Commit Graph

9 Commits (7a04b4723bdf507129615b6899154a451e3cf951)

Author SHA1 Message Date
Lars-Peter Clausen 634340c170 jesd204: jesd204_up_common: Rename clock monitor instance to i_clock_mon
The generic Altera clock monitor constraints expect the instance to be
called i_clock_mon. Adjust the code accordingly.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-07-20 19:45:26 +02:00
Lars-Peter Clausen 1f2e189ff2 jesd204: jesd204_up_sysref: Remove unused signals
These signals are leftovers of an earlier implementation version, remove
them.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-07-17 17:13:02 +02:00
Lars-Peter Clausen a9fe0fa530 jesd204: jesd204_up_common: Add missing core_cfg_transfer_en declaration
Make sure the core_cfg_transfer_en signal is declared before they are used.
Strictly speaking the current code is correct and synthesis correctly, but
declaring the signals make the intentions of the code more explicit.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-07-17 17:13:02 +02:00
Lars-Peter Clausen 9e50f5afa8 jesd204: Handle sysref events in the register map
There are currently two sysref related events. One the sysref captured
event which is generated when an external sysref edge has been observed.
The other is the sysref alignment error event which is generated when a
sysref edge is observed that has a different alignment from previously
observed sysref edges.

Capture those events in the register map. This is useful for error
diagnostic. The events are sticky and write-1-to-clear.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-06-20 17:39:41 +02:00
Lars-Peter Clausen d3b44906c3 jesd204: Properly align LMFC offset in register map
The internal LMFC offset signals are in beats, whereas the register map is
in octets. Add the proper alignment padding to the register map to
translate between the two.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-06-20 17:39:41 +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
Lars-Peter Clausen bf88527119 library: jesd204: jesd204_up_common: Fix indention
Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2017-06-20 17:39:41 +02:00
Rejeesh Kutty 6a437472f2 jesd204-sub-ip- no top files 2017-06-01 15:48:48 -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