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Distinguished Paper Award for Yuval Yarom at PLDI 2023

The conference will be held in Orlando, Florida from 17-21 June.

Yuval Yarom

Copyright: RUB/ Marquard

The paper "CryptOpt: Verified Compilation with Randomized Program - Search for Cryptographic Primitives" by Yuval Yarom and other international colleagues wins a Distinguished Paper Award at this year's "ACM SIGPLAN Conference on Programming Language Design and Implementation" (PLDI 2023). The conference takes place from 17 to 21 June in Orlando, Florida, and is one of the top A* conferences in the research field. Yarom has been newly appointed Professor of Computer Security at HGI in April and is PI of the CASA Cluster of Excellence.

You can access the full paper via this -> link.

 

About the Paper

„CryptOpt: Verified Compilation with Randomized Program - Search for Cryptographic Primitives“

Joel Kuepper, Andres Erbsen, Jason Gross, Owen Conoly, Chuyue Sun, Samuel Tian, David Wu, Adam Chlipala, Chitchanok Chuengsatiansup, Daniel Genkin, Markus Wagner , Yuval Yarom

Abstract: Most software domains rely on compilers to translate high-level code to multiple different machine languages, with performance not too much worse than what developers would have the patience to write directly in assembly language. However, cryptography has been an exception, where many performance-critical routines have been written directly in assembly (sometimes through metaprogramming layers). Some past work has shown how to do formal verification of that assembly, and other work has shown how to generate C code automatically along with formal proof, but with consequent performance penalties vs. the best-known assembly. We present CryptOpt, the first compilation pipeline that specializes high-level cryptographic functional programs into assembly code significantly faster than what GCC or Clang produce, with mechanized proof (in Coq) whose final theorem statement mentions little beyond the input functional program and the operational semantics of x86-64 assembly. On the optimization side, we apply randomized search through the space of assembly programs, with repeated automatic benchmarking on target CPUs. On the formal-verification side, we connect to the Fiat Cryptography framework (which translates functional programs into C-like IR code) and extend it with a new formally verified program-equivalence checker, incorporating a modest subset of known features of SMT solvers and symbolic-execution engines. The overall prototype is quite practical, e.g. producing new fastest-known implementations for the relatively new Intel i9 12G, of finite-field arithmetic for both Curve25519 (part of the TLS standard) and the Bitcoin elliptic curve secp256k1.

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