Part of Advances in Neural Information Processing Systems 35 (NeurIPS 2022) Main Conference Track
jian xie, Jingwei Xu, Guochang Wang, Yuan Yao, Zenan Li, Chun Cao, Hanghang Tong
Executing a family of Deep Neural Networks (DNNs) training jobs on the same or similar datasets in parallel is typical in current deep learning scenarios. It is time-consuming and resource-intensive because each job repetitively prepares (i.e., loads and preprocesses) the data independently, causing redundant consumption of I/O and computations. Although the page cache or a centralized cache component can alleviate the redundancies by reusing the data prep work, each job's data sampled uniformly at random presents a low sampling locality in the shared dataset that causes the heavy cache thrashing. Prior work tries to solve the problem by enforcing all training jobs iterating over the dataset in the same order and requesting each data in lockstep, leading to strong constraints: all jobs must have the same dataset and run simultaneously. In this paper, we propose a dependent sampling algorithm (DSA) and domain-specific cache policy to relax the constraints. Besides, a novel tree data structure is designed to efficiently implement DSA. Based on the proposed technologies, we implemented a prototype system, named Joader, which can share data prep work as long as the datasets share partially. We evaluate the proposed Joader in practical scenarios, showing a greater versatility and superiority over training speed improvement (up to 500% in ResNet18).