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2020 – today
- 2024
[c63]Sajy Khashab, Alon Rashelbach, Mark Silberstein:
Multitenant In-Network Acceleration with SwitchVM. NSDI 2024: 691-708- [c62]Lior Zeno
, Ang Chen, Mark Silberstein:
In-Network Address Caching for Virtual Networks. SIGCOMM 2024: 735-749 - 2023
- [j14]Oleksii Oleksenko, Christof Fetzer, Boris Köpf, Mark Silberstein:
Revizor: Testing Black-Box CPUs Against Speculation Contracts. IEEE Micro 43(4): 37-44 (2023) - [j13]Alon Rashelbach, Ori Rottenstreich, Mark Silberstein:
Scaling by Learning: Accelerating Open vSwitch Data Path With Neural Networks. IEEE/ACM Trans. Netw. 31(3): 1230-1243 (2023) - [j12]Shai Bergman, Niklas Cassel, Matias Bjørling, Mark Silberstein:
ZNSwap: un-Block your Swap. ACM Trans. Storage 19(2): 12:1-12:25 (2023) - [c61]Alon Rashelbach, Ori Rottenstreich, Mark Silberstein:
Nucleotide String Indexing using Range Matching. BCB 2023: 83:1-83:2 - [c60]Alon Rashelbach, Igor Lima de Paula, Mark Silberstein:
NeuroLPM - Scaling Longest Prefix Match Hardware with Neural Networks. MICRO 2023: 886-899 - [c59]Oleksii Oleksenko, Marco Guarnieri, Boris Köpf, Mark Silberstein:
Hide and Seek with Spectres: Efficient discovery of speculative information leaks with random testing. SP 2023: 1737-1752 - [c58]Alon Rashelbach, Ori Rottenstreich, Mark Silberstein:
Neural Networks for Computer Systems. SYSTOR 2023: 147 - [c57]Sajy Khashab, Mark Silberstein:
SwitchVM: Multi-Tenancy for In-Network Computing. SYSTOR 2023: 148 - [c56]Leonid Dyachkov, Meni Orenbach, Mark Silberstein:
Fuzzing LibraryOSes for Iago vulnerabilities. SYSTOR 2023: 151 - [c55]Ori Ben Zur, Shai Bergman, Mark Silberstein:
Reducing The Virtual Memory Overhead in Nested Virtualization. SYSTOR 2023: 156 - [c54]Shai Bergman, Mark Silberstein, Takahiro Shinagawa, Peter R. Pietzuch, Lluís Vilanova:
Translation Pass-Through for Near-Native Paging Performance in VMs. USENIX ATC 2023: 753-768 - [c53]Scott Constable, Jo Van Bulck, Xiang Cheng, Yuan Xiao, Cedric Xing, Ilya Alexandrovich, Taesoo Kim, Frank Piessens, Mona Vij, Mark Silberstein:
AEX-Notify: Thwarting Precise Single-Stepping Attacks through Interrupt Awareness for Intel SGX Enclaves. USENIX Security Symposium 2023: 4051-4068 - [i11]Oleksii Oleksenko, Marco Guarnieri, Boris Köpf, Mark Silberstein:
Hide and Seek with Spectres: Efficient discovery of speculative information leaks with random testing. CoRR abs/2301.07642 (2023) - [i10]Alon Rashelbach, Ori Rottenstreich, Mark Silberstein:
Nucleotide String Indexing using Range Matching. CoRR abs/2308.03804 (2023) - [i9]Rotem Elimelech, Ofir David, Carlos De la Cruz Mengual, Rotem Kalisch, Wolfgang Berndt, Michael Shalyt, Mark Silberstein, Yaron Hadad, Ido Kaminer:
Algorithm-assisted discovery of an intrinsic order among mathematical constants. CoRR abs/2308.11829 (2023) - 2022
- [j11]Alon Rashelbach, Ori Rottenstreich, Mark Silberstein:
A Computational Approach to Packet Classification. IEEE/ACM Trans. Netw. 30(3): 1073-1087 (2022) - [c52]Oleksii Oleksenko, Christof Fetzer, Boris Köpf, Mark Silberstein:
Revizor: testing black-box CPUs against speculation contracts. ASPLOS 2022: 226-239 - [c51]Haggai Eran, Maxim Fudim, Gabi Malka, Gal Shalom, Noam Cohen, Amit Hermony, Dotan Levi, Liran Liss, Mark Silberstein:
FlexDriver: a network driver for your accelerator. ASPLOS 2022: 1115-1129 - [c50]Lluís Vilanova, Lina Maudlej, Shai Bergman, Till Miemietz, Matthias Hille, Nils Asmussen, Michael Roitzsch, Hermann Härtig, Mark Silberstein:
Slashing the disaggregation tax in heterogeneous data centers with FractOS. EuroSys 2022: 352-367 - [c49]Shai Bergman, Priyank Faldu, Boris Grot, Lluís Vilanova, Mark Silberstein:
Reconsidering OS memory optimizations in the presence of disaggregated memory. ISMM 2022: 1-14 - [c48]Lior Zeno, Dan R. K. Ports, Jacob Nelson, Daehyeok Kim, Shir Landau Feibish, Idit Keidar, Arik Rinberg, Alon Rashelbach, Igor Lima de Paula, Mark Silberstein:
SwiSh: Distributed Shared State Abstractions for Programmable Switches. NSDI 2022: 171-191 - [c47]Vladimir Andrei Olteanu, Haggai Eran, Dragos Dumitrescu, Adrian Popa, Cristi Baciu, Mark Silberstein, Georgios Nikolaidis, Mark Handley, Costin Raiciu:
An edge-queued datagram service for all datacenter traffic. NSDI 2022: 761-777 - [c46]Alon Rashelbach, Ori Rottenstreich, Mark Silberstein:
Scaling Open vSwitch with a Computational Cache. NSDI 2022: 1359-1374 - [c45]Shai Bergman, Niklas Cassel, Matias Bjørling, Mark Silberstein:
ZNSwap: un-Block your Swap. USENIX ATC 2022: 1-18 - [i8]Meni Orenbach, Bar Raveh, Alon Berkenstadt, Yan Michalevsky, Shachar Itzhaky, Mark Silberstein:
Securing Access to Untrusted Services From TEEs with GateKeeper. CoRR abs/2211.07185 (2022) - 2021
- [c44]Menachem Adelman, Kfir Y. Levy, Ido Hakimi, Mark Silberstein:
Faster Neural Network Training with Approximate Tensor Operations. NeurIPS 2021: 27877-27889 - [c43]Saar Eliad, Ido Hakimi, Alon De Jagger, Mark Silberstein, Assaf Schuster:
Fine-tuning giant neural networks on commodity hardware with automatic pipeline model parallelism. USENIX ATC 2021: 381-396 - [i7]Oleksii Oleksenko, Christof Fetzer, Boris Köpf, Mark Silberstein:
Revizor: Fuzzing for Leaks in Black-box CPUs. CoRR abs/2105.06872 (2021) - [i6]Vasilis Dimitsas, Mark Silberstein:
A readahead prefetcher for GPU file system layer. CoRR abs/2109.05366 (2021) - 2020
- [c42]Maroun Tork, Lina Maudlej, Mark Silberstein:
Lynx: A SmartNIC-driven Accelerator-centric Architecture for Network Servers. ASPLOS 2020: 117-131 - [c41]Meni Orenbach, Andrew Baumann, Mark Silberstein:
Autarky: closing controlled channels with self-paging enclaves. EuroSys 2020: 7:1-7:16 - [c40]Lior Zeno, Dan R. K. Ports, Jacob Nelson, Mark Silberstein:
SwiShmem: Distributed Shared State Abstractions for Programmable Switches. HotNets 2020: 160-167 - [c39]Alon Rashelbach, Ori Rottenstreich, Mark Silberstein:
A Computational Approach to Packet Classification. SIGCOMM 2020: 542-556 - [c38]Oleksii Oleksenko, Bohdan Trach, Mark Silberstein, Christof Fetzer:
SpecFuzz: Bringing Spectre-type vulnerabilities to the surface. USENIX Security Symposium 2020: 1481-1498 - [i5]Alon Rashelbach, Ori Rottenstreich, Mark Silberstein:
A Computational Approach to Packet Classification. CoRR abs/2002.07584 (2020)
2010 – 2019
- 2019
- [j10]Jo Van Bulck, Marina Minkin, Ofir Weisse, Daniel Genkin, Baris Kasikci, Frank Piessens, Mark Silberstein, Thomas F. Wenisch, Yuval Yarom, Raoul Strackx:
Breaking Virtual Memory Protection and the SGX Ecosystem with Foreshadow. IEEE Micro 39(3): 66-74 (2019) - [c37]Amir Watad, Alexander Libov, Ohad Shacham, Edward Bortnikov, Mark Silberstein:
Achieving Scalability in a k-NN Multi-GPU Network Service with Centaur. PACT 2019: 245-257 - [c36]Haggai Eran, Lior Zeno, Zsolt István, Mark Silberstein:
Design Patterns for Code Reuse in HLS Packet Processing Pipelines. FCCM 2019: 208-217 - [c35]Haggai Eran, Lior Zeno, Maroun Tork, Gabi Malka, Mark Silberstein:
NICA: An Infrastructure for Inline Acceleration of Network Applications. USENIX ATC 2019: 345-362 - [c34]Meni Orenbach, Yan Michalevsky, Christof Fetzer, Mark Silberstein:
CoSMIX: A Compiler-based System for Secure Memory Instrumentation and Execution in Enclaves. USENIX ATC 2019: 555-570 - [c33]Tanya Brokhman, Pavel Lifshits, Mark Silberstein:
GAIA: An OS Page Cache for Heterogeneous Systems. USENIX ATC 2019: 661-674 - [i4]Oleksii Oleksenko, Bohdan Trach, Mark Silberstein, Christof Fetzer:
SpecFuzz: Bringing Spectre-type vulnerabilities to the surface. CoRR abs/1905.10311 (2019) - 2018
- [j9]Pavel Lifshits, Roni Forte, Yedid Hoshen, Matt Halpern, Manuel Philipose, Mohit Tiwari, Mark Silberstein:
Power to peep-all: Inference Attacks by Malicious Batteries on Mobile Devices. Proc. Priv. Enhancing Technol. 2018(4): 141-158 (2018) - [j8]Sagi Shahar, Shai Bergman, Mark Silberstein:
ActivePointers: A Case for Software Address Translation on GPUs. ACM SIGOPS Oper. Syst. Rev. 52(1): 84-95 (2018) - [j7]Shai Bergman, Tanya Brokhman, Tzachi Cohen, Mark Silberstein:
SPIN: Seamless Operating System Integration of Peer-to-Peer DMA Between SSDs and GPUs. ACM Trans. Comput. Syst. 36(2): 5:1-5:26 (2018) - [c32]Baris Kasikci, Mark Silberstein:
SysTEX'18: 2018 Workshop on System Software for Trusted Execution. CCS 2018: 2180 - [c31]Oleksii Oleksenko, Bohdan Trach, Robert Krahn, Mark Silberstein, Christof Fetzer:
Varys: Protecting SGX Enclaves from Practical Side-Channel Attacks. USENIX ATC 2018: 227-240 - [c30]Jo Van Bulck, Marina Minkin, Ofir Weisse, Daniel Genkin, Baris Kasikci, Frank Piessens, Mark Silberstein, Thomas F. Wenisch, Yuval Yarom, Raoul Strackx:
Foreshadow: Extracting the Keys to the Intel SGX Kingdom with Transient Out-of-Order Execution. USENIX Security Symposium 2018: 991-1008 - [i3]Menachem Adelman, Mark Silberstein:
Faster Neural Network Training with Approximate Tensor Operations. CoRR abs/1805.08079 (2018) - [i2]Oleksii Oleksenko, Bohdan Trach, Tobias Reiher, Mark Silberstein, Christof Fetzer:
You Shall Not Bypass: Employing data dependencies to prevent Bounds Check Bypass. CoRR abs/1805.08506 (2018) - 2017
- [c29]Eli Ben-Sasson, Iddo Bentov, Alessandro Chiesa, Ariel Gabizon, Daniel Genkin, Matan Hamilis, Evgenya Pergament, Michael Riabzev, Mark Silberstein, Eran Tromer, Madars Virza:
Computational Integrity with a Public Random String from Quasi-Linear PCPs. EUROCRYPT (3) 2017: 551-579 - [c28]Meni Orenbach, Pavel Lifshits, Marina Minkin, Mark Silberstein:
Eleos: ExitLess OS Services for SGX Enclaves. EuroSys 2017: 238-253 - [c27]Mark Silberstein:
OmniX: an accelerator-centric OS for omni-programmable systems. HotOS 2017: 69-75 - [c26]Zhiting Zhu, Sangman Kim, Yuri Rozhanski, Yige Hu, Emmett Witchel, Mark Silberstein:
Understanding The Security of Discrete GPUs. GPGPU@PPoPP 2017: 1-11 - [c25]Shai Bergman, Tanya Brokhman, Tzachi Cohen, Mark Silberstein:
SPIN: Seamless Operating System Integration of Peer-to-Peer DMA Between SSDs and GPUs. USENIX ATC 2017: 167-179 - 2016
- [j6]Mark Silberstein, Sangman Kim, Seonggu Huh, Xinya Zhang, Yige Hu, Amir Wated, Emmett Witchel:
GPUnet: Networking Abstractions for GPU Programs. ACM Trans. Comput. Syst. 34(3): 9:1-9:31 (2016) - [c24]Andrew Newell, Gabriel Kliot, Ishai Menache, Aditya Gopalan, Soramichi Akiyama, Mark Silberstein:
Optimizing distributed actor systems for dynamic interactive services. EuroSys 2016: 38:1-38:15 - [c23]Feras Daoud, Amir Wated, Mark Silberstein:
GPUrdma: GPU-side library for high performance networking from GPU kernels. ROSS@HPDC 2016: 6:1-6:8 - [c22]Eli Ben-Sasson, Matan Hamilis, Mark Silberstein, Eran Tromer:
Fast Multiplication in Binary Fields on GPUs via Register Cache. ICS 2016: 35:1-35:12 - [c21]Sagi Shahar, Shai Bergman, Mark Silberstein:
ActivePointers: A Case for Software Address Translation on GPUs. ISCA 2016: 596-608 - [c20]Lior Zeno, Avi Mendelson, Mark Silberstein:
GPUpIO: the case for I/O-driven preemption on GPUs. GPGPU@PPoPP 2016: 63-71 - [c19]Sagi Shahar, Mark Silberstein:
Supporting data-driven I/O on GPUs using GPUfs. SYSTOR 2016: 12:1-12:11 - [i1]Eli Ben-Sasson, Iddo Bentov, Alessandro Chiesa, Ariel Gabizon, Daniel Genkin, Matan Hamilis, Evgenya Pergament, Michael Riabzev, Mark Silberstein, Eran Tromer, Madars Virza:
Computational integrity with a public random string from quasi-linear PCPs. IACR Cryptol. ePrint Arch. 2016: 646 (2016) - 2014
- [j5]Mark Silberstein, Bryan Ford, Emmett Witchel:
GPUfs: the case for operating system services on GPUs. Commun. ACM 57(12): 68-79 (2014) - [j4]Mark Silberstein, Bryan Ford, Idit Keidar, Emmett Witchel:
GPUfs: Integrating a file system with GPUs. ACM Trans. Comput. Syst. 32(1): 1:1-1:31 (2014) - [j3]Mark Silberstein:
GPUs: High-performance Accelerators for Parallel Applications: The multicore transformation (Ubiquity symposium). Ubiquity 2014(August): 1:1-1:13 (2014) - [c18]Sangman Kim, Seonggu Huh, Xinya Zhang, Yige Hu, Amir Wated, Emmett Witchel, Mark Silberstein:
GPUnet: Networking Abstractions for GPU Programs. OSDI 2014: 201-216 - [c17]Mark Silberstein, Lakshmi Ganesh, Yang Wang, Lorenzo Alvisi, Mike Dahlin:
Lazy Means Smart: Reducing Repair Bandwidth Costs in Erasure-coded Distributed Storage. SYSTOR 2014: 15:1-15:7 - 2013
- [j2]Mark Silberstein, Omer Weissbrod, Lars Otten, Anna Tzemach, Andrei Anisenia, Oren Shtark, Dvir Tuberg, Eddie Galfrin, Irena Gannon, Adel Shalata, Zvi U. Borochowitz, Rina Dechter, Elizabeth Thompson, Dan Geiger:
A system for exact and approximate genetic linkage analysis of SNP data in large pedigrees. Bioinform. 29(2): 197-205 (2013) - [j1]Mark Silberstein, Omer Weissbrod, Lars Otten, Anna Tzemach, Andrei Anisenia, Oren Shtark, Dvir Tuberg, Eddie Galfrin, Irena Gannon, Adel Shalata, Zvi U. Borochowitz, Rina Dechter, Elizabeth Thompson, Dan Geiger:
A system for exact and approximate genetic linkage analysis of SNP data in large pedigrees. Bioinform. 29(5): 669 (2013) - [c16]Mark Silberstein, Bryan Ford, Idit Keidar, Emmett Witchel:
GPUfs: integrating a file system with GPUs. ASPLOS 2013: 485-498 - 2012
- [c15]Orna Agmon Ben-Yehuda, Assaf Schuster, Artyom Sharov, Mark Silberstein, Alexandru Iosup:
ExPERT: Pareto-Efficient Task Replication on Grids and a Cloud. IPDPS 2012: 167-178 - [c14]Alan M. Dunn, Michael Z. Lee, Suman Jana, Sangman Kim, Mark Silberstein, Yuanzhong Xu, Vitaly Shmatikov, Emmett Witchel:
Eternal Sunshine of the Spotless Machine: Protecting Privacy with Ephemeral Channels. OSDI 2012: 61-75 - [c13]Uri Verner, Assaf Schuster, Mark Silberstein, Avi Mendelson:
Scheduling processing of real-time data streams on heterogeneous multi-GPU systems. SYSTOR 2012: 7 - 2011
- [c12]Mark Silberstein:
Building an Online Domain-Specific Computing Service over Non-dedicated Grid and Cloud Resources: The Superlink-Online Experience. CCGRID 2011: 174-183 - [c11]Uri Verner, Assaf Schuster, Mark Silberstein:
Processing data streams with hard real-time constraints on heterogeneous systems. ICS 2011: 120-129 - [c10]Mark Silberstein:
Building an Online Computing Service over Volunteer Grid Resources. IPDPS Workshops 2011: 1909-1917 - [c9]Christopher J. Rossbach, Jon Currey, Mark Silberstein, Baishakhi Ray, Emmett Witchel:
PTask: operating system abstractions to manage GPUs as compute devices. SOSP 2011: 233-248 - [c8]Mark Silberstein, Naoya Maruyama:
An exact algorithm for energy-efficient acceleration of task trees on CPU/GPU architectures. SYSTOR 2011: 7 - 2010
- [b1]Mark Silberstein:
A distributed system for genetic linkage analysis. Technion - Israel Institute of Technology, Israel, 2010
2000 – 2009
- 2009
- [c7]Mark Silberstein, Artyom Sharov, Dan Geiger, Assaf Schuster:
GridBot: execution of bags of tasks in multiple grids. SC 2009 - 2008
- [c6]Valentin Kravtsov, David Carmeli, Werner Dubitzky, Ariel Orda, Assaf Schuster, Mark Silberstein, Benny Yoshpa:
Quasi-opportunistic Supercomputing in Grid Environments. ICA3PP 2008: 233-244 - [c5]Mark Silberstein, Assaf Schuster, Dan Geiger, Anjul Patney, John D. Owens:
Efficient computation of sum-products on GPUs through software-managed cache. ICS 2008: 309-318 - 2006
- [c4]Mark Silberstein, Dan Geiger, Assaf Schuster:
A Distributed System for Genetic Linkage Analysis. GCCB 2006: 110-123 - [c3]Mark Silberstein, Dan Geiger, Assaf Schuster, Miron Livny:
Scheduling Mixed Workloads in Multi-grids: The Grid Execution Hierarchy. HPDC 2006: 291-302 - [c2]Mark Silberstein, Gabriel Kliot, Artyom Sharov, Assaf Schuster, Miron Livny:
Materializing Highly Available Grids. HPDC 2006: 321-323 - 2002
- [c1]Mark Silberstein, Michael Factor, Dean H. Lorenz:
DYNAMO - DirectorY, Net Archiver and MOver. GRID 2002: 256-267
Coauthor Index
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