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Rotem Oshman
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- affiliation: Tel-Aviv University, Israel
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2020 – today
- 2024
- [c49]Hagit Attiya, Michael A. Bender, Martín Farach-Colton, Rotem Oshman, Noa Schiller:
History-Independent Concurrent Objects. PODC 2024: 14-24 - [c48]Mark Braverman, Rotem Oshman, Tal Roth:
Multi-Party Set Disjointness and Intersection with Bounded Dependence. PODC 2024: 332-342 - [c47]Eden Aldema Tshuva, Rotem Oshman:
Fully Local Succinct Distributed Arguments. DISC 2024: 1:1-1:24 - [i15]Hagit Attiya, Michael A. Bender, Martin Farach-Colton, Rotem Oshman, Noa Schiller:
History-Independent Concurrent Objects. CoRR abs/2403.14445 (2024) - [i14]Eden Aldema Tshuva, Elette Boyle, Ran Cohen, Tal Moran, Rotem Oshman:
Locally Verifiable Distributed SNARGs. IACR Cryptol. ePrint Arch. 2024: 1385 (2024) - 2023
- [j6]Orr Fischer, Rotem Oshman:
A distributed algorithm for directed minimum-weight spanning tree. Distributed Comput. 36(1): 57-87 (2023) - [c46]Rotem Oshman, Tal Roth:
The Communication Complexity of Set Intersection Under Product Distributions. ICALP 2023: 95:1-95:20 - [c45]Uri Meir, Rotem Oshman, Ofer Shayevitz, Yuval Volkov:
Resilience of 3-Majority Dynamics to Non-Uniform Schedulers. ITCS 2023: 86:1-86:19 - [c44]Eden Aldema Tshuva, Rotem Oshman:
On Polynomial Time Local Decision. OPODIS 2023: 27:1-27:17 - [c43]Eden Aldema Tshuva, Elette Boyle, Ran Cohen, Tal Moran, Rotem Oshman:
Locally Verifiable Distributed SNARGs. TCC (1) 2023: 65-90 - [e3]Rotem Oshman, Alexandre Nolin, Magnús M. Halldórsson, Alkida Balliu:
Proceedings of the 2023 ACM Symposium on Principles of Distributed Computing, PODC 2023, Orlando, FL, USA, June 19-23, 2023. ACM 2023 [contents] - [e2]Rotem Oshman:
37th International Symposium on Distributed Computing, DISC 2023, October 10-12, 2023, L'Aquila, Italy. LIPIcs 281, Schloss Dagstuhl - Leibniz-Zentrum für Informatik 2023, ISBN 978-3-95977-301-0 [contents] - [i13]Orr Fischer, Adi Horowitz, Rotem Oshman:
Massively Parallel Computation in a Heterogeneous Regime. CoRR abs/2302.14692 (2023) - 2022
- [j5]Talya Eden, Nimrod Fiat, Orr Fischer, Fabian Kuhn, Rotem Oshman:
Sublinear-time distributed algorithms for detecting small cliques and even cycles. Distributed Comput. 35(3): 207-234 (2022) - [c42]Keren Censor-Hillel, Orr Fischer, François Le Gall, Dean Leitersdorf, Rotem Oshman:
Quantum Distributed Algorithms for Detection of Cliques. ITCS 2022: 35:1-35:25 - [c41]Eden Aldema Tshuva, Rotem Oshman:
Brief Announcement: On Polynomial-Time Local Decision. PODC 2022: 48-50 - [c40]Orr Fischer, Adi Horowitz, Rotem Oshman:
Massively Parallel Computation in a Heterogeneous Regime. PODC 2022: 345-355 - [c39]Yoav Ben Shimon, Orr Fischer, Rotem Oshman:
Proof Labeling Schemes for Reachability-Related Problems in Directed Graphs. SIROCCO 2022: 21-41 - [c38]Aviv Bick, Gillat Kol, Rotem Oshman:
Distributed Zero-Knowledge Proofs Over Networks. SODA 2022: 2426-2458 - [i12]Keren Censor-Hillel, Orr Fischer, François Le Gall, Dean Leitersdorf, Rotem Oshman:
Quantum Distributed Algorithms for Detection of Cliques. CoRR abs/2201.03000 (2022) - 2021
- [j4]Assaf Ben-Yishai, Young-Han Kim, Rotem Oshman, Ofer Shayevitz:
On the Interactive Capacity of Finite-State Protocols. Entropy 23(1): 17 (2021) - [c37]Orr Fischer, Rotem Oshman, Dana Shamir:
Explicit Space-Time Tradeoffs for Proof Labeling Schemes in Graphs with Small Separators. OPODIS 2021: 21:1-21:22 - [c36]Nachum Dershowitz, Rotem Oshman, Tal Roth:
The communication complexity of multiparty set disjointness under product distributions. STOC 2021: 1194-1207 - [c35]Lior Solodkin, Rotem Oshman:
Truthful Information Dissemination in General Asynchronous Networks. DISC 2021: 37:1-37:19 - [e1]Quentin Bramas, Rotem Oshman, Paolo Romano:
24th International Conference on Principles of Distributed Systems, OPODIS 2020, December 14-16, 2020, Strasbourg, France (Virtual Conference). LIPIcs 184, Schloss Dagstuhl - Leibniz-Zentrum für Informatik 2021, ISBN 978-3-95977-176-4 [contents] - [i11]Keren Censor-Hillel, Orr Fischer, Tzlil Gonen, François Le Gall, Dean Leitersdorf, Rotem Oshman:
Fast Distributed Algorithms for Girth, Cycles and Small Subgraphs. CoRR abs/2101.07590 (2021) - [i10]Iftach Haitner, Noam Mazor, Rotem Oshman, Omer Reingold, Amir Yehudayoff:
On the Communication Complexity of Key-Agreement Protocols. CoRR abs/2105.01958 (2021) - 2020
- [j3]Orr Fischer, Rotem Oshman, Uri Zwick:
Public vs. private randomness in simultaneous multi-party communication complexity. Theor. Comput. Sci. 810: 72-81 (2020) - [c34]Sepehr Assadi, Gillat Kol, Rotem Oshman:
Lower Bounds for Distributed Sketching of Maximal Matchings and Maximal Independent Sets. PODC 2020: 79-88 - [c33]Keren Censor-Hillel, Orr Fischer, Tzlil Gonen, François Le Gall, Dean Leitersdorf, Rotem Oshman:
Fast Distributed Algorithms for Girth, Cycles and Small Subgraphs. DISC 2020: 33:1-33:17 - [i9]Assaf Ben-Yishai, Young-Han Kim, Rotem Oshman, Ofer Shayevitz:
On the Interactive Capacity of Finite-State Protocols. CoRR abs/2001.00499 (2020)
2010 – 2019
- 2019
- [c32]Iftach Haitner, Noam Mazor, Rotem Oshman, Omer Reingold, Amir Yehudayoff:
On the Communication Complexity of Key-Agreement Protocols. ITCS 2019: 40:1-40:16 - [c31]Uri Meir, Dor Minzer, Rotem Oshman:
Can Distributed Uniformity Testing Be Local? PODC 2019: 228-237 - [c30]Pierre Fraigniaud, Pedro Montealegre, Rotem Oshman, Ivan Rapaport, Ioan Todinca:
On Distributed Merlin-Arthur Decision Protocols. SIROCCO 2019: 230-245 - [c29]Mark Braverman, Gillat Kol, Rotem Oshman, Avishay Tal:
On the Computational Power of Radio Channels. DISC 2019: 8:1-8:17 - [c28]Talya Eden, Nimrod Fiat, Orr Fischer, Fabian Kuhn, Rotem Oshman:
Sublinear-Time Distributed Algorithms for Detecting Small Cliques and Even Cycles. DISC 2019: 15:1-15:16 - [c27]Orr Fischer, Rotem Oshman:
A Distributed Algorithm for Directed Minimum-Weight Spanning Tree. DISC 2019: 16:1-16:16 - 2018
- [c26]Gillat Kol, Rotem Oshman, Raghuvansh R. Saxena:
Interactive Distributed Proofs. PODC 2018: 255-264 - [c25]Orr Fischer, Uri Meir, Rotem Oshman:
Distributed Uniformity Testing. PODC 2018: 455-464 - [c24]Orr Fischer, Tzlil Gonen, Fabian Kuhn, Rotem Oshman:
Possibilities and Impossibilities for Distributed Subgraph Detection. SPAA 2018: 153-162 - [c23]Mohamad Ahmadi, Fabian Kuhn, Rotem Oshman:
Distributed Approximate Maximum Matching in the CONGEST Model. DISC 2018: 6:1-6:17 - [i8]Iftach Haitner, Noam Mazor, Rotem Oshman, Omer Reingold, Amir Yehudayoff:
On the Communication Complexity of Key-Agreement Protocols. Electron. Colloquium Comput. Complex. TR18 (2018) - 2017
- [c22]Mark Braverman, Rotem Oshman:
A Rounds vs. Communication Tradeoff for Multi-Party Set Disjointness. FOCS 2017: 144-155 - [c21]Tzlil Gonen, Rotem Oshman:
Lower Bounds for Subgraph Detection in the CONGEST Model. OPODIS 2017: 6:1-6:16 - [c20]Orr Fischer, Shay Gershtein, Rotem Oshman:
On the Multiparty Communication Complexity of Testing Triangle-Freeness. PODC 2017: 111-120 - [c19]Guy Even, Orr Fischer, Pierre Fraigniaud, Tzlil Gonen, Reut Levi, Moti Medina, Pedro Montealegre, Dennis Olivetti, Rotem Oshman, Ivan Rapaport, Ioan Todinca:
Three Notes on Distributed Property Testing. DISC 2017: 15:1-15:30 - [c18]Gillat Kol, Rotem Oshman, Dafna Sadeh:
Interactive Compression for Multi-Party Protocol. DISC 2017: 31:1-31:15 - [i7]Orr Fischer, Tzlil Gonen, Rotem Oshman:
Distributed Property Testing for Subgraph-Freeness Revisited. CoRR abs/1705.04033 (2017) - [i6]Orr Fischer, Shay Gershtein, Rotem Oshman:
On The Multiparty Communication Complexity of Testing Triangle-Freeness. CoRR abs/1705.08438 (2017) - [i5]Orr Fischer, Tzlil Gonen, Rotem Oshman:
Superlinear Lower Bounds for Distributed Subgraph Detection. CoRR abs/1711.06920 (2017) - 2016
- [c17]Orr Fischer, Rotem Oshman, Uri Zwick:
Public vs. Private Randomness in Simultaneous Multi-party Communication Complexity. SIROCCO 2016: 60-74 - 2015
- [c16]Mark Braverman, Rotem Oshman:
On Information Complexity in the Broadcast Model. PODC 2015: 355-364 - [i4]Mark Braverman, Rotem Oshman:
The Communication Complexity of Number-In-Hand Set Disjointness with No Promise. Electron. Colloquium Comput. Complex. TR15 (2015) - 2014
- [c15]Andrew Drucker, Fabian Kuhn, Rotem Oshman:
On the power of the congested clique model. PODC 2014: 367-376 - [c14]Rotem Oshman:
Communication Complexity Lower Bounds in Distributed Message-Passing. SIROCCO 2014: 14-17 - 2013
- [c13]Mark Braverman, Faith Ellen, Rotem Oshman, Toniann Pitassi, Vinod Vaikuntanathan:
A Tight Bound for Set Disjointness in the Message-Passing Model. FOCS 2013: 668-677 - [c12]Rotem Oshman, Nir Shavit:
The SkipTrie: low-depth concurrent search without rebalancing. PODC 2013: 23-32 - [i3]Mark Braverman, Faith Ellen, Rotem Oshman, Toniann Pitassi, Vinod Vaikuntanathan:
Tight Bounds for Set Disjointness in the Message Passing Model. CoRR abs/1305.4696 (2013) - 2012
- [c11]Andrew Drucker, Fabian Kuhn, Rotem Oshman:
The communication complexity of distributed task allocation. PODC 2012: 67-76 - 2011
- [j2]Fabian Kuhn, Thomas Locher, Rotem Oshman:
Gradient Clock Synchronization in Dynamic Networks. Theory Comput. Syst. 49(4): 781-816 (2011) - [j1]Fabian Kuhn, Rotem Oshman:
Dynamic networks: models and algorithms. SIGACT News 42(1): 82-96 (2011) - [c10]Fabian Kuhn, Yoram Moses, Rotem Oshman:
Coordinated consensus in dynamic networks. PODC 2011: 1-10 - [c9]Thomas Moscibroda, Rotem Oshman:
Resilience of mutual exclusion algorithms to transient memory faults. PODC 2011: 69-78 - [c8]Fabian Kuhn, Rotem Oshman:
The Complexity of Data Aggregation in Directed Networks. DISC 2011: 416-431 - 2010
- [c7]Fabian Kuhn, Nancy A. Lynch, Calvin C. Newport, Rotem Oshman, Andréa W. Richa:
Broadcasting in unreliable radio networks. PODC 2010: 336-345 - [c6]Fabian Kuhn, Christoph Lenzen, Thomas Locher, Rotem Oshman:
Optimal gradient clock synchronization in dynamic networks. PODC 2010: 430-439 - [c5]Fabian Kuhn, Nancy A. Lynch, Rotem Oshman:
Distributed computation in dynamic networks. STOC 2010: 513-522 - [i2]Fabian Kuhn, Christoph Lenzen, Thomas Locher, Rotem Oshman:
Optimal Gradient Clock Synchronization in Dynamic Networks. CoRR abs/1005.2894 (2010)
2000 – 2009
- 2009
- [c4]Fabian Kuhn, Rotem Oshman:
Gradient Clock Synchronization Using Reference Broadcasts. OPODIS 2009: 204-218 - [c3]Fabian Kuhn, Thomas Locher, Rotem Oshman:
Gradient clock synchronization in dynamic networks. SPAA 2009: 270-279 - [c2]Rotem Oshman:
An Automata-Theoretic Dynamic Completeness Criterion for Bounded Model-Checking. VMCAI 2009: 275-289 - [i1]Fabian Kuhn, Rotem Oshman:
Gradient Clock Synchronization using Reference Broadcasts. CoRR abs/0905.3454 (2009) - 2007
- [c1]Rotem Oshman, Orna Grumberg:
A New Approach to Bounded Model Checking for Branching Time Logics. ATVA 2007: 410-424
Coauthor Index
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last updated on 2024-10-25 21:16 CEST by the dblp team
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