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Faster Lattice-Based KEMs via a Generic Fujisaki-Okamoto Transform Using Prefix Hashing., , , , and . CCS, page 2722-2737. ACM, (2021)Practical Non-interactive Publicly Verifiable Secret Sharing with Thousands of Parties., , and . EUROCRYPT (1), volume 13275 of Lecture Notes in Computer Science, page 458-487. Springer, (2022)Compact Privacy Protocols from Post-quantum and Timed Classical Assumptions., , , and . PQCrypto, volume 12100 of Lecture Notes in Computer Science, page 226-246. Springer, (2020)Efficient Lattice-Based Blind Signatures via Gaussian One-Time Signatures., , and . Public Key Cryptography (2), volume 13178 of Lecture Notes in Computer Science, page 498-527. Springer, (2022)A Framework for Efficient Lattice-Based DAA., , , and . CYSARM@CCS, page 23-34. ACM, (2019)Basic Lattice Cryptography: The concepts behind Kyber (ML-KEM) and Dilithium (ML-DSA).. IACR Cryptol. ePrint Arch., (2024)Lattice-Based Blind Signatures: Short, Efficient, and Round-Optimal., , , and . CCS, page 16-29. ACM, (2023)BLOOM: Bimodal Lattice One-out-of-Many Proofs and Applications., and . ASIACRYPT (4), volume 13794 of Lecture Notes in Computer Science, page 95-125. Springer, (2022)Shorter Lattice-Based Zero-Knowledge Proofs via One-Time Commitments., , and . Public Key Cryptography (1), volume 12710 of Lecture Notes in Computer Science, page 215-241. Springer, (2021)Short Discrete Log Proofs for FHE and Ring-LWE Ciphertexts., , and . Public Key Cryptography (1), volume 11442 of Lecture Notes in Computer Science, page 344-373. Springer, (2019)