From 9bb3616af74a055eb38bd424cffdf3a3ca3b1a77 Mon Sep 17 00:00:00 2001 From: Ciro Nishiguchi Date: Tue, 6 Nov 2018 13:40:01 -0600 Subject: uhd: Add benchmark_streamer support for multi-channel streamer Add support for benchmarking multi-channel streamers. This also simplifies the way the test parameters are specified to avoid confusion due to the additional dimension. For rx, multi-channel streamer configurations require split_stream noc blocks so that timestamps of packets in the same streamer align. Add support for loopback FIFOs. --- host/examples/benchmark_streamer.cpp | 753 ++++++++++++++++++++++------------- 1 file changed, 478 insertions(+), 275 deletions(-) diff --git a/host/examples/benchmark_streamer.cpp b/host/examples/benchmark_streamer.cpp index eb0b91d0f..3f9a9f7d4 100644 --- a/host/examples/benchmark_streamer.cpp +++ b/host/examples/benchmark_streamer.cpp @@ -14,10 +14,13 @@ #include #include #include +#include #include +#include #include #include #include +#include namespace po = boost::program_options; @@ -45,10 +48,15 @@ struct host_measurement_values { }; struct test_results { - traffic_counter_values traffic_counter; + std::vector traffic_counter; host_measurement_values host; }; +struct noc_block_endpoint { + std::string block_id; + size_t port; +}; + void enable_traffic_counters( uhd::property_tree::sptr tree, uhd::fs_path noc_block_root @@ -190,18 +198,20 @@ void print_rx_results( std::cout << "------------------- Benchmarking rx stream -----------------------" << std::endl; std::cout << "------------------------------------------------------------------" << std::endl; std::cout << "RX samples per packet: " << results.host.spp << std::endl; - std::cout << std::endl; - std::cout << "------------------ Traffic counter values ------------------------" << std::endl; - print_traffic_counters(results.traffic_counter); - std::cout << std::endl; - std::cout << "------------ Values calculated from traffic counters -------------" << std::endl; - print_rx_statistics(results.traffic_counter, bus_clk_freq); - std::cout << std::endl; - print_utilization_statistics(results.traffic_counter); + for (const auto& tc : results.traffic_counter) { + std::cout << "------------------ Traffic counter values ------------------------" << std::endl; + print_traffic_counters(tc); + std::cout << std::endl; + + std::cout << "------------ Values calculated from traffic counters -------------" << std::endl; + print_rx_statistics(tc, bus_clk_freq); + std::cout << std::endl; + print_utilization_statistics(tc); + std::cout << std::endl; + } - std::cout << std::endl; std::cout << "--------------------- Host measurements --------------------------" << std::endl; std::cout << "Time elapsed: " << results.host.seconds << " s" << std::endl; std::cout << "Samples read: " << results.host.num_samples << std::endl; @@ -217,18 +227,20 @@ void print_tx_results( std::cout << "------------------- Benchmarking tx stream -----------------------" << std::endl; std::cout << "------------------------------------------------------------------" << std::endl; std::cout << "TX samples per packet: " << results.host.spp << std::endl; - std::cout << std::endl; - std::cout << "------------------ Traffic counter values ------------------------" << std::endl; - print_traffic_counters(results.traffic_counter); - std::cout << std::endl; - std::cout << "------------ Values calculated from traffic counters -------------" << std::endl; - print_tx_statistics(results.traffic_counter, bus_clk_freq); - std::cout << std::endl; - print_utilization_statistics(results.traffic_counter); + for (const auto& tc : results.traffic_counter) { + std::cout << "------------------ Traffic counter values ------------------------" << std::endl; + print_traffic_counters(tc); + + std::cout << std::endl; + std::cout << "------------ Values calculated from traffic counters -------------" << std::endl; + print_tx_statistics(tc, bus_clk_freq); + std::cout << std::endl; + print_utilization_statistics(tc); + std::cout << std::endl; + } - std::cout << std::endl; std::cout << "--------------------- Host measurements --------------------------" << std::endl; std::cout << "Time elapsed: " << results.host.seconds << " s" << std::endl; std::cout << "Samples written: " << results.host.num_samples << std::endl; @@ -236,55 +248,110 @@ void print_tx_results( std::cout << "Calculated throughput: " << results.host.num_samples / results.host.seconds / 1e6 << " Msps" << std::endl; } -uhd::rx_streamer::sptr configure_rx_streamer( +void configure_ddc( uhd::device3::sptr usrp, - const std::string& nullid, - const std::string& fifoid, - const size_t fifo_port, const std::string& ddcid, - const double ddc_decim, + double ddc_decim +) { + auto ddc_ctrl = usrp->get_block_ctrl(ddcid); + ddc_ctrl->set_arg("input_rate", 1, 0); + ddc_ctrl->set_arg("output_rate", 1/ddc_decim, 0); + double actual_rate = ddc_ctrl->get_arg("output_rate", 0); + std::cout << "Actual DDC decimation: " << 1/actual_rate << std::endl; +} + +void configure_duc( + uhd::device3::sptr usrp, + const std::string& ducid, + double duc_interp +) { + auto duc_ctrl = usrp->get_block_ctrl(ducid); + duc_ctrl->set_arg("output_rate", 1, 0); + duc_ctrl->set_arg("input_rate", 1/duc_interp, 0); + double actual_rate = duc_ctrl->get_arg("input_rate", 0); + std::cout << "Actual DUC interpolation: " << 1/actual_rate << std::endl; +} + +uhd::rx_streamer::sptr configure_rx_streamer( + uhd::device3::sptr usrp, + const std::string null_id, + const std::string splitter_id, + const std::vector>& noc_blocks, const size_t spp, const std::string& format ) { - // Configure rfnoc - std::string endpoint_id = nullid; - size_t endpoint_port = 0; + std::cout << "Configuring rx stream with" << std::endl; + std::cout << " Null ID: " << null_id << std::endl; + if (not splitter_id.empty()) { + std::cout << " Splitter ID: " << splitter_id << std::endl; + } + for (size_t i = 0; i < noc_blocks.size(); i++) { + if (noc_blocks[i].size() > 0) { + std::cout << " Channel " << i << std::endl; + for (const auto& b : noc_blocks[i]) { + std::cout << " Block ID: " << b.block_id + << ", port: " << b.port << std::endl; + } + } + } + auto rx_graph = usrp->create_graph("rx_graph"); - if (not ddcid.empty()) { - rx_graph->connect(endpoint_id, ddcid); - endpoint_id = ddcid; + uhd::stream_args_t stream_args(format, "sc16"); + std::vector channels; + for (size_t i = 0; i < noc_blocks.size(); i++) { + channels.push_back(i); } + stream_args.channels = channels; - if (not fifoid.empty()) { - rx_graph->connect(endpoint_id, 0, fifoid, fifo_port); - endpoint_id = fifoid; - endpoint_port = fifo_port; + std::vector endpoints; + + if (noc_blocks.size() == 1) { + // No splitter required + endpoints = {{null_id, 0}}; + } + else { + // Connect to splitter + rx_graph->connect(null_id, splitter_id); + + for (size_t i = 0; i < noc_blocks.size(); i++) { + endpoints.push_back({splitter_id, i}); + } + } + + for (size_t i = 0; i < noc_blocks.size(); i++) { + std::string endpoint_id = endpoints[i].block_id; + size_t endpoint_port = endpoints[i].port; + + for (size_t j = 0; j < noc_blocks[i].size(); j++) { + const auto& noc_block = noc_blocks[i][j]; + + rx_graph->connect( + endpoint_id, + endpoint_port, + noc_block.block_id, + noc_block.port); + + endpoint_id = noc_block.block_id; + endpoint_port = noc_block.port; + } + + const std::string id_str = str(boost::format("block_id%d") % i); + const std::string port_str = str(boost::format("block_port%d") % i); + stream_args.args[id_str] = endpoint_id; + stream_args.args[port_str] = str(boost::format("%d") % endpoint_port); } - // Configure streamer - uhd::stream_args_t stream_args(format, "sc16"); - stream_args.args["block_id"] = endpoint_id; - stream_args.args["block_port"] = str(boost::format("%d") % endpoint_port); if (spp != 0) { stream_args.args["spp"] = std::to_string(spp); } uhd::rx_streamer::sptr rx_stream = usrp->get_rx_stream(stream_args); // Configure null source + auto null_ctrl = usrp->get_block_ctrl(null_id); const size_t otw_bytes_per_item = uhd::convert::get_bytes_per_item(stream_args.otw_format); const size_t samps_per_packet = rx_stream->get_max_num_samps(); - auto null_src_ctrl = usrp->get_block_ctrl(nullid); - null_src_ctrl->set_arg("line_rate", 0); - null_src_ctrl->set_arg("bpp", samps_per_packet*otw_bytes_per_item); - - // Configure DDC - if (not ddcid.empty()) { - auto ddc_ctrl = usrp->get_block_ctrl(ddcid); - ddc_ctrl->set_arg("input_rate", 1, 0); - ddc_ctrl->set_arg("output_rate", 1/ddc_decim, 0); - double actual_rate = ddc_ctrl->get_arg("output_rate", 0); - std::cout << "Actual DDC decimation: " << 1/actual_rate << std::endl; - } + null_ctrl->set_arg("line_rate", 0); + null_ctrl->set_arg("bpp", samps_per_packet*otw_bytes_per_item); return rx_stream; } @@ -301,9 +368,14 @@ test_results benchmark_rx_streamer( // Allocate buffer const size_t cpu_bytes_per_item = uhd::convert::get_bytes_per_item(format); const size_t samps_per_packet = rx_stream->get_max_num_samps(); - std::vector buffer(samps_per_packet*cpu_bytes_per_item); + + const size_t num_channels = rx_stream->get_num_channels(); + std::vector> buffer(num_channels); std::vector buffers; - buffers.push_back(&buffer.front()); + for (size_t i = 0; i < num_channels; i++) { + buffer[i].resize(samps_per_packet*cpu_bytes_per_item); + buffers.push_back(&buffer[i].front()); + } enable_traffic_counters( usrp->get_tree(), null_src_ctrl->get_block_id().get_tree_root()); @@ -311,7 +383,7 @@ test_results benchmark_rx_streamer( // Stream some packets uhd::stream_cmd_t stream_cmd(uhd::stream_cmd_t::STREAM_MODE_START_CONTINUOUS); stream_cmd.stream_now = true; - rx_stream->issue_stream_cmd(stream_cmd); + null_src_ctrl->issue_stream_cmd(stream_cmd); const std::chrono::duration requested_duration(duration); const auto start_time = std::chrono::steady_clock::now(); @@ -349,11 +421,12 @@ test_results benchmark_rx_streamer( disable_traffic_counters( usrp->get_tree(), null_src_ctrl->get_block_id().get_tree_root()); - rx_stream->issue_stream_cmd(uhd::stream_cmd_t::STREAM_MODE_STOP_CONTINUOUS); + null_src_ctrl->issue_stream_cmd(uhd::stream_cmd_t::STREAM_MODE_STOP_CONTINUOUS); test_results results; - results.traffic_counter = read_traffic_counters( - usrp->get_tree(), null_src_ctrl->get_block_id().get_tree_root()); + results.traffic_counter.push_back( + read_traffic_counters( + usrp->get_tree(), null_src_ctrl->get_block_id().get_tree_root())); const std::chrono::duration elapsed_time(current_time-start_time); results.host.seconds = elapsed_time.count(); @@ -366,70 +439,90 @@ test_results benchmark_rx_streamer( uhd::tx_streamer::sptr configure_tx_streamer( uhd::device3::sptr usrp, - const std::string& nullid, - const std::string& fifoid, - const size_t fifo_port, - const std::string& ducid, - const double duc_interp, + const std::vector> noc_blocks, const size_t spp, const std::string& format ) { + std::cout << "Configuring tx stream with" << std::endl; + for (size_t i = 0; i < noc_blocks.size(); i++) { + std::cout << " Channel " << i << std::endl; + for (const auto& b : noc_blocks[i]) { + std::cout << " Block ID: " << b.block_id + << ", port: " << b.port << std::endl; + } + } + // Configure rfnoc - std::string endpoint_id = nullid; - size_t endpoint_port = 0; auto tx_graph = usrp->create_graph("tx_graph"); - if (not ducid.empty()) { - tx_graph->connect(ducid, endpoint_id); - endpoint_id = ducid; + uhd::stream_args_t stream_args(format, "sc16"); + std::vector channels; + for (size_t i = 0; i < noc_blocks.size(); i++) { + channels.push_back(i); } + stream_args.channels = channels; - if (not fifoid.empty()) { - tx_graph->connect(fifoid, fifo_port, endpoint_id, 0); - endpoint_id = fifoid; - endpoint_port = fifo_port; + for (size_t i = 0; i < noc_blocks.size(); i++) { + std::string endpoint_id; + size_t endpoint_port; + + for (size_t j = 0; j < noc_blocks[i].size(); j++) { + const auto& noc_block = noc_blocks[i][j]; + + if (j != 0) { + tx_graph->connect( + noc_block.block_id, + noc_block.port, + endpoint_id, + endpoint_port); + } + endpoint_id = noc_block.block_id; + endpoint_port = noc_block.port; + } + + const std::string id_str = str(boost::format("block_id%d") % i); + const std::string port_str = str(boost::format("block_port%d") % i); + stream_args.args[id_str] = endpoint_id; + stream_args.args[port_str] = str(boost::format("%d") % endpoint_port); } + // Configure streamer - uhd::stream_args_t stream_args(format, "sc16"); - stream_args.args["block_id"] = endpoint_id; - stream_args.args["block_port"] = str(boost::format("%d") % endpoint_port); if (spp != 0) { stream_args.args["spp"] = std::to_string(spp); } uhd::tx_streamer::sptr tx_stream = usrp->get_tx_stream(stream_args); - // Configure null sink - auto null_sink_ctrl = usrp->get_block_ctrl(nullid); - - // Configure DUC - if (not ducid.empty()) { - auto duc_ctrl = usrp->get_block_ctrl(ducid); - duc_ctrl->set_arg("output_rate", 1, 0); - duc_ctrl->set_arg("input_rate", 1/duc_interp, 0); - double actual_rate = duc_ctrl->get_arg("input_rate", 0); - std::cout << "Actual DUC interpolation: " << 1/actual_rate << std::endl; - } - return tx_stream; } test_results benchmark_tx_streamer( uhd::device3::sptr usrp, uhd::tx_streamer::sptr tx_stream, - const std::string& nullid, + const std::vector& null_ids, const double duration, const std::string& format ) { - auto null_sink_ctrl = usrp->get_block_ctrl(nullid); + std::vector> null_ctrls; + for (const auto& id : null_ids) { + null_ctrls.push_back( + usrp->get_block_ctrl(id)); + } // Allocate buffer const size_t cpu_bytes_per_item = uhd::convert::get_bytes_per_item(format); const size_t samps_per_packet = tx_stream->get_max_num_samps(); - std::vector buffer(samps_per_packet*cpu_bytes_per_item); + + const size_t num_channels = tx_stream->get_num_channels(); + std::vector> buffer(num_channels); std::vector buffers; - buffers.push_back(&buffer.front()); + for (size_t i = 0; i < num_channels; i++) { + buffer[i].resize(samps_per_packet*cpu_bytes_per_item); + buffers.push_back(&buffer[i].front()); + } - enable_traffic_counters( - usrp->get_tree(), null_sink_ctrl->get_block_id().get_tree_root()); + for (auto& null_ctrl : null_ctrls) { + enable_traffic_counters( + usrp->get_tree(), null_ctrl->get_block_id().get_tree_root()); + } // Stream some packets uint64_t num_tx_samps = 0; @@ -451,16 +544,21 @@ test_results benchmark_tx_streamer( current_time = std::chrono::steady_clock::now(); } - disable_traffic_counters( - usrp->get_tree(), null_sink_ctrl->get_block_id().get_tree_root()); + for (auto& null_ctrl : null_ctrls) { + disable_traffic_counters( + usrp->get_tree(), null_ctrl->get_block_id().get_tree_root()); + } // Stop md.end_of_burst = true; tx_stream->send(buffers, 0, md); test_results results; - results.traffic_counter = read_traffic_counters( - usrp->get_tree(), null_sink_ctrl->get_block_id().get_tree_root()); + for (auto& null_ctrl : null_ctrls) { + results.traffic_counter.push_back( + read_traffic_counters( + usrp->get_tree(), null_ctrl->get_block_id().get_tree_root())); + } const std::chrono::duration elapsed_time(current_time-start_time); results.host.seconds = elapsed_time.count(); @@ -471,68 +569,130 @@ test_results benchmark_tx_streamer( return results; } -int UHD_SAFE_MAIN(int argc, char *argv[]){ - //variables to be set by po - std::string args, format, fifoid0, ddcid0, ducid0, ddcid1, ducid1; - std::string nullid0, nullid1, nullid2, nullid3; - double rx_duration, tx_duration, dual_rx_duration, dual_tx_duration; - double full_duplex_duration, dual_full_duplex_duration; +std::vector parse_csv( + const std::string& list +) { + std::vector result; + std::istringstream input(list); + + std::string str; + while (std::getline(input, str, ',')) { + boost::algorithm::trim_all(str); + if (not str.empty()) { + result.push_back(str); + } + } + return result; +} + +std::deque create_noc_block_queue( + const size_t num_blocks, + const std::string& user_override_id_list, + const std::string& prefix, + const size_t num_ports +) { + const std::vector overrides = parse_csv(user_override_id_list); + std::deque result; + + for (size_t i = 0; i < num_blocks; i++) { + if (i < overrides.size()) { + result.push_back({overrides[i], (i % num_ports)}); + } + else { + const std::string format_str = prefix + "_%d"; + noc_block_endpoint block = { + str(boost::format(format_str) % (i/num_ports)), + i % num_ports}; + result.push_back(block); + } + } + return result; +} + +int UHD_SAFE_MAIN(int argc, char *argv[]) { + // Variables to be set by po + bool dma_fifo, ddc, duc, tx_loopback_fifo, rx_loopback_fifo; + std::string args, format; + std::string null_ids, fifo_ids, ddc_ids, duc_ids, split_stream_ids; + double duration; double ddc_decim, duc_interp, bus_clk_freq; size_t spp; + size_t num_tx_streamers, num_rx_streamers, num_tx_channels, num_rx_channels; - //setup the program options + // Setup the program options po::options_description desc("Allowed options"); desc.add_options() ("help", "help message") ("args", po::value(&args)->default_value(""), "single uhd device address args") - ("rx_duration", po::value(&rx_duration)->default_value(0.0), "duration for the rx test in seconds") - ("tx_duration", po::value(&tx_duration)->default_value(0.0), "duration for the tx test in seconds") - ("dual_rx_duration", po::value(&dual_rx_duration)->default_value(0.0), "duration for the dual rx test in seconds") - ("dual_tx_duration", po::value(&dual_tx_duration)->default_value(0.0), "duration for the dual tx test in seconds") - ("full_duplex_duration", po::value(&full_duplex_duration)->default_value(0.0), "duration for the full duplex test in seconds") - ("dual_full_duplex_duration", po::value(&dual_full_duplex_duration)->default_value(0.0), "duration for the dual full duplex test in seconds") + ("num_tx_streamers", po::value(&num_tx_streamers)->default_value(0), "number of tx streamers to benchmark") + ("num_rx_streamers", po::value(&num_rx_streamers)->default_value(0), "number of rx streamers to benchmark") + ("num_tx_channels", po::value(&num_tx_channels)->default_value(1), "number of tx channels per streamer") + ("num_rx_channels", po::value(&num_rx_channels)->default_value(1), "number of rx channels per streamer") + ("duration", po::value(&duration)->default_value(10.0), "duration for the test in seconds") ("spp", po::value(&spp)->default_value(0), "samples per packet (on FPGA and wire)") - ("format", po::value(&format)->default_value("sc16"), "Host sample type: sc16, fc32, or fc64") - ("bus_clk_freq", po::value(&bus_clk_freq)->default_value(187.5e6), "Bus clock frequency for throughput calculation (default: 187.5e6)") - ("nullid0", po::value(&nullid0)->default_value("0/NullSrcSink_0"), "The block ID for the null source.") - ("nullid1", po::value(&nullid1)->default_value("0/NullSrcSink_1"), "The block ID for the second null source in measurements with two streamers.") - ("nullid2", po::value(&nullid2)->default_value("0/NullSrcSink_2"), "The block ID for the third null source in measuremetns with three streamers") - ("nullid3", po::value(&nullid3)->default_value("0/NullSrcSink_3"), "The block ID for the fourth null source in measurements with four streamers.") - ("fifoid0", po::value(&fifoid0)->default_value(""), "Optional: The block ID for a FIFO.") - ("ddcid0", po::value(&ddcid0)->default_value(""), "Optional: The block ID for a DDC for the rx stream.") - ("ddcid1", po::value(&ddcid1)->default_value(""), "Optional: The block ID for the second DDC in dual rx measurements.") + ("format", po::value(&format)->default_value("sc16"), "host sample type: sc16, fc32, or fc64") + ("bus_clk_freq", po::value(&bus_clk_freq)->default_value(187.5e6), "bus clock frequency for throughput calculation (default: 187.5e6)") + ("dma_fifo", po::bool_switch(&dma_fifo)->default_value(false), "whether to insert a DMA FIFO in the streaming path") + ("tx_loopback_fifo", po::bool_switch(&tx_loopback_fifo)->default_value(false), "whether to insert a loopback FIFO in the tx streaming path") + ("rx_loopback_fifo", po::bool_switch(&rx_loopback_fifo)->default_value(false), "whether to insert a loopback FIFO in the rx streaming path") + ("ddc", po::bool_switch(&ddc)->default_value(false), "whether to insert a DDC in the rx streaming path") + ("duc", po::bool_switch(&duc)->default_value(false), "whether to insert a DUC in the tx streaming path") ("ddc_decim", po::value(&ddc_decim)->default_value(1), "DDC decimation, between 1 and max decimation (default: 1, no decimation)") - ("ducid0", po::value(&ducid0)->default_value(""), "Optional: The block ID for a DUC for the tx stream.") - ("ducid1", po::value(&ducid1)->default_value(""), "Optional: The block ID for the second DUC in dual tx measurements.") - ("duc_interp", po::value(&duc_interp)->default_value(1), "Rate of DUC, between 1 and max interpolation (default: 1, no interpolation)") + ("duc_interp", po::value(&duc_interp)->default_value(1), "DUC interpolation, between 1 and max interpolation (default: 1, no interpolation)") + ("null_ids", po::value(&null_ids)->default_value(""), "optional: list of block IDs for the null sources") + ("fifo_ids", po::value(&fifo_ids)->default_value(""), "optional: list of block IDs for the loopback FIFOs") + ("ddc_ids", po::value(&ddc_ids)->default_value(""), "optional: list of block IDs for the DDCs") + ("duc_ids", po::value(&duc_ids)->default_value(""), "optional: list of block IDs for the DUCs") + ("split_stream_ids", po::value(&split_stream_ids)->default_value(""), "optional: list of block IDs for rx data splitters") ; po::variables_map vm; po::store(po::parse_command_line(argc, argv, desc), vm); po::notify(vm); - //print the help message - const bool at_least_one_test_specified = - rx_duration != 0.0 or tx_duration != 0.0 or - dual_rx_duration != 0.0 or dual_tx_duration != 0.0 or - full_duplex_duration != 0.0 or dual_full_duplex_duration != 0.0; + // Print the help message + const size_t num_streamers = num_rx_streamers + num_tx_streamers; - if (vm.count("help") or (not at_least_one_test_specified)) { + if (vm.count("help") or (num_streamers == 0)) { std::cout << boost::format("UHD - Benchmark Streamer") << std::endl; std::cout << " Benchmark streamer connects a null sink/source to a streamer and\n" - " measures maximum throughput. The null sink/source must be compiled\n" - " with traffic counters enabled. Optionally, a DMA FIFO and a DUC\n" - " can be inserted in the tx data path and a DMA FIFO and a DDC can\n" - " be inserted in the rx data path. The benchmark can be run with\n" - " multiple tx and rx streams concurrently.\n\n" - " Specify --rx_duration= to run benchmark of rx streamer.\n" - " Specify --tx_duration= to run benchmark of tx streamer.\n" - " Specify --dual_rx_duration= to run benchmark of dual rx streamers.\n" - " Specify --dual_tx_duration= to run benchmark of dual tx streamers.\n" - " Specify --full_duplex_duration= to run benchmark of full duplex streamers.\n" - " Specify --dual_full_duplex_duration= to run benchmark of dual full duplex streamers.\n" + " measures maximum throughput. You can benchmark the operation of\n" + " multiple streamers concurrently. Each streamer executes in a\n" + " separate thread. The FPGA image on the device must contain a\n" + " null source for each channel in the test.\n" + " Benchmarks of common use-cases:\n" + " Specify --num_tx_streamers=1 to test tx streamer.\n" + " Specify --num_rx_streamers=1 to test rx streamer.\n" + " Specify --num_tx_streamers=1 --num_tx_channels-2 to test tx\n" + " streamer with two channels.\n" + " Specify --num_rx_streamers=1 --num_rx_channels=2 to test rx\n" + " rx streamer with two channels. This requires a split_stream\n" + " RFNOC block.\n" + " Specify --num_rx_streamers=1 --num_tx_streams=1 to test full\n" + " duplex data transfer.\n" + " Specify --num_rx_streamers=2 --num_rx_streams=2 to test full\n" + " duplex data tranfser with two streamers in each direction.\n" + " Benchmarks streamer allows DMA FIFOs, loopback FIFOs, DDCs, and\n" + " DUCs to be added to the data path. Enable these by setting the\n" + " corresponding Boolean option to true. The order of the blocks\n" + " is fixed. If present, the DMA FIFO is connected to the host bus\n" + " interface, followed by the loopback FIFOs, and then DUC on a tx\n" + " stream or a DDC on an rx stream.\n" " Note: for full duplex tests, if a DMA FIFO is specified, it is\n" " inserted in the tx data path only.\n" + " Testing multiple rx channels in a single streamer requires a\n" + " split stream RFNOC block with the number of outputs equal to the\n" + " number of channels. Each streamer connects to a single null\n" + " source through the split stream block.\n" + " In order to allow testing of blocks with different compilation\n" + " parameters, such as the block FIFO size, this example provides\n" + " options to override RFNOC block IDs. Block IDs can be specified\n" + " as a comma-delimited list for each type of block. If the block\n" + " type is used in both tx and rx streams, block IDs are assigned\n" + " to tx streams first, followed by rx streams. For example, a test\n" + " with two tx and two rx streams will assign the first two IDs in\n" + " the null_ids list to the tx streams and the next two IDs to the\n" + " rx streams.\n" << std::endl << desc << std::endl; return EXIT_SUCCESS; } @@ -542,144 +702,187 @@ int UHD_SAFE_MAIN(int argc, char *argv[]){ std::cout << boost::format("Creating the usrp device with: %s...") % args << std::endl; uhd::device3::sptr usrp = uhd::device3::make(args); - if (rx_duration != 0.0) { - usrp->clear(); - auto rx_stream = configure_rx_streamer(usrp, nullid0, fifoid0, 0, - ddcid0, ddc_decim, spp, format); - auto results = benchmark_rx_streamer(usrp, rx_stream, nullid0, - rx_duration, format); - print_rx_results(results, bus_clk_freq); - } - - if (tx_duration != 0.0) { - usrp->clear(); - auto tx_stream = configure_tx_streamer(usrp, nullid0, fifoid0, 0, - ducid0, duc_interp, spp, format); - auto results = benchmark_tx_streamer(usrp, tx_stream, nullid0, - tx_duration, format); - print_tx_results(results, bus_clk_freq); - } - - if (dual_rx_duration != 0.0) { - usrp->clear(); - auto rx_stream0 = configure_rx_streamer(usrp, nullid0, fifoid0, 0, - ddcid0, ddc_decim, spp, format); - auto rx_stream1 = configure_rx_streamer(usrp, nullid1, fifoid0, 1, - ddcid1, ddc_decim, spp, format); - - test_results results0, results1; - - std::thread t0( - [&results0, usrp, rx_stream0, nullid0, dual_rx_duration, format]() { - results0 = benchmark_rx_streamer(usrp, rx_stream0, nullid0, - dual_rx_duration, format); - }); - std::thread t1( - [&results1, usrp, rx_stream1, nullid1, dual_rx_duration, format]() { - results1 = benchmark_rx_streamer(usrp, rx_stream1, nullid1, - dual_rx_duration, format); - }); - t0.join(); - t1.join(); - - print_rx_results(results0, bus_clk_freq); - print_rx_results(results1, bus_clk_freq); - } - - if (dual_tx_duration != 0.0) { - usrp->clear(); - auto tx_stream0 = configure_tx_streamer(usrp, nullid0, fifoid0, 0, - ducid0, duc_interp, spp, format); - auto tx_stream1 = configure_tx_streamer(usrp, nullid1, fifoid0, 1, - ducid1, duc_interp, spp, format); - - test_results results0, results1; - - std::thread t0( - [&results0, usrp, tx_stream0, nullid0, dual_tx_duration, format]() { - results0 = benchmark_tx_streamer(usrp, tx_stream0, nullid0, - dual_tx_duration, format); - }); - std::thread t1( - [&results1, usrp, tx_stream1, nullid1, dual_tx_duration, format]() { - results1 = benchmark_tx_streamer(usrp, tx_stream1, nullid1, - dual_tx_duration, format); - }); - t0.join(); - t1.join(); - - print_tx_results(results0, bus_clk_freq); - print_tx_results(results1, bus_clk_freq); - } - - if (full_duplex_duration != 0.0) { - usrp->clear(); - auto tx_stream = configure_tx_streamer(usrp, nullid0, fifoid0, 0, - ducid0, duc_interp, spp, format); - auto rx_stream = configure_rx_streamer(usrp, nullid1, "", 0, - ddcid0, ddc_decim, spp, format); - - test_results tx_results, rx_results; - - std::thread t0( - [&tx_results, usrp, tx_stream, nullid0, full_duplex_duration, format]() { - tx_results = benchmark_tx_streamer(usrp, tx_stream, nullid0, - full_duplex_duration, format); - }); - std::thread t1( - [&rx_results, usrp, rx_stream, nullid1, full_duplex_duration, format]() { - rx_results = benchmark_rx_streamer(usrp, rx_stream, nullid1, - full_duplex_duration, format); - }); - t0.join(); - t1.join(); - - print_tx_results(tx_results, bus_clk_freq); - print_rx_results(rx_results, bus_clk_freq); - } - - if (dual_full_duplex_duration != 0.0) { - usrp->clear(); - auto tx_stream0 = configure_tx_streamer(usrp, nullid0, fifoid0, 0, - ducid0, duc_interp, spp, format); - auto tx_stream1 = configure_tx_streamer(usrp, nullid1, fifoid0, 1, - ducid1, duc_interp, spp, format); - auto rx_stream0 = configure_rx_streamer(usrp, nullid2, "", 0, - ddcid0, ddc_decim, spp, format); - auto rx_stream1 = configure_rx_streamer(usrp, nullid3, "", 0, - ddcid1, ddc_decim, spp, format); - - test_results tx_results0, tx_results1; - test_results rx_results0, rx_results1; - std::thread t0( - [&tx_results0, usrp, tx_stream0, nullid0, dual_full_duplex_duration, format]() { - tx_results0 = benchmark_tx_streamer(usrp, tx_stream0, nullid0, - dual_full_duplex_duration, format); - }); - std::thread t1( - [&tx_results1, usrp, tx_stream1, nullid1, dual_full_duplex_duration, format]() { - tx_results1 = benchmark_tx_streamer(usrp, tx_stream1, nullid1, - dual_full_duplex_duration, format); - }); - std::thread t2( - [&rx_results0, usrp, rx_stream0, nullid2, dual_full_duplex_duration, format]() { - rx_results0 = benchmark_rx_streamer(usrp, rx_stream0, nullid2, - dual_full_duplex_duration, format); - }); - std::thread t3( - [&rx_results1, usrp, rx_stream1, nullid3, dual_full_duplex_duration, format]() { - rx_results1 = benchmark_rx_streamer(usrp, rx_stream1, nullid3, - dual_full_duplex_duration, format); - }); - t0.join(); - t1.join(); - t2.join(); - t3.join(); - - print_tx_results(tx_results0, bus_clk_freq); - print_tx_results(tx_results1, bus_clk_freq); - print_rx_results(rx_results0, bus_clk_freq); - print_rx_results(rx_results1, bus_clk_freq); + // For each block type, calculate the number of blocks needed by the test + // and create block IDs, accounting for user overrides in program options. + // Note that for null sources, rx only uses one NULL block per streamer + // rather than one per channel, since the test uses split_stream blocks to + // ensure packets on the same streamer have matching timestamps. Also, for + // DMA FIFOs, if the test contains both tx and rx channels, we only insert + // the FIFOs in the tx data path since that is the primary use-case. + const size_t total_tx_channels = num_tx_streamers * num_tx_channels; + const size_t total_rx_channels = num_rx_streamers * num_rx_channels; + const size_t num_null_blocks = total_tx_channels + num_rx_streamers; + const size_t num_duc_blocks = duc ? total_tx_channels : 0; + const size_t num_ddc_blocks = ddc ? total_rx_channels : 0; + const size_t num_tx_fifo_blocks = tx_loopback_fifo ? total_tx_channels : 0; + const size_t num_rx_fifo_blocks = rx_loopback_fifo ? total_rx_channels : 0; + const size_t num_fifo_blocks = num_tx_fifo_blocks + num_rx_fifo_blocks; + const size_t num_splitter_blocks = num_rx_channels > 1 ? num_rx_streamers : 0; + + size_t num_dma_fifo_blocks = 0; + bool tx_dma_fifo = false; + bool rx_dma_fifo = false; + + if (dma_fifo) { + if (total_tx_channels == 0) { + num_dma_fifo_blocks = total_rx_channels; + rx_dma_fifo = true; + } + else { + num_dma_fifo_blocks = total_tx_channels; + tx_dma_fifo = true; + } + } + + // Create block IDs + std::deque null_blocks = create_noc_block_queue( + num_null_blocks, null_ids, "0/NullSrcSink", 1); + + std::deque duc_blocks = create_noc_block_queue( + num_duc_blocks, duc_ids, "0/DUC", 1); + + std::deque ddc_blocks = create_noc_block_queue( + num_ddc_blocks, ddc_ids, "0/DDC", 1); + + std::deque fifo_blocks = create_noc_block_queue( + num_fifo_blocks, fifo_ids, "0/FIFO", 1); + + std::deque dma_fifo_blocks = create_noc_block_queue( + num_dma_fifo_blocks, "", "0/DmaFIFO", 2); + + std::deque splitter_blocks = create_noc_block_queue( + num_splitter_blocks, split_stream_ids, "0/SplitStream", 1); + + // Configure all streamers + usrp->clear(); + + std::vector tx_streamers; + std::vector> tx_null_ids; + + for (size_t i = 0; i < num_tx_streamers; i++) { + std::vector> blocks(num_tx_channels); + std::vector null_ids; + + for (size_t ch = 0; ch < num_tx_channels; ch++) { + // Store the null ids to read traffic counters later + null_ids.push_back(null_blocks.front().block_id); + + // Add block IDs to create the graph for each channel + blocks[ch].push_back(null_blocks.front()); + null_blocks.pop_front(); + if (duc) { + configure_duc(usrp, duc_blocks.front().block_id, duc_interp); + blocks[ch].push_back(duc_blocks.front()); + duc_blocks.pop_front(); + } + if (tx_loopback_fifo) { + blocks[ch].push_back(fifo_blocks.front()); + fifo_blocks.pop_front(); + } + if (tx_dma_fifo) { + blocks[ch].push_back(dma_fifo_blocks.front()); + dma_fifo_blocks.pop_front(); + } + }; + + tx_streamers.push_back( + configure_tx_streamer(usrp, blocks, spp, format)); + + tx_null_ids.push_back(null_ids); + } + + std::vector rx_streamers; + std::vector rx_null_ids; + + for (size_t i = 0; i < num_rx_streamers; i++) { + std::vector> blocks(num_rx_channels); + + for (size_t ch = 0; ch < num_rx_channels; ch++) { + if (ddc) { + configure_ddc(usrp, ddc_blocks.front().block_id, ddc_decim); + blocks[ch].push_back(ddc_blocks.front()); + ddc_blocks.pop_front(); + } + if (rx_loopback_fifo) { + blocks[ch].push_back(fifo_blocks.front()); + fifo_blocks.pop_front(); + } + if (rx_dma_fifo) { + blocks[ch].push_back(dma_fifo_blocks.front()); + dma_fifo_blocks.pop_front(); + } + }; + + std::string splitter_id; + if (num_rx_channels > 1) { + splitter_id = splitter_blocks.front().block_id; + splitter_blocks.pop_front(); + } + + rx_streamers.push_back( + configure_rx_streamer( + usrp, + null_blocks.front().block_id, + splitter_id, + blocks, + spp, + format)); + + // Store the null ids to read traffic counters later + rx_null_ids.push_back(null_blocks.front().block_id); + null_blocks.pop_front(); + } + + // Start threads + std::vector threads; + std::vector tx_results(num_tx_streamers); + for (size_t i = 0; i < num_tx_streamers; i++) { + test_results& results = tx_results[i]; + uhd::tx_streamer::sptr streamer = tx_streamers[i]; + std::vector null_ids = tx_null_ids[i]; + threads.push_back( + std::thread( + [&results, usrp, streamer, null_ids, duration, format]() { + results = benchmark_tx_streamer( + usrp, + streamer, + null_ids, + duration, + format); + }) + ); + } + + std::vector rx_results(num_rx_streamers); + for (size_t i = 0; i < num_rx_streamers; i++) { + test_results& results = rx_results[i]; + uhd::rx_streamer::sptr streamer = rx_streamers[i]; + std::string null_id = rx_null_ids[i]; + threads.push_back( + std::thread( + [&results, usrp, streamer, null_id, duration, format]() { + results = benchmark_rx_streamer( + usrp, + streamer, + null_id, + duration, + format); + }) + ); + } + + // Join threads + for (std::thread& t : threads) { + t.join(); + } + + // Print results + for (const test_results& result: tx_results) { + print_tx_results(result, bus_clk_freq); + } + + for (const test_results& result: rx_results) { + print_rx_results(result, bus_clk_freq); } return EXIT_SUCCESS; -- cgit v1.2.3