pluto_hdl_adi/library/axi_dmac/axi_dmac_hw.tcl

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2017-05-12 17:25:17 +00:00
package require qsys
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source ../scripts/adi_env.tcl
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source ../scripts/adi_ip_alt.tcl
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set_module_property NAME axi_dmac
set_module_property DESCRIPTION "AXI DMA Controller"
set_module_property VERSION 1.0
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set_module_property GROUP "Analog Devices"
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set_module_property DISPLAY_NAME axi_dmac
set_module_property ELABORATION_CALLBACK axi_dmac_elaborate
set_module_property VALIDATION_CALLBACK axi_dmac_validate
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# files
ad_ip_files axi_dmac [list \
$ad_hdl_dir/library/util_cdc/sync_bits.v \
$ad_hdl_dir/library/common/up_axi.v \
$ad_hdl_dir/library/util_axis_fifo/util_axis_fifo.v \
$ad_hdl_dir/library/util_axis_fifo/address_sync.v \
$ad_hdl_dir/library/common/ad_mem.v \
inc_id.vh \
resp.vh \
axi_dmac: Rework data store-and-forward buffer Currently the DMAC uses a simple FIFO as the store-and-forward buffer. The FIFO handshaking is beat based whereas the remainder of the DMAC is burst based. This means that additional control signals have to be combined with the FIFO handshaking signal to generate the external handshaking signals. Re-work the store-and-forward buffer to utilize a BRAM that is subdivided into N segments. Where N is the maximum number of bursts that can be stored in the buffer and each segment has the size of the maximum burst length. Each segment stores the data associated with one burst and even when the burst is shorter than the maximum burst length the next burst will be stored in the next segment. The new store-and-forward buffer takes care of generating all the handshaking signals. This means handshaking is generated in a central place and does not have to be combined from multiple data-paths simplifying the overall logic. The new store-and-forward buffer also takes care of data width up- and down-sizing in case that the source and sink modules have a different data width. This tighter integration will allow future enhancements like using asymmetric memory. This re-work lays the foundation of future enhancements to the DMA like support for un-aligned transfers and early transfer abort which would have been much more difficult to implement with the previous architecture. In addition it significantly reduces the resource utilization of the store-and-forward buffer and allows for better timing due to reduced combinatorial path lengths. Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2018-05-09 16:02:41 +00:00
axi_dmac_burst_memory.v \
axi_dmac_regmap.v \
axi_dmac_regmap_request.v \
axi_dmac: Rework transfer shutdown The DMAC allows a transfer to be aborted. When a transfer is aborted the DMAC shuts down as fast as possible while still completing any pending transactions as required by the protocol specifications of the port. E.g. for AXI-MM this means to complete all outstanding bursts. Once the DMAC has entered an idle state a special synchronization signal is send to all modules. This synchronization signal instructs them to flush the pipeline and remove any stale data and metadata associated with the aborted transfer. Once all data has been flushed the DMAC enters the shutdown state and is ready for the next transfer. In addition each module has a reset that resets the modules state and is used at system startup to bring them into a consistent state. Re-work the shutdown process to instead of flushing the pipeline re-use the startup reset signal also for shutdown. To manage the reset signal generation introduce the reset manager module. It contains a state machine that will assert the reset signals in the correct order and for the appropriate duration in case of a transfer shutdown. The reset signal is asserted in all domains until it has been asserted for at least 4 clock cycles in the slowest domain. This ensures that the reset signal is not de-asserted in the faster domains before the slower domains have had a chance to process the reset signal. In addition the reset signal is de-asserted in the opposite direction of the data flow. This ensures that the data sink is ready to receive data before the data source can start sending data. This simplifies the internal handshaking. This approach has multiple advantages. * Issuing a reset and removing all state takes less time than explicitly flushing one sample per clock cycle at a time. * It simplifies the logic in the faster clock domains at the expense of more complicated logic in the slower control clock domain. This allows for higher fMax on the data paths. * Less signals to synchronize from the control domain to the data domains The implementation of the pause mode has also slightly changed. Pause is now a simple disable of the data domains. When the transfer is resumed after a pause the data domains are re-enabled and continue at their previous state. Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-09-21 14:02:44 +00:00
axi_dmac_reset_manager.v \
axi_dmac: Rework data store-and-forward buffer Currently the DMAC uses a simple FIFO as the store-and-forward buffer. The FIFO handshaking is beat based whereas the remainder of the DMAC is burst based. This means that additional control signals have to be combined with the FIFO handshaking signal to generate the external handshaking signals. Re-work the store-and-forward buffer to utilize a BRAM that is subdivided into N segments. Where N is the maximum number of bursts that can be stored in the buffer and each segment has the size of the maximum burst length. Each segment stores the data associated with one burst and even when the burst is shorter than the maximum burst length the next burst will be stored in the next segment. The new store-and-forward buffer takes care of generating all the handshaking signals. This means handshaking is generated in a central place and does not have to be combined from multiple data-paths simplifying the overall logic. The new store-and-forward buffer also takes care of data width up- and down-sizing in case that the source and sink modules have a different data width. This tighter integration will allow future enhancements like using asymmetric memory. This re-work lays the foundation of future enhancements to the DMA like support for un-aligned transfers and early transfer abort which would have been much more difficult to implement with the previous architecture. In addition it significantly reduces the resource utilization of the store-and-forward buffer and allows for better timing due to reduced combinatorial path lengths. Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2018-05-09 16:02:41 +00:00
axi_dmac_resize_dest.v \
axi_dmac_resize_src.v \
axi_dmac_response_manager.v \
axi_dmac_transfer.v \
address_generator.v \
data_mover.v \
request_arb.v \
request_generator.v \
response_handler.v \
axi_register_slice.v \
2d_transfer.v \
dest_axi_mm.v \
dest_axi_stream.v \
dest_fifo_inf.v \
src_axi_mm.v \
src_axi_stream.v \
src_fifo_inf.v \
splitter.v \
response_generator.v \
axi_dmac.v \
axi_dmac_constr.sdc \
]
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# Disable dual-clock RAM read-during-write behaviour warning.
axi_dmac: Rework data store-and-forward buffer Currently the DMAC uses a simple FIFO as the store-and-forward buffer. The FIFO handshaking is beat based whereas the remainder of the DMAC is burst based. This means that additional control signals have to be combined with the FIFO handshaking signal to generate the external handshaking signals. Re-work the store-and-forward buffer to utilize a BRAM that is subdivided into N segments. Where N is the maximum number of bursts that can be stored in the buffer and each segment has the size of the maximum burst length. Each segment stores the data associated with one burst and even when the burst is shorter than the maximum burst length the next burst will be stored in the next segment. The new store-and-forward buffer takes care of generating all the handshaking signals. This means handshaking is generated in a central place and does not have to be combined from multiple data-paths simplifying the overall logic. The new store-and-forward buffer also takes care of data width up- and down-sizing in case that the source and sink modules have a different data width. This tighter integration will allow future enhancements like using asymmetric memory. This re-work lays the foundation of future enhancements to the DMA like support for un-aligned transfers and early transfer abort which would have been much more difficult to implement with the previous architecture. In addition it significantly reduces the resource utilization of the store-and-forward buffer and allows for better timing due to reduced combinatorial path lengths. Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
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set_qip_strings { "set_instance_assignment -name MESSAGE_DISABLE 276027 -entity axi_dmac_burst_memory" }
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# parameters
set group "General Configuration"
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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add_parameter ID INTEGER 0
set_parameter_property ID DISPLAY_NAME "Core ID"
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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set_parameter_property ID HDL_PARAMETER true
set_parameter_property ID GROUP $group
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add_parameter DMA_LENGTH_WIDTH INTEGER 24
set_parameter_property DMA_LENGTH_WIDTH DISPLAY_NAME "DMA Transfer Length Register Width"
set_parameter_property DMA_LENGTH_WIDTH UNITS Bits
set_parameter_property DMA_LENGTH_WIDTH HDL_PARAMETER true
set_parameter_property DMA_LENGTH_WIDTH ALLOWED_RANGES {8:32}
set_parameter_property DMA_LENGTH_WIDTH GROUP $group
add_parameter FIFO_SIZE INTEGER 8
set_parameter_property FIFO_SIZE DISPLAY_NAME "Store-and-Forward Memory Size (In Bursts)"
set_parameter_property FIFO_SIZE HDL_PARAMETER true
set_parameter_property FIFO_SIZE ALLOWED_RANGES {2 4 8 16 32}
set_parameter_property FIFO_SIZE GROUP $group
add_parameter MAX_BYTES_PER_BURST INTEGER 128
set_parameter_property MAX_BYTES_PER_BURST DISPLAY_NAME "Maximum bytes per burst"
set_parameter_property MAX_BYTES_PER_BURST HDL_PARAMETER true
set_parameter_property MAX_BYTES_PER_BURST GROUP $group
foreach {suffix group} { \
"SRC" "Source" \
"DEST" "Destination" \
} {
add_display_item "Endpoint Configuration" $group "group"
add_parameter DMA_TYPE_$suffix INTEGER 0
set_parameter_property DMA_TYPE_$suffix DISPLAY_NAME "Type"
set_parameter_property DMA_TYPE_$suffix HDL_PARAMETER true
set_parameter_property DMA_TYPE_$suffix ALLOWED_RANGES \
{ "0:Memory-Mapped AXI" "1:Streaming AXI" "2:FIFO Interface" }
set_parameter_property DMA_TYPE_$suffix GROUP $group
add_parameter DMA_AXI_PROTOCOL_$suffix INTEGER 1
set_parameter_property DMA_AXI_PROTOCOL_$suffix DISPLAY_NAME "AXI Protocol"
set_parameter_property DMA_AXI_PROTOCOL_$suffix HDL_PARAMETER true
set_parameter_property DMA_AXI_PROTOCOL_$suffix ALLOWED_RANGES { "0:AXI4" "1:AXI3" }
set_parameter_property DMA_AXI_PROTOCOL_$suffix GROUP $group
add_parameter DMA_DATA_WIDTH_$suffix INTEGER 64
set_parameter_property DMA_DATA_WIDTH_$suffix DISPLAY_NAME "Bus Width"
set_parameter_property DMA_DATA_WIDTH_$suffix UNITS Bits
set_parameter_property DMA_DATA_WIDTH_$suffix HDL_PARAMETER true
set_parameter_property DMA_DATA_WIDTH_$suffix ALLOWED_RANGES {16 32 64 128 256 512 1024}
set_parameter_property DMA_DATA_WIDTH_$suffix GROUP $group
add_parameter USE_TLAST_$suffix INTEGER 0
set_parameter_property USE_TLAST_$suffix DISPLAY_NAME "Use TLAST"
set_parameter_property USE_TLAST_$suffix HDL_PARAMETER false
set_parameter_property USE_TLAST_$suffix DISPLAY_HINT boolean
set_parameter_property USE_TLAST_$suffix GROUP $group
add_parameter AXI_SLICE_$suffix INTEGER 0
set_parameter_property AXI_SLICE_$suffix DISPLAY_NAME "Insert Register Slice"
set_parameter_property AXI_SLICE_$suffix DISPLAY_HINT boolean
set_parameter_property AXI_SLICE_$suffix HDL_PARAMETER true
set_parameter_property AXI_SLICE_$suffix GROUP $group
}
# FIFO interface
set_parameter_property DMA_TYPE_SRC DEFAULT_VALUE 2
set group "Features"
add_parameter CYCLIC INTEGER 1
set_parameter_property CYCLIC DISPLAY_NAME "Cyclic Transfer Support"
set_parameter_property CYCLIC DISPLAY_HINT boolean
set_parameter_property CYCLIC HDL_PARAMETER true
set_parameter_property CYCLIC GROUP $group
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add_parameter DMA_2D_TRANSFER INTEGER 0
set_parameter_property DMA_2D_TRANSFER DISPLAY_NAME "2D Transfer Support"
set_parameter_property DMA_2D_TRANSFER DISPLAY_HINT boolean
set_parameter_property DMA_2D_TRANSFER HDL_PARAMETER true
set_parameter_property DMA_2D_TRANSFER GROUP $group
add_parameter SYNC_TRANSFER_START INTEGER 0
set_parameter_property SYNC_TRANSFER_START DISPLAY_NAME "Transfer Start Synchronization Support"
set_parameter_property SYNC_TRANSFER_START DISPLAY_HINT boolean
set_parameter_property SYNC_TRANSFER_START HDL_PARAMETER true
set_parameter_property SYNC_TRANSFER_START GROUP $group
set group "Clock Domain Configuration"
add_parameter AUTO_ASYNC_CLK BOOLEAN 1
set_parameter_property AUTO_ASYNC_CLK DISPLAY_NAME "Automatically Detect Clock Domains"
set_parameter_property AUTO_ASYNC_CLK HDL_PARAMETER false
set_parameter_property AUTO_ASYNC_CLK GROUP $group
foreach {p name} { \
ASYNC_CLK_REQ_SRC "Request and Source" \
ASYNC_CLK_SRC_DEST "Source and Destination" \
ASYNC_CLK_DEST_REQ "Destination and Request" \
} {
add_parameter ${p}_MANUAL INTEGER 1
set_parameter_property ${p}_MANUAL DISPLAY_NAME [concat $name "Clock Asynchronous"]
set_parameter_property ${p}_MANUAL DISPLAY_HINT boolean
set_parameter_property ${p}_MANUAL HDL_PARAMETER false
set_parameter_property ${p}_MANUAL VISIBLE false
set_parameter_property ${p}_MANUAL GROUP $group
add_parameter $p INTEGER 1
set_parameter_property $p DISPLAY_NAME [concat $name "Clock Asynchronous"]
set_parameter_property $p DISPLAY_HINT boolean
set_parameter_property $p HDL_PARAMETER true
set_parameter_property $p DERIVED true
set_parameter_property $p GROUP $group
}
add_parameter CLK_DOMAIN_REQ INTEGER
set_parameter_property CLK_DOMAIN_REQ HDL_PARAMETER false
set_parameter_property CLK_DOMAIN_REQ SYSTEM_INFO {CLOCK_DOMAIN s_axi_clock}
set_parameter_property CLK_DOMAIN_REQ VISIBLE false
set_parameter_property CLK_DOMAIN_REQ GROUP $group
set src_clks { \
{CLK_DOMAIN_SRC_AXI m_src_axi_clock} \
{CLK_DOMAIN_SRC_SAXI if_s_axis_aclk} \
{CLK_DOMAIN_SRC_FIFO if_fifo_wr_clk} \
}
set dest_clks { \
{CLK_DOMAIN_DEST_AXI m_dest_axi_clock} \
{CLK_DOMAIN_DEST_SAXI if_m_axis_aclk} \
{CLK_DOMAIN_DEST_FIFO if_fifo_rd_clk} \
}
foreach domain [list {*}$src_clks {*}$dest_clks] {
lassign $domain p clk
add_parameter $p INTEGER
set_parameter_property $p HDL_PARAMETER false
set_parameter_property $p SYSTEM_INFO [list CLOCK_DOMAIN $clk]
set_parameter_property $p VISIBLE false
set_parameter_property $p GROUP $group
}
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# axi4 slave
ad_ip_intf_s_axi s_axi_aclk s_axi_aresetn 12
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add_interface interrupt_sender interrupt end
set_interface_property interrupt_sender associatedAddressablePoint s_axi
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set_interface_property interrupt_sender associatedClock s_axi_clock
set_interface_property interrupt_sender associatedReset s_axi_reset
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set_interface_property interrupt_sender ENABLED true
set_interface_property interrupt_sender EXPORT_OF ""
set_interface_property interrupt_sender PORT_NAME_MAP ""
set_interface_property interrupt_sender CMSIS_SVD_VARIABLES ""
set_interface_property interrupt_sender SVD_ADDRESS_GROUP ""
add_interface_port interrupt_sender irq irq Output 1
proc axi_dmac_validate {} {
set auto_clk [get_parameter_value AUTO_ASYNC_CLK]
set type_src [get_parameter_value DMA_TYPE_SRC]
set type_dest [get_parameter_value DMA_TYPE_DEST]
set max_burst 32768
if {$auto_clk == true} {
global src_clks dest_clks
set req_domain [get_parameter_value CLK_DOMAIN_REQ]
set src_domain [get_parameter_value [lindex $src_clks $type_src 0]]
set dest_domain [get_parameter_value [lindex $dest_clks $type_dest 0]]
if {$req_domain != 0 && $req_domain == $src_domain} {
set_parameter_value ASYNC_CLK_REQ_SRC 0
} else {
set_parameter_value ASYNC_CLK_REQ_SRC 1
}
if {$src_domain != 0 && $src_domain == $dest_domain} {
set_parameter_value ASYNC_CLK_SRC_DEST 0
} else {
set_parameter_value ASYNC_CLK_SRC_DEST 1
}
if {$dest_domain != 0 && $dest_domain == $req_domain} {
set_parameter_value ASYNC_CLK_DEST_REQ 0
} else {
set_parameter_value ASYNC_CLK_DEST_REQ 1
}
} else {
foreach p {ASYNC_CLK_REQ_SRC ASYNC_CLK_SRC_DEST ASYNC_CLK_DEST_REQ} {
set_parameter_value $p [get_parameter_value ${p}_MANUAL]
}
}
foreach p {ASYNC_CLK_REQ_SRC ASYNC_CLK_SRC_DEST ASYNC_CLK_DEST_REQ} {
set_parameter_property ${p}_MANUAL VISIBLE [expr $auto_clk ? false : true]
set_parameter_property $p VISIBLE $auto_clk
}
foreach suffix {SRC DEST} {
if {[get_parameter_value DMA_TYPE_$suffix] == 0} {
set show_axi_protocol true
set proto [get_parameter_value DMA_AXI_PROTOCOL_$suffix]
set width [get_parameter_value DMA_DATA_WIDTH_$suffix]
if {$proto == 0} {
set max_burst [expr min($max_burst, $width * 256 / 8)]
} else {
set max_burst [expr min($max_burst, $width * 16 / 8)]
}
} else {
set show_axi_protocol false
}
set_parameter_property DMA_AXI_PROTOCOL_$suffix VISIBLE $show_axi_protocol
}
foreach suffix {SRC DEST} {
if {[get_parameter_value DMA_TYPE_$suffix] == 1} {
set_parameter_property USE_TLAST_$suffix VISIBLE true
} else {
set_parameter_property USE_TLAST_$suffix VISIBLE false
}
}
set_parameter_property MAX_BYTES_PER_BURST ALLOWED_RANGES "1:$max_burst"
}
# conditional interfaces
# axi4 destination/source
add_interface m_dest_axi_clock clock end
add_interface_port m_dest_axi_clock m_dest_axi_aclk clk Input 1
add_interface m_dest_axi_reset reset end
set_interface_property m_dest_axi_reset associatedClock m_dest_axi_clock
add_interface_port m_dest_axi_reset m_dest_axi_aresetn reset_n Input 1
add_interface m_src_axi_clock clock end
add_interface_port m_src_axi_clock m_src_axi_aclk clk Input 1
add_interface m_src_axi_reset reset end
set_interface_property m_src_axi_reset associatedClock m_src_axi_clock
add_interface_port m_src_axi_reset m_src_axi_aresetn reset_n Input 1
# axis destination/source
ad_alt_intf clock m_axis_aclk input 1 clk
ad_alt_intf signal m_axis_valid output 1 valid
ad_alt_intf signal m_axis_data output DMA_DATA_WIDTH_DEST data
ad_alt_intf signal m_axis_ready input 1 ready
ad_alt_intf signal m_axis_last output 1 last
ad_alt_intf signal m_axis_xfer_req output 1 xfer_req
ad_alt_intf clock s_axis_aclk input 1 clk
ad_alt_intf signal s_axis_valid input 1 valid
ad_alt_intf signal s_axis_data input DMA_DATA_WIDTH_SRC data
ad_alt_intf signal s_axis_ready output 1 ready
ad_alt_intf signal s_axis_last input 1 last
ad_alt_intf signal s_axis_xfer_req output 1 xfer_req
ad_alt_intf signal s_axis_user input 1 user
# fifo destination/source
ad_alt_intf clock fifo_rd_clk input 1 clk
ad_alt_intf signal fifo_rd_en input 1 valid
ad_alt_intf signal fifo_rd_valid output 1 valid
ad_alt_intf signal fifo_rd_dout output DMA_DATA_WIDTH_DEST data
ad_alt_intf signal fifo_rd_underflow output 1 unf
ad_alt_intf signal fifo_rd_xfer_req output 1 xfer_req
ad_alt_intf clock fifo_wr_clk input 1 clk
ad_alt_intf signal fifo_wr_en input 1 valid
ad_alt_intf signal fifo_wr_din input DMA_DATA_WIDTH_SRC data
ad_alt_intf signal fifo_wr_overflow output 1 ovf
ad_alt_intf signal fifo_wr_sync input 1 sync
ad_alt_intf signal fifo_wr_xfer_req output 1 xfer_req
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proc add_axi_master_interface {axi_type port suffix} {
add_interface $port $axi_type start
set_interface_property $port associatedClock ${port}_clock
set_interface_property $port associatedReset ${port}_reset
set_interface_property $port readIssuingCapability 1
add_interface_port $port ${port}_awvalid awvalid Output 1
add_interface_port $port ${port}_awaddr awaddr Output 32
add_interface_port $port ${port}_awready awready Input 1
add_interface_port $port ${port}_wvalid wvalid Output 1
add_interface_port $port ${port}_wdata wdata Output DMA_DATA_WIDTH_${suffix}
add_interface_port $port ${port}_wstrb wstrb Output DMA_DATA_WIDTH_${suffix}/8
add_interface_port $port ${port}_wready wready Input 1
add_interface_port $port ${port}_bvalid bvalid Input 1
add_interface_port $port ${port}_bresp bresp Input 2
add_interface_port $port ${port}_bready bready Output 1
add_interface_port $port ${port}_arvalid arvalid Output 1
add_interface_port $port ${port}_araddr araddr Output 32
add_interface_port $port ${port}_arready arready Input 1
add_interface_port $port ${port}_rvalid rvalid Input 1
add_interface_port $port ${port}_rresp rresp Input 2
add_interface_port $port ${port}_rdata rdata Input DMA_DATA_WIDTH_${suffix}
add_interface_port $port ${port}_rready rready Output 1
add_interface_port $port ${port}_awlen awlen Output "8-(4*DMA_AXI_PROTOCOL_${suffix})"
add_interface_port $port ${port}_awsize awsize Output 3
add_interface_port $port ${port}_awburst awburst Output 2
add_interface_port $port ${port}_awcache awcache Output 4
add_interface_port $port ${port}_awprot awprot Output 3
add_interface_port $port ${port}_wlast wlast Output 1
add_interface_port $port ${port}_arlen arlen Output "8-(4*DMA_AXI_PROTOCOL_${suffix})"
add_interface_port $port ${port}_arsize arsize Output 3
add_interface_port $port ${port}_arburst arburst Output 2
add_interface_port $port ${port}_arcache arcache Output 4
add_interface_port $port ${port}_arprot arprot Output 3
# Some signals are mandatory in Altera's implementation of AXI3
# awid, awlock, wid, bid, arid, arlock, rid, rlast
# Hide them in AXI4
add_interface_port $port ${port}_awid awid Output 1
add_interface_port $port ${port}_awlock awlock Output "1+DMA_AXI_PROTOCOL_${suffix}"
add_interface_port $port ${port}_wid wid Output 1
add_interface_port $port ${port}_arid arid Output 1
add_interface_port $port ${port}_arlock arlock Output "1+DMA_AXI_PROTOCOL_${suffix}"
add_interface_port $port ${port}_rid rid Input 1
add_interface_port $port ${port}_bid bid Input 1
add_interface_port $port ${port}_rlast rlast Input 1
if {$axi_type == "axi4"} {
set_port_property ${port}_awid TERMINATION true
set_port_property ${port}_awlock TERMINATION true
set_port_property ${port}_wid TERMINATION true
set_port_property ${port}_arid TERMINATION true
set_port_property ${port}_arlock TERMINATION true
set_port_property ${port}_rid TERMINATION true
set_port_property ${port}_bid TERMINATION true
if {$port == "m_dest_axi"} {
set_port_property ${port}_rlast TERMINATION true
}
}
}
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proc axi_dmac_elaborate {} {
set fifo_size [get_parameter_value FIFO_SIZE]
set disabled_intfs {}
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# add axi3 or axi4 interface depending on user selection
foreach {suffix port} {SRC m_src_axi DEST m_dest_axi} {
if {[get_parameter_value DMA_AXI_PROTOCOL_${suffix}] == 0} {
set axi_type axi4
} else {
set axi_type axi
}
add_axi_master_interface $axi_type $port $suffix
}
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# axi4 destination/source
if {[get_parameter_value DMA_TYPE_DEST] == 0} {
set_interface_property m_dest_axi writeIssuingCapability $fifo_size
set_interface_property m_dest_axi combinedIssuingCapability $fifo_size
} else {
lappend disabled_intfs m_dest_axi_clock m_dest_axi_reset m_dest_axi
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}
if {[get_parameter_value DMA_TYPE_SRC] == 0} {
set_interface_property m_src_axi readIssuingCapability $fifo_size
set_interface_property m_src_axi combinedIssuingCapability $fifo_size
} else {
lappend disabled_intfs m_src_axi_clock m_src_axi_reset m_src_axi
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}
# axis destination/source
if {[get_parameter_value DMA_TYPE_DEST] != 1} {
lappend disabled_intfs \
if_m_axis_aclk if_m_axis_valid if_m_axis_data if_m_axis_ready \
if_m_axis_last if_m_axis_xfer_req
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}
if {[get_parameter_value DMA_TYPE_DEST] == 1 &&
[get_parameter_value USE_TLAST_DEST] == 0} {
set_port_property m_axis_last termination true
}
if {[get_parameter_value DMA_TYPE_SRC] != 1} {
lappend disabled_intfs \
if_s_axis_aclk if_s_axis_valid if_s_axis_data if_s_axis_ready \
if_s_axis_xfer_req if_s_axis_user if_s_axis_last
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}
if {[get_parameter_value DMA_TYPE_SRC] == 1 &&
[get_parameter_value SYNC_TRANSFER_START] == 0} {
set_port_property s_axis_user termination true
set_port_property s_axis_user termination_value 1
}
if {[get_parameter_value DMA_TYPE_SRC] == 1 &&
[get_parameter_value USE_TLAST_SRC] == 0} {
set_port_property s_axis_last termination true
set_port_property s_axis_last termination_value 0
}
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# fifo destination/source
if {[get_parameter_value DMA_TYPE_DEST] != 2} {
lappend disabled_intfs \
if_fifo_rd_clk if_fifo_rd_en if_fifo_rd_valid if_fifo_rd_dout \
if_fifo_rd_underflow if_fifo_rd_xfer_req
}
if {[get_parameter_value DMA_TYPE_SRC] != 2} {
lappend disabled_intfs \
if_fifo_wr_clk if_fifo_wr_en if_fifo_wr_din if_fifo_wr_overflow \
if_fifo_wr_sync if_fifo_wr_xfer_req
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}
if {[get_parameter_value DMA_TYPE_SRC] == 2 &&
[get_parameter_value SYNC_TRANSFER_START] == 0} {
set_port_property fifo_wr_sync termination true
set_port_property fifo_wr_sync termination_value 1
}
if {[get_parameter_value ENABLE_DIAGNOSTICS_IF] != 1} {
lappend disabled_intfs diagnostics_if
}
foreach intf $disabled_intfs {
set_interface_property $intf ENABLED false
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}
}
set group "Debug"
add_parameter DISABLE_DEBUG_REGISTERS INTEGER 0
set_parameter_property DISABLE_DEBUG_REGISTERS DISPLAY_NAME "Disable debug registers"
set_parameter_property DISABLE_DEBUG_REGISTERS DISPLAY_HINT boolean
set_parameter_property DISABLE_DEBUG_REGISTERS HDL_PARAMETER false
set_parameter_property DISABLE_DEBUG_REGISTERS GROUP $group
add_parameter ENABLE_DIAGNOSTICS_IF INTEGER 0
set_parameter_property ENABLE_DIAGNOSTICS_IF DISPLAY_NAME "Enable Diagnostics Interface"
set_parameter_property ENABLE_DIAGNOSTICS_IF DISPLAY_HINT boolean
set_parameter_property ENABLE_DIAGNOSTICS_IF HDL_PARAMETER true
set_parameter_property ENABLE_DIAGNOSTICS_IF GROUP $group
add_interface diagnostics_if conduit end
add_interface_port diagnostics_if dest_diag_level_bursts dest_diag_level_bursts Output "8"