Differentially Private Optimization with Sparse Gradients

Badih Ghazi; Cristóbal Guzmán; Pritish Kamath; Ravi Kumar; Pasin Manurangsi

Differentially Private Optimization with Sparse Gradients

Badih Ghazi, Cristóbal Guzmán, Pritish Kamath, Ravi Kumar, Pasin Manurangsi

Published: 01 Jan 2024, Last Modified: 25 Jan 2025CoRR 2024EveryoneRevisionsBibTeXCC BY-SA 4.0

Abstract: Motivated by applications of large embedding models, we study differentially private (DP) optimization problems under sparsity of individual gradients. We start with new near-optimal bounds for the classic mean estimation problem but with sparse data, improving upon existing algorithms particularly for the high-dimensional regime. Building on this, we obtain pure- and approximate-DP algorithms with almost optimal rates for stochastic convex optimization with sparse gradients; the former represents the first nearly dimension-independent rates for this problem. Finally, we study the approximation of stationary points for the empirical loss in approximate-DP optimization and obtain rates that depend on sparsity instead of dimension, modulo polylogarithmic factors.

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