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Code for the paper 'An Efficient Graph Convolutional Network Technique for the Travelling Salesman Problem' (arXiv Pre-print)

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An Efficient Graph Convolutional Network Technique for the Travelling Salesman Problem

This repository contains code for the paper "An Efficient Graph Convolutional Network Technique for the Travelling Salesman Problem" by Chaitanya K. Joshi, Thomas Laurent and Xavier Bresson.

We introduce a new learning-based approach for approximately solving the Travelling Salesman Problem on 2D Euclidean graphs. We use deep Graph Convolutional Networks to build efficient TSP graph representations and output tours in a non-autoregressive manner via highly parallelized beam search. Our approach outperforms all recently proposed autoregressive deep learning techniques in terms of solution quality, inference speed and sample efficiency for problem instances of fixed graph sizes.

model-blocks

Overview

The notebook main.ipynb contains top-level methods to reproduce our experiments or train models for TSP from scratch. Several modes are provided:

  • Notebook Mode: For debugging as a Jupyter Notebook
  • Visualization Mode: For visualization and evaluation of saved model checkpoints (in a Jupyter Notebook)
  • Script Mode: For running full experiments as a python script

Configuration parameters for notebooks and scripts are passed as .json files and are documented in config.py.

Pre-requisite Downloads

TSP Datasets

Download TSP datasets from this link: Extract the .tar.gz file and place each .txt file in the /data directory. (We provide TSP10, TSP20, TSP30, TSP50 and TSP100.)

Pre-trained Models

Download pre-trained model checkpoints from this link: Extract the .tar.gz file and place each directory in the /logs directory. (We provide TSP20, TSP50 and TSP100 models.)

Usage

Installation

Step-by-step guide for local installation using a Terminal (Mac/Linux) or Git Bash (Windows):

# Install [Anaconda 3](https://www.anaconda.com/) for managing Python packages and environments.
curl -o ~/miniconda.sh -O https://repo.continuum.io/miniconda/Miniconda3-latest-Linux-x86_64.sh
chmod +x ~/miniconda.sh
./miniconda.sh
source ~/.bashrc

# Clone the repository. 
git clone https://github.com/chaitjo/graph-convnet-tsp.git
cd graph-convnet-tsp

# Set up a new conda environment and activate it.
conda create -n gcn-tsp-env python=3.6.7
source activate gcn-tsp-env

# Install all dependencies and Jupyter Lab (for using notebooks).
conda install pytorch=0.4.1 cuda90 -c pytorch
conda install numpy==1.15.4 scipy==1.1.0 matplotlib==3.0.2 seaborn==0.9.0 pandas==0.24.2 networkx==2.2 scikit-learn==0.20.2 tensorflow-gpu==1.12.0 tensorboard==1.12.0 Cython
pip3 install tensorboardx==1.5 fastprogress==0.1.18
conda install -c conda-forge jupyterlab

Running in Notebook/Visualization Mode

Launch Jupyter Lab and execute/modify main.ipynb cell-by-cell in Notebook Mode.

jupyter lab

Set viz_mode = True in the first cell of main.ipynb to toggle Visualization Mode.

Running in Script Mode

Set notebook_mode = False and viz_mode = False in the first cell of main.ipynb. Then convert the notebook from .ipynb to .py and run the script (pass path of config file as arguement):

jupyter nbconvert --to python main.ipynb 
python main.py --config <path-to-config.json>

Splitting datasets into Training and Validation sets

For TSP10, TSP20 and TSP30 datasets, everything is good to go once you download and extract the files. For TSP50 and TSP100, the 1M training set needs to be split into 10K validation samples and 999K training samples. Use the split_train_val.py script to do so. For consistency, the script uses the first 10K samples in the 1M file as the validation set and the remaining 999K as the training set.

cd data
python split_train_val.py --num_nodes <num-nodes>

Generating new data

New TSP data can be generated using the Concorde solver.

# Install the pyConcorde library in the /data directory
cd data
git clone https://github.com/jvkersch/pyconcorde
cd pyconcorde
pip install -e .
cd ..

# Run the data generation script
python generate_tsp_concorde.py --num_samples <num-sample> --num_nodes <num-nodes>

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Code for the paper 'An Efficient Graph Convolutional Network Technique for the Travelling Salesman Problem' (arXiv Pre-print)

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  • Python 54.7%
  • Jupyter Notebook 45.3%