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Low-Bandwidth Threshold ECDSA via Pseudorandom Correlation Generators

Damiano Abram, Ariel Nof, Claudio Orlandi, Peter Schöll, Omer Shlomovits

20222022 IEEE Symposium on Security and Privacy (SP)41 citationsDOI

Abstract

Digital signature schemes are a fundamental component of secure distributed systems, and the theft of a signing-key might have huge real-world repercussions e.g., in applications such as cryptocurrencies. Threshold signature schemes mitigate this problem by distributing shares of the secret key on several servers and requiring that enough of them interact to be able to compute a signature. In this paper, we provide a novel threshold protocol for ECDSA, arguably the most relevant signature scheme in practice. Our protocol is the first one where the communication complexity of the preprocessing phase is only logarithmic in the number of ECDSA signatures to be produced later, and it achieves therefore a so-called silent preprocessing. Our protocol achieves active security against any number of arbitrarily corrupted parties.

Topics & Concepts

Elliptic Curve Digital Signature AlgorithmComputer scienceDigital signatureDigital Signature AlgorithmPublic-key cryptographySignature (topology)CryptographyPseudorandom number generatorServerSchnorr signatureProtocol (science)PreprocessorBandwidth (computing)Key (lock)Cryptographic protocolTheoretical computer scienceComputer securityComputer networkAlgorithmBlind signatureEncryptionElliptic curve cryptographyMathematicsHash functionAlternative medicineMedicineGeometryArtificial intelligencePathologyCryptography and Data SecurityCloud Data Security SolutionsCryptography and Residue Arithmetic
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