_WIDTH(C_DMA_LENGTH_WIDTH),
|
|
.C_ADDR_ALIGN_BITS(C_ADDR_ALIGN_BITS),
|
|
.C_ID_WIDTH(C_ID_WIDTH)
|
|
) i_req_gen (
|
|
.req_aclk(req_aclk),
|
|
.req_aresetn(req_aresetn),
|
|
|
|
.request_id(request_id),
|
|
.response_id(response_id),
|
|
|
|
.req_valid(req_gen_valid),
|
|
.req_ready(req_gen_ready),
|
|
.req_burst_count(req_burst_count),
|
|
|
|
.enable(enable),
|
|
.pause(pause),
|
|
|
|
.eot(request_eot)
|
|
);
|
|
|
|
sync_bits #(
|
|
.NUM_BITS(3),
|
|
.CLK_ASYNC(C_CLKS_ASYNC_DEST_REQ)
|
|
) i_sync_control_dest (
|
|
.out_clk(dest_clk),
|
|
.out_resetn(dest_resetn),
|
|
.in({do_enable, pause, sync_id}),
|
|
.out({dest_enable, dest_pause, dest_sync_id})
|
|
);
|
|
|
|
sync_bits #(
|
|
.NUM_BITS(2),
|
|
.CLK_ASYNC(C_CLKS_ASYNC_DEST_REQ)
|
|
) i_sync_status_dest (
|
|
.out_clk(req_aclk),
|
|
.out_resetn(req_aresetn),
|
|
.in({dest_enabled | ~dest_response_empty, dest_sync_id_ret}),
|
|
.out({enabled_dest, sync_id_ret_dest})
|
|
);
|
|
|
|
sync_bits #(
|
|
.NUM_BITS(3),
|
|
.CLK_ASYNC(C_CLKS_ASYNC_REQ_SRC)
|
|
) i_sync_control_src (
|
|
.out_clk(src_clk),
|
|
.out_resetn(src_resetn),
|
|
.in({do_enable, pause, sync_id}),
|
|
.out({src_enable, src_pause, src_sync_id})
|
|
);
|
|
|
|
sync_bits #(
|
|
.NUM_BITS(3),
|
|
.CLK_ASYNC(C_CLKS_ASYNC_REQ_SRC)
|
|
) i_sync_status_src (
|
|
.out_clk(req_aclk),
|
|
.out_resetn(req_aresetn),
|
|
.in({src_enabled | ~src_response_empty, src_sync_id_ret, src_fifo_empty}),
|
|
.out({enabled_src, sync_id_ret_src, fifo_empty})
|
|
);
|
|
|
|
endmodule
|