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David M. Koppelman
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2020 – today
- 2020
- [c11]Roozbeh Karimi, David M. Koppelman, Chris J. Michael:
Fast GPU Graph Contraction by Combining Efficient Shallow Searches and Post-Culling. HPEC 2020: 1-7
2010 – 2019
- 2019
- [c10]Roozbeh Karimi, David M. Koppelman, Chris J. Michael:
GPU road network graph contraction and SSSP query. ICS 2019: 250-260 - 2018
- [j15]Yue Hu, David M. Koppelman, Steven R. Brandt:
Thoroughly Exploring GPU Buffering Options for Stencil Code by Using an Efficiency Measure and a Performance Model. IEEE Trans. Multi Scale Comput. Syst. 4(3): 477-490 (2018) - 2016
- [j14]Ying Zhang, Samuel Irving, Lu Peng, Xin Fu, David M. Koppelman, Weihua Zhang, Jesse Ardonne:
Design space exploration for device and architectural heterogeneity in chip-multiprocessors. Microprocess. Microsystems 40: 88-101 (2016) - [c9]Yue Hu, David M. Koppelman, Steven R. Brandt:
A Performance Model and Efficiency-Based Assignment of Buffering Strategies for Automatic GPU Stencil Code Generation. MCSoC 2016: 361-368 - 2015
- [j13]Erik Schnetter, Marek Blazewicz, Steven R. Brandt, David M. Koppelman, Frank Löffler:
Chemora: A PDE-Solving Framework for Modern High-Performance Computing Architectures. Comput. Sci. Eng. 17(2): 53-64 (2015) - [j12]Yun Ding, Ye Fang, Wei Pan Feinstein, Jagannathan Ramanujam, David M. Koppelman, Juana Moreno, Michal Brylinski, Mark Jarrell:
GeauxDock: A novel approach for mixed-resolution ligand docking using a descriptor-based force field. J. Comput. Chem. 36(27): 2013-2026 (2015) - 2014
- [c8]David M. Koppelman, Chris J. Michael:
Discovering barriers to efficient execution, both obvious and subtle, using instruction-level visualization. VPA@SC 2014: 36-41 - [i3]Erik Schnetter, Marek Blazewicz, Steven R. Brandt, David M. Koppelman, Frank Löffler:
Chemora: A PDE Solving Framework for Modern HPC Architectures. CoRR abs/1410.1764 (2014) - 2013
- [j11]Marek Blazewicz, Ian Hinder, David M. Koppelman, Steven R. Brandt, Milosz Ciznicki, Michal Kierzynka, Frank Löffler, Erik Schnetter, Jian Tao:
From physics model to results: An optimizing framework for cross-architecture code generation. Sci. Program. 21(1-2): 1-16 (2013) - [i2]Marek Blazewicz, Ian Hinder, David M. Koppelman, Steven R. Brandt, Milosz Ciznicki, Michal Kierzynka, Frank Löffler, Erik Schnetter, Jian Tao:
From Physics Model to Results: An Optimizing Framework for Cross-Architecture Code Generation. CoRR abs/1307.6488 (2013) - 2012
- [j10]Santhosh Verma, David M. Koppelman:
The Interaction and Relative Effectiveness of Hardware and Software Data Prefetch. J. Circuits Syst. Comput. 21(2) (2012) - [i1]Marek Blazewicz, Steven R. Brandt, Peter Diener, David M. Koppelman, Krzysztof Kurowski, Frank Löffler, Erik Schnetter, Jian Tao:
A Massive Data Parallel Computational Framework for Petascale/Exascale Hybrid Computer Systems. CoRR abs/1201.2118 (2012) - 2011
- [j9]Santhosh Verma, David M. Koppelman, Lu Peng:
Efficient Prefetching with Hybrid Schemes and Use of Program Feedback to Adjust Prefetcher Aggressiveness. J. Instr. Level Parallelism 13 (2011) - [c7]Marek Blazewicz, Steven R. Brandt, Peter Diener, David M. Koppelman, Krzysztof Kurowski, Frank Löffler, Erik Schnetter, Jian Tao:
A Massive Data Parallel Computational Framework for Petascale/Exascale Hybrid Computer Systems. PARCO 2011: 351-358 - 2010
- [c6]Chris J. Michael, David M. Koppelman:
The effects on branch prediction when utilizing control independence. IPDPS Workshops 2010: 1-4
2000 – 2009
- 2009
- [c5]Santhosh Verma, Benjamin Maderazo, David M. Koppelman:
Spotlight - a low complexity highly accurate profile-based branch predictor. IPCCC 2009: 239-247 - 2008
- [j8]Lu Peng, Jih-Kwon Peir, Tribuvan K. Prakash, Carl Staelin, Yen-Kuang Chen, David M. Koppelman:
Memory hierarchy performance measurement of commercial dual-core desktop processors. J. Syst. Archit. 54(8): 816-828 (2008) - 2007
- [c4]Lu Peng, Jih-Kwon Peir, Tribuvan K. Prakash, Yen-Kuang Chen, David M. Koppelman:
Memory Performance and Scalability of Intel's and AMD's Dual-Core Processors: A Case Study. IPCCC 2007: 55-64 - 2000
- [c3]David M. Koppelman:
Neighborhood Prefetching on Multiprocessors Using Instruction History. IEEE PACT 2000: 123-132
1990 – 1999
- 1997
- [j7]David M. Koppelman:
Sticky States in Banyan Network Queues and Their Application to Analysis. J. Parallel Distributed Comput. 40(2): 147-161 (1997) - 1996
- [j6]David M. Koppelman:
A Lower Bound on the Average Physical Length of Edges in the Physical Realization of Graphs. Parallel Process. Lett. 6(1): 137-143 (1996) - [j5]David M. Koppelman:
Congested Banyan network analysis using congested-queue states and neighboring-queue effects. IEEE/ACM Trans. Netw. 4(1): 106-111 (1996) - [j4]David M. Koppelman:
A Family of Interconnection Networks for Nonuniform Traffic. IEEE Trans. Parallel Distributed Syst. 7(5): 486-492 (1996) - 1994
- [j3]David M. Koppelman, A. Yavuz Oruç:
The complexity of routing in Clos permutation networks. IEEE Trans. Inf. Theory 40(1): 278-284 (1994) - [j2]David M. Koppelman:
Reducing PE/Memory Traffic in Multiprocessors by the Difference Coding of Memory Addresses. IEEE Trans. Parallel Distributed Syst. 5(11): 1156-1168 (1994) - 1992
- [c2]David M. Koppelman:
Reducing PE/Memory Traffic in Shared Memory Multiprocessors by the Difference Coding of Addresses. ICPP (1) 1992: 53-56 - 1990
- [j1]David M. Koppelman, A. Yavuz Oruç:
A Self-Routing Permutation Network. J. Parallel Distributed Comput. 10(2): 140-151 (1990)
1980 – 1989
- 1989
- [c1]David M. Koppelman, A. Yavuz Oruç:
A Self-Routing Permutation Network. ICPP (1) 1989: 288-295
Coauthor Index
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