Commit Graph

5230 Commits (7a685dd443f6acc0b893301a6f58ea0b18885967)

Author SHA1 Message Date
AndreiGrozav 7a685dd443 cn0506_rgmii/zcu102: Fix README typo 2019-09-26 16:33:45 +03:00
sarpadi 442b38033a sys_id: added catch to git status check
made error checking more general
2019-09-26 16:26:02 +03:00
AndreiGrozav 447434ace0 cn0506_rgmii: Add support for a10soc 2019-09-20 18:03:27 +03:00
AndreiGrozav 1138c48270 cn0506_rgmii: Add support for zcu102 2019-09-20 18:03:27 +03:00
AndreiGrozav f4f547715e cn0506_rgmii: Add support for zc706 2019-09-20 18:03:27 +03:00
AndreiGrozav 98fba87d8f cn0506_rgmii: Add support for zed 2019-09-20 18:03:27 +03:00
AndreiGrozav afd9420dab cn0506_rgmii: base design initial commit 2019-09-20 18:03:27 +03:00
Laszlo Nagy 7c3b4a5c73 ad9208_dual_ebz: Cleanup workarounds
Cleanup placement constraints and let the tool have more freedom to
place and route the design. This is possible only after balancing the
memory and system clocks.
2019-09-16 10:00:14 +03:00
Laszlo Nagy b7d48b8c74 common/vcu118: Balance clocks
Minimize skew on synchronous CDC timing paths between clocks originating
from the same MMCM source. (sys_mem_clk and sys_cpu_clk)
This is required mostly by the smart interconnect.
The CLOCK_DELAY_GROUP property must be applied directly to the output net of BUFGs.
2019-09-16 10:00:14 +03:00
AndreiGrozav cfc8ff51e1 axi_adc_trigger: equalize delay paths
- Change the trigger delay path to match between the internal and
external(axi_logic_analyzer delays).
2019-09-13 11:55:11 +03:00
AndreiGrozav 9f112640f3 m2k: Change constraint to match the new LA path 2019-09-13 11:55:11 +03:00
AndreiGrozav f5ac0f7019 axi_logic_analyzer: equalize delay paths
- Add parameter for input data delay time to easily match the one of the
adc_trigger.
- Change the trigger delay path to match between the internal and
external(adc_trigger delays).
2019-09-13 11:55:11 +03:00
AndreiGrozav 5e08e2d548 project-xilinx.mk: Fix build condition
"prepare_incremental_compile" is defined as a phony target, but is also a
prerequisite of a real target. This will lead to a complete project build
every time make is called.
To fix the issue the functionality of prepare_incremental_compile target
was included in the generic project build target.
2019-09-12 13:23:09 +03:00
StancaPop abb5e7d94d
Merge pull request #345 from analogdevicesinc/axi_spi_engine_fix
axi_spi_engine: Fix the SYNC interface
2019-09-11 17:21:11 +03:00
Stanca Pop 5ec87615b0 axi_spi_engine: Fix the SYNC interface
The ready signal of the SYNC interface should be always 1'b1,
regardless of ASYNC_SPI_VALUE.

Drive the ready with one in both branches of the ASYNC_SPI_CLK
generate block.
2019-09-11 16:45:30 +03:00
István Csomortáni 953b70480d template: Add a bug report and feature request template 2019-09-04 16:22:14 +03:00
AndreiGrozav a69863609b axi_adc_trigger: Fix trigger out glitches
Currently trigger out pin is hold for 1ms in the next translation(t+1)
state(0 or 1). But not in the state that follows (t+2). This commit
fixes this issue and simplifies the logic.
2019-08-30 14:00:43 +03:00
Istvan Csomortani 97dfb938b6 axi_laser_driver: Fix the up_axi instance 2019-08-29 08:59:56 +03:00
Istvan Csomortani 16a797198f ad_fmclidar1_ebz/common: Fix m_dest_axi_aresetn source 2019-08-29 08:59:56 +03:00
Istvan Csomortani 78815435d2 ad_fmclidar1_ebz/common: Connect adc_dovf to GND 2019-08-29 08:59:56 +03:00
Istvan Csomortani f14bea2b7e ad_fmclidar1_ebz/zc706: Add sys_id support 2019-08-29 08:59:56 +03:00
Istvan Csomortani 3cd82c989c ad_3w_spi: Add a 4-wire to 3-wire SPI converter
The module is compliant with the SPI interface specified in ADI-SPI
technical specification.
(https://wiki.analog.com/_media/resources/technical-guides/adispi_rev_1p0_customer.pdf)
2019-08-28 16:13:12 +03:00
Arpadi 63942a6b9b talise_fan_control: updated ip with new fan parameters 2019-08-26 19:01:48 +03:00
Istvan Csomortani aa5fdf903e Makefile: Update makefiles 2019-08-26 16:58:01 +03:00
Istvan Csomortani aa070ef940 README.md: State the main purpose of the repository 2019-08-26 16:32:23 +03:00
AndreiGrozav e7cca7c5f7 m2k: Update for axi_dac_interpolate start sync 2019-08-22 18:07:45 +03:00
AndreiGrozav 245f3f9704 axi_dac_interpolate: Fix channel sync mechanism
The previous channel sync mechanism was simply holding the transmission by
pulling down the dma_rd_en of the two DMAs for each channel(set reg 0x50). After a
period of time (that will take the two DMAs to have the data ready to move)
the dma_rd_en was set for both channels, resulting in a synchronized start.
  This mechanism is valid when the two channels are streaming the same
type of data (constant, waveform, buffer or math) at close frequencies.
Streaming 10MHz on a channel and 100KHz on the second one will result
in different interpolation factors being used for the two channels.
  The interpolation counter runs only when the dma_transfer_suspended(reg 0x50)
is cleared. Because of this, different delays are added by the interpolation
counter one DMA with continuous dma_rd_en will have data earlier than the
one with dma_rd_en controlled by the interpolation counter. Furthermore,
because the interpolation counter value is not reset at each
dma_transfer_suspended, the phase shift between the 2 channels will
differ at each start of transmission.

  To make the transfer start synced immune to the above irregularities a
sync_transfer_start register was added (bit 1 of the 0x50 reg).
When this bit is set and the bit 0(dma_transfer_suspended) is toggled,
the interpolation counters are reset. Each channel enables it's DMA until
valid data is received, then it waits for the adjacent channel to get valid data.
This mechanism will be simplified in a future update by using a streaming
interface between the axi_dac_interpolate and the DMAs that does not require
the probing of the DMA.
2019-08-22 18:07:45 +03:00
AndreiGrozav 53f466a93e axi_adc_trigger: Fix low sampling rate external trigger acknoladge
The decimation module controls the valid signal. The whole triggering mechanism
is active only when the valid signal is active.
In the case of low sampling rates, the valid signal is active once every
n clock cycles. If an external trigger condition is fulfilled and the data valid
signal is low at the time, that trigger will be ignored by the DMA.

To solve this issue, the trigger is held high until the valid is asserted.
And it stays high for at least one clock cycle.
2019-08-22 18:06:10 +03:00
AndreiGrozav 6f540b0ef2 m2k: Add cascading support
-remove util_extract
-instrument triggering logic_analyzer <-> adc_trigger using dedicated latency paths
-move logic_analyzer on adc clock domain (100MHz -> 100MHz)
2019-08-22 18:06:10 +03:00
AndreiGrozav 3b02a2a6c1 axi_logic_analyzer: Add module cascade support
The trigger signal that goes to the DMA(fifo_wr_sync) does not pass through
the variable fifo, for this reason, a 3 clock cycles delay is required, to
keep in sync the data with the trigger.
On the other hand, to be able to cascade the axi_logic_analyzer with
axi_adc_trigger, there should be small delays on the trigger path, for this
reason the trigger_out_adc was created.

Remove the extra delays on the trigger_i(external trigger pins).
2019-08-22 18:06:10 +03:00
AndreiGrozav 30bdb67994 util_extract: Use less delays in axi_adc_trigger 2019-08-22 18:06:10 +03:00
AndreiGrozav b5dfdcfb84 axi_adc_trigger: Add cascade support.
- Add embedded trigger as an option. The use of the embedded trigger as an
option in the data stream is done for further processing, keeping the data
synchronized with the trigger.
When instrument (module) trigger is desired (logic_analyzer - adc_trigger),
a small propagation time is required, hence the need to remove the
util_extract(trigger extract) module from the data path.

- Add more options for the IO triggering. This will open the door for multiple
M2k synchronization(triggering).
trigger_o mux:
1 - trigger flag (from regmap)
2 - external pin trigger (Ti)
3 - external pin trigger (To)
4 - internal adc trigger
5 - logic analyzer trigger

The signal passed to trigger_o must not be delayed, but the new value has to be
kept for a short period, 1ms (100000 clock cycles), to reduce switch noises in
the system.

The axi_adc_trigger handles 3 output triggers:
- trigger_o - external trigger (1 clock cycle delay)
- trigger_out - signals on dmac/fifo_wr_sync the start of a new transfer.
A variable fifo depth is present in the data path, which delays the data
arriving at the DMA with 3 clock cycles. By coincidence, the external trigger
is synchronized and detected on 3 clock cycles. To get a maximum optimization
the trigger_out will be delayed with 3 clock cycles for internal triggers and
directly forwarded in the case of an external trigger.
- trigger_out_la (cascade trigger for logic_analyzer - m2k example)

Because the trigger_out_la must have a small delay, to get a realible
instrument triggering mechanism, a 1 delay clock cycle must be added on the
trigger paths, to avoid creating a closed combinatorial loop.

Increase pcore version. The major version 3 is used to describe the instrument
trigger updates.
2019-08-22 18:06:10 +03:00
Arpadi baacc906a6 ad7616_bugfix: read data multiplexation 2019-08-22 17:59:00 +03:00
Nick Pillitteri b77f922de0 axi_generic_adc: infer clock for input adc_clk 2019-08-22 10:39:59 +03:00
AndreiGrozav 78afe38a3f adrv9009: Add decimation and interpolation filters 2019-08-20 16:24:47 +03:00
AndreiGrozav 44deaadb4a adrv9371: Add decimation and interpolation filters 2019-08-20 16:24:47 +03:00
AndreiGrozav 36a1767329 Add generic fir filters processes for RF projects 2019-08-20 16:24:47 +03:00
Laszlo Nagy 0261eade0c zynq:all: fix SPI clock constraint
According to data sheets the EMIO SPI controller maximum frequency is
just 25MHz. Constrain the SPI clock accordingly.
2019-08-09 16:39:56 +03:00
Laszlo Nagy 7f72340be8 axi_dmac: fix timing constraints
When source clock is asynchronous to request clock the rewind request
handshake block must be constrained based on request clock domain.
2019-08-08 14:26:07 +03:00
Istvan Csomortani 6fad82c329 ad_fmclidar1_ebz/zc706: Define device clock and SYSREF timing relation 2019-08-08 14:26:07 +03:00
Istvan Csomortani 056c43dc98 axi_laser_driver: Set default value for sequencer offset 2019-08-08 14:26:07 +03:00
Istvan Csomortani d43e6ee239 axi_laser_driver: TIA's are controlled individually in manual mode
Update the sequencer, so the TIA channel selection can be controlled separately
for each TIA, when the sequencer runs in manual mode.
2019-08-08 14:26:07 +03:00
Istvan Csomortani ea158ee42b ad_fmclidar_ebz: Fix AFE's SPI interface connection 2019-08-08 14:26:07 +03:00
Istvan Csomortani 3290838743 ad_fmclidar1_ebz: Add a dummy ADC channel with TIA channel info
Software has to know which TIA channel was used for a particular capture.
Define an additional dummy ADC channel which will provide this
information. Currently this channel is always enabled.
2019-08-08 14:26:07 +03:00
Istvan Csomortani d096b8f6f4 ad_fmclidar1_ebz: Move the util_axis_syncgen into common direcotry 2019-08-08 14:26:07 +03:00
Istvan Csomortani ea18636586 ad_fmclidar1_ebz: Connect the TIA sequencer to the GPIOs 2019-08-08 14:26:07 +03:00
Istvan Csomortani 21bbc900c8 ad_fmclidar1_ebz: Initial commit
This commit was created by squashing the following commits, these
messages were kept just for sake of history:

  ad9694_500ebz: Mirror the SPI interface to FMCB
  ad9694_500ebz: Set transceiver reference clock to 250
  ad9694_500ebz: Allow to configure number of lanes, number of converters
                 and sample rate
  axi_ad9694: Fix number of lanes, it must be 2
  ad9694_500ebz: Update the mirrored spi pin assignments
  ad9694_500ebz: Gate SPI MISO signals based on chip-select
  ad9694_500ebz: Set channel pack sample width
  ad9694_500ebz: Change reference clock location
  ad9694_500ebz: Remove transceiver memory map arbitration
  ad9694_500ebz: Ensure ADC FIFO DMA_DATA_WIDTH is not larger ADC_DATA_WIDTH
  ad9694_500ebz: Adjust breakout board pin locations
  ad_fmclidar1_ebz: Rename the ad9694_500ebz project
  ad_fmclidar1_ebz: Fix lane mapping
  ad_fmclidar1_ebz: Delete deprecated files
  ad_fmclidar1_ebz: Integrate the axi_laser_driver into the design
  ad_fmclidar1_ebz: OTW is an active low signal
  ad_fmclidar1_ebz: zc706: Fix iic_dac signals assignment
  ad_fmclidar1_ebz: Switch to util_adcfifo
  ad_fmclidar1_ebz: Enable synced capture for the fifo
  ad_fmclidar1_ebz/zc706: Enable CAPTURE_TILL_FULL
  ad_fmclidar1_ebz/zc706: Reduce FIFO size to 2kB
  ad_fmclidar1_ebz: Laser driver runs on ADC's core clock
  ad_fmclidar1_ebz_bd: Delete the FIFO instance

     Because the DMA transfers are going to be relatively small (< 2kbyte),
     the DMA can handle the data rate, even when the frequency of the laser
     driver pulse is set to its maximum value. (200 kHz)

     The synchronization will be done by connecting the generated pulse to
     the DMA's SYNC input. Although, to support 2 or 1 channel scenarios, we
     need to use the util_axis_syncgen module to make sure that the DMA
     catches the pulse, in cases when the pulse width is too narrow. (SYNC is
     captures when valid and ready is asserted)

     Also we have to reset the cpack IP before each pulse, to keep the DMA buffer's
     relative starting point in time fixed, when only 2 or 1 channel is
     active.
2019-08-08 14:26:07 +03:00
Istvan Csomortani 9422da7908 util_axis_syncgen: Initial commit
The module can receive a synchronous or asynchronous pulse with an arbitrary
width and generate a SYNC signal for the DMA Source AXI Streaming interface.

This way we can synchronize the DMA transfers to an external
pulse/signal.
2019-08-08 14:26:07 +03:00
Istvan Csomortani 75d1379618 axi_laser_driver: Initial commit
The laser driver contains the axi_pulse_gen's IP and an additional
register map which controls/monitor the laser driver enable control line
and the over temperature warning line (OTW).

It also contains an interrupt logic, which allows to generate an
interrupt in function of the generated pulse or incoming OTW signal.

The IPs register maps looks as follow:

0x00 - axi_pulse_gen register map
0x80 - axi_laser_driver register map
  0x80 - DRIVER_ENABLE
  0x84 - DRIVER_OTW
  0x88 - EXT_CLK_COUNTER
  0xA0 - IRQ_MASK
  0xA4 - IRQ_SOURCE
  0xA8 - IRQ_PENDING
  0xAC - SEQUENCER_CONTROL
         0 - SEQUENCER_ENABLE
         1 - AUTO_SEQUENCER_ENABLED
  0xB0 - SEQUENCER_SYNC_OFFSET
  0xB4 - AUTO_SEQUENCE
         [ 1: 0] - CHANNEL_SEL_0
         [ 5: 4] - CHANNEL_SEL_1
         [ 9: 8] - CHANNEL_SEL_2
         [13:12] - CHANNEL_SEL_3
  0xB8 - MANUAL_SEQUENCE
         [ 1: 0] - MANUAL_CHANNEL_SEL

Current interrupt sources scheme is:
    - bit 0 : pulse (triggered by the level of the pulse)
    - bit 1 : OTW_N enter (triggered by positive edge of the OTW_N)
    - bit 2 : OTW_N exit (triggered by the level of the pulse)

Generate a reset signal before the pulse which can be used to reset
various IP's of the data path (eg. pack/cpack). This can help to clear out the
internal buffers and registers of these IP, starting clean at the moment when
the actual pulse arrives.

The sequencer has an auto and a manual mode, and can be set to custom
sequences of the TIA channel selection lines sate.

The sequencer in auto mode is synchronized to the pulse, it will change
its state before a generated pulse which will drive the lasers. The
offset between the sequencer beat and the laser driver pulse can be
modified through an AXI register.
2019-08-08 14:26:07 +03:00
Istvan Csomortani d4200aee9a axi_pulse_gen_regmap: Rename the clk output to clk_out 2019-08-08 14:26:07 +03:00