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| Criptografia basada en reticles× | zk-STARK× | |
|---|---|---|
| Camp | Criptografia | Criptografia |
| Família | Machine learning | Machine learning |
| Any d'origen≠ | 1996 | 2018 |
| Autor original≠ | Miklós Ajtai | Eli Ben-Sasson |
| Tipus≠ | public-key cryptosystem based on lattice hardness | transparent zero-knowledge argument of knowledge |
| Font seminal≠ | Ajtai, M. (1996). Generating hard instances of the short basis problem. In Proceedings of the 28th Annual ACM Symposium on Theory of Computing, pp. 99-108. link ↗ | Ben-Sasson, E., Bentov, I., Horesh, Y., & Riabzev, M. (2019). Scalable, transparent, and post-quantum secure computational integrity. In IACR Cryptology ePrint Archive, Report 2018/046. link ↗ |
| Àlies≠ | lattice cryptography, post-quantum lattice cryptography | zk-STARK, transparent argument of knowledge, STARK |
| Relacionats | 3 | 3 |
| Resum≠ | Lattice-based cryptography is a class of cryptosystems whose security is derived from the computational hardness of lattice problems, particularly the shortest vector problem (SVP) and learning with errors (LWE). First proposed by Miklós Ajtai in 1996, lattice-based approaches have gained prominence as the leading candidates for post-quantum cryptography. Unlike RSA and ECC, which are vulnerable to quantum computers, lattice problems are believed to remain hard even against quantum algorithms. | A zk-STARK (Zero-Knowledge Scalable Transparent Argument of Knowledge) is a cryptographic proof system allowing a prover to convince a verifier of a computation's correctness without trusted setup or revealing computational details. Introduced by Ben-Sasson and colleagues in 2018, zk-STARKs address a key limitation of zk-SNARKs: they require no preprocessing phase vulnerable to corruption. Instead, STARKs rely only on cryptographic hash functions, making them simpler, more transparent, and believed to be post-quantum secure. |
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