TY - GEN
T1 - Programmable Distributed Point Functions
AU - Boyle, Elette
AU - Gilboa, Niv
AU - Ishai, Yuval
AU - Kolobov, Victor I.
N1 - Publisher Copyright:
© 2022, International Association for Cryptologic Research.
PY - 2022
Y1 - 2022
N2 - A distributed point function (DPF) is a cryptographic primitive that enables compressed additive sharing of a secret unit vector across two or more parties. Despite growing ubiquity within applications and notable research efforts, the best 2-party DPF construction to date remains the tree-based construction from (Boyle et al., CCS’16), with no significantly new approaches since. We present a new framework for 2-party DPF construction, which applies in the setting of feasible (polynomial-size) domains. This captures in particular all DPF applications in which the keys are expanded to the full domain. Our approach is motivated by a strengthened notion we put forth, of programmable DPF (PDPF): in which a short, input-independent “offline” key can be reused for sharing many point functions. PDPF from OWF. We construct a PDPF for feasible domains from the minimal assumption that one-way functions exist, where the second “online” key size is polylogarithmic in the domain size N. Our approach offers multiple new efficiency features and applications: Privately puncturable PRFs. Our PDPF gives the first OWF-based privately puncturable PRFs (for feasible domains) with sublinear keys.O(1)-round distributed DPF Gen. We obtain a (standard) DPF with polylog-size keys that admits an analog of Doerner-shelat (CCS’17) distributed key generation, requiring only O(1) rounds (versus log N ).PCG with 1 short key. Compressing useful correlations for secure computation, where one key is of minimal size. This provides up to exponential communication savings in some application scenarios.
AB - A distributed point function (DPF) is a cryptographic primitive that enables compressed additive sharing of a secret unit vector across two or more parties. Despite growing ubiquity within applications and notable research efforts, the best 2-party DPF construction to date remains the tree-based construction from (Boyle et al., CCS’16), with no significantly new approaches since. We present a new framework for 2-party DPF construction, which applies in the setting of feasible (polynomial-size) domains. This captures in particular all DPF applications in which the keys are expanded to the full domain. Our approach is motivated by a strengthened notion we put forth, of programmable DPF (PDPF): in which a short, input-independent “offline” key can be reused for sharing many point functions. PDPF from OWF. We construct a PDPF for feasible domains from the minimal assumption that one-way functions exist, where the second “online” key size is polylogarithmic in the domain size N. Our approach offers multiple new efficiency features and applications: Privately puncturable PRFs. Our PDPF gives the first OWF-based privately puncturable PRFs (for feasible domains) with sublinear keys.O(1)-round distributed DPF Gen. We obtain a (standard) DPF with polylog-size keys that admits an analog of Doerner-shelat (CCS’17) distributed key generation, requiring only O(1) rounds (versus log N ).PCG with 1 short key. Compressing useful correlations for secure computation, where one key is of minimal size. This provides up to exponential communication savings in some application scenarios.
KW - Distributed Point Function
KW - Puncturable Psuedorandom Function
UR - http://www.scopus.com/inward/record.url?scp=85141697043&partnerID=8YFLogxK
U2 - 10.1007/978-3-031-15985-5_5
DO - 10.1007/978-3-031-15985-5_5
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AN - SCOPUS:85141697043
SN - 9783031159848
T3 - Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)
SP - 121
EP - 151
BT - Advances in Cryptology – CRYPTO 2022 - 42nd Annual International Cryptology Conference, CRYPTO 2022, Proceedings
A2 - Dodis, Yevgeniy
A2 - Shrimpton, Thomas
T2 - 42nd Annual International Cryptology Conference, CRYPTO 2022
Y2 - 15 August 2022 through 18 August 2022
ER -