Adithya Bhat
Staff Research Scientist
Team: Digital Currencies
Research areas: Fault-tolerant Distributed Systems, Applied Cryptography
Biography
Dr. Adithya Bhat joined Visa Research as a Staff Research Scientist in August 2023. Adithya received his Ph.D. in Computer Science from Purdue University in 2023. During his Ph.D., he worked on designing fault-tolerant State Machine Replication Protocols and Random Beacon Protocols. He also developed Rust libraries for the designed protocols. While at Purdue, he completed two internships at VMware Research and Visa Research. His last internship in 2022 was with the Digital Currencies team at Visa Research.
As a member of the Digital Currencies Team, Adithya’s research interests are broadly in studying highly concurrent trust-optimal decentralized technologies, protocols in the hybrid-trust model, analysis and study of public blockchain data to design and develop heuristics and technologies for highly scalable systems, and design and development of scalable privacy-preserving auditable secure computation. Adithya brings extensive knowledge in fault-tolerant distributed systems and applied cryptography as well as experience from industry. He has published over 12 research papers in top-tier conferences such as CCS, IEEE S&P, NDSS, and FC. He is excited to develop highly-scalable and concurrent payment systems and secure computation technologies.
Publications
- Synchronous Distributed Key Generation without Broadcasts. Nibesh Shrestha, Adithya Bhat, Kartik Nayak, Aniket Kate. Journal of Cryptology 2024.
- SensorBFT: Fault-Tolerant Target Localization using Voronoi Diagrams and Approximate Agreement. ICDCS 2024. Akhil Bandarupalli, Adithya Bhat, Somali Chaterji, Michael K. Reiter, Aniket Kate, Saurabh Bagchi.
- Delphi: Efficient Asynchronous Approximate Agreement for Distributed Oracles. DSN 2024. Akhil Bandarupalli, Adithya Bhat, Saurabh Bagchi, Aniket Kate, Chen-Da Liu-Zhang, and Michael K. Reiter.
- HashRand: Efficient Asynchronous Random Beacon without Threshold Cryptographic Setup. CCS 2024. Akhil Bandarupalli, Adithya Bhat, Saurabh Bagchi, Aniket Kate, and Michael Reiter.
- Attacking and Improving the Tor Directory Protocol. IEEE S&P 2024. Zhongtang Luo, Adithya Bhat, Kartik Nayak, and Aniket Kate.
- EESMR - Energy Efficient State Machine Replication. Middleware 2023. Adithya Bhat, Akhil Bandarupalli, Manish Nagaraj, Saurabh Bagchi, Aniket Kate, Michael Reiter. conference eprint
- The unique chain rule and its applications. Financial Cryptography 2023. Adithya Bhat, Akhil Bandarupalli, Saurabh Bagchi, Aniket Kate, Michael Reiter.
- OptRand - Optimistically Responsive Reconfigurable Distributed Randomness. NDSS 2023. Adithya Bhat, Nibesh Shrestha, Aniket Kate, Kartik Nayak.
- OpenSquare: Decentralized Repeated Modular Squaring Service. CCS 2021. Sri Aravinda Krishnan Thyagarajan, Tiantian Gong, Adithya Bhat, Aniket Kate, Dominique Schroder.
- RandPiper – Reconfiguration Friendly Random Beacons with Quadratic Communication. CCS 2021. Adithya Bhat, Nibesh Shrestha, Aniket Kate, Kartik Nayak.
- Reparo - Publicly Verifiable Repair Layer for any Blockchain. FC 2021. Sri Aravinda Krishnan Thyagarajan, Adithya Bhat, Bernardo Magri, Daniel Tschudi, Aniket Kate.
- Verifiable Timed Signatures for Blockchains. CCS 2020. Sri Aravinda Krishnan Thyagarajan, Adithya Bhat, Guilio Malavolta, Nico Dottling, Aniket Kate, Dominique Schroder.