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Noa Zilberman
Noa Arad
Person information
- affiliation: University of Oxford, UK
- affiliation (former): University of Cambridge, UK
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2020 – today
- 2024
- [j21]Changgang Zheng, Mingyuan Zang, Xinpeng Hong, Liam Perreault, Riyad Bensoussane, Shay Vargaftik, Yaniv Ben-Itzhak, Noa Zilberman:
Planter: Rapid Prototyping of In-Network Machine Learning Inference. Comput. Commun. Rev. 54(1): 2-21 (2024) - [j20]Changgang Zheng
, Xinpeng Hong
In-Network Machine Learning Using Programmable Network Devices: A Survey. IEEE Commun. Surv. Tutorials 26(2): 1171-1200 (2024) - [j19]Mingyuan Zang
Toward Continuous Threat Defense: in-Network Traffic Analysis for IoT Gateways. IEEE Internet Things J. 11(6): 9244-9257 (2024) - [j18]Changgang Zheng
IIsy: Hybrid In-Network Classification Using Programmable Switches. IEEE/ACM Trans. Netw. 32(3): 2555-2570 (2024) - [c42]Xinpeng Hong, Changgang Zheng, Noa Zilberman:
In-Network Machine Learning for Real-Time Transaction Fraud Detection. ECAI 2024: 2902-2909 - [c41]Xinpeng Hong, Changgang Zheng, Stefan Zohren, Noa Zilberman:
Accelerating Machine Learning for Trading Using Programmable Switches. ECAI 2024: 3429-3436 - [c40]Damu Ding, Ozlem Kesgin, Noa Zilberman:
INDDoS+: Secure DDoS Detection Mechanism in Programmable Switches. HPSR 2024: 197-202 - [c39]Masoud Hemmatpour, Changgang Zheng, Noa Zilberman:
E-Commerce Bot Traffic: In-Network Impact, Detection, and Mitigation. ICIN 2024: 179-185 - [c38]Masoud Hemmatpour, Changgang Zheng, Noa Zilberman, Phuong Hoai Ha:
GridWatch: A Smart Network for Smart Grid. SmartGridComm 2024: 141-146 - [i12]Lennart Heim, Tim Fist, Janet Egan, Sihao Huang, Stephen Zekany, Robert Trager, Michael A. Osborne, Noa Zilberman:
Governing Through the Cloud: The Intermediary Role of Compute Providers in AI Regulation. CoRR abs/2403.08501 (2024) - 2023
- [j17]Changgang Zheng
DINC: Toward Distributed In-Network Computing. PACMNET 1(CoNEXT3): 14:1-14:25 (2023) - [j16]Sawsan El-Zahr
Exploring the Benefits of Carbon-Aware Routing. PACMNET 1(CoNEXT3): 20:1-20:24 (2023) - [j15]Pietro Bressana
PTA: Finding Hard-to-Find Data Plane Bugs. IEEE/ACM Trans. Netw. 31(3): 1324-1337 (2023) - [j14]Jiri Schindler
Introduction to the Special Section on USENIX ATC 2022. ACM Trans. Storage 19(2): 10:1 (2023) - [c37]Xinpeng Hong
LOBIN: In-Network Machine Learning for Limit Order Books. HPSR 2023: 159-166 - [c36]Mingyuan Zang, Changgang Zheng, Tomasz Koziak, Noa Zilberman, Lars Dittmann:
Federated Learning-Based In-Network Traffic Analysis on IoT Edge. IFIP Networking 2023: 1-6 - [c35]Changgang Zheng
QCMP: Load Balancing via In-Network Reinforcement Learning. FIRA@SIGCOMM 2023: 35-40 - 2022
- [j13]Noa Zilberman:
Technical perspective: hXDP: Light and efficient packet processing offload. Commun. ACM 65(8): 91 (2022) - [c34]Radostin Stoyanov, Wesley Armour
Network-accelerated cluster scheduler. SIGCOMM Posters and Demos 2022: 16-18 - [c33]Xinpeng Hong
Linnet: limit order books within switches. SIGCOMM Posters and Demos 2022: 37-39 - [c32]Mingyuan Zang, Changgang Zheng, Radostin Stoyanov, Lars Dittmann
P4Pir: in-network analysis for smart IoT gateways. SIGCOMM Posters and Demos 2022: 46-48 - [e2]Jiri Schindler, Noa Zilberman:
Proceedings of the 2022 USENIX Annual Technical Conference, USENIX ATC 2022, Carlsbad, CA, USA, July 11-13, 2022. USENIX Association 2022, ISBN 978-1-939133-29-8 [contents] - [i11]Changgang Zheng
IIsy: Practical In-Network Classification. CoRR abs/2205.08243 (2022) - [i10]Changgang Zheng
Automating In-Network Machine Learning. CoRR abs/2205.08824 (2022) - 2021
- [j12]Sándor Laki, Radostin Stoyanov
P4Pi: P4 on Raspberry Pi for networking education. Comput. Commun. Rev. 51(3): 17-21 (2021) - [c31]Radostin Stoyanov
Building an Internet Router with P4Pi. ANCS 2021: 151-156 - [c30]Changgang Zheng
Planter: seeding trees within switches. SIGCOMM Posters and Demos 2021: 12-14 - [c29]Noa Zilberman, Andrew W. Moore, Billy Cooper, Jackson Woodruff, Yuta Tokusashi, Pietro Bressana, Murali Ramanujam, Diana Andreea Popescu, Salvator Galea:
NRG: A Network Perspective on Applications' Performance. TMA 2021 - [i9]Shahar Avin, Haydn Belfield, Miles Brundage, Gretchen Krueger, Jasmine Wang, Adrian Weller, Markus Anderljung, Igor Krawczuk, David Krueger, Jonathan Lebensold, Tegan Maharaj, Noa Zilberman:
Filling gaps in trustworthy development of AI. CoRR abs/2112.07773 (2021) - 2020
- [j11]Noa Zilberman:
An Artifact Evaluation of NDP. Comput. Commun. Rev. 50(2): 32-36 (2020) - [j10]Noa Zilberman, Andrew W. Moore:
Thoughts about Artifact Badging. Comput. Commun. Rev. 50(2): 60-63 (2020) - [j9]Huynh Tu Dang, Pietro Bressana
P4xos: Consensus as a Network Service. IEEE/ACM Trans. Netw. 28(4): 1726-1738 (2020) - [c28]Radostin Stoyanov
MTPSA: Multi-Tenant Programmable Switches. EuroP4@CoNEXT 2020: 43-48 - [c27]Pietro Bressana, Noa Zilberman, Robert Soulé
Finding hard-to-find data plane bugs with a PTA. CoNEXT 2020: 218-231 - [c26]Pietro Bressana, Noa Zilberman, Dejan Vucinic, Robert Soulé
Trading Latency for Compute in the Network. NAI@SIGCOMM 2020: 35-40 - [i8]Miles Brundage, Shahar Avin, Jasmine Wang, Haydn Belfield
Toward Trustworthy AI Development: Mechanisms for Supporting Verifiable Claims. CoRR abs/2004.07213 (2020)
2010 – 2019
- 2019
- [c25]Jackson Woodruff, Murali Ramanujam, Noa Zilberman:
P4DNS: In-Network DNS. ANCS 2019: 1-6 - [c24]Jackson Woodruff, Andrew W. Moore, Noa Zilberman:
Measuring Burstiness in Data Center Applications. BS 2019: 5:1-5:6 - [c23]Yuta Tokusashi, Huynh Tu Dang, Fernando Pedone
The Case For In-Network Computing On Demand. EuroSys 2019: 21:1-21:16 - [c22]Stephen Ibanez, Gordon J. Brebner
The P4->NetFPGA Workflow for Line-Rate Packet Processing. FPGA 2019: 1-9 - [c21]Zhaoqi Xiong, Noa Zilberman:
Do Switches Dream of Machine Learning?: Toward In-Network Classification. HotNets 2019: 25-33 - [c20]Noa Zilberman, Gabi Bracha, Golan Schzukin:
Stardust: Divide and Conquer in the Data Center Network. NSDI 2019: 141-160 - [i7]Huynh Tu Dang, Pietro Bressana, Han Wang
Partitioned Paxos via the Network Data Plane. CoRR abs/1901.08806 (2019) - 2018
- [c19]Murali Ramanujam, Noa Zilberman
Towards a highly scalable network tester. ANCS 2018: 154-155 - [c18]Yuta Tokusashi, Hiroki Matsutani, Noa Zilberman
LaKe: The Power of In-Network Computing. ReConFig 2018: 1-8 - [c17]Pietro Bressana, Noa Zilberman
A Programmable Framework for Validating Data Planes. SIGCOMM Posters and Demos 2018: 1-3 - [c16]Omer S. Sella, Andrew W. Moore
FEC Killed The Cut-Through Switch. NEAT@SIGCOMM 2018: 15-20 - [c15]Omer S. Sella, Andrew W. Moore
High speed adaptive rack-scale fabrics. SIGCOMM Posters and Demos 2018: 33-35 - [e1]Theophilus Benson, Noa Zilberman:
Proceedings of the 2018 Symposium on Architectures for Networking and Communications Systems, ANCS 2018, Ithaca, NY, USA, July 23-24, 2018. ACM 2018 [contents] - [i6]Yuta Tokusashi, Hiroki Matsutani, Noa Zilberman
LaKe: An Energy Efficient, Low Latency, Accelerated Key-Value Store. CoRR abs/1805.11344 (2018) - [i5]Yungang Bao, Lars Eggert, Simon Peter, Noa Zilberman:
Discipline Convergence in Networked Systems (Dagstuhl Seminar 18261). Dagstuhl Reports 8(6): 149-172 (2018) - 2017
- [c14]Noa Zilberman
Where Has My Time Gone? PAM 2017: 201-214 - [c13]Nik Sultana, Salvator Galea, David Greaves, Marcin Wójcik, Jonny Shipton, Richard G. Clegg, Luo Mai, Pietro Bressana, Robert Soulé
Emu: Rapid Prototyping of Networking Services. USENIX ATC 2017: 459-471 - [i4]Nik Sultana, Salvator Galea, David Greaves, Marcin Wójcik, Noa Zilberman
Extending programs with debug-related features, with application to hardware development. CoRR abs/1705.09902 (2017) - 2016
- [i3]Noa Zilberman, Yuval Shavitt:
Setting the Foundations for PoP-Based Internet Evolution Models. CoRR abs/1612.04096 (2016) - [i2]Jong Hun Han, Noa Zilberman
Prototyping RISC Based, Reconfigurable Networking Applications in Open Source. CoRR abs/1612.05547 (2016) - 2015
- [j8]Noa Zilberman
Reconfigurable Network Systems and Software-Defined Networking. Proc. IEEE 103(7): 1102-1124 (2015) - [c12]Noa Zilberman
NetFPGA - rapid prototyping of high bandwidth devices in open source. FPL 2015: 1 - [c11]Jong Hun Han, Gianni Antichi
An integrated environment for open-source network softwarization. NetSoft 2015: 1-2 - [c10]Neelakandan Manihatty Bojan, Noa Zilberman
Extreme Data-rate Scheduling for the Data Center. SIGCOMM 2015: 351-352 - [c9]Noa Zilberman
NetFPGA: Rapid Prototyping of Networking Devices in Open Source. SIGCOMM 2015: 363-364 - 2014
- [j7]Noa Zilberman
NetFPGA SUME: Toward 100 Gbps as Research Commodity. IEEE Micro 34(5): 32-41 (2014) - [j6]Gianni Antichi
OSNT: open source network tester. IEEE Netw. 28(5): 6-12 (2014) - 2013
- [j5]Yuval Shavitt
On the Presence of Child Sex Abuse in BitTorrent Networks. IEEE Internet Comput. 17(3): 60-66 (2013) - [c8]Muhammad Shahbaz, Gianni Antichi
Architecture for an open source network tester. ANCS 2013: 123-124 - [c7]Lior Neudorfer, Yuval Shavitt
Improving AS relationship inference using PoPs. INFOCOM Workshops 2013: 459-464 - [c6]Lior Neudorfer, Yuval Shavitt
Improving AS relationship inference using PoPs. INFOCOM 2013: 3483-3488 - [c5]Yuval Shavitt, Noa Zilberman:
Improving IP geolocation by crawling the internet PoP level graph. Networking 2013: 1-9 - [p1]Yuval Shavitt
Internet PoP Level Maps. Data Traffic Monitoring and Analysis 2013: 82-103 - 2012
- [j4]Dima Feldman, Yuval Shavitt
A structural approach for PoP geo-location. Comput. Networks 56(3): 1029-1040 (2012) - [j3]Yuval Shavitt
Arabian nights: measuring the arab internet during the 2011 events. IEEE Netw. 26(6): 75-80 (2012) - [c4]Moshe Rutgaizer, Yuval Shavitt
Detecting Pedophile Activity in BitTorrent Networks. PAM 2012: 106-115 - [c3]Yuval Shavitt
Geographical Internet PoP Level Maps. TMA 2012: 121-124 - 2011
- [j2]Yuval Shavitt
A Geolocation Databases Study. IEEE J. Sel. Areas Commun. 29(10): 2044-2056 (2011) - 2010
- [i1]Yuval Shavitt, Noa Zilberman
A Study of Geolocation Databases. CoRR abs/1005.5674 (2010)
2000 – 2009
- 2009
- [j1]Noa Arad
Minimizing Recovery State in Geographic Ad Hoc Routing. IEEE Trans. Mob. Comput. 8(2): 203-217 (2009) - [c2]Noam Koenigstein
Predicting Billboard Success Using Data-Mining in P2P Networks. ISM 2009: 465-470 - 2006
- [c1]Noa Arad, Yuval Shavitt
Minimizing recovery state In geographic ad-hoc routing. MobiHoc 2006: 13-24
Coauthor Index
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last updated on 2024-11-21 20:29 CET by the dblp team
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