(2026-01) Secure Computation for Fixed-point and Floating-point Arithmetic
2026-01-22
Secure Multi-Party Computation (MPC) protocols naturally operate over rings/fields, and they are less efficient for real-number arithmetics, which are commonly needed in AI-powered applications. State-of-the-art solutions are hindered by the high cost of fixed-point and floating-point operations. This work addresses these bottlenecks by proposing a series of novel MPC protocols. Compared to SOTA, our fixed-point multiplication protocol reduces the online communication cost by about . For scenarios where higher precision is required, we present the first constant-round floating-point arithmetic protocol for addition and multiplication in the three-party computation (3PC) setting, reducing the communication overhead of SOTA by approximately . The experimental results demonstrate that our fixed-point multiplication protocol is more than faster than all mainstream solutions (such as ABY3, Falcon, Orca, etc.). Our floating-point addition and multiplication protocols are over and , respectively, faster than SOTA, SecFloat [S&P 23].