TY - GEN
T1 - IGB
T2 - 29th ACM SIGKDD Conference on Knowledge Discovery and Data Mining, KDD 2023
AU - Khatua, Arpandeep
AU - Mailthody, Vikram Sharma
AU - Taleka, Bhagyashree
AU - Ma, Tengfei
AU - Song, Xiang
AU - Hwu, Wen Mei
N1 - We would like to acknowledge all of the help from members of the IMPACT research group, NVIDIA GNN team, and AWS Graph ML team without which we could not have achieved any of the above reported results. Special thanks to Dr. Zaid Qureshi from NVIDIA Research and Jeongmin Park from the IMPACT research group for their valuable suggestion on writing and performance evaluations. We also would like to acknowledge feed-backs received anonymous reviewers and Dr. Piotr Bigaj from NVIDIA. This work is partly funded by the Amazon Research Awards. This work uses GPUs donated by NVIDIA, and is partly supported by the IBM-ILLINOIS Center for Cognitive Computing Systems Research (C3SR) and the IBM-ILLINOIS Discovery Accelerator Institute (IIDA). The datasets in this work is released to public in cooperation with Amazon using AWS Open Data Sponsorship Program.
PY - 2023/8/4
Y1 - 2023/8/4
N2 - Graph neural networks (GNNs) have shown high potential for a variety of real-world, challenging applications, but one of the major obstacles in GNN research is the lack of large-scale flexible datasets. Most existing public datasets for GNNs are relatively small, which limits the ability of GNNs to generalize to unseen data. The few existing large-scale graph datasets provide very limited labeled data. This makes it difficult to determine if the GNN model's low accuracy for unseen data is inherently due to insufficient training data or if the model failed to generalize. Additionally, datasets used to train GNNs need to offer flexibility to enable a thorough study of the impact of various factors while training GNN models. In this work, we introduce the Illinois Graph Benchmark (IGB), a research dataset tool that the developers can use to train, scrutinize and systematically evaluate GNN models with high fidelity. IGB includes both homogeneous and heterogeneous academic graphs of enormous sizes, with more than 40% of their nodes labeled. Compared to the largest graph datasets publicly available, the IGB provides over 162× more labeled data for deep learning practitioners and developers to create and evaluate models with higher accuracy. The IGB dataset is a collection of academic graphs designed to be flexible, enabling the study of various GNN architectures, embedding generation techniques, and analyzing system performance issues for node classification tasks. IGB is open-sourced, supports DGL and PyG frameworks, and comes with releases of the raw text that we believe foster emerging language models and GNN research projects. An early public version of IGB is available at https://github.com/IllinoisGraphBenchmark/IGB-Datasets.
AB - Graph neural networks (GNNs) have shown high potential for a variety of real-world, challenging applications, but one of the major obstacles in GNN research is the lack of large-scale flexible datasets. Most existing public datasets for GNNs are relatively small, which limits the ability of GNNs to generalize to unseen data. The few existing large-scale graph datasets provide very limited labeled data. This makes it difficult to determine if the GNN model's low accuracy for unseen data is inherently due to insufficient training data or if the model failed to generalize. Additionally, datasets used to train GNNs need to offer flexibility to enable a thorough study of the impact of various factors while training GNN models. In this work, we introduce the Illinois Graph Benchmark (IGB), a research dataset tool that the developers can use to train, scrutinize and systematically evaluate GNN models with high fidelity. IGB includes both homogeneous and heterogeneous academic graphs of enormous sizes, with more than 40% of their nodes labeled. Compared to the largest graph datasets publicly available, the IGB provides over 162× more labeled data for deep learning practitioners and developers to create and evaluate models with higher accuracy. The IGB dataset is a collection of academic graphs designed to be flexible, enabling the study of various GNN architectures, embedding generation techniques, and analyzing system performance issues for node classification tasks. IGB is open-sourced, supports DGL and PyG frameworks, and comes with releases of the raw text that we believe foster emerging language models and GNN research projects. An early public version of IGB is available at https://github.com/IllinoisGraphBenchmark/IGB-Datasets.
KW - datasets
KW - deep learning
KW - graph neural networks (gnns)
KW - graphs
UR - https://www.scopus.com/pages/publications/85165653623
UR - https://www.scopus.com/pages/publications/85165653623#tab=citedBy
U2 - 10.1145/3580305.3599843
DO - 10.1145/3580305.3599843
M3 - Conference contribution
AN - SCOPUS:85165653623
T3 - Proceedings of the ACM SIGKDD International Conference on Knowledge Discovery and Data Mining
SP - 4284
EP - 4295
BT - KDD 2023 - Proceedings of the 29th ACM SIGKDD Conference on Knowledge Discovery and Data Mining
PB - Association for Computing Machinery
Y2 - 6 August 2023 through 10 August 2023
ER -