.. _run_vtr_flow: run_vtr_flow --------------- This script runs the VTR flow for a single benchmark circuit and architecture file. The script is located at:: $VTR_ROOT/vtr_flow/scripts/run_vtr_flow.py .. program:: run_vtr_flow.py Basic Usage ~~~~~~~~~~~ At a minimum ``run_vtr_flow.py`` requires two command-line arguments:: run_vtr_flow.py where: * ```` is the circuit to be processed * ```` is the target :ref:`FPGA architecture ` .. note:: The script will create a ``./temp`` directory, unless otherwise specified with the :option:`-temp_dir` option. The circuit file and architecture file will be copied to the temporary directory. All stages of the flow will be run within this directory. Several intermediate files will be generated and deleted upon completion. **Users should ensure that no important files are kept in this directory as they may be deleted.** Output ~~~~~~ The standard out of the script will produce a single line with the format:: /... If execution completed successfully the status will be 'OK'. Otherwise, the status will indicate which stage of execution failed. The script will also produce an output files (\*.out) for each stage, containing the standout output of the executable(s). Advanced Usage ~~~~~~~~~~~~~~ Additional *optional* command arguments can also be passed to ``run_vtr_flow.py``:: run_vtr_flow.py [] [] where: * ```` are additional arguments passed to ``run_vtr_flow.py`` (described below), * ```` are any arguments not recognized by ``run_vtr_flow.py``. These will be forwarded to VPR. For example:: run_vtr_flow.py my_circuit.v my_arch.xml -track_memory_usage --pack --place will run the VTR flow to map the circuit ``my_circuit.v`` onto the architecture ``my_arch.xml``; the arguments ``--pack`` and ``--place`` will be passed to VPR (since they are unrecognized arguments to ``run_vtr_flow.py``). They will cause VPR to perform only :ref:`packing and placement `. .. code-block:: bash # Using the Yosys conventional Verilog parser ./run_vtr_flow Running the VTR flow with the default configuration using the Yosys standalone front-end. The parser for these runs is considered the Yosys conventional Verilog/SystemVerilog parser (i.e., ``read_verilog -sv``), as the parser is not explicitly specified. .. code-block:: bash # Using the Yosys-Slang plugin for Yosys, otherwise the Yosys conventional Verilog parser ./run_vtr_flow -parser slang Will run the VTR flow (default configuration) with Yosys-Slang plugin for Yosys frontend using Parmys plugin as partial mapper. The Yosys-Slang SystemVerilog parser supports the (i.e., ``read_slang``) command. Yosys-Slang builds on top of the slang library to provide comprehensive SystemVerilog support. Enable the Yosys-Slang plugin with the ``-DSLANG_SYSTEMVERILOG=ON`` compile flag while building the VTR project with yosys as a frontend. .. note:: Yosys-Slang is currently **experimental**. .. code-block:: bash # Using the Parmys (Partial Mapper for Yosys) plugin as partial mapper ./run_vtr_flow Will run the VTR flow (default configuration) with Yosys frontend using Parmys plugin as partial mapper. To utilize the Parmys plugin, the ``-DYOSYS_PARMYS_PLUGIN=ON`` compile flag should be passed while building the VTR project with Yosys as a frontend. .. code-block:: bash # Using the Parmys (Partial Mapper for Yosys) plugin as partial mapper with include files ./run_vtr_flow -include /*.v* Will run the VTR flow (default configuration) with Yosys frontend using Parmys plugin as partial mapper. In addition to the main circuit passed in with the architecture, it will also pass in every HDL file with the specified file type within the include directory. Detailed Command-line Options ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .. note:: Any options not recognized by this script is forwarded to VPR. .. option:: -starting_stage Start the VTR flow at the specified stage. Accepted values: * ``odin`` * ``parmys`` * ``abc`` * ``scripts`` * ``vpr`` **Default:** ``parmys`` .. option:: -ending_stage End the VTR flow at the specified stage. Accepted values: * ``odin`` * ``parmys`` * ``abc`` * ``scripts`` * ``vpr`` **Default:** ``vpr`` .. option:: -include /*. List of include files to a benchmark circuit (pass to VTR frontends as a benchmark design set). Include files can be any file supported by yosys+parmys (normally .v or .vh files). The include directory should not contain the circuit passed in with the architecture. .. option:: -power Enables power estimation. See :ref:`power_estimation` .. option:: -cmos_tech CMOS technology XML file. See :ref:`power_technology_properties` .. option:: -delete_intermediate_files Delete intermediate files (i.e. ``.dot``, ``.xml``, ``.rc``, etc) .. option:: -delete_result_files Delete result files (i.e. VPR's ``.net``, ``.place``, ``.route`` outputs) .. option:: -track_memory_usage Record peak memory usage and additional statistics for each stage. .. note:: Requires ``/usr/bin/time -v`` command. Some operating systems do not report peak memory. **Default:** off .. option:: -limit_memory_usage Kill benchmark if it is taking up too much memory to avoid slow disk swaps. .. note:: Requires ``ulimit -Sv`` command. **Default:** off .. option:: -timeout Maximum amount of time to spend on a single stage of a task in seconds. **Default:** 14 days .. option:: -temp_dir Temporary directory used for execution and intermediate files. The script will automatically create this directory if necessary. **Default:** ``./temp`` .. option:: -valgrind Run the flow with valgrind while using the following valgrind options: * --leak-check=full * --errors-for-leak-kinds=none * --error-exitcode=1 * --track-origins=yes .. option:: -min_hard_mult_size Tells Parmys/ODIN II the minimum multiplier size (in bits) that should be implemented using a hard multiplier (if available). Smaller multipliers will be implemented using soft logic. **Default:** 3 .. option:: -min_hard_adder_size Tells Parmys/ODIN II the minimum adder size (in bits) that should be implemented using hard adders (if available). Smaller adders will be implemented using soft logic. **Default:** 1 .. option:: -adder_cin_global Tells Parmys/ODIN II to connect the first cin in an adder/subtractor chain to a global gnd/vdd net. Instead of creating a dummy adder to generate the input signal of the first cin port of the chain. .. option:: -odin_xml Tells VTR flow to use a custom ODIN II configuration value. The default behavior is to use the vtr_flow/misc/basic_odin_config_split.xml. Instead, an alternative config file might be supplied; compare the default and vtr_flow/misc/custom_odin_config_no_mults.xml for usage scenarios. This option is needed for running the entire VTR flow with additional parameters for ODIN II that are provided from within the .xml file. .. option:: -use_odin_simulation Tells ODIN II to run simulation. .. option:: -top_module Specifies the name of the module in the design that should be considered as top .. option:: -yosys_script Supplies Parmys(Yosys) with a .ys script file (similar to Tcl script), including the synthesis steps. **Default:** None .. option:: -parser Specify a parser for the Yosys synthesizer [default (Verilog-2005), slang (SystemVerilog)]. The script uses the default conventional Verilog parser if this argument is not used. **Default:** default .. note:: Yosys-Slang is a Yosys plugin that is built on top of the slang library to provide comprehensive SystemVerilog support. It supports the ``read_slang`` command, used with the ``-C`` command-line option to read include-files from a text file containing include-file names. It is used to read SystemVerilog files directly in Yosys. For more information on Yosys-Slang, see `[Yosys-Slang] `_ .. note:: Parmys is a Yosys plugin which provides intelligent partial mapping features (inference, binding, and hard/soft logic trade-offs) from Odin-II for Yosys. For more information on available parameters see the `Parmys `_ plugin page. .. Universal Hardware Data Model (UHDM) is a complete modeling of the IEEE SystemVerilog Object Model with VPI Interface, Elaborator, Serialization, Visitor and Listener. .. UHDM is used as a compiled interchange format in between SystemVerilog tools. Typical inputs to the UHDM flow are files with ``.v`` or ``.sv`` extensions. .. The ``system-verilog`` parser, which represents the ``read_systemverilog`` command, reads SystemVerilog files directly in Yosys. .. It executes Surelog with provided filenames and converts them (in memory) into UHDM file. Then, this UHDM file is converted into Yosys AST. `[Yosys-SystemVerilog] `_ .. On the other hand, the ``surelog`` parser, which uses the ``read_uhdm`` Yosys command, walks the design tree and converts its nodes into Yosys AST nodes using Surelog. `[UHDM-Yosys `_, `Surelog] `_