Commit Graph

5 Commits (cdb9a0af2b6c45d1745ca6296ca79205a5758d12)

Author SHA1 Message Date
stefan.raus 37238916df Testbenches: Unify and optimize HDL testbenches
Create a common 'run_tb.sh' script to be called by every testbench.
Unify file and testbenches names.
Fix util_pack/cpack_tb.
Add parameters '-batch' and '-gui' for modelsim and xsim simulators (default is gui)
Add ascript for that generates output in xml format (used by CI tools).
2021-05-07 19:53:14 +03:00
Istvan Csomortani 157afcbc33 tb_base: Fix various test benches
The tb_base.v verilog files does not contain a full module definition,
just some plain test code. In general the files is sourced inside the
test bench main module. As is, defining a timescale in these files will
generate an error, because timescale directive can not be inside a
module.

Delete all the timescale directive from these files.
2019-05-17 11:20:48 +03:00
Adrian Costina 168e1951ee library: Add `timescale to modules that are missing it 2019-05-15 15:37:44 +03:00
Lars-Peter Clausen 0a30cdbf99 Add util_cpack2 core
The util_cpack2 core is similar to the util_upack core. It packs, or
interleaves, a data from multiple ports into a single data. Ports can
optionally be enabled or disabled.

On the input side the cpack2 core uses a multi-port FIFO interface. There
is a single data write signal (fifo_wr_en) for all ports. But each port can
be individually enabled or disabled using the enable signals.

On the output side the cpack2 core uses a single port FIFO interface. When
data is available on the output interface the data write signal
(packed_fifo_wr_en). Data on the packed_fifo_wr_data signal is only valid
when packed_fifo_wr_en is asserted. At other times the content is
undefined. The cpack2 core offers no back-pressure. If data is not consumed
when it is made available it will be lost.

Data from the input ports is accumulated inside the cpack2 core and if
enough data is available to produce a full output vector the data is
forwarded.

This core is build using the common pack infrastructure. The core that is
specific to the cpack2 core is mainly only responsible for generating the
control signals for the external interfaces.

The core is accompanied by a test bench that verifies correct behavior for
all possible combinations of enable masks.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2018-11-28 11:33:11 +02:00
Lars-Peter Clausen 90540bf447 Add util_upack2 core
The util_upack2 core is similar to the util_upack core. It unpacks, or
deinterleaves, a data stream onto multiple ports.

The upack2 core uses a streaming AXI interface for its data source instead
of a FIFO interface like the upack core uses.

On the output side the upack2 core uses a multi-port FIFO interface. There
is a single data request signal (fifo_rd_en) for all ports. But each port
can be individually enabled or disabled using the enable signals.

This modified architecture allows the upack2 core to better generate the
valid and underflow control signals to indicate whether data is available
in a response to a data request.

If fifo_rd_en is asserted and data is available the fifo_rd_valid signal
are asserted in the following clock cycle. The enabled fifo_rd_data ports
will be contain valid data during the same clock cycle as fifo_rd_valid is
asserted. During other clock cycles the output data is undefined. On
disabled ports the data is always undefined.

If no data is available instead the fifo_rd_underflow signal is asserted in
the following clock cycle and the output of all fifo_rd_data ports is
undefined.

This core is build using the common pack infrastructure. The core that is
specific to the upack2 core is mainly only responsible for generating the
control signals for the external interfaces.

The core is accompanied by a test bench that verifies correct behavior for
all possible combinations of enable masks.

Signed-off-by: Lars-Peter Clausen <lars@metafoo.de>
2018-11-28 11:33:11 +02:00