Commit Graph

15 Commits (f8c82c611d9f200362f442fb49474dad3d6aec49)

Author SHA1 Message Date
Laszlo Nagy e08ca2fc20 jesd204: Add out of context constraint file for link layer cores
For the out of context flow it is important to have all clocks defined
at the interface, especially if the clock are used in the other constraints.
2021-05-14 15:39:40 +03:00
Laszlo Nagy 71475e7dd8 jesd204: Expose core synthesis parameters through registers
Make synthesis parameters accessible for the drivers.
Rework implementation to reflect the parameters of the actual core and
not of the AXI interfacing core.
2021-02-05 15:24:15 +02:00
Laszlo Nagy 454b900f90 jesd204: Xilinx: NP=12 support
To support deterministic latency with non-power of two octets per frame
(F=3,6) the interface width towards the transport layer must be resized
to match integer multiple of frames.

e.g  Input datapath width = 4; Output datpath width = 6;
  for F=3 one beat contains 2 frames
  for F=6 one beat contains 1 frame

The width change is realized with a gearbox.

Due the interface width change the single clock domain core is split
in two clock domains.
  - Link clock : lane rate / 40 for input datapath width of 4 octets 8b10b
  -              lane rate / 20 for input datapath width of 8 octets 8b10b
  -              lane rate / 66 for input datapath width of 8 octets 64b66b

  - Device clock : Link clock * input data path width / output datapath width

Interface to transport layer and SYSREF handling is moved to device clock domain.

The configuration interface reflects the dual clock domain.

If Input and Output datapath width matches, the gearbox is no longer
required, a single clock can be connected to both clocks.
2021-02-05 15:24:15 +02:00
Matt Blanton 400c3927f7 jesd204: Add support for 8-byte JESD204B, frame alignment character insertion/replacement
Add support to JESD204 RX and TX core for 8-byte 8b/10b link mode,
and frame alignment character replace/insert with or without scrambling.
Add support for xcelium simulator to jesd204/tb
Increased cores minor version.
2021-02-05 15:24:15 +02:00
Laszlo Nagy d9a31e8d83 jesd204_tx: Support for 64b mode in transmit peripheral
Instantiate 64B/66B mode encoder based on synthesis parameter.
2020-02-10 09:47:07 +02:00
Laszlo Nagy db573a59b0 jesd204: support for 16 lanes 2019-11-28 16:17:21 +02:00
Istvan Csomortani 363494ab9c library/scripts: Rename adi_ip.tcl to adi_ip_xilinx.tcl 2019-06-29 06:53:51 +03:00
Laszlo Nagy 0caea39bad jesd204_rx/tx: make SYSREF IOB placement optional
In case when the SYSREF is connected to an FPGA IO which has a limitation
on the IOB register IN_FF clock line and the required ref clock is high
we can't use the IOB registers.
e.g. the max clock rate on zcu102 HP IO FF is 312MHz but ref clock is 375MHz;

If IOB is used in this case a pulse width violation is reported.

This change makes the IOB placement selectable in such case or
for targets which don't require class 1 operation.
2018-07-24 09:16:24 +03:00
Istvan Csomortani da03572b32 jesd204_tx: Add dynamic multi-link support
A multi-link is a link where multiple converter devices are connected to a
single logic device (FPGA). All links involved in a multi-link are synchronous
and established at the same time. For a TX link this means that the FPGA receives
multiple SYNC signals, one for each link. The state machine of the TX link
peripheral must combine those SYNC signals into a single SYNC signal that is
asserted when either of the external SYNC signals is asserted.

Dynamic multi-link support must allow to select to which converter devices on
the multi-link the SYNC signal is propagated too. This is useful when depending
on the use case profile some converter devices are supposed to be disabled.

Add the cfg_links_disable[0x081] register for multi-link control and
propagate its value to the TX FSM.
2018-05-03 19:37:35 +03:00
Istvan Csomortani 09ff1f3a77 jesd204: Fix file names
All the file names must have the same name as its module. Change all the
files, which did not respect this rule.
Update all the make files and Tcl scripts.
2018-04-11 15:09:54 +03:00
Lars-Peter Clausen d345a1e31a jesd204: jesd204_tx: Add dummy valid for the TX data interface
The Xilinx tools are quite forgiving when it comes to required signals on
standard interfaces, which is why it was possible to define a AXI streaming
interface without the required valid signal.

The Altera tools are more strict and wont allow this. Add a dummy valid
signal to the TX data interface to make the tools happy. For now the signal
does not do anything, in the future it might be used to detect an underflow
condition on the data interface and report this through the status
interface.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-08-21 11:08:27 +02:00
Lars-Peter Clausen 918f226f3b jesd204_tx: Use the CDC sync_bits helper to synchronize the SYNC~ signal
Use the CDC sync_bits helper to synchronize the asynchronous external SYNC~
signal into the link clock domain, rather than open-coding this operation.

This makes it more explicit what is going on.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-08-07 17:44:23 +02:00
Lars-Peter Clausen baa256e34c jesd204: Slightly rework sysref handling
For SYSREF handling there are now three possible modes.

1) Disabled. In this mode the LMFC is generated internally and all external
SYSREF edges are ignored. This mode should be used for subclass 0 when no
external sysref is available.
2) Continuous SYSREF. An external SYSREF signal is required and the LMFC is
aligned to the SYSREF signal. The SYSREF signal is continuously monitored
and if a edge unaligned to the previous edges is detected the LMFC is
re-aligned to the new edge.
3) Oneshot SYSREF. Oneshot SYSREF mode is similar to continuous SYSREF mode
except only the first edge is captured and all further edges are ignored,
re-alignment will not happen.

Both in continuous and oneshot signal at least one external sysref edge is
required before an LMFC is generated. All events that require an LMFC will
be delayed until a SYSREF edge has been captured. This is done to avoid
accidental re-alignment.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-06-20 17:39:41 +02:00
Rejeesh Kutty dc94dd3ea7 jesd204- apply constraints after top 2017-06-16 15:30:18 -04:00
Lars-Peter Clausen 1202286c3d Add ADI JESD204 link layer cores
The ADI JESD204 link layer cores are a implementation of the JESD204 link
layer. They are responsible for handling the control signals (like SYNC and
SYSREF) and controlling the link state machine as well as performing
per-lane (de-)scrambling and character replacement.

Architecturally the cores are separated into two components.

1) Protocol processing cores (jesd204_rx, jesd204_tx). These cores take
care of the JESD204 protocol handling. They have configuration and status
ports that allows to configure their behaviour and monitor the current
state. The processing cores run entirely in the lane_rate/40 clock domain.

They have a upstream and a downstream port that accept and generate raw PHY
level data and transport level payload data (which is which depends on the
direction of the core).

2) Configuration interface cores (axi_jesd204_rx, axi_jesd204_tx). The
configuration interface cores provide a register map interface that allow
access to the to the configuration and status interfaces of the processing
cores. The configuration cores are responsible for implementing the clock
domain crossing between the lane_rate/40 and register map clock domain.

These new cores are compatible to all ADI converter products using the
JESD204 interface.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-05-23 11:16:07 +02:00