Amortizing Rate-1 OT and Applications to PIR and PSI

Melissa Chase; Sanjam Garg; Mohammad Hajiabadi; Jialin Li; Peihan Miao

doi:10.1007/978-3-030-90456-2_5

Amortizing Rate-1 OT and Applications to PIR and PSI

Melissa Chase, Sanjam Garg, Mohammad Hajiabadi, Jialin Li, Peihan Miao

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Recent new constructions of rate-1 OT [Döttling, Garg, Ishai, Malavolta, Mour, and Ostrovsky, CRYPTO 2019] have brought this primitive under the spotlight and the techniques have led to new feasibility results for private-information retrieval, and homomorphic encryption for branching programs. The receiver communication of this construction consists of a quadratic (in the sender’s input size) number of group elements for a single instance of rate-1 OT. Recently [Garg, Hajiabadi, Ostrovsky, TCC 2020] improved the receiver communication to a linear number of group elements for a single string-OT. However, most applications of rate-1 OT require executing it multiple times, resulting in large communication costs for the receiver. In this work, we introduce a new technique for amortizing the cost of multiple rate-1 OTs. Specifically, based on standard pairing assumptions, we obtain a two-message rate-1 OT protocol for which the amortized cost per string-OT is asymptotically reduced to only four group elements. Our results lead to significant communication improvements in PSI and PIR, special cases of SFE for branching programs. 1. PIR: We obtain a rate-1 PIR scheme with client communication cost of O(λ· log N) group elements for security parameter λ and database size N. Notably, after a one-time setup (or one PIR instance), any following PIR instance only requires communication cost O(log N) number of group elements. 2. PSI with unbalanced inputs: We apply our techniques to private set intersection with unbalanced set sizes (where the receiver has a smaller set) and achieve receiver communication of O((m+ λ) log N) group elements where m, N are the sizes of the receiver and sender sets, respectively. Similarly, after a one-time setup (or one PSI instance), any following PSI instance only requires communication cost O(m· log N) number of group elements. All previous sublinear-communication non-FHE based PSI protocols for the above unbalanced setting were also based on rate-1 OT, but incurred at least O(λ²mlog N) group elements.

Original language	English (US)
Title of host publication	Theory of Cryptography - 19th International Conference, TCC 2021, Proceedings
Editors	Kobbi Nissim, Brent Waters, Brent Waters
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	126-156
Number of pages	31
ISBN (Print)	9783030904555
DOIs	https://doi.org/10.1007/978-3-030-90456-2_5
State	Published - 2021
Event	19th International Conference on Theory of Cryptography, TCC 2021 - Raleigh, United States Duration: Nov 8 2021 → Nov 11 2021

Publication series

Name	Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)
Volume	13044 LNCS
ISSN (Print)	0302-9743
ISSN (Electronic)	1611-3349

Conference

Conference	19th International Conference on Theory of Cryptography, TCC 2021
Country/Territory	United States
City	Raleigh
Period	11/8/21 → 11/11/21

All Science Journal Classification (ASJC) codes

Theoretical Computer Science
Computer Science(all)

Access to Document

10.1007/978-3-030-90456-2_5

Cite this

Chase, M., Garg, S., Hajiabadi, M., Li, J., & Miao, P. (2021). Amortizing Rate-1 OT and Applications to PIR and PSI. In K. Nissim, B. Waters, & B. Waters (Eds.), Theory of Cryptography - 19th International Conference, TCC 2021, Proceedings (pp. 126-156). (Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics); Vol. 13044 LNCS). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-030-90456-2_5

Chase, Melissa ; Garg, Sanjam ; Hajiabadi, Mohammad et al. / Amortizing Rate-1 OT and Applications to PIR and PSI. Theory of Cryptography - 19th International Conference, TCC 2021, Proceedings. editor / Kobbi Nissim ; Brent Waters ; Brent Waters. Springer Science and Business Media Deutschland GmbH, 2021. pp. 126-156 (Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)).

@inproceedings{f323d10426dc434188cdd09a4fe0a42b,

title = "Amortizing Rate-1 OT and Applications to PIR and PSI",

abstract = "Recent new constructions of rate-1 OT [D{\"o}ttling, Garg, Ishai, Malavolta, Mour, and Ostrovsky, CRYPTO 2019] have brought this primitive under the spotlight and the techniques have led to new feasibility results for private-information retrieval, and homomorphic encryption for branching programs. The receiver communication of this construction consists of a quadratic (in the sender{\textquoteright}s input size) number of group elements for a single instance of rate-1 OT. Recently [Garg, Hajiabadi, Ostrovsky, TCC 2020] improved the receiver communication to a linear number of group elements for a single string-OT. However, most applications of rate-1 OT require executing it multiple times, resulting in large communication costs for the receiver. In this work, we introduce a new technique for amortizing the cost of multiple rate-1 OTs. Specifically, based on standard pairing assumptions, we obtain a two-message rate-1 OT protocol for which the amortized cost per string-OT is asymptotically reduced to only four group elements. Our results lead to significant communication improvements in PSI and PIR, special cases of SFE for branching programs. 1. PIR: We obtain a rate-1 PIR scheme with client communication cost of O(λ· log N) group elements for security parameter λ and database size N. Notably, after a one-time setup (or one PIR instance), any following PIR instance only requires communication cost O(log N) number of group elements. 2. PSI with unbalanced inputs: We apply our techniques to private set intersection with unbalanced set sizes (where the receiver has a smaller set) and achieve receiver communication of O((m+ λ) log N) group elements where m, N are the sizes of the receiver and sender sets, respectively. Similarly, after a one-time setup (or one PSI instance), any following PSI instance only requires communication cost O(m· log N) number of group elements. All previous sublinear-communication non-FHE based PSI protocols for the above unbalanced setting were also based on rate-1 OT, but incurred at least O(λ2mlog N) group elements.",

author = "Melissa Chase and Sanjam Garg and Mohammad Hajiabadi and Jialin Li and Peihan Miao",

note = "Funding Information: 2. PSI with unbalanced inputs: We apply our techniques to private set S. Garg—supported in part by DARPA under Agreement No. HR00112020026, AFOSR Award FA9550-19-1-0200, NSF CNS Award 1936826, and research grants by the Sloan Foundation and Visa Inc. M. Hajiabadi—supported in part by NSF CNS Award 2055358 and a 2020 DPI Science Team Seed Grant. P. Miao—supported in part by NSF CNS Award 2055564. Publisher Copyright: {\textcopyright} 2021, International Association for Cryptologic Research.; 19th International Conference on Theory of Cryptography, TCC 2021 ; Conference date: 08-11-2021 Through 11-11-2021",

year = "2021",

doi = "10.1007/978-3-030-90456-2_5",

language = "English (US)",

isbn = "9783030904555",

series = "Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)",

publisher = "Springer Science and Business Media Deutschland GmbH",

pages = "126--156",

editor = "Kobbi Nissim and Brent Waters and Brent Waters",

booktitle = "Theory of Cryptography - 19th International Conference, TCC 2021, Proceedings",

address = "Germany",

}

Chase, M, Garg, S, Hajiabadi, M, Li, J & Miao, P 2021, Amortizing Rate-1 OT and Applications to PIR and PSI. in K Nissim, B Waters & B Waters (eds), Theory of Cryptography - 19th International Conference, TCC 2021, Proceedings. Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), vol. 13044 LNCS, Springer Science and Business Media Deutschland GmbH, pp. 126-156, 19th International Conference on Theory of Cryptography, TCC 2021, Raleigh, United States, 11/8/21. https://doi.org/10.1007/978-3-030-90456-2_5

Amortizing Rate-1 OT and Applications to PIR and PSI. / Chase, Melissa; Garg, Sanjam; Hajiabadi, Mohammad et al.

Theory of Cryptography - 19th International Conference, TCC 2021, Proceedings. ed. / Kobbi Nissim; Brent Waters; Brent Waters. Springer Science and Business Media Deutschland GmbH, 2021. p. 126-156 (Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics); Vol. 13044 LNCS).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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N1 - Funding Information: 2. PSI with unbalanced inputs: We apply our techniques to private set S. Garg—supported in part by DARPA under Agreement No. HR00112020026, AFOSR Award FA9550-19-1-0200, NSF CNS Award 1936826, and research grants by the Sloan Foundation and Visa Inc. M. Hajiabadi—supported in part by NSF CNS Award 2055358 and a 2020 DPI Science Team Seed Grant. P. Miao—supported in part by NSF CNS Award 2055564. Publisher Copyright: © 2021, International Association for Cryptologic Research.

PY - 2021

Y1 - 2021

N2 - Recent new constructions of rate-1 OT [Döttling, Garg, Ishai, Malavolta, Mour, and Ostrovsky, CRYPTO 2019] have brought this primitive under the spotlight and the techniques have led to new feasibility results for private-information retrieval, and homomorphic encryption for branching programs. The receiver communication of this construction consists of a quadratic (in the sender’s input size) number of group elements for a single instance of rate-1 OT. Recently [Garg, Hajiabadi, Ostrovsky, TCC 2020] improved the receiver communication to a linear number of group elements for a single string-OT. However, most applications of rate-1 OT require executing it multiple times, resulting in large communication costs for the receiver. In this work, we introduce a new technique for amortizing the cost of multiple rate-1 OTs. Specifically, based on standard pairing assumptions, we obtain a two-message rate-1 OT protocol for which the amortized cost per string-OT is asymptotically reduced to only four group elements. Our results lead to significant communication improvements in PSI and PIR, special cases of SFE for branching programs. 1. PIR: We obtain a rate-1 PIR scheme with client communication cost of O(λ· log N) group elements for security parameter λ and database size N. Notably, after a one-time setup (or one PIR instance), any following PIR instance only requires communication cost O(log N) number of group elements. 2. PSI with unbalanced inputs: We apply our techniques to private set intersection with unbalanced set sizes (where the receiver has a smaller set) and achieve receiver communication of O((m+ λ) log N) group elements where m, N are the sizes of the receiver and sender sets, respectively. Similarly, after a one-time setup (or one PSI instance), any following PSI instance only requires communication cost O(m· log N) number of group elements. All previous sublinear-communication non-FHE based PSI protocols for the above unbalanced setting were also based on rate-1 OT, but incurred at least O(λ2mlog N) group elements.

AB - Recent new constructions of rate-1 OT [Döttling, Garg, Ishai, Malavolta, Mour, and Ostrovsky, CRYPTO 2019] have brought this primitive under the spotlight and the techniques have led to new feasibility results for private-information retrieval, and homomorphic encryption for branching programs. The receiver communication of this construction consists of a quadratic (in the sender’s input size) number of group elements for a single instance of rate-1 OT. Recently [Garg, Hajiabadi, Ostrovsky, TCC 2020] improved the receiver communication to a linear number of group elements for a single string-OT. However, most applications of rate-1 OT require executing it multiple times, resulting in large communication costs for the receiver. In this work, we introduce a new technique for amortizing the cost of multiple rate-1 OTs. Specifically, based on standard pairing assumptions, we obtain a two-message rate-1 OT protocol for which the amortized cost per string-OT is asymptotically reduced to only four group elements. Our results lead to significant communication improvements in PSI and PIR, special cases of SFE for branching programs. 1. PIR: We obtain a rate-1 PIR scheme with client communication cost of O(λ· log N) group elements for security parameter λ and database size N. Notably, after a one-time setup (or one PIR instance), any following PIR instance only requires communication cost O(log N) number of group elements. 2. PSI with unbalanced inputs: We apply our techniques to private set intersection with unbalanced set sizes (where the receiver has a smaller set) and achieve receiver communication of O((m+ λ) log N) group elements where m, N are the sizes of the receiver and sender sets, respectively. Similarly, after a one-time setup (or one PSI instance), any following PSI instance only requires communication cost O(m· log N) number of group elements. All previous sublinear-communication non-FHE based PSI protocols for the above unbalanced setting were also based on rate-1 OT, but incurred at least O(λ2mlog N) group elements.

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T3 - Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)

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Chase M, Garg S, Hajiabadi M, Li J, Miao P. Amortizing Rate-1 OT and Applications to PIR and PSI. In Nissim K, Waters B, Waters B, editors, Theory of Cryptography - 19th International Conference, TCC 2021, Proceedings. Springer Science and Business Media Deutschland GmbH. 2021. p. 126-156. (Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)). doi: 10.1007/978-3-030-90456-2_5

Amortizing Rate-1 OT and Applications to PIR and PSI

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