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Vector Commitments with Proofs of Smallness: Short Range Proofs and More

  • Published:2024 Issue: Volume: Page:36-67
  • ISSN:0302-9743
  • Container-title:Lecture Notes in Computer Science
  • language:en
  • Short-container-title:

Author:

Libert Benoît

Publisher

Springer Nature Switzerland

Reference83 articles.

1. Albrecht, M.R., Cini, V., Lai, R.W.F., Malavolta, G., Thyagarajan, S.A.: Lattice-based SNARKs: publicly verifiable, preprocessing, and recursively composable: (extended abstract). In: Dodis, Y., Shrimpton, T. (eds.) Advances in Cryptology. CRYPTO 2022. LNCS, vol. 13508, pp. 102–132. Springer, Cham (2022). https://doi.org/10.1007/978-3-031-15979-4_4

2. Arun, A., Ganesh, C., Lokam, S., Mopuri, T., Sridhar, S.: Dew: a transparent constant-sized polynomial commitment scheme. In: Boldyreva, A., Kolesnikov, V. (eds.) Public-Key Cryptography. PKC 2023. LNCS, vol. 13941, pp. 542–571. Springer, Cham (2023). https://doi.org/10.1007/978-3-031-31371-4_19

3. Baghery, K., Kohlweiss, M., Siim, J., Volkhov, M.: Another look at extraction and randomization of Groth’s zk-SNARK. In: Borisov, N., Diaz, C. (eds.) Financial Cryptography and Data Security: 25th International Conference. FC 2021. LNCS, vol. 12674, pp. 457–475. Springer, Heidelberg (2021). https://doi.org/10.1007/978-3-662-64322-8_22

4. Baghery, K., Pindado, Z., Ràfols, C.: Simulation extractable versions of Groth’s zk-SNARK revisited. In: Krenn, S., Shulman, H., Vaudenay, S. (eds.) Cryptology and Network Security. LNCS, 12579, pp. 453–461. Springer, Cham (2020). https://doi.org/10.1007/978-3-030-65411-5_22

5. Balbas, D., Catalano, D., Fiore, D., Lai, R.-F.: Chainable functional commitments: from quadratic polynomials to unbounded-depth circuits. In: Rothblum, G., Wee, H. (eds.) Theory of Cryptography. TCC 2023. LNCS, vol. 14371, pp. 363–393. Springer, Cham (2023). https://doi.org/10.1007/978-3-031-48621-0_13

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