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Auteur principal: Melo, Victor Duarte
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2602.17900
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author Melo, Victor Duarte
author_facet Melo, Victor Duarte
contents This submission includes a complete reference implementation together with deterministic test vectors and a reproducible benchmark suite. All source code, build instructions, and regression artifacts are publicly available in the project repository, enabling independent verification and reimplementation of the scheme. The AEAD construction is fully specified, including domain separation, rate and capacity choices, tag generation, and the exact file format used by the reference CLI. Reported performance numbers are produced by the built in benchmark tool under documented hardware and compiler settings. All security claims are made strictly within the ideal permutation model following standard sponge and duplex bounds, and no stronger guarantees are asserted for the concrete permutation beyond the documented analysis and empirical behavior. The implementation aims for constant time behavior with respect to secret dependent operations, although no formal side channel proof is provided. The project is released under the MIT license, and external cryptanalysis, feedback, and reproducibility checks are explicitly encouraged.
format Preprint
id arxiv_https___arxiv_org_abs_2602_17900
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Symfrog-512: High-Capacity Sponge-Based AEAD Cipher (1024-bit State)
Melo, Victor Duarte
Cryptography and Security
This submission includes a complete reference implementation together with deterministic test vectors and a reproducible benchmark suite. All source code, build instructions, and regression artifacts are publicly available in the project repository, enabling independent verification and reimplementation of the scheme. The AEAD construction is fully specified, including domain separation, rate and capacity choices, tag generation, and the exact file format used by the reference CLI. Reported performance numbers are produced by the built in benchmark tool under documented hardware and compiler settings. All security claims are made strictly within the ideal permutation model following standard sponge and duplex bounds, and no stronger guarantees are asserted for the concrete permutation beyond the documented analysis and empirical behavior. The implementation aims for constant time behavior with respect to secret dependent operations, although no formal side channel proof is provided. The project is released under the MIT license, and external cryptanalysis, feedback, and reproducibility checks are explicitly encouraged.
title Symfrog-512: High-Capacity Sponge-Based AEAD Cipher (1024-bit State)
topic Cryptography and Security
url https://arxiv.org/abs/2602.17900