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Rudolf Eigenmann
Rudi Eigenmann
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- affiliation: Purdue University, West Lafayette, USA
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2020 – today
- 2024
- [c115]Akshay Bhosale, Rudolf Eigenmann:
Recurrence Analysis for Automatic Parallelization of Subscripted Subscripts. PPoPP 2024: 80-93 - [i7]Parinaz Barakhshan, Rudolf Eigenmann:
Best Practices for Developing Computational and Data-Intensive (CDI) Applications. CoRR abs/2406.01780 (2024) - [i6]Miguel Romero Rosas, Miguel Torres Sanchez, Rudolf Eigenmann:
Should AI Optimize Your Code? A Comparative Study of Current Large Language Models Versus Classical Optimizing Compilers. CoRR abs/2406.12146 (2024) - 2023
- [c114]Parinaz Barakhshan, Rudolf Eigenmann:
CaRV - Accelerating Program Optimization through Capture, Replay, Validate. SC Workshops 2023: 652-662 - 2022
- [c113]Parinaz Barakhshan, Rudolf Eigenmann:
Learning from Automatically Versus Manually Parallelized NAS Benchmarks. LCPC 2022: 29-46 - [c112]Parinaz Barakhshan, Rudolf Eigenmann:
Exchanging Best Practices for Supporting Computational and Data-Intensive Research, The Xpert Network. PEARC 2022: 24:1-24:7 - [i5]Parinaz Barakhshan, Rudolf Eigenmann:
A comparison between Automatically versus Manually Parallelized NAS Benchmarks. CoRR abs/2212.00165 (2022) - [i4]Parinaz Barakhshan, Akshay Bhosale, Amani Kiruga, Rudolf Eigenmann, Marianna S. Safronova, Bindiya Arora:
A Portal for High-Precision Atomic Data and Computation: Design and Best Practices. CoRR abs/2212.10665 (2022) - 2021
- [c111]Akshay Bhosale, Rudolf Eigenmann:
On the automatic parallelization of subscripted subscript patterns using array property analysis. ICS 2021: 392-403 - [c110]Parinaz Barakhshan, Rudolf Eigenmann:
iCetus: A Semi-automatic Parallel Programming Assistant. LCPC 2021: 18-32 - [i3]Parinaz Barakhshan, Rudolf Eigenmann:
Exchanging Best Practices and Tools for Supporting Computational and Data-Intensive Research, The Xpert Network. CoRR abs/2102.09373 (2021) - 2020
- [c109]Akshay Bhosale, Rudolf Eigenmann:
Compile-time Parallelization of Subscripted Subscript Patterns. IPDPS Workshops 2020: 317-325
2010 – 2019
- 2019
- [j39]Putt Sakdhnagool, Amit Sabne, Rudolf Eigenmann:
Comparative analysis of coprocessors. Concurr. Comput. Pract. Exp. 31(1) (2019) - [j38]Tsung Tai Yeh, Amit Sabne, Putt Sakdhnagool, Rudolf Eigenmann, Timothy G. Rogers:
Pagoda: A GPU Runtime System for Narrow Tasks. ACM Trans. Parallel Comput. 6(4): 21:1-21:23 (2019) - [c108]Putt Sakdhnagool, Amit Sabne, Rudolf Eigenmann:
Optimizing GPU programs by register demotion: poster. PPoPP 2019: 405-406 - [e5]Rudolf Eigenmann, Chen Ding, Sally A. McKee:
Proceedings of the ACM International Conference on Supercomputing, ICS 2019, Phoenix, AZ, USA, June 26-28, 2019. ACM 2019, ISBN 978-1-4503-6079-1 [contents] - [i2]Putt Sakdhnagool, Amit Sabne, Rudolf Eigenmann:
RegDem: Increasing GPU Performance via Shared Memory Register Spilling. CoRR abs/1907.02894 (2019) - [i1]Akshay Bhosale, Rudolf Eigenmann:
Compile-time Parallelization of Subscripted Subscript Patterns. CoRR abs/1911.05839 (2019) - 2018
- [j37]Rudi Eigenmann, Barry I. Schneider:
National Strategic Computing Initiative. Comput. Sci. Eng. 20(5): 5-7 (2018) - 2017
- [c107]Aurangzeb, Rudolf Eigenmann:
HiPA: history-based piecewise approximation for functions. ICS 2017: 23:1-23:10 - [c106]Tsung Tai Yeh, Amit Sabne, Putt Sakdhnagool, Rudolf Eigenmann, Timothy G. Rogers:
Pagoda: Fine-Grained GPU Resource Virtualization for Narrow Tasks. PPoPP 2017: 221-234 - 2016
- [c105]Tsung Tai Yeh, Amit Sabne, Putt Sakdhnagool, Rudolf Eigenmann, Timothy G. Rogers:
POSTER: Pagoda: A Runtime System to Maximize GPU Utilization in Data Parallel Tasks with Limited Parallelism. PACT 2016: 449-450 - [c104]Aurangzeb, Rudolf Eigenmann:
Harnessing Parallelism in Multicore Systems to Expedite and Improve Function Approximation. LCPC 2016: 88-92 - [c103]Amit Sabne, Putt Sakdhnagool, Rudolf Eigenmann:
Formalizing Structured Control Flow Graphs. LCPC 2016: 153-168 - 2015
- [j36]Dheya Mustafa, Rudolf Eigenmann:
PETRA: Performance Evaluation Tool for Modern Parallelizing Compilers. Int. J. Parallel Program. 43(4): 549-571 (2015) - [c102]Amit Sabne, Putt Sakdhnagool, Rudolf Eigenmann:
HeteroDoop: A MapReduce Programming System for Accelerator Clusters. HPDC 2015: 235-246 - [c101]Putt Sakdhnagool, Amit Sabne, Rudolf Eigenmann:
HYDRA : Extending Shared Address Programming for Accelerator Clusters. LCPC 2015: 140-155 - 2014
- [j35]Tanzima Zerin Islam, Saurabh Bagchi, Rudolf Eigenmann:
Reliable and Efficient Distributed Checkpointing System for Grid Environments. J. Grid Comput. 12(4): 593-613 (2014) - [c100]Fahed Jubair, Okwan Kwon, Rudolf Eigenmann, Samuel P. Midkiff:
\pi Abstraction: Parallelism-Aware Array Data Flow Analysis for OpenMP. LCPC 2014: 253-267 - 2013
- [j34]Seyong Lee, Rudolf Eigenmann:
OpenMPC: extended OpenMP for efficient programming and tuning on GPUs. Int. J. Comput. Sci. Eng. 8(1): 4-20 (2013) - [j33]Rudi Eigenmann, Samuel P. Midkiff:
Compiler Infrastructure. Int. J. Parallel Program. 41(6): 751-752 (2013) - [j32]Hansang Bae, Dheya Mustafa, Jae-Woo Lee, Aurangzeb, Hao Lin, Chirag Dave, Rudolf Eigenmann, Samuel P. Midkiff:
The Cetus Source-to-Source Compiler Infrastructure: Overview and Evaluation. Int. J. Parallel Program. 41(6): 753-767 (2013) - [j31]Tanzima Zerin Islam, Kathryn M. Mohror, Saurabh Bagchi, Adam Moody, Bronis R. de Supinski, Rudolf Eigenmann:
McrEngine: A scalable checkpointing system using data-aware aggregation and compression. Sci. Program. 21(3-4): 149-163 (2013) - [c99]Amit Sabne, Putt Sakdhnagool, Rudolf Eigenmann:
Scaling large-data computations on multi-GPU accelerators. ICS 2013: 443-454 - 2012
- [c98]Eduard Ayguadé, Dionisios N. Pnevmatikatos, Rudolf Eigenmann, Mikel Luján, Sabri Pllana:
Topic 11: Multicore and Manycore Programming. Euro-Par 2012: 587-588 - [c97]Amit Sabne, Putt Sakdhnagool, Rudolf Eigenmann:
Effects of Compiler Optimizations in OpenMP to CUDA Translation. IWOMP 2012: 169-181 - [c96]Okwan Kwon, Fahed Jubair, Rudolf Eigenmann, Samuel P. Midkiff:
A hybrid approach of OpenMP for clusters. PPoPP 2012: 75-84 - [c95]Dheya Mustafa, Rudolf Eigenmann:
Portable section-level tuning of compiler parallelized applications. SC 2012: 9 - [c94]Tanzima Zerin Islam, Kathryn M. Mohror, Saurabh Bagchi, Adam Moody, Bronis R. de Supinski, Rudolf Eigenmann:
McrEngine: a scalable checkpointing system using data-aware aggregation and compression. SC 2012: 17 - 2011
- [j30]Rudolf Eigenmann, Ayhan Irfanoglu:
Computational Earthquake and Tsunami Research. Comput. Sci. Eng. 13(4): 11-13 (2011) - [j29]Thomas J. Hacker, Rudi Eigenmann, Saurabh Bagchi, Ayhan Irfanoglu, Santiago Pujol, Ann Christine Catlin, Ellen Rathje:
The NEEShub Cyberinfrastructure for Earthquake Engineering. Comput. Sci. Eng. 13(4): 67-78 (2011) - [c93]Dheya Mustafa, Aurangzeb, Rudolf Eigenmann:
Performance Analysis and Tuning of Automatically Parallelized OpenMP Applications. IWOMP 2011: 151-164 - [c92]Okwan Kwon, Fahed Jubair, Seung-Jai Min, Hansang Bae, Rudolf Eigenmann, Samuel P. Midkiff:
Automatic Scaling of OpenMP Beyond Shared Memory. LCPC 2011: 1-15 - [c91]Hao Lin, Hansang Bae, Samuel P. Midkiff, Rudolf Eigenmann, Soohong P. Kim:
A Study of the Usefulness of Producer/Consumer Synchronization. LCPC 2011: 141-155 - [r1]Rudolf Eigenmann:
Polaris. Encyclopedia of Parallel Computing 2011: 1575-1581 - 2010
- [c90]Seyong Lee, Rudolf Eigenmann:
OpenMPC: Extended OpenMP Programming and Tuning for GPUs. SC 2010: 1-11
2000 – 2009
- 2009
- [j28]Chirag Dave, Hansang Bae, Seung-Jai Min, Seyong Lee, Rudolf Eigenmann, Samuel P. Midkiff:
Cetus: A Source-to-Source Compiler Infrastructure for Multicores. Computer 42(11): 36-42 (2009) - [j27]Rudolf Eigenmann, Eduard Ayguadé:
Guest Editors' Introduction. Int. J. Parallel Program. 37(3): 247-249 (2009) - [c89]Chirag Dave, Rudolf Eigenmann:
Automatically Tuning Parallel and Parallelized Programs. LCPC 2009: 126-139 - [c88]Seyong Lee, Seung-Jai Min, Rudolf Eigenmann:
OpenMP to GPGPU: a compiler framework for automatic translation and optimization. PPoPP 2009: 101-110 - [c87]Tanzima Zerin Islam, Saurabh Bagchi, Rudolf Eigenmann:
FALCON: a system for reliable checkpoint recovery in shared grid environments. SC 2009 - 2008
- [j26]Mohamed Sayeed, Hansang Bae, Yili Zheng, Brian Armstrong, Rudolf Eigenmann, Faisal Saied:
Measuring High-Performance Computing with Real Applications. Comput. Sci. Eng. 10(4): 60-70 (2008) - [j25]Zhelong Pan, Rudolf Eigenmann:
PEAK - a fast and effective performance tuning system via compiler optimization orchestration. ACM Trans. Program. Lang. Syst. 30(3): 17:1-17:43 (2008) - [j24]Jong-Kook Kim, Howard Jay Siegel, Anthony A. Maciejewski, Rudolf Eigenmann:
Dynamic Resource Management in Energy Constrained Heterogeneous Computing Systems Using Voltage Scaling. IEEE Trans. Parallel Distributed Syst. 19(11): 1445-1457 (2008) - [c86]Brian Armstrong, Rudolf Eigenmann:
Application of Automatic Parallelization to Modern Challenges of Scientific Computing Industries. ICPP 2008: 279-286 - [c85]Seyong Lee, Rudolf Eigenmann:
Adaptive runtime tuning of parallel sparse matrix-vector multiplication on distributed memory systems. ICS 2008: 195-204 - [c84]Seung-Jai Min, Rudolf Eigenmann:
Optimizing irregular shared-memory applications for clusters. ICS 2008: 256-265 - [c83]Seyong Lee, Rudolf Eigenmann:
Adaptive tuning in a dynamically changing resource environment. IPDPS 2008: 1-5 - [c82]Seyong Lee, Xiaojuan Ren, Rudolf Eigenmann:
Efficient content search in iShare, a P2P based Internet-sharing system. IPDPS 2008: 1-8 - [c81]Ayon Basumallik, Rudolf Eigenmann:
Incorporation of OpenMP Memory Consistency into Conventional Dataflow Analysis. IWOMP 2008: 71-82 - [e4]Rudolf Eigenmann, Bronis R. de Supinski:
OpenMP in a New Era of Parallelism, 4th International Workshop, IWOMP 2008, West Lafayette, IN, USA, May 12-14, 2008, Proceedings. Lecture Notes in Computer Science 5004, Springer 2008, ISBN 978-3-540-79560-5 [contents] - 2007
- [j23]Xiaojuan Ren, Seyong Lee, Rudolf Eigenmann, Saurabh Bagchi:
Prediction of Resource Availability in Fine-Grained Cycle Sharing Systems Empirical Evaluation. J. Grid Comput. 5(2): 173-195 (2007) - [c80]Xiaojuan Ren, Rudolf Eigenmann, Saurabh Bagchi:
Failure-aware checkpointing in fine-grained cycle sharing systems. HPDC 2007: 33-42 - [c79]Ayon Basumallik, Seung-Jai Min, Rudolf Eigenmann:
Programming Distributed Memory Systems Using OpenMP. IPDPS 2007: 1-8 - [c78]Xiaojuan Ren, Ayon Basumallik, Zhelong Pan, Rudolf Eigenmann:
Open Internet-based Sharing for Desktop Grids in iShare. IPDPS 2007: 1-8 - [c77]Troy A. Johnson, Rudolf Eigenmann, T. N. Vijaykumar:
Speculative thread decomposition through empirical optimization. PPoPP 2007: 205-214 - 2006
- [j22]Seon Wook Kim, Chong-liang Ooi, Rudolf Eigenmann, Babak Falsafi, T. N. Vijaykumar:
Exploiting reference idempotency to reduce speculative storage overflow. ACM Trans. Program. Lang. Syst. 28(5): 942-965 (2006) - [c76]Zhelong Pan, Rudolf Eigenmann:
Fast, automatic, procedure-level performance tuning. PACT 2006: 173-181 - [c75]Zhelong Pan, Rudolf Eigenmann:
Fast and Effective Orchestration of Compiler Optimizations for Automatic Performance Tuning. CGO 2006: 319-332 - [c74]Xiaojuan Ren, Seyong Lee, Rudolf Eigenmann, Saurabh Bagchi:
Resource Availability Prediction in Fine-Grained Cycle Sharing Systems. HPDC 2006: 93-104 - [c73]Xiaojuan Ren, Rudolf Eigenmann:
Empirical Studies on the Behavior of Resource Availability in Fine-Grained Cycle Sharing Systems. ICPP 2006: 3-11 - [c72]Zhelong Pan, Xiaojuan Ren, Rudolf Eigenmann, Dongyan Xu:
Executing MPI programs on virtual machines in an Internet sharing system. IPDPS 2006 - [c71]Rudolf Eigenmann:
Implementing Tomorrow's Programming Languages. ISPA 2006: 3 - [c70]Troy A. Johnson, Sang Ik Lee, Seung-Jai Min, Rudolf Eigenmann:
Can Transactions Enhance Parallel Programs? LCPC 2006: 2-16 - [c69]Troy A. Johnson, Rudolf Eigenmann:
Context-sensitive domain-independent algorithm composition and selection. PLDI 2006: 181-192 - [c68]Ayon Basumallik, Rudolf Eigenmann:
Optimizing irregular shared-memory applications for distributed-memory systems. PPoPP 2006: 119-128 - 2005
- [c67]Xiaojuan Ren, Rudolf Eigenmann:
iShare - Open Internet Sharing Built on Peer-to-Peer and Web. EGC 2005: 1117-1127 - [c66]Ayon Basumallik, Rudolf Eigenmann:
Towards automatic translation of OpenMP to MPI. ICS 2005: 189-198 - [c65]Jong-Kook Kim, Howard Jay Siegel, Anthony A. Maciejewski, Rudolf Eigenmann:
Dynamic Mapping in Energy Constrained Heterogeneous Computing Systems. IPDPS 2005 - [c64]Zhelong Pan, Brian Armstrong, Hansang Bae, Rudolf Eigenmann:
On the Interaction of Tiling and Automatic Parallelization. IWOMP 2005: 24-35 - [c63]Hansang Bae, Rudolf Eigenmann:
Interprocedural Symbolic Range Propagation for Optimizing Compilers. LCPC 2005: 413-424 - [e3]Rudolf Eigenmann, Zhiyuan Li, Samuel P. Midkiff:
Languages and Compilers for High Performance Computing, 17th International Workshop, LCPC 2004, West Lafayette, IN, USA, September 22-24, 2004, Revised Selected Papers. Lecture Notes in Computer Science 3602, Springer 2005, ISBN 3-540-28009-X [contents] - 2004
- [j21]Matthias S. Müller, Kumaran Kalyanasundaram, Greg Gaertner, Wesley B. Jones, Rudolf Eigenmann, Ron Lieberman, G. Matthijs van Waveren, Brian Whitney:
SPEC HPG benchmarks for high-performance systems. Int. J. High Perform. Comput. Netw. 1(4): 162-170 (2004) - [c62]Xiaojuan Ren, Zhelong Pan, Rudolf Eigenmann, Y. Charlie Hu:
Decentralized and Hierarchical Discovery of Software Applications in the iShare Internet Sharing System. PDCS 2004: 124-130 - [c61]Xuxian Jiang, Dongyan Xu, Rudolf Eigenmann:
Protection mechanisms for application service hosting platforms. CCGRID 2004: 656-663 - [c60]Wessam Hassanein, José A. B. Fortes, Rudolf Eigenmann:
Data forwarding through in-memory precomputation threads. ICS 2004: 207-216 - [c59]Troy A. Johnson, Sang Ik Lee, Long Fei, Ayon Basumallik, Gautam Upadhyaya, Rudolf Eigenmann, Samuel P. Midkiff:
Experiences in Using Cetus for Source-to-Source Transformations. LCPC 2004: 1-14 - [c58]Seung-Jai Min, Rudolf Eigenmann:
Combined compile-time and runtime-driven, pro-active data movement in software DSM systems. LCR 2004: 16:1-16:6 - [c57]Troy A. Johnson, Rudolf Eigenmann, T. N. Vijaykumar:
Min-cut program decomposition for thread-level speculation. PLDI 2004: 59-70 - [c56]Zhelong Pan, Rudolf Eigenmann:
Rating Compiler Optimizations for Automatic Performance Tuning. SC 2004: 14 - 2003
- [j20]Hideki Saito, Greg Gaertner, Wesley B. Jones, Rudolf Eigenmann, Hidetoshi Iwashita, Ron Lieberman, G. Matthijs van Waveren, Brian Whitney:
Large System Performance of SPEC OMP Benchmark Suites. Int. J. Parallel Program. 31(3): 197-209 (2003) - [j19]Seung-Jai Min, Ayon Basumallik, Rudolf Eigenmann:
Optimizing OpenMP Programs on Software Distributed Shared Memory Systems. Int. J. Parallel Program. 31(3): 225-249 (2003) - [j18]Vishal Aslot, Rudolf Eigenmann:
Quantitative performance analysis of the SPEC OMPM2001 benchmarks. Sci. Program. 11(2): 105-124 (2003) - [c55]Helmar Burkhart, Rudolf Eigenmann, Tomàs Margalef, Thomas Ludwig:
Topic Introduction. Euro-Par 2003: 5-6 - [c54]Matthias S. Müller, Kumaran Kalyanasundaram, Greg Gaertner, Wesley B. Jones, Rudolf Eigenmann, Ron Lieberman, G. Matthijs van Waveren, Brian Whitney:
SPEC HPG Benchmarks for Large Systems. ISHPC 2003: 189-201 - [c53]Wessam Hassanein, Greg Astfalk, Rudolf Eigenmann:
1D performance analysis and tracing of technical and Java applications on the Itanium2 processor. ISPASS 2003: 91-100 - [c52]Sang Ik Lee, Troy A. Johnson, Rudolf Eigenmann:
Cetus - An Extensible Compiler Infrastructure for Source-to-Source Transformation. LCPC 2003: 539-553 - [c51]Seung-Jai Min, Ayon Basumallik, Rudolf Eigenmann:
Supporting Realistic OpenMP Applications on a Commodity Cluster of Workstations. WOMPAT 2003: 170-179 - [e2]Rudolf Eigenmann, Martin C. Rinard:
Proceedings of the ACM SIGPLAN Symposium on Principles and Practice of Parallel Programming, PPOPP 2003, June 11-13, 2003, San Diego, CA, USA. ACM 2003, ISBN 1-58113-588-2 [contents] - 2002
- [c50]Rudolf Eigenmann:
Workshop Introduction. IPDPS 2002 - [c49]Rudolf Eigenmann, Jay P. Hoeflinger, Robert H. Kuhn, David A. Padua, Ayon Basumallik, Seung-Jai Min, Jiajing Zhu:
Is OpenMP for Grids?. IPDPS 2002 - [c48]Rudolf Eigenmann, Greg Gaertner, Wesley B. Jones, Hideki Saito, Brian Whitney:
SPEC HPC2002: The Next High-Performance Computer Benchmark. ISHPC 2002: 7-10 - [c47]Hideki Saito, Greg Gaertner, Wesley B. Jones, Rudolf Eigenmann, Hidetoshi Iwashita, Ron Lieberman, G. Matthijs van Waveren, Brian Whitney:
Large System Performance of SPEC OMP2001 Benchmarks. ISHPC 2002: 370-379 - [c46]Ayon Basumallik, Seung-Jai Min, Rudolf Eigenmann:
Towards OpenMP Execution on Software Distributed Shared Memory Systems. ISHPC 2002: 457-468 - [c45]Hansang Bae, Rudolf Eigenmann:
Performance Analysis of Symbolic Analysis Techniques for Parallelizing Compilers. LCPC 2002: 280-294 - 2001
- [j17]Steve W. Bova, Clay P. Breshears, Henry A. Gabb, Bob Kuhn, Bill Magro, Rudolf Eigenmann, Greg Gaertner, Stefano Salvini, Howard Scott:
Parallel programming with message passing and directives. Comput. Sci. Eng. 3(5): 22-37 (2001) - [j16]Vishal Aslot, Rudolf Eigenmann:
Performance characteristics of the SPEC OMP2001 benchmarks. SIGARCH Comput. Archit. News 29(5): 31-40 (2001) - [j15]Insung Park, Michael Voss, Seon Wook Kim, Rudolf Eigenmann:
Parallel programming environment for OpenMP. Sci. Program. 9(2-3): 143-161 (2001) - [c44]Chong-liang Ooi, Seon Wook Kim, Il Park, Rudolf Eigenmann, Babak Falsafi, T. N. Vijaykumar:
Multiplex: unifying conventional and speculative thread-level parallelism on a chip multiprocessor. ICS 2001: 368-380 - [c43]Seon Wook Kim, Rudolf Eigenmann:
The Structure of a Compiler for Explicit and Implicit Parallelism. LCPC 2001: 336-351 - [c42]Seon Wook Kim, Chong-liang Ooi, Rudolf Eigenmann, Babak Falsafi, T. N. Vijaykumar:
Reference idempotency analysis: a framework for optimizing speculative execution. PPoPP 2001: 2-11 - [c41]Michael Voss, Rudolf Eigenmann:
High-level adaptive program optimization with ADAPT. PPoPP 2001: 93-102 - [c40]Vishal Aslot, Max J. Domeika, Rudolf Eigenmann, Greg Gaertner, Wesley B. Jones, Bodo Parady:
SPEComp: A New Benchmark Suite for Measuring Parallel Computer Performance. WOMPAT 2001: 1-10 - [c39]Seung-Jai Min, Seon Wook Kim, Michael Voss, Sang Ik Lee, Rudolf Eigenmann:
Portable Compilers for OpenMP. WOMPAT 2001: 11-19 - [e1]Rudolf Eigenmann, Michael Voss:
OpenMP Shared Memory Parallel Programming, International Workshop on OpenMP Applications and Tools, WOMPAT 2001, West Lafayette, IN, USA, July 30-31, 2001 Proceedings. Lecture Notes in Computer Science 2104, Springer 2001, ISBN 3-540-42346-X [contents] - 2000
- [j14]Seon Wook Kim, Rudolf Eigenmann:
Where Does the Speedup Go: Quantitative Modeling of Performance Losses in Shared-Memory Programs. Parallel Process. Lett. 10(2/3): 227-238 (2000) - [c38]Michael Voss, Rudolf Eigenmann:
A framework for remote dynamic program optimization. Dynamo 2000: 32-40 - [c37]Seon Wook Kim, Rudolf Eigenmann:
Compiler Techniques for Energy Saving in Instruction Caches of Speculative Parallel Microarchitectures. ICPP 2000: 77-86 - [c36]Michael Voss, Rudolf Eigenmann:
ADAPT: Automated De-Coupled Adaptive Program Transformation. ICPP 2000: 163-172 - [c35]Brian Armstrong, Seon Wook Kim, Rudolf Eigenmann:
Quantifying Differences between OpenMP and MPI Using a Large-Scale Application Suite. ISHPC 2000: 482-493 - [c34]Seon Wook Kim, Insung Park, Rudolf Eigenmann:
A Performance Advisor Tool for Shared-Memory Parallel Programming. LCPC 2000: 274-288 - [c33]