### [Go Back](./index.md#table-of-contents) # Basic Usage This page of the documentation explains the basic usage of OpenRAM. ## Table of Contents 1. [Environment Variable Setup](#environment-variable-setup-assuming-bash) 2. [Command Line Usage](#command-line-usage) 3. [Configuration Files](#configuration-files) 4. [Common Configuration File Options](#common-configuration-file-options) 5. [Output Files](#output-files) 6. [Data Sheets](#data-sheets) ## Environment Variable Setup (assuming bash) * OPENRAM_HOME defines where the compiler directory is * ```export OPENRAM_HOME="$HOME/openram/compiler"``` * OPENRAM_TECH defines list of paths where the technologies exist * `export OPENRAM_TECH="$HOME/openram/technology"` * Colon separated list so you can have private technology directories * Must also have any PDK related variables set up * Add compiler to `PYTHONPATH` * `export PYTHONPATH="$PYTHONPATH:$OPENRAM_HOME"` ## Command Line Usage Once you have defined the environment, you can run OpenRAM from the command line using a single configuration file written in Python. For example, create a file called *myconfig.py* specifying the following parameters for your memory: ``` # Data word size word_size = 2 # Number of words in the memory num_words = 16 # Technology to use in $OPENRAM_TECH tech_name = "scn4m_subm" # You can use the technology nominal corner only nominal_corner_only = True # Or you can specify particular corners # Process corners to characterize # process_corners = ["SS", "TT", "FF"] # Voltage corners to characterize # supply_voltages = [ 3.0, 3.3, 3.5 ] # Temperature corners to characterize # temperatures = [ 0, 25 100] # Output directory for the results output_path = "temp" # Output file base name output_name = "sram_{0}_{1}_{2}".format(word_size,num_words,tech_name) # Disable analytical models for full characterization (WARNING: slow!) # analytical_delay = False ``` You can then run OpenRAM by executing: ``` python3 $OPENRAM_HOME/openram.py myconfig ``` You can see all of the options for the configuration file in $OPENRAM\_HOME/options.py To run designs in Docker, it is suggested to use, for example: ``` cd OpenRAM/macros make example_config_scn4m_subm ``` * Common arguments: * `-t` specify technology (scn4m_subm or scmos or freepdk45) * `-v` increase verbosity of output * `-n` don't run DRC/LVS * `-c` perform simulation-based characterization * `-d` don't purge /tmp directory contents ## Configuration Files * Memories are created using a Python configuration file to replicate results * No YAML, JSON, etc. * Complete configuration options are in `$OPENRAM_HOME/options.py` * Some options can be specified on the command line as well * Not recommended for replicating results * Example configuration file: ```python # Data word size word_size = 2 # Number of words in the memory num_words = 16 # Technology to use in $OPENRAM_TECH tech_name = "scn4m_subm" # Process corners to characterize process_corners = [ "TT" ] # Voltage corners to characterize supply_voltages = [ 3.3 ] # Temperature corners to characterize temperatures = [ 25 ] # Output directory for the results output_path = "temp" # Output file base name output_name = "sram_16x2" # Disable analytical models for full characterization (WARNING: slow!) # analytical_delay = False # To force this to use magic and netgen for DRC/LVS/PEX # Could be calibre for FreePDK45 drc_name = "magic" lvs_name = "netgen" pex_name = "magic" ``` ## Common Configuration File Options * Characterization corners * `supply_voltages = [1.7, 1.8, 1.9]` * `temperatures = [25, 50, 100]` * `process_corners = ["SS", "TT", "FF"]` * Do not generate layout * `netlist_only = True` * Multi-port options * `num_rw_ports = 1` * `num_r_ports = 1` * `num_w_ports = 0` * Customized module or bit cell * `bitcell = "bitcell_1rw_1r"` * `replica_bitcell = "replica_bitcell_1rw_1r"` * Enable simulation characterization > **Warning**: Slow! * `analytical_delay = False` * Output name and location * `output_path = "temp"` * `output_name = "sram_32x256"` * Force tool selection (should match the PDK!) * `drc_name = "magic"` * `lvs_name = "netgen"` * `pex_name = "magic"` * Include shared configuration options using Python imports * `from corners_freepdk45 import *` ## Output Files The output files are placed in the `output_dir` defined in the configuration file. The base name is specified by `output_name` and suffixes are added. The final results files are: * GDS (.gds) * SPICE (.sp) * Verilog (.v) * P&R Abstract (.lef) * Liberty (multiple corners .lib) * Datasheet (.html) * Log (.log) * Configuration (.py) for replication of creation ## Data Sheets ![Datasheet 1](../assets/images/basic_usage/datasheet_1.png) ![Datasheet 2](../assets/images/basic_usage/datasheet_2.png) ![Datasheet 3](../assets/images/basic_usage/datasheet_3.png)