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2020 – today
- 2024
[j10]Debendra Das Sharma
, Robert Blankenship, Daniel S. Berger:
An Introduction to the Compute Express Link (CXL) Interconnect. ACM Comput. Surv. 56(11): 290:1-290:37 (2024)- [c31]Daniel Lin-Kit Wong, Hao Wu, Carson Molder, Sathya Gunasekar, Jimmy Lu, Snehal Khandkar, Abhinav Sharma, Daniel S. Berger, Nathan Beckmann, Gregory R. Ganger:
Baleen: ML Admission & Prefetching for Flash Caches. FAST 2024: 347-371 - [c30]Jaylen Wang, Daniel S. Berger, Fiodar Kazhamiaka, Celine Irvene, Chaojie Zhang, Esha Choukse, Kali Frost, Rodrigo Fonseca, Brijesh Warrier, Chetan Bansal, Jonathan Stern, Ricardo Bianchini, Akshitha Sriraman:
Designing Cloud Servers for Lower Carbon. ISCA 2024: 452-470 - [c29]Yuhong Zhong, Daniel S. Berger, Carl A. Waldspurger, Ryan Wee, Ishwar Agarwal, Rajat Agarwal, Frank Hady, Karthik Kumar, Mark D. Hill, Mosharaf Chowdhury, Asaf Cidon:
Managing Memory Tiers with CXL in Virtualized Environments. OSDI 2024: 37-56 - [c28]Sara McAllister, Yucong Wang, Benjamin Berg, Daniel S. Berger, George Amvrosiadis, Nathan Beckmann, Gregory R. Ganger:
FairyWREN: A Sustainable Cache for Emerging Write-Read-Erase Flash Interfaces. OSDI 2024: 745-764 - [i11]Jinshu Liu, Hamid Hadian, Hanchen Xu, Daniel S. Berger, Huaicheng Li:
Dissecting CXL Memory Performance at Scale: Analysis, Modeling, and Optimization. CoRR abs/2409.14317 (2024) - 2023
- [j9]Daniel S. Berger, Daniel Ernst, Huaicheng Li, Pantea Zardoshti, Monish Shah, Samir Rajadnya, Scott Lee, Lisa Hsu, Ishwar Agarwal, Mark D. Hill, Ricardo Bianchini:
Design Tradeoffs in CXL-Based Memory Pools for Public Cloud Platforms. IEEE Micro 43(2): 30-38 (2023) - [c27]Huaicheng Li, Daniel S. Berger, Lisa Hsu, Daniel Ernst, Pantea Zardoshti, Stanko Novakovic, Monish Shah, Samir Rajadnya, Scott Lee, Ishwar Agarwal, Mark D. Hill, Marcus Fontoura, Ricardo Bianchini:
Pond: CXL-Based Memory Pooling Systems for Cloud Platforms. ASPLOS (2) 2023: 574-587 - [c26]Mania Abdi, Samuel Ginzburg, Xiayue Charles Lin, Jose M. Faleiro, Gohar Irfan Chaudhry, Iñigo Goiri, Ricardo Bianchini, Daniel S. Berger, Rodrigo Fonseca:
Palette Load Balancing: Locality Hints for Serverless Functions. EuroSys 2023: 365-380 - [c25]Jialun Lyu, Jaylen Wang, Kali Frost, Chaojie Zhang, Celine Irvene, Esha Choukse, Rodrigo Fonseca, Ricardo Bianchini, Fiodar Kazhamiaka, Daniel S. Berger:
Myths and Misconceptions Around Reducing Carbon Embedded in Cloud Platforms. HotCarbon 2023: 7:1-7:7 - [c24]Jialun Lyu, Marisa You, Celine Irvene, Mark Jung, Tyler Narmore, Jacob Shapiro, Luke Marshall, Savyasachi Samal, Ioannis Manousakis, Lisa Hsu, Preetha Subbarayalu, Ashish Raniwala, Brijesh Warrier, Ricardo Bianchini, Bianca Schroeder, Daniel S. Berger:
Hyrax: Fail-in-Place Server Operation in Cloud Platforms. OSDI 2023: 287-304 - [c23]Hugo Sadok, Nirav Atre, Zhipeng Zhao, Daniel S. Berger, James C. Hoe, Aurojit Panda, Justine Sherry, Ren Wang:
Ensō: A Streaming Interface for NIC-Application Communication. OSDI 2023: 1005-1025 - [i10]Dongsheng Yang, Daniel S. Berger, Kai Li, Wyatt Lloyd:
A Learned Cache Eviction Framework with Minimal Overhead. CoRR abs/2301.11886 (2023) - [i9]Pooria Namyar, Behnaz Arzani, Daniel Crankshaw, Daniel S. Berger, Kevin Hsieh, Srikanth Kandula, Ramesh Govindan:
Mitigating the Performance Impact of Network Failures in Public Clouds. CoRR abs/2305.13792 (2023) - [i8]Debendra Das Sharma, Robert Blankenship, Daniel S. Berger:
An Introduction to the Compute Express Link (CXL) Interconnect. CoRR abs/2306.11227 (2023) - 2022
- [j8]Sara McAllister, Benjamin Berg, Julian Tutuncu-Macias, Juncheng Yang, Sathya Gunasekar, Jimmy Lu, Daniel S. Berger, Nathan Beckmann, Gregory R. Ganger:
Kangaroo: Theory and Practice of Caching Billions of Tiny Objects on Flash. ACM Trans. Storage 18(3): 21:1-21:33 (2022) - [c22]Yawen Wang, Daniel Crankshaw, Neeraja J. Yadwadkar, Daniel S. Berger, Christos Kozyrakis, Ricardo Bianchini:
SOL: safe on-node learning in cloud platforms. ASPLOS 2022: 622-634 - [c21]Qizhen Zhang, Philip A. Bernstein, Daniel S. Berger, Badrish Chandramouli, Vincent Liu, Boon Thau Loo:
CompuCache: Remote Computable Caching using Spot VMs. CIDR 2022 - [c20]Juncheng Yang, Anirudh Sabnis, Daniel S. Berger, K. V. Rashmi, Ramesh K. Sitaraman:
C2DN: How to Harness Erasure Codes at the Edge for Efficient Content Delivery. NSDI 2022: 1159-1177 - [i7]Yawen Wang, Daniel Crankshaw, Neeraja J. Yadwadkar, Daniel S. Berger, Christos Kozyrakis, Ricardo Bianchini:
SOL: Safe On-Node Learning in Cloud Platforms. CoRR abs/2201.10477 (2022) - [i6]Huaicheng Li, Daniel S. Berger, Stanko Novakovic, Lisa Hsu, Daniel Ernst, Pantea Zardoshti, Monish Shah, Ishwar Agarwal, Mark D. Hill, Marcus Fontoura, Ricardo Bianchini:
First-generation Memory Disaggregation for Cloud Platforms. CoRR abs/2203.00241 (2022) - 2021
- [j7]Qizhen Zhang, Philip A. Bernstein, Daniel S. Berger, Badrish Chandramouli:
Redy: Remote Dynamic Memory Cache. Proc. VLDB Endow. 15(4): 766-779 (2021) - [c19]Nofel Yaseen, Behnaz Arzani, Krishna Chintalapudi, Vaishnavi Nattar Ranganathan, Felipe Vieira Frujeri, Kevin Hsieh, Daniel S. Berger, Vincent Liu, Srikanth Kandula:
Towards a Cost vs. Quality Sweet Spot for Monitoring Networks. HotNets 2021: 38-44 - [c18]Theano Stavrinos, Daniel S. Berger, Ethan Katz-Bassett, Wyatt Lloyd:
Don't be a blockhead: zoned namespaces make work on conventional SSDs obsolete. HotOS 2021: 144-151 - [c17]Hugo Sadok, Zhipeng Zhao, Valerie Choung, Nirav Atre, Daniel S. Berger, James C. Hoe, Aurojit Panda, Justine Sherry:
We need kernel interposition over the network dataplane. HotOS 2021: 152-158 - [c16]Sara McAllister, Benjamin Berg, Julian Tutuncu-Macias, Juncheng Yang, Sathya Gunasekar, Jimmy Lu, Daniel S. Berger, Nathan Beckmann, Gregory R. Ganger:
Kangaroo: Caching Billions of Tiny Objects on Flash. SOSP 2021: 243-262 - [i5]Nofel Yaseen, Behnaz Arzani, Krishna Chintalapudi, Vaishnavi Nattar Ranganathan, Felipe Vieira Frujeri, Kevin Hsieh, Daniel S. Berger, Vincent Liu, Srikanth Kandula:
Towards a Cost vs. Quality Sweet Spot for Monitoring Networks. CoRR abs/2110.05554 (2021) - [i4]Qizhen Zhang, Philip A. Bernstein, Daniel S. Berger, Badrish Chandramouli:
Redy: Remote Dynamic Memory Cache. CoRR abs/2112.12946 (2021) - 2020
- [c15]Zhenyu Song, Daniel S. Berger, Kai Li, Wyatt Lloyd:
Learning Relaxed Belady for Content Distribution Network Caching. NSDI 2020: 529-544 - [c14]Benjamin Berg, Daniel S. Berger, Sara McAllister, Isaac Grosof, Sathya Gunasekar, Jimmy Lu, Michael Uhlar, Jim Carrig, Nathan Beckmann, Mor Harchol-Balter, Gregory R. Ganger:
The CacheLib Caching Engine: Design and Experiences at Scale. OSDI 2020: 753-768 - [c13]Nirav Atre, Justine Sherry, Weina Wang, Daniel S. Berger:
Caching with Delayed Hits. SIGCOMM 2020: 495-513
2010 – 2019
- 2018
- [b1]Daniel S. Berger:
Design and Analysis of Adaptive Caching Techniques for Internet Content Delivery. Kaiserslautern University of Technology, Germany, 2018 - [j6]Daniel S. Berger, Nathan Beckmann, Mor Harchol-Balter:
Practical Bounds on Optimal Caching with Variable Object Sizes. Proc. ACM Meas. Anal. Comput. Syst. 2(2): 32:1-32:38 (2018) - [j5]Justin Wang, Benjamin Berg, Daniel S. Berger, Siddhartha Sen:
Maximizing Page-Level Cache Hit Ratios in LargeWeb Services. SIGMETRICS Perform. Evaluation Rev. 46(2): 91-92 (2018) - [c12]Daniel S. Berger:
Towards Lightweight and Robust Machine Learning for CDN Caching. HotNets 2018: 134-140 - [c11]Daniel S. Berger, Benjamin Berg, Timothy Zhu, Siddhartha Sen, Mor Harchol-Balter:
RobinHood: Tail Latency Aware Caching - Dynamic Reallocation from Cache-Rich to Cache-Poor. OSDI 2018: 195-212 - [c10]Daniel S. Berger, Nathan Beckmann, Mor Harchol-Balter:
Practical Bounds on Optimal Caching with Variable Object Sizes. SIGMETRICS (Abstracts) 2018: 24-26 - 2017
- [c9]Daniel S. Berger, Ramesh K. Sitaraman, Mor Harchol-Balter:
AdaptSize: Orchestrating the Hot Object Memory Cache in a Content Delivery Network. NSDI 2017: 483-498 - [i3]Daniel S. Berger, Nathan Beckmann, Mor Harchol-Balter:
Practical Bounds on Optimal Caching with Variable Object Sizes. CoRR abs/1711.03709 (2017) - 2016
- [j4]Daniel S. Berger, Francesco Gringoli, Nicolò Facchi, Ivan Martinovic, Jens B. Schmitt:
Friendly Jamming on Access Points: Analysis and Real-World Measurements. IEEE Trans. Wirel. Commun. 15(9): 6189-6202 (2016) - [c8]Timothy Zhu, Daniel S. Berger, Mor Harchol-Balter:
SNC-Meister: Admitting More Tenants with Tail Latency SLOs. SoCC 2016: 374-387 - [c7]Martin Karsten, Daniel S. Berger, Jens B. Schmitt:
Traffic-Driven Implicit Buffer Management - Delay Differentiation without Traffic Contracts. ITC 2016: 44-52 - [i2]Daniel S. Berger, Martin Karsten, Jens B. Schmitt:
How real is the threat of instability events predicted by Adversarial Queueing Theory? Tiny Trans. Comput. Sci. 4 (2016) - 2015
- [j3]Daniel S. Berger, Sebastian A. Henningsen, Florin Ciucu, Jens B. Schmitt:
Maximizing Cache Hit Ratios by Variance Reduction. SIGMETRICS Perform. Evaluation Rev. 43(2): 57-59 (2015) - [c6]Matthias Schäfer, Daniel S. Berger, Vincent Lenders, Jens B. Schmitt:
Security by mobility in location and track verification. WISEC 2015: 29:1-29:2 - 2014
- [j2]Daniel S. Berger, Philipp Gland, Sahil Singla, Florin Ciucu:
Exact analysis of TTL cache networks. Perform. Evaluation 79: 2-23 (2014) - [j1]Daniel S. Berger, Florin Ciucu:
Stochastic Bounds on Inter-Miss Times from TTL Caches. Prax. Inf.verarb. Kommun. 37(2): 109-120 (2014) - [c5]Francesco Gringoli, Nicolò Facchi, Daniel S. Berger:
Demo: a testbed to evaluate frequency-hopping anti-jamming techniques in ieee 802.11. WiNTECH 2014: 85-88 - [c4]Daniel S. Berger, Martin Karsten, Jens B. Schmitt:
On the relevance of adversarial queueing theory in practice. SIGMETRICS 2014: 343-354 - [c3]Daniel S. Berger, Philipp Gland, Sahil Singla, Florin Ciucu:
Exact analysis of TTL cache networks: the case of caching policies driven by stopping times. SIGMETRICS 2014: 595-596 - [c2]Daniel S. Berger, Francesco Gringoli, Nicolò Facchi, Ivan Martinovic, Jens B. Schmitt:
Gaining insight on friendly jamming in a real-world IEEE 802.11 network. WISEC 2014: 105-116 - [i1]Daniel S. Berger, Philipp Gland, Sahil Singla, Florin Ciucu:
Exact Analysis of TTL Cache Networks: The Case of Caching Policies driven by Stopping Times. CoRR abs/1402.5987 (2014) - 2013
- [c1]Daniel S. Berger, Martin Karsten, Jens B. Schmitt:
Simulation of adversarial scenarios in OMNeT++: putting adversarial queueing theory from its head to feet. SimuTools 2013: 291-298
Coauthor Index
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last updated on 2024-10-16 21:28 CEST by the dblp team
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