pluto_hdl_adi/library/axi_dmac/axi_dmac.v

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// ***************************************************************************
// ***************************************************************************
// Copyright 2014 - 2017 (c) Analog Devices, Inc. All rights reserved.
//
// In this HDL repository, there are many different and unique modules, consisting
// of various HDL (Verilog or VHDL) components. The individual modules are
// developed independently, and may be accompanied by separate and unique license
// terms.
//
// The user should read each of these license terms, and understand the
2018-03-14 14:45:47 +00:00
// freedoms and responsibilities that he or she has by using this source/core.
//
// This core is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
// A PARTICULAR PURPOSE.
//
// Redistribution and use of source or resulting binaries, with or without modification
// of this file, are permitted under one of the following two license terms:
//
// 1. The GNU General Public License version 2 as published by the
// Free Software Foundation, which can be found in the top level directory
// of this repository (LICENSE_GPL2), and also online at:
// <https://www.gnu.org/licenses/old-licenses/gpl-2.0.html>
//
// OR
//
// 2. An ADI specific BSD license, which can be found in the top level directory
// of this repository (LICENSE_ADIBSD), and also on-line at:
// https://github.com/analogdevicesinc/hdl/blob/master/LICENSE_ADIBSD
// This will allow to generate bit files and not release the source code,
// as long as it attaches to an ADI device.
//
// ***************************************************************************
// ***************************************************************************
module axi_dmac #(
parameter ID = 0,
parameter DMA_DATA_WIDTH_SRC = 64,
parameter DMA_DATA_WIDTH_DEST = 64,
parameter DMA_LENGTH_WIDTH = 24,
parameter DMA_2D_TRANSFER = 0,
parameter ASYNC_CLK_REQ_SRC = 1,
parameter ASYNC_CLK_SRC_DEST = 1,
parameter ASYNC_CLK_DEST_REQ = 1,
parameter AXI_SLICE_DEST = 0,
parameter AXI_SLICE_SRC = 0,
parameter SYNC_TRANSFER_START = 0,
parameter CYCLIC = 1,
parameter DMA_AXI_PROTOCOL_DEST = 0,
parameter DMA_AXI_PROTOCOL_SRC = 0,
parameter DMA_TYPE_DEST = 0,
parameter DMA_TYPE_SRC = 2,
parameter DMA_AXI_ADDR_WIDTH = 32,
parameter MAX_BYTES_PER_BURST = 128,
parameter FIFO_SIZE = 4, // In bursts
parameter AXI_ID_WIDTH_SRC = 4,
parameter AXI_ID_WIDTH_DEST = 4,
parameter DISABLE_DEBUG_REGISTERS = 0)(
// Slave AXI interface
input s_axi_aclk,
input s_axi_aresetn,
input s_axi_awvalid,
input [11:0] s_axi_awaddr,
output s_axi_awready,
input [2:0] s_axi_awprot,
input s_axi_wvalid,
input [31:0] s_axi_wdata,
input [ 3:0] s_axi_wstrb,
output s_axi_wready,
output s_axi_bvalid,
output [ 1:0] s_axi_bresp,
input s_axi_bready,
input s_axi_arvalid,
input [11:0] s_axi_araddr,
output s_axi_arready,
input [2:0] s_axi_arprot,
output s_axi_rvalid,
input s_axi_rready,
output [ 1:0] s_axi_rresp,
output [31:0] s_axi_rdata,
// Interrupt
output irq,
// Master AXI interface
input m_dest_axi_aclk,
input m_dest_axi_aresetn,
// Write address
output [DMA_AXI_ADDR_WIDTH-1:0] m_dest_axi_awaddr,
output [7-(4*DMA_AXI_PROTOCOL_DEST):0] m_dest_axi_awlen,
output [ 2:0] m_dest_axi_awsize,
output [ 1:0] m_dest_axi_awburst,
output [ 2:0] m_dest_axi_awprot,
output [ 3:0] m_dest_axi_awcache,
output m_dest_axi_awvalid,
input m_dest_axi_awready,
output [AXI_ID_WIDTH_DEST-1:0] m_dest_axi_awid,
output [DMA_AXI_PROTOCOL_DEST:0] m_dest_axi_awlock,
// Write data
output [DMA_DATA_WIDTH_DEST-1:0] m_dest_axi_wdata,
output [(DMA_DATA_WIDTH_DEST/8)-1:0] m_dest_axi_wstrb,
input m_dest_axi_wready,
output m_dest_axi_wvalid,
output m_dest_axi_wlast,
output [AXI_ID_WIDTH_DEST-1:0] m_dest_axi_wid,
// Write response
input m_dest_axi_bvalid,
input [ 1:0] m_dest_axi_bresp,
output m_dest_axi_bready,
input [AXI_ID_WIDTH_DEST-1:0] m_dest_axi_bid,
// Unused read interface
output m_dest_axi_arvalid,
output [DMA_AXI_ADDR_WIDTH-1:0] m_dest_axi_araddr,
output [7-(4*DMA_AXI_PROTOCOL_DEST):0] m_dest_axi_arlen,
output [ 2:0] m_dest_axi_arsize,
output [ 1:0] m_dest_axi_arburst,
output [ 3:0] m_dest_axi_arcache,
output [ 2:0] m_dest_axi_arprot,
input m_dest_axi_arready,
input m_dest_axi_rvalid,
input [ 1:0] m_dest_axi_rresp,
input [DMA_DATA_WIDTH_DEST-1:0] m_dest_axi_rdata,
output m_dest_axi_rready,
output [AXI_ID_WIDTH_DEST-1:0] m_dest_axi_arid,
output [DMA_AXI_PROTOCOL_DEST:0] m_dest_axi_arlock,
input [AXI_ID_WIDTH_DEST-1:0] m_dest_axi_rid,
input m_dest_axi_rlast,
// Master AXI interface
input m_src_axi_aclk,
input m_src_axi_aresetn,
// Read address
input m_src_axi_arready,
output m_src_axi_arvalid,
output [DMA_AXI_ADDR_WIDTH-1:0] m_src_axi_araddr,
output [7-(4*DMA_AXI_PROTOCOL_SRC):0] m_src_axi_arlen,
output [ 2:0] m_src_axi_arsize,
output [ 1:0] m_src_axi_arburst,
output [ 2:0] m_src_axi_arprot,
output [ 3:0] m_src_axi_arcache,
output [AXI_ID_WIDTH_SRC-1:0] m_src_axi_arid,
output [DMA_AXI_PROTOCOL_SRC:0] m_src_axi_arlock,
// Read data and response
input [DMA_DATA_WIDTH_SRC-1:0] m_src_axi_rdata,
output m_src_axi_rready,
input m_src_axi_rvalid,
input [ 1:0] m_src_axi_rresp,
input [AXI_ID_WIDTH_SRC-1:0] m_src_axi_rid,
input m_src_axi_rlast,
// Unused write interface
output m_src_axi_awvalid,
output [DMA_AXI_ADDR_WIDTH-1:0] m_src_axi_awaddr,
output [7-(4*DMA_AXI_PROTOCOL_SRC):0] m_src_axi_awlen,
output [ 2:0] m_src_axi_awsize,
output [ 1:0] m_src_axi_awburst,
output [ 3:0] m_src_axi_awcache,
output [ 2:0] m_src_axi_awprot,
input m_src_axi_awready,
output m_src_axi_wvalid,
output [DMA_DATA_WIDTH_SRC-1:0] m_src_axi_wdata,
output [(DMA_DATA_WIDTH_SRC/8)-1:0] m_src_axi_wstrb,
output m_src_axi_wlast,
input m_src_axi_wready,
input m_src_axi_bvalid,
input [ 1:0] m_src_axi_bresp,
output m_src_axi_bready,
output [AXI_ID_WIDTH_SRC-1:0] m_src_axi_awid,
output [DMA_AXI_PROTOCOL_SRC:0] m_src_axi_awlock,
output [AXI_ID_WIDTH_SRC-1:0] m_src_axi_wid,
input [AXI_ID_WIDTH_SRC-1:0] m_src_axi_bid,
// Slave streaming AXI interface
input s_axis_aclk,
output s_axis_ready,
input s_axis_valid,
input [DMA_DATA_WIDTH_SRC-1:0] s_axis_data,
input [0:0] s_axis_user,
input s_axis_last,
output s_axis_xfer_req,
// Master streaming AXI interface
input m_axis_aclk,
input m_axis_ready,
output m_axis_valid,
output [DMA_DATA_WIDTH_DEST-1:0] m_axis_data,
output m_axis_last,
output m_axis_xfer_req,
// Input FIFO interface
input fifo_wr_clk,
input fifo_wr_en,
input [DMA_DATA_WIDTH_SRC-1:0] fifo_wr_din,
output fifo_wr_overflow,
input fifo_wr_sync,
output fifo_wr_xfer_req,
// Input FIFO interface
input fifo_rd_clk,
input fifo_rd_en,
output fifo_rd_valid,
output [DMA_DATA_WIDTH_DEST-1:0] fifo_rd_dout,
output fifo_rd_underflow,
output fifo_rd_xfer_req
);
localparam DMA_TYPE_AXI_MM = 0;
localparam DMA_TYPE_AXI_STREAM = 1;
localparam DMA_TYPE_FIFO = 2;
hdl/library: Update the IP parameters The following IP parameters were renamed: PCORE_ID --> ID PCORE_DEVTYPE --> DEVICE_TYPE PCORE_IODELAY_GROUP --> IO_DELAY_GROUP CH_DW --> CHANNEL_DATA_WIDTH CH_CNT --> NUM_OF_CHANNELS PCORE_BUFTYPE --> DEVICE_TYPE PCORE_ADC_DP_DISABLE --> ADC_DATAPATH_DISABLE CHID --> CHANNEL_ID PCORE_DEVICE_TYPE --> DEVICE_TYPE PCORE_MMCM_BUFIO_N --> MMCM_BUFIO_N PCORE_SERDES_DDR_N --> SERDES_DDR_N PCORE_DAC_DP_DISABLE --> DAC_DATAPATH_DISABLE DP_DISABLE --> DATAPATH_DISABLE PCORE_DAC_IODELAY_ENABLE --> DAC_IODELAY_ENABLE C_BIG_ENDIAN --> BIG_ENDIAN C_M_DATA_WIDTH --> MASTER_DATA_WIDTH C_S_DATA_WIDTH --> SLAVE_DATA_WIDTH NUM_CHANNELS --> NUM_OF_CHANNELS CHANNELS --> NUM_OF_CHANNELS PCORE_4L_2L_N -->QUAD_OR_DUAL_N C_ADDRESS_WIDTH --> ADDRESS_WIDTH C_DATA_WIDTH --> DATA_WIDTH C_CLKS_ASYNC --> CLKS_ASYNC PCORE_QUAD_DUAL_N --> QUAD_DUAL_N NUM_CS --> NUM_OF_CS PCORE_DAC_CHANNEL_ID --> DAC_CHANNEL_ID PCORE_ADC_CHANNEL_ID --> ADC_CHANNEL_ID PCORE_CLK0_DIV --> CLK0_DIV PCORE_CLK1_DIV --> CLK1_DIV PCORE_CLKIN_PERIOD --> CLKIN_PERIOD PCORE_VCO_DIV --> VCO_DIV PCORE_Cr_Cb_N --> CR_CB_N PCORE_VCO_MUL --> VCO_MUL PCORE_EMBEDDED_SYNC --> EMBEDDED_SYNC PCORE_AXI_ID_WIDTH --> AXI_ID_WIDTH PCORE_ADDR_WIDTH --> ADDRESS_WIDTH DADATA_WIDTH --> DATA_WIDTH NUM_OF_NUM_OF_CHANNEL --> NUM_OF_CHANNELS DEBOUNCER_LEN --> DEBOUNCER_LENGTH ADDR_WIDTH --> ADDRESS_WIDTH C_S_AXIS_REGISTERED --> S_AXIS_REGISTERED Cr_Cb_N --> CR_CB_N ADDATA_WIDTH --> ADC_DATA_WIDTH BUFTYPE --> DEVICE_TYPE NUM_BITS --> NUM_OF_BITS WIDTH_A --> A_DATA_WIDTH WIDTH_B --> B_DATA_WIDTH CH_OCNT --> NUM_OF_CHANNELS_O M_CNT --> NUM_OF_CHANNELS_M P_CNT --> NUM_OF_CHANNELS_P CH_ICNT --> NUM_OF_CHANNELS_I CH_MCNT --> NUM_OF_CHANNELS_M 4L_2L_N --> QUAD_OR_DUAL_N SPI_CLK_ASYNC --> ASYNC_SPI_CLK MMCM_BUFIO_N --> MMCM_OR_BUFIO_N SERDES_DDR_N --> SERDES_OR_DDR_N CLK_ASYNC --> ASYNC_CLK CLKS_ASYNC --> ASYNC_CLK SERDES --> SERDES_OR_DDR_N GTH_GTX_N --> GTH_OR_GTX_N IF_TYPE --> DDR_OR_SDR_N PARALLEL_WIDTH --> DATA_WIDTH ADD_SUB --> ADD_OR_SUB_N A_WIDTH --> A_DATA_WIDTH CONST_VALUE --> B_DATA_VALUE IO_BASEADDR --> BASE_ADDRESS IO_WIDTH --> DATA_WIDTH QUAD_DUAL_N --> QUAD_OR_DUAL_N AXI_ADDRLIMIT --> AXI_ADDRESS_LIMIT ADDRESS_A_DATA_WIDTH --> A_ADDRESS_WIDTH ADDRESS_B_DATA_WIDTH --> B_ADDRESS_WIDTH MODE_OF_ENABLE --> CONTROL_TYPE CONTROL_TYPE --> LEVEL_OR_PULSE_N IQSEL --> Q_OR_I_N MMCM --> MMCM_OR_BUFR_N
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localparam HAS_DEST_ADDR = DMA_TYPE_DEST == DMA_TYPE_AXI_MM;
localparam HAS_SRC_ADDR = DMA_TYPE_SRC == DMA_TYPE_AXI_MM;
// Argh... "[Synth 8-2722] system function call clog2 is not allowed here"
hdl/library: Update the IP parameters The following IP parameters were renamed: PCORE_ID --> ID PCORE_DEVTYPE --> DEVICE_TYPE PCORE_IODELAY_GROUP --> IO_DELAY_GROUP CH_DW --> CHANNEL_DATA_WIDTH CH_CNT --> NUM_OF_CHANNELS PCORE_BUFTYPE --> DEVICE_TYPE PCORE_ADC_DP_DISABLE --> ADC_DATAPATH_DISABLE CHID --> CHANNEL_ID PCORE_DEVICE_TYPE --> DEVICE_TYPE PCORE_MMCM_BUFIO_N --> MMCM_BUFIO_N PCORE_SERDES_DDR_N --> SERDES_DDR_N PCORE_DAC_DP_DISABLE --> DAC_DATAPATH_DISABLE DP_DISABLE --> DATAPATH_DISABLE PCORE_DAC_IODELAY_ENABLE --> DAC_IODELAY_ENABLE C_BIG_ENDIAN --> BIG_ENDIAN C_M_DATA_WIDTH --> MASTER_DATA_WIDTH C_S_DATA_WIDTH --> SLAVE_DATA_WIDTH NUM_CHANNELS --> NUM_OF_CHANNELS CHANNELS --> NUM_OF_CHANNELS PCORE_4L_2L_N -->QUAD_OR_DUAL_N C_ADDRESS_WIDTH --> ADDRESS_WIDTH C_DATA_WIDTH --> DATA_WIDTH C_CLKS_ASYNC --> CLKS_ASYNC PCORE_QUAD_DUAL_N --> QUAD_DUAL_N NUM_CS --> NUM_OF_CS PCORE_DAC_CHANNEL_ID --> DAC_CHANNEL_ID PCORE_ADC_CHANNEL_ID --> ADC_CHANNEL_ID PCORE_CLK0_DIV --> CLK0_DIV PCORE_CLK1_DIV --> CLK1_DIV PCORE_CLKIN_PERIOD --> CLKIN_PERIOD PCORE_VCO_DIV --> VCO_DIV PCORE_Cr_Cb_N --> CR_CB_N PCORE_VCO_MUL --> VCO_MUL PCORE_EMBEDDED_SYNC --> EMBEDDED_SYNC PCORE_AXI_ID_WIDTH --> AXI_ID_WIDTH PCORE_ADDR_WIDTH --> ADDRESS_WIDTH DADATA_WIDTH --> DATA_WIDTH NUM_OF_NUM_OF_CHANNEL --> NUM_OF_CHANNELS DEBOUNCER_LEN --> DEBOUNCER_LENGTH ADDR_WIDTH --> ADDRESS_WIDTH C_S_AXIS_REGISTERED --> S_AXIS_REGISTERED Cr_Cb_N --> CR_CB_N ADDATA_WIDTH --> ADC_DATA_WIDTH BUFTYPE --> DEVICE_TYPE NUM_BITS --> NUM_OF_BITS WIDTH_A --> A_DATA_WIDTH WIDTH_B --> B_DATA_WIDTH CH_OCNT --> NUM_OF_CHANNELS_O M_CNT --> NUM_OF_CHANNELS_M P_CNT --> NUM_OF_CHANNELS_P CH_ICNT --> NUM_OF_CHANNELS_I CH_MCNT --> NUM_OF_CHANNELS_M 4L_2L_N --> QUAD_OR_DUAL_N SPI_CLK_ASYNC --> ASYNC_SPI_CLK MMCM_BUFIO_N --> MMCM_OR_BUFIO_N SERDES_DDR_N --> SERDES_OR_DDR_N CLK_ASYNC --> ASYNC_CLK CLKS_ASYNC --> ASYNC_CLK SERDES --> SERDES_OR_DDR_N GTH_GTX_N --> GTH_OR_GTX_N IF_TYPE --> DDR_OR_SDR_N PARALLEL_WIDTH --> DATA_WIDTH ADD_SUB --> ADD_OR_SUB_N A_WIDTH --> A_DATA_WIDTH CONST_VALUE --> B_DATA_VALUE IO_BASEADDR --> BASE_ADDRESS IO_WIDTH --> DATA_WIDTH QUAD_DUAL_N --> QUAD_OR_DUAL_N AXI_ADDRLIMIT --> AXI_ADDRESS_LIMIT ADDRESS_A_DATA_WIDTH --> A_ADDRESS_WIDTH ADDRESS_B_DATA_WIDTH --> B_ADDRESS_WIDTH MODE_OF_ENABLE --> CONTROL_TYPE CONTROL_TYPE --> LEVEL_OR_PULSE_N IQSEL --> Q_OR_I_N MMCM --> MMCM_OR_BUFR_N
2015-08-19 11:11:47 +00:00
localparam BYTES_PER_BEAT_WIDTH_DEST = DMA_DATA_WIDTH_DEST > 1024 ? 8 :
DMA_DATA_WIDTH_DEST > 512 ? 7 :
DMA_DATA_WIDTH_DEST > 256 ? 6 :
DMA_DATA_WIDTH_DEST > 128 ? 5 :
DMA_DATA_WIDTH_DEST > 64 ? 4 :
DMA_DATA_WIDTH_DEST > 32 ? 3 :
DMA_DATA_WIDTH_DEST > 16 ? 2 :
DMA_DATA_WIDTH_DEST > 8 ? 1 : 0;
hdl/library: Update the IP parameters The following IP parameters were renamed: PCORE_ID --> ID PCORE_DEVTYPE --> DEVICE_TYPE PCORE_IODELAY_GROUP --> IO_DELAY_GROUP CH_DW --> CHANNEL_DATA_WIDTH CH_CNT --> NUM_OF_CHANNELS PCORE_BUFTYPE --> DEVICE_TYPE PCORE_ADC_DP_DISABLE --> ADC_DATAPATH_DISABLE CHID --> CHANNEL_ID PCORE_DEVICE_TYPE --> DEVICE_TYPE PCORE_MMCM_BUFIO_N --> MMCM_BUFIO_N PCORE_SERDES_DDR_N --> SERDES_DDR_N PCORE_DAC_DP_DISABLE --> DAC_DATAPATH_DISABLE DP_DISABLE --> DATAPATH_DISABLE PCORE_DAC_IODELAY_ENABLE --> DAC_IODELAY_ENABLE C_BIG_ENDIAN --> BIG_ENDIAN C_M_DATA_WIDTH --> MASTER_DATA_WIDTH C_S_DATA_WIDTH --> SLAVE_DATA_WIDTH NUM_CHANNELS --> NUM_OF_CHANNELS CHANNELS --> NUM_OF_CHANNELS PCORE_4L_2L_N -->QUAD_OR_DUAL_N C_ADDRESS_WIDTH --> ADDRESS_WIDTH C_DATA_WIDTH --> DATA_WIDTH C_CLKS_ASYNC --> CLKS_ASYNC PCORE_QUAD_DUAL_N --> QUAD_DUAL_N NUM_CS --> NUM_OF_CS PCORE_DAC_CHANNEL_ID --> DAC_CHANNEL_ID PCORE_ADC_CHANNEL_ID --> ADC_CHANNEL_ID PCORE_CLK0_DIV --> CLK0_DIV PCORE_CLK1_DIV --> CLK1_DIV PCORE_CLKIN_PERIOD --> CLKIN_PERIOD PCORE_VCO_DIV --> VCO_DIV PCORE_Cr_Cb_N --> CR_CB_N PCORE_VCO_MUL --> VCO_MUL PCORE_EMBEDDED_SYNC --> EMBEDDED_SYNC PCORE_AXI_ID_WIDTH --> AXI_ID_WIDTH PCORE_ADDR_WIDTH --> ADDRESS_WIDTH DADATA_WIDTH --> DATA_WIDTH NUM_OF_NUM_OF_CHANNEL --> NUM_OF_CHANNELS DEBOUNCER_LEN --> DEBOUNCER_LENGTH ADDR_WIDTH --> ADDRESS_WIDTH C_S_AXIS_REGISTERED --> S_AXIS_REGISTERED Cr_Cb_N --> CR_CB_N ADDATA_WIDTH --> ADC_DATA_WIDTH BUFTYPE --> DEVICE_TYPE NUM_BITS --> NUM_OF_BITS WIDTH_A --> A_DATA_WIDTH WIDTH_B --> B_DATA_WIDTH CH_OCNT --> NUM_OF_CHANNELS_O M_CNT --> NUM_OF_CHANNELS_M P_CNT --> NUM_OF_CHANNELS_P CH_ICNT --> NUM_OF_CHANNELS_I CH_MCNT --> NUM_OF_CHANNELS_M 4L_2L_N --> QUAD_OR_DUAL_N SPI_CLK_ASYNC --> ASYNC_SPI_CLK MMCM_BUFIO_N --> MMCM_OR_BUFIO_N SERDES_DDR_N --> SERDES_OR_DDR_N CLK_ASYNC --> ASYNC_CLK CLKS_ASYNC --> ASYNC_CLK SERDES --> SERDES_OR_DDR_N GTH_GTX_N --> GTH_OR_GTX_N IF_TYPE --> DDR_OR_SDR_N PARALLEL_WIDTH --> DATA_WIDTH ADD_SUB --> ADD_OR_SUB_N A_WIDTH --> A_DATA_WIDTH CONST_VALUE --> B_DATA_VALUE IO_BASEADDR --> BASE_ADDRESS IO_WIDTH --> DATA_WIDTH QUAD_DUAL_N --> QUAD_OR_DUAL_N AXI_ADDRLIMIT --> AXI_ADDRESS_LIMIT ADDRESS_A_DATA_WIDTH --> A_ADDRESS_WIDTH ADDRESS_B_DATA_WIDTH --> B_ADDRESS_WIDTH MODE_OF_ENABLE --> CONTROL_TYPE CONTROL_TYPE --> LEVEL_OR_PULSE_N IQSEL --> Q_OR_I_N MMCM --> MMCM_OR_BUFR_N
2015-08-19 11:11:47 +00:00
localparam BYTES_PER_BEAT_WIDTH_SRC = DMA_DATA_WIDTH_SRC > 1024 ? 8 :
DMA_DATA_WIDTH_SRC > 512 ? 7 :
DMA_DATA_WIDTH_SRC > 256 ? 6 :
DMA_DATA_WIDTH_SRC > 128 ? 5 :
DMA_DATA_WIDTH_SRC > 64 ? 4 :
DMA_DATA_WIDTH_SRC > 32 ? 3 :
DMA_DATA_WIDTH_SRC > 16 ? 2 :
DMA_DATA_WIDTH_SRC > 8 ? 1 : 0;
localparam ID_WIDTH = (FIFO_SIZE) > 64 ? 8 :
(FIFO_SIZE) > 32 ? 7 :
(FIFO_SIZE) > 16 ? 6 :
(FIFO_SIZE) > 8 ? 5 :
(FIFO_SIZE) > 4 ? 4 :
(FIFO_SIZE) > 2 ? 3 :
(FIFO_SIZE) > 1 ? 2 : 1;
localparam DBG_ID_PADDING = ID_WIDTH > 8 ? 0 : 8 - ID_WIDTH;
/* AXI3 supports a maximum of 16 beats per burst. AXI4 supports a maximum of
256 beats per burst. If either bus is AXI3 set the maximum number of beats
per burst to 16. For non AXI interfaces the maximum beats per burst is in
theory unlimted. Set it to 1024 to provide a reasonable upper threshold */
localparam BEATS_PER_BURST_LIMIT_DEST =
(DMA_TYPE_DEST == DMA_TYPE_AXI_MM) ?
(DMA_AXI_PROTOCOL_DEST == 1 ? 16 : 256) :
1024;
localparam BYTES_PER_BURST_LIMIT_DEST =
BEATS_PER_BURST_LIMIT_DEST * DMA_DATA_WIDTH_DEST / 8;
localparam BEATS_PER_BURST_LIMIT_SRC =
(DMA_TYPE_SRC == DMA_TYPE_AXI_MM) ?
(DMA_AXI_PROTOCOL_SRC == 1 ? 16 : 256) :
1024;
localparam BYTES_PER_BURST_LIMIT_SRC =
BEATS_PER_BURST_LIMIT_SRC * DMA_DATA_WIDTH_SRC / 8;
/* The smaller bus limits the maximum bytes per burst. */
localparam BYTES_PER_BURST_LIMIT =
(BYTES_PER_BURST_LIMIT_DEST < BYTES_PER_BURST_LIMIT_SRC) ?
BYTES_PER_BURST_LIMIT_DEST : BYTES_PER_BURST_LIMIT_SRC;
/* Make sure the requested MAX_BYTES_PER_BURST does not exceed what the
interfaces can support. Limit the value if necessary. */
localparam REAL_MAX_BYTES_PER_BURST =
BYTES_PER_BURST_LIMIT < MAX_BYTES_PER_BURST ?
BYTES_PER_BURST_LIMIT : MAX_BYTES_PER_BURST;
// ID signals from the DMAC, just for debugging
wire [ID_WIDTH-1:0] dest_request_id;
wire [ID_WIDTH-1:0] dest_data_id;
wire [ID_WIDTH-1:0] dest_address_id;
wire [ID_WIDTH-1:0] dest_response_id;
wire [ID_WIDTH-1:0] src_request_id;
wire [ID_WIDTH-1:0] src_data_id;
wire [ID_WIDTH-1:0] src_address_id;
wire [ID_WIDTH-1:0] src_response_id;
wire [7:0] dbg_status;
wire [31:0] dbg_ids0;
wire [31:0] dbg_ids1;
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assign m_dest_axi_araddr = 'd0;
assign m_dest_axi_arlen = 'd0;
assign m_dest_axi_arsize = 'd0;
assign m_dest_axi_arburst = 'd0;
assign m_dest_axi_arcache = 'd0;
assign m_dest_axi_arprot = 'd0;
assign m_dest_axi_awid = 'h0;
assign m_dest_axi_awlock = 'h0;
assign m_dest_axi_wid = 'h0;
assign m_dest_axi_arid = 'h0;
assign m_dest_axi_arlock = 'h0;
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assign m_src_axi_awaddr = 'd0;
assign m_src_axi_awlen = 'd0;
assign m_src_axi_awsize = 'd0;
assign m_src_axi_awburst = 'd0;
assign m_src_axi_awcache = 'd0;
assign m_src_axi_awprot = 'd0;
assign m_src_axi_wdata = 'd0;
assign m_src_axi_wstrb = 'd0;
assign m_src_axi_wlast = 'd0;
assign m_src_axi_awid = 'h0;
assign m_src_axi_awlock = 'h0;
assign m_src_axi_wid = 'h0;
assign m_src_axi_arid = 'h0;
assign m_src_axi_arlock = 'h0;
2014-09-29 19:26:06 +00:00
wire dma_req_valid;
wire dma_req_ready;
wire [DMA_AXI_ADDR_WIDTH-1:BYTES_PER_BEAT_WIDTH_DEST] dma_req_dest_address;
wire [DMA_AXI_ADDR_WIDTH-1:BYTES_PER_BEAT_WIDTH_SRC] dma_req_src_address;
wire [DMA_LENGTH_WIDTH-1:0] dma_req_length;
wire dma_req_eot;
wire dma_req_sync_transfer_start;
wire dma_req_last;
wire up_req_eot;
wire ctrl_enable;
wire ctrl_pause;
wire up_dma_req_valid;
wire up_dma_req_ready;
wire [DMA_AXI_ADDR_WIDTH-1:BYTES_PER_BEAT_WIDTH_DEST] up_dma_req_dest_address;
wire [DMA_AXI_ADDR_WIDTH-1:BYTES_PER_BEAT_WIDTH_SRC] up_dma_req_src_address;
wire [DMA_LENGTH_WIDTH-1:0] up_dma_req_x_length;
wire [DMA_LENGTH_WIDTH-1:0] up_dma_req_y_length;
wire [DMA_LENGTH_WIDTH-1:0] up_dma_req_dest_stride;
wire [DMA_LENGTH_WIDTH-1:0] up_dma_req_src_stride;
wire up_dma_req_sync_transfer_start;
wire up_dma_req_last;
assign dbg_ids0 = {
{DBG_ID_PADDING{1'b0}}, dest_response_id,
{DBG_ID_PADDING{1'b0}}, dest_data_id,
{DBG_ID_PADDING{1'b0}}, dest_address_id,
{DBG_ID_PADDING{1'b0}}, dest_request_id
};
assign dbg_ids1 = {
{DBG_ID_PADDING{1'b0}}, src_response_id,
{DBG_ID_PADDING{1'b0}}, src_data_id,
{DBG_ID_PADDING{1'b0}}, src_address_id,
{DBG_ID_PADDING{1'b0}}, src_request_id
};
axi_dmac_regmap #(
.DISABLE_DEBUG_REGISTERS(DISABLE_DEBUG_REGISTERS),
.BYTES_PER_BEAT_WIDTH_DEST(BYTES_PER_BEAT_WIDTH_DEST),
.BYTES_PER_BEAT_WIDTH_SRC(BYTES_PER_BEAT_WIDTH_SRC),
.DMA_AXI_ADDR_WIDTH(DMA_AXI_ADDR_WIDTH),
.DMA_LENGTH_WIDTH(DMA_LENGTH_WIDTH),
.DMA_CYCLIC(CYCLIC),
.HAS_DEST_ADDR(HAS_DEST_ADDR),
.HAS_SRC_ADDR(HAS_SRC_ADDR),
.DMA_2D_TRANSFER(DMA_2D_TRANSFER)
) i_regmap (
.s_axi_aclk(s_axi_aclk),
.s_axi_aresetn(s_axi_aresetn),
.s_axi_awvalid(s_axi_awvalid),
.s_axi_awaddr(s_axi_awaddr),
.s_axi_awready(s_axi_awready),
.s_axi_awprot(s_axi_awprot),
.s_axi_wvalid(s_axi_wvalid),
.s_axi_wdata(s_axi_wdata),
.s_axi_wstrb(s_axi_wstrb),
.s_axi_wready(s_axi_wready),
.s_axi_bvalid(s_axi_bvalid),
.s_axi_bresp(s_axi_bresp),
.s_axi_bready(s_axi_bready),
.s_axi_arvalid(s_axi_arvalid),
.s_axi_araddr(s_axi_araddr),
.s_axi_arready(s_axi_arready),
.s_axi_arprot(s_axi_arprot),
.s_axi_rvalid(s_axi_rvalid),
.s_axi_rready(s_axi_rready),
.s_axi_rresp(s_axi_rresp),
.s_axi_rdata(s_axi_rdata),
// Interrupt
.irq(irq),
// Control interface
.ctrl_enable(ctrl_enable),
.ctrl_pause(ctrl_pause),
// Request interface
.request_valid(up_dma_req_valid),
.request_ready(up_dma_req_ready),
.request_dest_address(up_dma_req_dest_address),
.request_src_address(up_dma_req_src_address),
.request_x_length(up_dma_req_x_length),
.request_y_length(up_dma_req_y_length),
.request_dest_stride(up_dma_req_dest_stride),
.request_src_stride(up_dma_req_src_stride),
.request_sync_transfer_start(up_dma_req_sync_transfer_start),
.request_last(up_dma_req_last),
// DMA response interface
.response_eot(up_req_eot),
// Debug interface
.dbg_dest_addr(m_dest_axi_awaddr),
.dbg_src_addr(m_src_axi_araddr),
.dbg_status(dbg_status),
.dbg_ids0(dbg_ids0),
.dbg_ids1(dbg_ids1)
);
generate if (DMA_2D_TRANSFER == 1) begin
dmac_2d_transfer #(
.DMA_LENGTH_WIDTH(DMA_LENGTH_WIDTH),
.BYTES_PER_BEAT_WIDTH_DEST(BYTES_PER_BEAT_WIDTH_DEST),
.BYTES_PER_BEAT_WIDTH_SRC(BYTES_PER_BEAT_WIDTH_SRC)
) i_2d_transfer (
.req_aclk(s_axi_aclk),
.req_aresetn(s_axi_aresetn),
.req_eot(up_req_eot),
.req_valid(up_dma_req_valid),
.req_ready(up_dma_req_ready),
.req_dest_address(up_dma_req_dest_address),
.req_src_address(up_dma_req_src_address),
.req_x_length(up_dma_req_x_length),
.req_y_length(up_dma_req_y_length),
.req_dest_stride(up_dma_req_dest_stride),
.req_src_stride(up_dma_req_src_stride),
.req_sync_transfer_start(up_dma_req_sync_transfer_start),
.out_req_valid(dma_req_valid),
.out_req_ready(dma_req_ready),
.out_req_dest_address(dma_req_dest_address),
.out_req_src_address(dma_req_src_address),
.out_req_length(dma_req_length),
.out_req_sync_transfer_start(dma_req_sync_transfer_start),
.out_eot(dma_req_eot)
);
assign dma_req_last = 1'b0;
end else begin
assign dma_req_valid = up_dma_req_valid;
assign up_dma_req_ready = dma_req_ready;
assign dma_req_dest_address = up_dma_req_dest_address;
assign dma_req_src_address = up_dma_req_src_address;
assign dma_req_length = up_dma_req_x_length;
assign dma_req_sync_transfer_start = up_dma_req_sync_transfer_start;
assign dma_req_last = up_dma_req_last;
assign up_req_eot = dma_req_eot;
end endgenerate
dmac_request_arb #(
.DMA_DATA_WIDTH_SRC(DMA_DATA_WIDTH_SRC),
.DMA_DATA_WIDTH_DEST(DMA_DATA_WIDTH_DEST),
.DMA_LENGTH_WIDTH(DMA_LENGTH_WIDTH),
.BYTES_PER_BEAT_WIDTH_DEST(BYTES_PER_BEAT_WIDTH_DEST),
.BYTES_PER_BEAT_WIDTH_SRC(BYTES_PER_BEAT_WIDTH_SRC),
.DMA_TYPE_DEST(DMA_TYPE_DEST),
.DMA_TYPE_SRC(DMA_TYPE_SRC),
.DMA_AXI_ADDR_WIDTH(DMA_AXI_ADDR_WIDTH),
.ASYNC_CLK_REQ_SRC(ASYNC_CLK_REQ_SRC),
.ASYNC_CLK_SRC_DEST(ASYNC_CLK_SRC_DEST),
.ASYNC_CLK_DEST_REQ(ASYNC_CLK_DEST_REQ),
.AXI_SLICE_DEST(AXI_SLICE_DEST),
.AXI_SLICE_SRC(AXI_SLICE_SRC),
.MAX_BYTES_PER_BURST(REAL_MAX_BYTES_PER_BURST),
.FIFO_SIZE(FIFO_SIZE),
.ID_WIDTH(ID_WIDTH),
.AXI_LENGTH_WIDTH_SRC(8-(4*DMA_AXI_PROTOCOL_SRC)),
.AXI_LENGTH_WIDTH_DEST(8-(4*DMA_AXI_PROTOCOL_DEST))
) i_request_arb (
.req_aclk(s_axi_aclk),
.req_aresetn(s_axi_aresetn),
.enable(ctrl_enable),
.pause(ctrl_pause),
.req_valid(dma_req_valid),
.req_ready(dma_req_ready),
.req_dest_address(dma_req_dest_address),
.req_src_address(dma_req_src_address),
.req_length(dma_req_length),
.req_xlast(dma_req_last),
.req_sync_transfer_start(dma_req_sync_transfer_start),
.eot(dma_req_eot),
.m_dest_axi_aclk(m_dest_axi_aclk),
.m_dest_axi_aresetn(m_dest_axi_aresetn),
.m_src_axi_aclk(m_src_axi_aclk),
.m_src_axi_aresetn(m_src_axi_aresetn),
.m_axi_awaddr(m_dest_axi_awaddr),
.m_axi_awlen(m_dest_axi_awlen),
.m_axi_awsize(m_dest_axi_awsize),
.m_axi_awburst(m_dest_axi_awburst),
.m_axi_awprot(m_dest_axi_awprot),
.m_axi_awcache(m_dest_axi_awcache),
.m_axi_awvalid(m_dest_axi_awvalid),
.m_axi_awready(m_dest_axi_awready),
.m_axi_wdata(m_dest_axi_wdata),
.m_axi_wstrb(m_dest_axi_wstrb),
.m_axi_wready(m_dest_axi_wready),
.m_axi_wvalid(m_dest_axi_wvalid),
.m_axi_wlast(m_dest_axi_wlast),
.m_axi_bvalid(m_dest_axi_bvalid),
.m_axi_bresp(m_dest_axi_bresp),
.m_axi_bready(m_dest_axi_bready),
.m_axi_arready(m_src_axi_arready),
.m_axi_arvalid(m_src_axi_arvalid),
.m_axi_araddr(m_src_axi_araddr),
.m_axi_arlen(m_src_axi_arlen),
.m_axi_arsize(m_src_axi_arsize),
.m_axi_arburst(m_src_axi_arburst),
.m_axi_arprot(m_src_axi_arprot),
.m_axi_arcache(m_src_axi_arcache),
.m_axi_rdata(m_src_axi_rdata),
.m_axi_rready(m_src_axi_rready),
.m_axi_rvalid(m_src_axi_rvalid),
.m_axi_rresp(m_src_axi_rresp),
.s_axis_aclk(s_axis_aclk),
.s_axis_ready(s_axis_ready),
.s_axis_valid(s_axis_valid),
.s_axis_data(s_axis_data),
.s_axis_user(s_axis_user),
.s_axis_last(s_axis_last),
.s_axis_xfer_req(s_axis_xfer_req),
.m_axis_aclk(m_axis_aclk),
.m_axis_ready(m_axis_ready),
.m_axis_valid(m_axis_valid),
.m_axis_data(m_axis_data),
.m_axis_last(m_axis_last),
.m_axis_xfer_req(m_axis_xfer_req),
.fifo_wr_clk(fifo_wr_clk),
.fifo_wr_en(fifo_wr_en),
.fifo_wr_din(fifo_wr_din),
.fifo_wr_overflow(fifo_wr_overflow),
.fifo_wr_sync(fifo_wr_sync),
.fifo_wr_xfer_req(fifo_wr_xfer_req),
.fifo_rd_clk(fifo_rd_clk),
.fifo_rd_en(fifo_rd_en),
.fifo_rd_valid(fifo_rd_valid),
.fifo_rd_dout(fifo_rd_dout),
.fifo_rd_underflow(fifo_rd_underflow),
.fifo_rd_xfer_req(fifo_rd_xfer_req),
// DBG
.dbg_dest_request_id(dest_request_id),
.dbg_dest_address_id(dest_address_id),
.dbg_dest_data_id(dest_data_id),
.dbg_dest_response_id(dest_response_id),
.dbg_src_request_id(src_request_id),
.dbg_src_address_id(src_address_id),
.dbg_src_data_id(src_data_id),
.dbg_src_response_id(src_response_id),
.dbg_status(dbg_status)
);
assign m_dest_axi_arvalid = 1'b0;
assign m_dest_axi_rready = 1'b0;
assign m_dest_axi_araddr = 'h0;
assign m_dest_axi_arlen = 'h0;
assign m_dest_axi_arsize = 'h0;
assign m_dest_axi_arburst = 'h0;
assign m_dest_axi_arcache = 'h0;
assign m_dest_axi_arprot = 'h0;
assign m_src_axi_awvalid = 1'b0;
assign m_src_axi_wvalid = 1'b0;
assign m_src_axi_bready = 1'b0;
assign m_src_axi_awvalid = 'h0;
assign m_src_axi_awaddr = 'h0;
assign m_src_axi_awlen = 'h0;
assign m_src_axi_awsize = 'h0;
assign m_src_axi_awburst = 'h0;
assign m_src_axi_awcache = 'h0;
assign m_src_axi_awprot = 'h0;
assign m_src_axi_wvalid = 'h0;
assign m_src_axi_wdata = 'h0;
assign m_src_axi_wstrb = 'h0;
assign m_src_axi_wlast = 'h0;
endmodule