Paper Symmetry-preserving graph attention network to solve routing problems at multiple resolutions:
https://arxiv.org/pdf/2310.15543.pdf
Contributors:
- Thong Bach
- Tran Cong Dao
- Hy Truong Son (Correspondent / PI)
- Python>=3.8
- NumPy
- SciPy
- PyTorch>=1.7
- tqdm
- tensorboard_logger
- Matplotlib (optional, only for plotting)
For training TSP instances with 20 nodes and using rollout as REINFORCE baseline:
python run.py --graph_size 20 --baseline rollout --run_name 'tsp20_rollout'Training data is generated on the fly. To generate validation and test data (same as used in the paper) for all problems:
python generate_data.py --problem all --name validation --seed 4321
python generate_data.py --problem all --name test --seed 1234For training TSP instances with 20 nodes and using rollout as REINFORCE baseline and using the generated validation set:
python run.py --graph_size 20 --baseline rollout --run_name 'tsp20_rollout' --val_dataset data/tsp/tsp20_validation_seed4321.pkl
python run.py --graph_size 20 --baseline rollout --run_name 'tsp20_rollout' --val_dataset data/tsp/tsp20_validation_1000_seed1000.pklBy default, training will happen on all available GPUs. To disable CUDA at all, add the flag --no_cuda.
Set the environment variable CUDA_VISIBLE_DEVICES to only use specific GPUs:
CUDA_VISIBLE_DEVICES=2,3 python run.py Note that using multiple GPUs has limited efficiency for small problem sizes (up to 50 nodes).
You can initialize a run using a pretrained model by using the --load_path option:
python run.py --graph_size 100 --load_path pretrained/tsp_100/epoch-99.ptThe --load_path option can also be used to load an earlier run, in which case also the optimizer state will be loaded:
python run.py --graph_size 20 --load_path 'outputs/tsp_20/tsp20_rollout_{datetime}/epoch-0.pt'The --resume option can be used instead of the --load_path option, which will try to resume the run, e.g. load additionally the baseline state, set the current epoch/step counter and set the random number generator state.
To evaluate a model, you can add the --eval-only flag to run.py, or use eval.py, which will additionally measure timing and save the results:
python eval.py data/tsp/tsp20_test_seed1234.pkl --model pretrained/tsp_20 --decode_strategy greedyIf the epoch is not specified, by default the last one in the folder will be used.
To report the best of 1280 sampled solutions, use
python eval.py data/tsp/tsp20_test_seed1234.pkl --model pretrained/tsp_20 --decode_strategy sample --width 1280 --eval_batch_size 1Beam Search (not in the paper) is also recently added and can be used using --decode_strategy bs --width {beam_size}.
Baselines for different problems are within the corresponding folders and can be ran (on multiple datasets at once) as follows
python -m problems.tsp.tsp_baseline farthest_insertion data/tsp/tsp20_test_seed1234.pkl data/tsp/tsp50_test_seed1234.pkl data/tsp/tsp100_test_seed1234.pklTo run baselines, you need to install Compass by running the install_compass.sh script from within the problems/op directory and Concorde using the install_concorde.sh script from within problems/tsp. LKH3 should be automatically downloaded and installed when required. To use Gurobi, obtain a (free academic) license and follow the installation instructions.
python run.py -h
python eval.py -hSee plot_vrp.ipynb for an example of loading a pretrained model and plotting the result for Capacitated VRP with 100 nodes.
Thanks to pemami4911/neural-combinatorial-rl-pytorch for getting me started with the code for the Pointer Network.
This repository includes adaptions of the following repositories as baselines:
- https://github.com/MichelDeudon/encode-attend-navigate
- https://github.com/mc-ride/orienteering
- https://github.com/jordanamecler/PCTSP
- https://github.com/rafael2reis/salesman
@misc{tran2023symmetrypreserving,
title={Symmetry-preserving graph attention network to solve routing problems at multiple resolutions},
author={Cong Dao Tran and Thong Bach and Truong Son Hy},
year={2023},
eprint={2310.15543},
archivePrefix={arXiv},
primaryClass={cs.LG}
}