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Tool for the automatic orchestration of experiments targeting software systems

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Experiment-Runner

Experiment Runner is a generic framework to automatically execute measurement-based experiments on any platform. The experiments are user-defined, can be completely customized, and expressed in python code!

(Experiment Runner is a generalization of our previous successful tool, Robot Runner, for which you can read more in our ICSE 2021 tool demo paper.)

Features

  • Run Table Model: Framework support to easily define an experiment's measurements with Factors, their Treatment levels, exclude certain combinations of Treatments, and add data columns for storing aggregated data.
  • Restarting: If an experiment was not entirely completed on the last invocation (e.g. some variations crashes), experiment runner can be re-invoked to finish any remaining experiment variations.
  • Persistency: Raw and aggregated experiment data per variation can be persistently stored.
  • Operational Types: Two operational types: AUTO and SEMI, for more fine-grained experiment control.
  • Progress Indicator: Keeps track of the execution of each run of the experiment
  • Target and profiler agnostic: Can be used with any target to measure (e.g. ELF binary, .apk over adb, etc.) and with any profiler (e.g. WattsUpPro, etc.)

Requirements

The framework has been tested with Python3 version 3.8, but should also work with any higher version. It has been tested under Linux and macOS. It does not work on Windows (at the moment).

To get started:

git clone https://github.com/S2-group/experiment-runner.git
cd experiment-runner/
pip install -r requirements.txt

To verify installation, run:

python experiment-runner/ examples/hello-world/RunnerConfig.py

Running

In this section, we assume as the current working directory, the root directory of the project.

Starting with the examples

To run any of the examples, run the following command:

python experiment-runner/ examples/<example-dir>/<RunnerConfig*.py>

Each example is accompanied with a README for further information. It is recommended to start with the hello-world example to also test your installation.

Note that once you successfully run an experiment, the framework will not allow you to run the same experiment again under, giving the message:

[FAIL]: EXPERIMENT_RUNNER ENCOUNTERED AN ERROR!
The experiment was restarted, but all runs are already completed.

This is to prevent you from accidentally overwriting the results of a previously run experiment! In order to run again the experiment, either delete any previously generated data (by default "experiments/" directory), or modify the config's name variable to a different name.

Creating a new experiment

First, generate a config for your experiment:

python experiment-runner/ config-create [directory]

When running this command, where [directory] is an optional argument, a new config file with skeleton code will be generated in the given directory. The default location is the examples/ directory. This config is similar to the hello-world example.

Feel free to move the generated config to any other directory. You can modify its contents and write python code to define your own measurement-based experiment(s). At this stage, you might find useful the linux-ps-profiling example.

Once the experiment has been coded, the experiment can be executed by Experiment Runner. To do this, run the following command:

python experiment-runner/ <MyRunnerConfig.py>

The results of the experiment will be stored in the directory RunnerConfig.results_output_path/RunnerConfig.name as defined by your config variables.

More information about the profilers and use cases can be found in the Wiki tab.

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