资源分类
资源论文Differentially Private Empirical Risk Minimization Revisited: Faster and More General?

Differentially Private Empirical Risk Minimization Revisited: Faster and More General?

2020-02-12 | |  92 |   42 |   0

Abstract

 In this paper we study the differentially private Empirical Risk Minimization (ERM) problem in different settings. For smooth (strongly) convex loss function with or without (non)-smooth regularization, we give algorithms that achieve either optimal or near optimal utility bounds with less gradient complexity compared with previous work. For ERM with smooth convex loss function in high-dimensional (p image.png n) setting, we give an algorithm which achieves the upper bound with less gradient complexity than previous ones. At last, we generalize the expected excess empirical risk from convex loss functions to non-convex ones satisfying the PolyakLojasiewicz condition and give a tighter upper bound on the utility than the one in [34].

上一篇:SafetyNets: Verifiable Execution of Deep Neural Networks on an Untrusted Cloud

下一篇:Train longer, generalize better: closing the generalization gap in large batch training of neural networks

用户评价
全部评价

热门资源

  • The Variational S...

    Unlike traditional images which do not offer in...

  • Learning to Predi...

    Much of model-based reinforcement learning invo...

  • Stratified Strate...

    In this paper we introduce Stratified Strategy ...

  • Learning to learn...

    The move from hand-designed features to learned...

  • A Mathematical Mo...

    Direct democracy, where each voter casts one vo...