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arxiv: 2507.17895 · v1 · pith:2HBMVW56 · submitted 2025-07-23 · cs.LG · cs.CR

Lower Bounds for Public-Private Learning under Distribution Shift

Reviewed by Pithpith:2HBMVW56open to challenge →

classification cs.LG cs.CR
keywords datashiftsourceswhenboundsdistributionlearninglower
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The most effective differentially private machine learning algorithms in practice rely on an additional source of purportedly public data. This paradigm is most interesting when the two sources combine to be more than the sum of their parts. However, there are settings such as mean estimation where we have strong lower bounds, showing that when the two data sources have the same distribution, there is no complementary value to combining the two data sources. In this work we extend the known lower bounds for public-private learning to setting where the two data sources exhibit significant distribution shift. Our results apply to both Gaussian mean estimation where the two distributions have different means, and to Gaussian linear regression where the two distributions exhibit parameter shift. We find that when the shift is small (relative to the desired accuracy), either public or private data must be sufficiently abundant to estimate the private parameter. Conversely, when the shift is large, public data provides no benefit.

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