OpenResearchInstitute / dvb_fpga

RTL implementation of components for DVB-S2
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bch-fec dvb-s2 fpga hacktoberfest ldpc-codes vhdl

DVB FPGA

Unit tests Synthesis

This project aims to implement RTL components for DVB-S2, initially focusing on the transmission side.

System architecture
Functional block diagram of the DVB-S2 System from ETSI EN 302 307-1 V1.4.1

Functional guidelines

Components' status

Core DVB-S2 components

Component name Simulation HW testing
Baseband scrambler
BCH encoder
Bit interleaver
Constellation mapper
LDPC Encoder
Physical layer framing

Performance and resource usage (WIP)

The dvb_fpga/rtl/dvbs2_encoder.vhd top level has been run through Vivado targeting a xczu4cg-sfvc784-1LV-i and with a clock frequency of 300 MHz (both arbitrary). No timing issues were reported and the resource usage post implementation is show below. Table below assumes default values for generics, i.e., POLYPHASE_FILTER_NUMBER_TAPS = 33, POLYPHASE_FILTER_RATE_CHANGE = 2 and DATA_WIDTH = 32.

Component LUTs FFs RAMB DSPs
axi_baseband_scrambler 277 46 0 0
axi_bch_encoder 1397 1380 0 0
axi_ldpc_encoder 1017 558 6 0
axi_bit_interleaver 339 262 10 0
axi_constellation_mapper 599 253 0 0
axi_physical_layer_framer 280 268 0 0
+ axi_physical_layer_header 13 100 0 0
+ axi_physical_layer_scrambler 39 70 0 0
+ dummy_frame_generator 48 21 0 0
polyphase_filter_i/q 162 2168 0 64
Register map 586 318 0 0
Debug infrastructure 374 581 0 0
Others 1470 283 4 0
TOTAL ~6.5k ~6.1k 20 64

For details on what the "Others" row includes, see the DVB-S2 Tx top level block diagram in the wiki.

Running tests

Tests can be run locally or on a Docker container. Running locally will require GNU Radio, VUnit and a VHDL simulator.

Using Docker

Uses the same container used for CI

# Clone this repo and submodules
git clone --recurse-submodules  https://github.com/phase4ground/dvb_fpga
cd dvb_fpga
# Run the tests
./misc/run_tests.sh

Arguments passed to docker/run_tests.sh will be passed to run.py and, by extension, to VUnit (no environment variable is passed on though). This will generate gnuradio_data (test data).

Running locally

# Install VUnit
pip install vunit-hdl
# Clone this repo and submodules
git clone --recurse-submodules  https://github.com/phase4ground/dvb_fpga
cd dvb_fpga
# Run the tests
./run.py

The first invocation of run.py will run GNURadio and create stimulus files.

To list tests use ./run.py -l:

$ ./run.py -l
lib.axi_bit_interleaver_tb.data_width=8,all_parameters.back_to_back
lib.axi_bit_interleaver_tb.data_width=8,all_parameters.slow_master
lib.axi_bit_interleaver_tb.data_width=8,all_parameters.slow_slave
lib.axi_bit_interleaver_tb.data_width=8,all_parameters.both_slow
lib.axi_ldpc_table_tb.test_all_configs.back_to_back
lib.axi_ldpc_table_tb.test_all_configs.slow_master
lib.axi_ldpc_table_tb.test_all_configs.slow_slave
lib.axi_ldpc_table_tb.test_all_configs.slow_master,slow_slave
lib.axi_bch_encoder_tb.test_all_configs.back_to_back
lib.axi_bch_encoder_tb.test_all_configs.slow_master
lib.axi_bch_encoder_tb.test_all_configs.slow_slave
lib.axi_bch_encoder_tb.test_all_configs.both_slow
lib.dvbs2_encoder_tb.test_all_configs.back_to_back
lib.axi_ldpc_encoder_core_tb.test_all_configs.back_to_back
lib.axi_ldpc_encoder_core_tb.test_all_configs.data=0.5,table=1.0,slave=1.0
lib.axi_ldpc_encoder_core_tb.test_all_configs.data=1.0,table=1.0,slave=0.5
lib.axi_ldpc_encoder_core_tb.test_all_configs.data=0.75,table=1.0,slave=0.75
lib.axi_ldpc_encoder_core_tb.test_all_configs.data=1.0,table=0.5,slave=1.0
lib.axi_ldpc_encoder_core_tb.test_all_configs.data=1.0,table=0.75,slave=0.75
lib.axi_ldpc_encoder_core_tb.test_all_configs.data=0.8,table=0.8,slave=0.8
lib.axi_baseband_scrambler_tb.test_all_configs.back_to_back
lib.axi_baseband_scrambler_tb.test_all_configs.slow_master
lib.axi_baseband_scrambler_tb.test_all_configs.slow_slave
lib.axi_baseband_scrambler_tb.test_all_configs.both_slow
Listed 24 tests

Running synthesis

Scripts are provided as an example to get things going, currently this has not been tested in real hardware.

Yosys

./misc/run_synth.sh

Vivado

vivado -source ./build/vivado/build.tcl