Dataset Distillation using Neural Feature Regression
This work addresses dataset distillation for machine learning practitioners by enabling more efficient creation of synthetic datasets, though it is incremental as it builds on existing meta-learning formulations.
The paper tackles the computational and memory challenges in dataset distillation by proposing Neural Feature Regression with Pooling (FRePo), achieving state-of-the-art performance with an order of magnitude less memory and two orders of magnitude faster training than previous methods.
Dataset distillation aims to learn a small synthetic dataset that preserves most of the information from the original dataset. Dataset distillation can be formulated as a bi-level meta-learning problem where the outer loop optimizes the meta-dataset and the inner loop trains a model on the distilled data. Meta-gradient computation is one of the key challenges in this formulation, as differentiating through the inner loop learning procedure introduces significant computation and memory costs. In this paper, we address these challenges using neural Feature Regression with Pooling (FRePo), achieving the state-of-the-art performance with an order of magnitude less memory requirement and two orders of magnitude faster training than previous methods. The proposed algorithm is analogous to truncated backpropagation through time with a pool of models to alleviate various types of overfitting in dataset distillation. FRePo significantly outperforms the previous methods on CIFAR100, Tiny ImageNet, and ImageNet-1K. Furthermore, we show that high-quality distilled data can greatly improve various downstream applications, such as continual learning and membership inference defense. Please check out our webpage at https://sites.google.com/view/frepo.