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Daniel G. Waddington
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2020 – today
- 2024
- [c31]Daniel Cohen, Sarel Cohen, Dalit Naor, Daniel G. Waddington, Moshik Hershcovitch:
Dictionary Based Cache Line Compression. HotStorage 2024 - 2023
- [j8]David Boles, Daniel G. Waddington, David Andrew Roberts:
CXL-Enabled Enhanced Memory Functions. IEEE Micro 43(2): 58-65 (2023) - [c30]Francesco Quinzan, Rajiv Khanna, Moshik Hershcovitch, Sarel Cohen, Daniel G. Waddington, Tobias Friedrich, Michael W. Mahoney:
Fast Feature Selection with Fairness Constraints. AISTATS 2023: 7800-7823 - [c29]Daniel Cohen, Sarel Cohen, Dalit Naor, Daniel G. Waddington, Moshik Hershcovitch:
Cache Line Deltas Compression. SYSTOR 2023: 145 - 2022
- [c28]Daniel G. Waddington, Moshik Hershcovitch, Swaminathan Sundararaman, Clem Dickey:
A case for using cache line deltas for high frequency VM snapshotting. SoCC 2022: 526-539 - [c27]Moshik Hershcovitch, Artem Khyzha, Daniel G. Waddington, Adam Morrison:
Elastic Indexes: Dynamic Space vs. Query Efficiency Tuning for In-Memory Database Indexing. EDBT 2022: 2:312-2:324 - [c26]Andrew Wood, Moshik Hershcovitch, Ilias Ennmouri, Weiyu Zong, Saurav Chennuri, Sarel Cohen, Swaminathan Sundararaman, Daniel G. Waddington, Sang (Peter) Chin:
Towards Fast Crash-Consistent Cluster Checkpointing. HPEC 2022: 1-8 - [c25]Ryan Yu, Andrew Wood, Sarel Cohen, Moshik Hershcovitch, Daniel G. Waddington, Peter Chin:
Biologically Plausible Complex-Valued Neural Networks and Model Optimization. AIAI (1) 2022: 369-382 - [c24]Omri Arad, Yoav Ben Shimon, Ron Zadicario, Daniel G. Waddington, Moshik Hershcovitch, Adam Morrison:
System-level crash safe sorting on persistent memory. SYSTOR 2022: 151 - [i8]Andrew Wood, Moshik Hershcovitch, Daniel G. Waddington, Sarel Cohen, Peter Chin:
Non-Volatile Memory Accelerated Posterior Estimation. CoRR abs/2202.10522 (2022) - [i7]Andrew Wood, Moshik Hershcovitch, Daniel G. Waddington, Sarel Cohen, Meredith Wolf, Hongjun Suh, Weiyu Zong, Peter Chin:
Non-Volatile Memory Accelerated Geometric Multi-Scale Resolution Analysis. CoRR abs/2202.11518 (2022) - [i6]Francesco Quinzan, Rajiv Khanna, Moshik Hershcovitch, Sarel Cohen, Daniel G. Waddington, Tobias Friedrich, Michael W. Mahoney:
Fast Feature Selection with Fairness Constraints. CoRR abs/2202.13718 (2022) - 2021
- [c23]Sarel Cohen, Moshik Hershcovitch, Martin Taraz, Otto Kißig, Andrew Wood, Daniel G. Waddington, Peter Chin, Tobias Friedrich:
Drug Repurposing Using Link Prediction on Knowledge Graphs with Applications to Non-volatile Memory. COMPLEX NETWORKS 2021: 742-753 - [c22]Andrew Wood, Moshik Hershcovitch, Daniel G. Waddington, Sarel Cohen, Meredith Wolf, Hongjun Suh, Weiyu Zong, Peter Chin:
Non-Volatile Memory Accelerated Geometric Multi-Scale Resolution Analysis. HPEC 2021: 1-7 - [c21]Daniel G. Waddington, Moshik Hershcovitch, Clem Dickey:
PyMM: Heterogeneous Memory Programming for Python Data Science. PLOS@SOSP 2021: 31-37 - [i5]Daniel G. Waddington, Clem Dickey, Moshik Hershcovitch, Sangeetha Seshadri:
An Architecture for Memory Centric Active Storage (MCAS). CoRR abs/2103.00007 (2021) - [i4]Daniel G. Waddington, Clem Dickey, Luna Xu, Moshik Hershcovitch, Sangeetha Seshadri:
A High-Performance Persistent Memory Key-Value Store with Near-Memory Compute. CoRR abs/2104.06225 (2021) - 2020
- [c20]Daniel G. Waddington, Clem Dickey, Luna Xu, Travis Janssen, Jantz Tran, Kshitij A. Doshi:
Evaluating Intel 3D-Xpoint NVDIMM Persistent Memory in the Context of a Key-Value Store. ISPASS 2020: 202-211
2010 – 2019
- 2019
- [c19]Feng Li, Daniel G. Waddington, Fengguang Song:
Userland CO-PAGER: boosting data-intensive applications with non-volatile memory, userspace paging. HP3C 2019: 78-83 - [c18]Daniel G. Waddington, Mark Kunitomi, Clem Dickey, Samyukta Rao, Amir Abboud, Jantz Tran:
Evaluation of intel 3D-xpoint NVDIMM technology for memory-intensive genomic workloads. MEMSYS 2019: 277-287 - 2018
- [j7]Daniel G. Waddington, Jim Harris:
Software challenges for the changing storage landscape. Commun. ACM 61(11): 136-145 (2018) - [i3]Daniel G. Waddington:
Fast & Flexible IO : A Compositional Approach to Storage Construction for High-Performance Devices. CoRR abs/1807.09696 (2018) - 2017
- [c17]Juan A. Colmenares, Reza Dorrigiv, Daniel G. Waddington:
A single-node datastore for high-velocity multidimensional sensor data. IEEE BigData 2017: 445-452 - [i2]Juan A. Colmenares, Reza Dorrigiv, Daniel G. Waddington:
Ingestion, Indexing and Retrieval of High-Velocity Multidimensional Sensor Data on a Single Node. CoRR abs/1707.00825 (2017) - 2016
- [i1]Daniel G. Waddington, Changhui Lin:
A Fast Lightweight Time-Series Store for IoT Data. CoRR abs/1605.01435 (2016) - 2015
- [c16]Jilong Kuang, Daniel G. Waddington, Changhui Lin:
Techniques for fast and scalable time series traffic generation. IEEE BigData 2015: 105-114 - 2013
- [c15]Jilong Kuang, Daniel G. Waddington, Chen Tian:
Towards a Scalable Microkernel Personality for Multicore Processors. Euro-Par 2013: 620-632 - [c14]Chongxiao Cao, Fengguang Song, Daniel G. Waddington:
Implementing a high-performance recommendation system using Phoenix++. ICITST 2013: 252-257 - [c13]Daniel G. Waddington, Juan A. Colmenares, Jilong Kuang, Fengguang Song:
KV-Cache: A Scalable High-Performance Web-Object Cache for Manycore. UCC 2013: 123-130 - 2012
- [c12]Chen Tian, Daniel G. Waddington, Jilong Kuang:
A Scalable Physical Memory Allocation Scheme for L4 Microkernel. COMPSAC 2012: 488-493 - [c11]Jaeyeon Kang, Daniel G. Waddington:
Load Balancing Aware Real-Time Task Partitioning in Multicore Systems. RTCSA 2012: 404-407
2000 – 2009
- 2007
- [j6]Dan G. Waddington, Bin Yao:
High-fidelity C/C++ code transformation. Sci. Comput. Program. 68(2): 64-78 (2007) - 2005
- [c10]Marcio Buss, Stephen A. Edwards, Bin Yao, Dan G. Waddington:
Pointer Analysis for Source-to-Source Transformations. SCAM 2005: 139-150 - [c9]Dan G. Waddington, Bin Yao:
High-Fidelity C/C++ Code Transformation. LDTA@ETAPS 2005: 35-56 - 2004
- [j5]Han-Chieh Chao, Heinrich J. Stüttgen, Daniel G. Waddington:
IPv6: the basis for the next generation internet. IEEE Commun. Mag. 42(1): 86-87 (2004) - 2003
- [j4]Daniel G. Waddington, Fangzhe Chang, Ramesh Viswanathan, Bin Yao:
Topology discovery for public IPv6 networks. Comput. Commun. Rev. 33(3): 59-68 (2003) - [c8]Bin Yao, Ramesh Viswanathan, Fangzhe Chang, Daniel G. Waddington:
Topology Inference in the Presence of Anonymous Routers. INFOCOM 2003: 353-363 - 2002
- [j3]Daniel G. Waddington, Fangzhe Chang:
Realizing the transition to IPv6. IEEE Commun. Mag. 40(6): 138-147 (2002) - [j2]Dan G. Waddington, Ramesh Viswanathan:
Interaction points: exploiting operating system mechanisms for inter-component communications. ACM SIGOPS Oper. Syst. Rev. 36(2): 19-35 (2002) - 2000
- [c7]Nicholas J. P. Race, Dan G. Waddington, Doug Shepherd:
A Dynamic RAM Cache for High Quality Distributed Video. IDMS 2000: 26-39
1990 – 1999
- 1999
- [b1]Daniel Giles Waddington:
Integrating QoS management into multimedia middleware. Lancaster University, UK, 1999 - [j1]Dan G. Waddington, David Hutchison:
Resource Partitioning in General Purpose Operating Systems - Experimental Results in Windows NT. ACM SIGOPS Oper. Syst. Rev. 33(4): 52-74 (1999) - 1998
- [c6]Christopher Edwards, David Hutchison, Dan G. Waddington:
Open Interface Support for Heterogeneous Network Services. ECMAST 1998: 135-148 - [c5]Dan G. Waddington, David Hutchison:
End-to-End QoS Provisioning through Resource Adaptation. HPN 1998: 309-326 - 1997
- [c4]Dan G. Waddington, Christopher Edwards, David Hutchison:
Resource Management for Distributed Multimedia Applications. ECMAST 1997: 95-111 - [c3]Dan G. Waddington, Geoff Coulson:
A Distributed Multimedia Component Architecture. EDOC 1997: 334- - 1996
- [c2]Dan G. Waddington, Geoff Coulson, David Hutchison:
Specifying QoS for Multimedia Communications within Distributed Programming Environments. COST 237 Workshop 1996: 75-103 - [c1]Geoff Coulson, Dan G. Waddington:
A CORBA Compliant Real-Time Multimedia Platform for Broadband Networks. TreDS 1996: 14-29
Coauthor Index
aka: Moshik Hershcovitch
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