SECFLOAT: Accurate Floating-Point meets Secure 2-Party Computation
- Deevashwer Rathee ,
- Anwesh Bhattacharya ,
- Rahul Sharma ,
- Divya Gupta ,
- Nishanth Chandran ,
- Aseem Rastogi
43rd IEEE Symposium on Security and Privacy (IEEE S&P 2022) |
Organized by IEEE
We build a library \tool for secure 2-party computation (2PC) of 32-bit single-precision floating-point operations and math functions. The existing functionalities used in cryptographic works are imprecise and the precise functionalities used in standard libraries are not crypto-friendly, i.e., they use operations that are cheap on CPUs but have exorbitant cost in 2PC. SecFloat bridges this gap with its novel crypto-friendly precise functionalities. Compared to the prior cryptographic libraries, SecFloat is up to six orders of magnitude more precise and up to two orders of magnitude more efficient. Furthermore, against a precise 2PC baseline, SecFloat is three orders of magnitude more efficient. The high precision of SecFloat leads to the first accurate implementation of secure inference. All prior works on secure inference of deep neural networks rely on ad hoc float-to-fixed converters. We evaluate a model where the fixed-point approximations used in privacy-preserving machine learning completely fail and floating-point is necessary. Thus, emphasizing the need for libraries like SecFloat.