MPCitH-based Signatures from Restricted Decoding Problems
By: Michele Battagliola , Sebastian Bitzer , Antonia Wachter-Zeh and more
Potential Business Impact:
Makes digital signatures smaller and faster.
Threshold-Computation-in-the-Head (TCitH) and VOLE-in-the-Head (VOLEitH), two recent developments of the MPC-in-the-Head (MPCitH) paradigm, have significantly improved the performance of digital signature schemes in this framework. In this note, we embed the restricted decoding problem within these frameworks. We propose a structurally simple modeling that achieves competitive signature sizes. Specifically, by instantiating the restricted decoding problem with the same hardness assumption underlying CROSS, we reduce sizes by more than a factor of two compared to the NIST submission. Moreover, we observe that ternary full-weight decoding, closely related to the hardness assumption underlying WAVE, is a restricted decoding problem. Using ternary full-weight decoding, we obtain signature sizes comparable to the smallest MPCitH-based candidates in the NIST competition.
Similar Papers
The Matrix Subcode Equivalence problem and its application to signature with MPC-in-the-Head
Cryptography and Security
Makes secret codes for computers that are very secure.
SoK: Demystifying the multiverse of MPC protocols
Cryptography and Security
Helps computers share secrets safely and cheaply.
Silentflow: Leveraging Trusted Execution for Resource-Limited MPC via Hardware-Algorithm Co-design
Cryptography and Security
Makes private AI work faster on small devices.