Tightness of SDP and Burer-Monteiro Factorization for Phase Synchronization in High-Noise Regime

Abstract

We study the difference between the maximum likelihood estimation (MLE) and its semi-definite programming (SDP) relaxation for the phase synchronization problem, where n latent phases are estimated based on pairwise observations corrupted by Gaussian noise at a level σ. While previous studies have established that SDP coincides with the MLE when σ n / n, the behavior in the high-noise regime σ n / n remains unclear. We address this gap by quantifying the deviation between the SDP and the MLE in the high-noise regime as (-c nσ2), indicating an exponentially small discrepancy. In fact, we establish more general results for the Burer-Monteiro (BM) factorization that covers the SDP as a special case: it has the exponentially small deviation from the MLE in the high-noise regime and coincides with the MLE when σ is small. To obtain our results, we develop a refined entrywise analysis of the MLE that is beyond the existing ∞ analysis in literature.

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