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Aarushi Goel
Person information
- affiliation: NTT Research
- affiliation (PhD): Johns Hopkins University, USA
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2020 – today
- 2024
- [j4]Elette Boyle, Ran Cohen, Aarushi Goel:
Breaking the $O(\sqrt{n})$-Bit Barrier: Byzantine Agreement with Polylog Bits Per Party. J. Cryptol. 37(1): 2 (2024) - [j3]Arka Rai Choudhuri, Sanjam Garg, Aarushi Goel, Sruthi Sekar, Rohit Sinha:
SublonK: Sublinear Prover PlonK. Proc. Priv. Enhancing Technol. 2024(3): 314-335 (2024) - [c20]Sanjam Garg, Aarushi Goel, Mingyuan Wang:
How to Prove Statements Obliviously? CRYPTO (10) 2024: 449-487 - 2023
- [c19]Sanjam Garg, Aarushi Goel, Somesh Jha, Saeed Mahloujifar, Mohammad Mahmoody, Guru-Vamsi Policharla, Mingyuan Wang:
Experimenting with Zero-Knowledge Proofs of Training. CCS 2023: 1880-1894 - [c18]Gabrielle Beck, Aarushi Goel, Aditya Hegde, Abhishek Jain, Zhengzhong Jin, Gabriel Kaptchuk:
Scalable Multiparty Garbling. CCS 2023: 2158-2172 - [c17]Bernardo David, Giovanni Deligios, Aarushi Goel, Yuval Ishai, Anders Konring, Eyal Kushilevitz, Chen-Da Liu-Zhang, Varun Narayanan:
Perfect MPC over Layered Graphs. CRYPTO (1) 2023: 360-392 - [c16]Aarushi Goel, Mathias Hall-Andersen, Gabriel Kaptchuk, Nicholas Spooner:
Speed-Stacking: Fast Sublinear Zero-Knowledge Proofs for Disjunctions. EUROCRYPT (2) 2023: 347-378 - [c15]Sanjam Garg, Aarushi Goel, Abhishek Jain, Guru-Vamsi Policharla, Sruthi Sekar:
zkSaaS: Zero-Knowledge SNARKs as a Service. USENIX Security Symposium 2023: 4427-4444 - [i22]Gabrielle Beck, Aarushi Goel, Aditya Hegde, Abhishek Jain, Zhengzhong Jin, Gabriel Kaptchuk:
Scalable Multiparty Garbling. IACR Cryptol. ePrint Arch. 2023: 99 (2023) - [i21]Giovanni Deligios, Aarushi Goel, Chen-Da Liu-Zhang:
Maximally-Fluid MPC with Guaranteed Output Delivery. IACR Cryptol. ePrint Arch. 2023: 415 (2023) - [i20]Aarushi Goel, Mathias Hall-Andersen, Aditya Hegde, Abhishek Jain:
Secure Multiparty Computation with Free Branching. IACR Cryptol. ePrint Arch. 2023: 901 (2023) - [i19]Arka Rai Choudhuri, Sanjam Garg, Aarushi Goel, Sruthi Sekar, Rohit Sinha:
SublonK: Sublinear Prover PlonK. IACR Cryptol. ePrint Arch. 2023: 902 (2023) - [i18]Sanjam Garg, Aarushi Goel, Abhishek Jain, Guru-Vamsi Policharla, Sruthi Sekar:
zkSaaS: Zero-Knowledge SNARKs as a Service. IACR Cryptol. ePrint Arch. 2023: 905 (2023) - [i17]Sanjam Garg, Aarushi Goel, Somesh Jha, Saeed Mahloujifar, Mohammad Mahmoody, Guru-Vamsi Policharla, Mingyuan Wang:
Experimenting with Zero-Knowledge Proofs of Training. IACR Cryptol. ePrint Arch. 2023: 1345 (2023) - [i16]Sanjam Garg, Aarushi Goel, Mingyuan Wang:
How to Prove Statements Obliviously? IACR Cryptol. ePrint Arch. 2023: 1609 (2023) - [i15]Aarushi Goel, Mathias Hall-Andersen, Gabriel Kaptchuk:
Dora: Processor Expressiveness is (Nearly) Free in Zero-Knowledge for RAM Programs. IACR Cryptol. ePrint Arch. 2023: 1749 (2023) - 2022
- [j2]Aarushi Goel, Matthew Green, Mathias Hall-Andersen, Gabriel Kaptchuk:
Efficient Set Membership Proofs using MPC-in-the-Head. Proc. Priv. Enhancing Technol. 2022(2): 304-324 (2022) - [c14]Aarushi Goel, Mathias Hall-Andersen, Aditya Hegde, Abhishek Jain:
Secure Multiparty Computation with Free Branching. EUROCRYPT (1) 2022: 397-426 - [c13]Aarushi Goel, Matthew Green, Mathias Hall-Andersen, Gabriel Kaptchuk:
Stacking Sigmas: A Framework to Compose $\varSigma $-Protocols for Disjunctions. EUROCRYPT (2) 2022: 458-487 - [c12]Harry Eldridge, Aarushi Goel, Matthew Green, Abhishek Jain, Maximilian Zinkus:
One-Time Programs from Commodity Hardware. TCC (3) 2022: 121-150 - [i14]Harry Eldridge, Aarushi Goel, Matthew Green, Abhishek Jain, Maximilian Zinkus:
One-Time Programs from Commodity Hardware. IACR Cryptol. ePrint Arch. 2022: 1257 (2022) - [i13]Aarushi Goel, Mathias Hall-Andersen, Gabriel Kaptchuk, Nicholas Spooner:
Speed-Stacking: Fast Sublinear Zero-Knowledge Proofs for Disjunctions. IACR Cryptol. ePrint Arch. 2022: 1419 (2022) - 2021
- [c11]Arka Rai Choudhuri, Aarushi Goel, Matthew Green, Abhishek Jain, Gabriel Kaptchuk:
Fluid MPC: Secure Multiparty Computation with Dynamic Participants. CRYPTO (2) 2021: 94-123 - [c10]Gabrielle Beck, Aarushi Goel, Abhishek Jain, Gabriel Kaptchuk:
Order-C Secure Multiparty Computation for Highly Repetitive Circuits. EUROCRYPT (2) 2021: 663-693 - [c9]Elette Boyle, Ran Cohen, Aarushi Goel:
Breaking the O(√ n)-Bit Barrier: Byzantine Agreement with Polylog Bits Per Party. PODC 2021: 319-330 - [c8]Aarushi Goel, Abhishek Jain, Manoj Prabhakaran, Rajeev Raghunath:
On Communication Models and Best-Achievable Security in Two-Round MPC. TCC (2) 2021: 97-128 - [c7]Benny Applebaum, Aarushi Goel:
On Actively-Secure Elementary MPC Reductions. TCC (1) 2021: 717-749 - [i12]Aarushi Goel, Matthew Green, Mathias Hall-Andersen, Gabriel Kaptchuk:
Stacking Sigmas: A Framework to Compose Σ-Protocols for Disjunctions. IACR Cryptol. ePrint Arch. 2021: 422 (2021) - [i11]Gabrielle Beck, Aarushi Goel, Abhishek Jain, Gabriel Kaptchuk:
Order-C Secure Multiparty Computation for Highly Repetitive Circuits. IACR Cryptol. ePrint Arch. 2021: 500 (2021) - [i10]Aarushi Goel, Abhishek Jain, Manoj Prabhakaran, Rajeev Raghunath:
On Communication Models and Best-Achievable Security in Two-Round MPC. IACR Cryptol. ePrint Arch. 2021: 690 (2021) - [i9]Benny Applebaum, Aarushi Goel:
On Actively-Secure Elementary MPC Reductions. IACR Cryptol. ePrint Arch. 2021: 1208 (2021) - [i8]Aarushi Goel, Matthew Green, Mathias Hall-Andersen, Gabriel Kaptchuk:
Efficient Set Membership Proofs using MPC-in-the-Head. IACR Cryptol. ePrint Arch. 2021: 1656 (2021) - 2020
- [c6]Prabhanjan Ananth, Arka Rai Choudhuri, Aarushi Goel, Abhishek Jain:
Towards Efficiency-Preserving Round Compression in MPC - Do Fewer Rounds Mean More Computation? ASIACRYPT (3) 2020: 181-212 - [i7]Elette Boyle, Ran Cohen, Aarushi Goel:
Succinctly Reconstructed Distributed Signatures and Balanced Byzantine Agreement. CoRR abs/2002.02516 (2020) - [i6]Elette Boyle, Ran Cohen, Aarushi Goel:
Succinctly Reconstructed Distributed Signatures and Balanced Byzantine Agreement. IACR Cryptol. ePrint Arch. 2020: 130 (2020) - [i5]Arka Rai Choudhuri, Aarushi Goel, Matthew Green, Abhishek Jain, Gabriel Kaptchuk:
Fluid MPC: Secure Multiparty Computation with Dynamic Participants. IACR Cryptol. ePrint Arch. 2020: 754 (2020) - [i4]Prabhanjan Ananth, Arka Rai Choudhuri, Aarushi Goel, Abhishek Jain:
Towards Efficiency-Preserving Round Compression in MPC: Do fewer rounds mean more computation? IACR Cryptol. ePrint Arch. 2020: 1100 (2020)
2010 – 2019
- 2019
- [j1]Akshima, Donghoon Chang, Aarushi Goel, Sweta Mishra, Somitra Kumar Sanadhya:
Generation of Secure and Reliable Honeywords, Preventing False Detection. IEEE Trans. Dependable Secur. Comput. 16(5): 757-769 (2019) - [c5]Sanjam Garg, Aarushi Goel, Abhishek Jain:
The Broadcast Message Complexity of Secure Multiparty Computation. ASIACRYPT (1) 2019: 426-455 - [c4]Prabhanjan Ananth, Arka Rai Choudhuri, Aarushi Goel, Abhishek Jain:
Two Round Information-Theoretic MPC with Malicious Security. EUROCRYPT (2) 2019: 532-561 - 2018
- [c3]Prabhanjan Ananth, Arka Rai Choudhuri, Aarushi Goel, Abhishek Jain:
Round-Optimal Secure Multiparty Computation with Honest Majority. CRYPTO (2) 2018: 395-424 - [i3]Prabhanjan Ananth, Arka Rai Choudhuri, Aarushi Goel, Abhishek Jain:
Round-Optimal Secure Multiparty Computation with Honest Majority. IACR Cryptol. ePrint Arch. 2018: 572 (2018) - [i2]Prabhanjan Ananth, Arka Rai Choudhuri, Aarushi Goel, Abhishek Jain:
Two Round Information-Theoretic MPC with Malicious Security. IACR Cryptol. ePrint Arch. 2018: 1078 (2018) - 2015
- [c2]Akshima, Donghoon Chang, Mohona Ghosh, Aarushi Goel, Somitra Kumar Sanadhya:
Single Key Recovery Attacks on 9-Round Kalyna-128/256 and Kalyna-256/512. ICISC 2015: 119-135 - [c1]Akshima, Donghoon Chang, Mohona Ghosh, Aarushi Goel, Somitra Kumar Sanadhya:
Improved Meet-in-the-Middle Attacks on 7 and 8-Round ARIA-192 and ARIA-256. INDOCRYPT 2015: 198-217 - [i1]Akshima, Donghoon Chang, Mohona Ghosh, Aarushi Goel, Somitra Kumar Sanadhya:
Single Key Recovery Attacks on 9-round Kalyna-128/256 and Kalyna-256/512. IACR Cryptol. ePrint Arch. 2015: 1227 (2015)
Coauthor Index
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last updated on 2024-10-07 02:40 CEST by the dblp team
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