Private Simultaneous Messages Based on Quadratic Residues
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Private Simultaneous Messages (PSM) model is a minimal model for secure multiparty computation. Feige, Kilian, and Naor (STOC 1994) and Ishai (Cryptology and Information Security Series 2013) constructed PSM protocols based on quadratic residues. In this paper, we define QR-PSM protocols as a generalization of these protocols. A QR-PSM protocol is a PSM protocol whose decoding function outputs the quadratic residuosity of what is computed from messages. We design a QR-PSM protocol for any symmetric function f: {0,1}^n →{0,1} of communication complexity O(n^2). As far as we know, it is the most efficient PSM protocol since the previously known best PSM protocol was of O(n^2log n) (Beimel et al., CRYPTO 2014). We also study the sizes of the underlying finite fields 𝔽_p in the protocols since the communication complexity of a QR-PSM protocol is proportional to the bit length of the prime p. In particular, we show that the N-th Peralta prime P_N, which is used for general QR-PSM protocols, can be taken as at most (1+o(1))N^2 2^2N-2, which improves the Peralta's known result (Mathematics of Computation 1992) by a constant factor (1+√(2))^2.
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