We study the round complexity of secure multi-party computation (MPC) in the post-quantum regime. Our focus is on the fully black-box setting, where both the construction and security reduction are black-box. Chia, Chung, Liu, and Yamakawa [FOCS'22] demonstrated the infeasibility of achieving standard simulation-based security within constant rounds unless . This leaves crucial feasibility questions unresolved. Specifically, it remains unknown whether black-box constructions are achievable within polynomial rounds; also, the existence of constant-round constructions with respect to -simulation, a relaxed yet useful alternative to standard simulation, remains unestablished.This work provides positive answers. We introduce the first black-box construction for PQ-MPC in polynomial rounds, from the minimal assumption of post-quantum semi-honest oblivious transfers. In the two-party scenario, our construction requires only rounds. These results have already been applied in the oracle separation between classical-communication quantum MPC and in Kretschmer, Qian, and Tal [STOC'25].As for -simulation, Chia, Chung, Liang, and Yamakawa [CRYPTO'22] resolved the issue for the two-party setting, leaving the multi-party case open. We complete the picture by presenting the first black-box, constant-round construction in the multi-party setting, instantiable using various standard post-quantum primitives.En route, we obtain a black-box, constant-round post-quantum commitment achieving a weaker version of 1-many non-malleability, from post-quantum one-way functions. Besides its role in our MPC construction, this commitment also reduces the assumption used in the quantum parallel repetition lower bound by Bostanci, Qian, Spooner, and Yuen [STOC'24]. We anticipate further applications in the future.
View on arXiv@article{chatterjee2025_2502.13830,
title={ The Round Complexity of Black-Box Post-Quantum Secure Computation },
author={ Rohit Chatterjee and Xiao Liang and Omkant Pandey and Takashi Yamakawa },
journal={arXiv preprint arXiv:2502.13830},
year={ 2025 }
}