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The Cartographer
Fast algorithms for learning a Gaussian under halfspace truncation with optimal sample complexity
June 25, 2026 ยท Grace Period ยท ๐ COLT 2026
Authors
Haitong Liu, Deepak Narayanan Sridharan, David Steurer, Manuel Wiedmer
arXiv ID
2606.27298
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.LG,
math.ST,
stat.ML
Citations
0
Venue
COLT 2026
Abstract
We study the fundamental problem of learning a high-dimensional Gaussian truncated to an unknown halfspace. Lee, Mehrotra and Zampetakis (FOCS'24) recently obtained the first polynomial time algorithm for this problem, but their resulting sample and time complexity bounds are not optimal. Under non-trivial truncation, for any target accuracy $\varepsilon > 0$ and dimension $d$ we give an efficient algorithm that uses $n = \tilde{O}(d^2/\varepsilon^2)$ samples and learns the underlying Gaussian to error $\varepsilon$ in total variation distance. Our algorithm is also fast: its runtime is dominated by the cost of computing the empirical covariance matrix. Both our sample and time complexity are optimal in terms of $d$ and $\varepsilon$ even without truncation: in this regard, we can learn a Gaussian under halfspace truncation for free. The key ingredient behind our result is a novel reinterpretation of the low-degree moments of the truncated Gaussian in terms of a relative truncation parameter. This relative truncation parameter uniquely determines the parameters of the untruncated Gaussian and enables direct parameter recovery. This reinterpretation allows us to circumvent the time intensive projected stochastic gradient descent procedure that is widely used in learning under truncation.
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The Cartographer