This repo includes the bfTorch source code and necessary datasets to run the experiments/tests.

The code has been tested on Ubuntu 18.04 with PyTorch 1.13 and Gym 0.21.

• Python 3.9 and PyTorch Use VirtuanEnv or Conda to build a Python3.9 environment and PyTorch at least 1.13.0 Note that, we do not leverage GPUs, so no need to configure the GPU version of PyTorch.

• OpenMPI and mpi4py

sudo apt-get install openmpi-bin openmpi-doc libopenmpi-dev
conda install mpi4py

git clone https://github.com/DIR-LAB/RLBackfilling.git

cd RLBackfilling
pip install -r requirements.txt

data/: Contains a series of workload and real-world traces.
plot.py: Plot the trained results.
bfTorch.py: Used to train and run RLBackfilling models, as well as tests for actual/noisy runtime performance
compare-make-table.py: Generates raw avgbsld scores
compare.py: Generates box and whisker plot comparisons

To change the hyper-parameters, such as MAX_OBSV_SIZE or the trajectory length during training, you can change them in bfTorch.py.

To train a RL model based on a job trace, run this command:

python bfTorch.py --workload "./data/lublin_256.swf" --exp_name your-exp-name --trajs 500 --heuristic fcfs --backfill 1

There are many other parameters in the source file.

• --model, specify a saved trained model (for two-step training and re-training)
• --pre_trained, specify whether this trainig will be a twp-step training or re-training

After running Default Training, a folder named logs/your-exp-name/ will be generated.

python plot.py ./data/logs/your-exp-name/ -x Epoch -s 1

It will plot the training curve.

After the RLBackfiller converges, you can test the result and compare it with different policies such as FCFS, SJF, WFP3, UNICEP, and F1.

python compare-make-table.py --rlmodel "./logs/your-exp-name/your-exp-name_s0/" --workload "./data/lublin_256.swf" --len 2048 --iter 10

There are many parameters you can use:

• --seed, the seed for random sampling
• --iter, how many iterations for the testing

To test the how differences in runtime accuracy can affect results, modify the self.request_time in the Job class located in bfTorch.py For example, to test how 100% accurate request time affects scheduling, perform this change in the code

self.request_time = self.run_time