Use over-writable parameters from the environment.
e.g.
make JESD_MODE=64B66B RX_RATE=24.75 TX_RATE=12.375 REF_CLK_RATE=375 RX_JESD_L=4 TX_JESD_L=4
make JESD_MODE=64B66B RX_RATE=16.22016 TX_RATE=16.22016 REF_CLK_RATE=245.76 RX_JESD_M=8 RX_JESD_L=2 TX_JESD_M=16 TX_JESD_L=4
make JESD_MODE=8B10B RX_JESD_L=4 RX_JESD_M=8 TX_JESD_L=4 TX_JESD_M=8
The previous mechanism was "probing" the DMAs for valid data. Better said,
each interpolation channel enabled it's DMA until a valid data was received,
then it disabled the DMA read and waited for the adjacent channel(DMA) to
receive a valid data. Only when for both channels had valid data on the
DMAs interfaces was the transmission started. This added an undesired and
redundant complexity to the interpolation channels. Furthermore, for continuous
transmission, using the above mechanism lead to a fixed phase(sample)
shift between the two channels at each start.
By using the streaming mechanism the interface is simplified and the
above problems are solved.
For Intel projects:
In cases where the clock of source synchronous interface is not routed
through a clock capable pin the DPA receive mode can't be used. Instead
the clock will be routed through a clock buffer from an IO to the clock
tree and from there to the IOPLL.
Because fmcomms2 was not supported on a Intel carriers the
fmcomms2_qsys.tcl file got outdated.
The arradio project has the same hdl design. Hence the update is
merely a copy of the arradio_qsys.tcl with small changes.
This commit fixes the critical warning regarding the missing clock
definitions.
- Defined MDC(MDIO) clocks
- Set false path on(to) the ps8 MDIO input pins. There are synchronization
stages in the GMII to RGMII converter for the CDC between the 375M refclk
and 2.5M MDC clock domains.
implemented mux for temp reading either from internal or external
source; updated regmap; added param to identify source for temp
information; updated tacho measurements; added AVG_POW param used
for tacho measuremet average useful for simulations; defaults for
tacho measurements changed to params and added registers; added
prescaler for fsm control, FSM updated; changed register write
process; connected INTERNAL_SYSMONE to regmap, value can now be
read by software;
parameters with same names were duplicated with transceiver specific
names due different default values.
This does not scales very well.
Use same name for the parameters as for other parameters and do the
default value handling in the IP configuration layer.
Istvan Csomortani
Laszlo Nagy
Adrian Costina
AndreiGrozav
sarpadi
StancaPop
sraus