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Thomas L. Sterling
Thomas Lawrence Sterling
Person information
- affiliation: Indiana University Bloomington, Center for Research in Extreme Scale Technologies, USA
- affiliation: Louisiana State University, Department of Electrical & Computer Engineering, USA
- affiliation: California Institute of Technology, Center for Advanced Computing Research, USA
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2020 – today
- 2024
- [c68]Bibrak Qamar Chandio
, Maciej Brodowicz
Structures and Techniques for Streaming Dynamic Graph Processing on Decentralized Message-Driven Systems. ICPP Workshops 2024: 1-6 - [i8]Bibrak Qamar Chandio, Prateek Srivastava, Maciej Brodowicz, Thomas L. Sterling:
AM-CCA: A Memory-Driven System for Fine-Grain and Dynamic Computations. CoRR abs/2402.02576 (2024) - [i7]Bibrak Qamar Chandio, Maciej Brodowicz, Thomas L. Sterling:
Structures and Techniques for Streaming Dynamic Graph Processing on Decentralized Message-Driven Systems. CoRR abs/2406.01201 (2024)
2010 – 2019
- 2018
- [j31]Maciej Brodowicz, Thomas L. Sterling, Matthew Anderson:
Continuum Computing - on a New Performance Trajectory beyond Exascale. Supercomput. Front. Innov. 5(3): 5-24 (2018) - [c67]Jeremy Kepner, Ron Brightwell, Alan Edelman, Vijay Gadepally, Hayden Jananthan, Michael Jones, Sam Madden, Peter Michaleas, Hamed Okhravi, Kevin T. Pedretti, Albert Reuther, Thomas L. Sterling, Mike Stonebraker:
TabulaROSA: Tabular Operating System Architecture for Massively Parallel Heterogeneous Compute Engines. HPEC 2018: 1-8 - [e1]Lucio Grandinetti, Seyedeh Leili Mirtaheri, Reza Shahbazian, Thomas L. Sterling, Vladimir V. Voevodin:
Big Data and HPC: Ecosystem and Convergence, TopHPC 2017, Tehran, Iran, 24-26 April 2017. Advances in Parallel Computing 33, IOS Press 2018, ISBN 978-1-61499-881-5 [contents] - [i6]Jeremy Kepner, Ron Brightwell, Alan Edelman, Vijay Gadepally, Hayden Jananthan, Michael Jones, Sam Madden, Peter Michaleas, Hamed Okhravi, Kevin T. Pedretti, Albert Reuther, Thomas L. Sterling, Mike Stonebraker:
TabulaROSA: Tabular Operating System Architecture for Massively Parallel Heterogeneous Compute Engines. CoRR abs/1807.05308 (2018) - 2017
- [j30]Thomas L. Sterling, Matthew Anderson, Maciej Brodowicz:
A Survey: Runtime Software Systems for High Performance Computing. Supercomput. Front. Innov. 4(1): 48-68 (2017) - [j29]Maciej Brodowicz, Thomas L. Sterling:
Simultac Fonton: A Fine-Grain Architecture for Extreme Performance beyond Moore's Law. Supercomput. Front. Innov. 4(2): 27-37 (2017) - [c66]Matthew Anderson, Maciej Brodowicz, Martin Swany
Accelerating the 3-D FFT Using a Heterogeneous FPGA Architecture. Euro-Par Workshops 2017: 653-663 - [c65]Thomas L. Sterling, Bo Zhang:
Runtime System Architecture for Dynamic Adaptive Execution. TopHPC 2017: 3-20 - [i5]Bo Zhang, Jackson DeBuhr, D. Niedzielski, S. Mayolo, B. Lu, Thomas L. Sterling:
DASHMM Accelerated Adaptive Fast Multipole Poisson-Boltzmann Solver on Distributed Memory Architecture. CoRR abs/1710.06316 (2017) - 2016
- [c64]Maciej Brodowicz, Thomas L. Sterling:
A non von neumann continuum computer architecture for scalability beyond Moore's law. Conf. Computing Frontiers 2016: 335-338 - [c63]Abhishek Kulkarni
Network-Managed Virtual Global Address Space for Message-driven Runtimes. HPDC 2016: 15-18 - [c62]Thomas L. Sterling:
Keynote: The quantum step in parallel execution through dynamic adaptive runtime and programming strategies. ESPM2@SC 2016: 1 - 2015
- [j28]Kevin A. Huck
An Autonomic Performance Environment for Exascale. Supercomput. Front. Innov. 2(3): 49-66 (2015) - 2014
- [j27]Thomas L. Sterling, Daniel Kogler, Matthew Anderson, Maciej Brodowicz:
SLOWER: A performance model for Exascale computing. Supercomput. Front. Innov. 1(2): 42-57 (2014) - [c61]Thomas L. Sterling, Matthew Anderson, P. Kevin Bohan, Maciej Brodowicz, Abhishek Kulkarni
Towards Exascale Co-design in a Runtime System. EASC 2014: 85-99 - [c60]Matthew Anderson, Maciej Brodowicz, Luke Dalessandro, Jackson DeBuhr, Thomas L. Sterling:
A Dynamic Execution Model Applied to Distributed Collision Detection. ISC 2014: 470-477 - 2013
- [j26]Steven Gottlieb, Thomas L. Sterling:
Exascale Computing [Guest Editorial]. Comput. Sci. Eng. 15(6): 12-15 (2013) - [c59]Thomas L. Sterling, Maciej Brodowicz, Timur Gilmanov:
Towards Brain-Inspired System Architectures. BrainComp 2013: 159-170 - [c58]Matthew Anderson, Maciej Brodowicz, Thomas L. Sterling, Hartmut Kaiser
Tabulated Equations of State with a Many-tasking Execution Model. IPDPS Workshops 2013: 1691-1699 - [c57]Matthew Anderson, Maciej Brodowicz, Abhishek Kulkarni
Performance Modeling of Gyrokinetic Toroidal Simulations for a Many-Tasking Runtime System. PMBS@SC 2013: 136-157 - 2012
- [j25]Chirag Dekate, Matthew Anderson, Maciej Brodowicz, Hartmut Kaiser
Improving the scalability of parallel N-body applications with an event-driven constraint-based execution model. Int. J. High Perform. Comput. Appl. 26(3): 319-332 (2012) - [c56]Thomas L. Sterling, Matthew Anderson, Maciej Brodowicz:
Achieving scalability in the presence of Asynchrony for Exascale Computing. High Performance Computing Workshop (2) 2012: 104-117 - [i4]Matthew Anderson, Maciej Brodowicz, Hartmut Kaiser, Bryce Adelstein-Lelbach, Thomas L. Sterling:
Neutron Star Evolutions using Tabulated Equations of State with a New Execution Model. CoRR abs/1205.5055 (2012) - 2011
- [j24]Jack J. Dongarra, Peter H. Beckman, Terry Moore, Patrick Aerts, Giovanni Aloisio
The International Exascale Software Project roadmap. Int. J. High Perform. Comput. Appl. 25(1): 3-60 (2011) - [j23]Alexandre Tabbal, Matthew Anderson, Maciej Brodowicz, Hartmut Kaiser, Thomas L. Sterling:
Preliminary design examination of the ParalleX system from a software and hardware perspective. SIGMETRICS Perform. Evaluation Rev. 38(4): 81-87 (2011) - [r1]Thomas L. Sterling:
Clusters. Encyclopedia of Parallel Computing 2011: 289-297 - [i3]Chirag Dekate, Matthew Anderson, Maciej Brodowicz, Hartmut Kaiser, Bryce Adelstein-Lelbach, Thomas L. Sterling:
Improving the scalability of parallel N-body applications with an event driven constraint based execution model. CoRR abs/1109.5190 (2011) - [i2]Matthew Anderson, Maciej Brodowicz, Hartmut Kaiser, Thomas L. Sterling:
An Application Driven Analysis of the ParalleX Execution Model. CoRR abs/1109.5201 (2011) - [i1]Matthew Anderson, Maciej Brodowicz, Hartmut Kaiser, Bryce Adelstein-Lelbach, Thomas L. Sterling:
Adaptive Mesh Refinement for Astrophysics Applications with ParalleX. CoRR abs/1110.1131 (2011) - 2010
- [j22]Richard Murphy, Thomas L. Sterling, Chirag Dekate:
Advanced Architectures and Execution Models to Support Green Computing. Comput. Sci. Eng. 12(6): 38-47 (2010) - [c55]Steven R. Brandt, Chirag Dekate, Phillip LeBlanc, Thomas L. Sterling:
Beowulf bootcamp: teaching local high schools about HPC. TG 2010: 4:1-4:7 - [c54]Thomas L. Sterling:
HPC in Phase Change: Towards a New Execution Model. VECPAR 2010: 31
2000 – 2009
- 2009
- [j21]Thomas L. Sterling, Dylan Stark:
A High-Performance Computing Forecast: Partly Cloudy. Comput. Sci. Eng. 11(4): 42-49 (2009) - [j20]Thomas L. Sterling:
Models of Computation - Enabling Exascale. Int. J. High Perform. Comput. Appl. 23(4): 332-334 (2009) - [j19]Thomas L. Sterling:
The Biggest Need: a New Model of Computation. Int. J. High Perform. Comput. Appl. 23(4): 335-336 (2009) - [c53]Chirag Dekate, Thomas L. Sterling, Daniel Eiland, Ravi Paruchuri:
Distance Learning with High-definition Low Latency Video and Multi-media Infrastructure. CSEDU (1) 2009: 153-160 - [c52]Hartmut Kaiser
ParalleX. ICPP Workshops 2009: 394-401 - 2008
- [j18]Thomas L. Sterling, Chirag Dekate:
Productivity in High Performance Computing. Adv. Comput. 72: 101-134 (2008) - [c51]Chris J. Michael, Maciej Brodowicz, Thomas L. Sterling:
Improving code compression using clustered modalities. ACM Southeast Regional Conference 2008: 423-428 - 2007
- [c50]Thomas L. Sterling:
Societies of Cores and Their Computing Culture. Euro-Par Workshops 2007: 7 - [c49]Guang R. Gao, Thomas L. Sterling, Rick Stevens, Mark Hereld
ParalleX: A Study of A New Parallel Computation Model. IPDPS 2007: 1-6 - [c48]Thomas L. Sterling:
HCW Keynote Address ParalleX: An Asynchronous Execution Model for Scalable Heterogeneous Computing. IPDPS 2007: 1 - 2006
- [c47]Guang R. Gao, Thomas L. Sterling, Rick L. Stevens, Mark Hereld
Hierarchical multithreading: programming model and system software. IPDPS 2006 - [c46]Thomas L. Sterling:
Computer science - architecture - Beyond the beyond and the extremes of computing. SC 2006: 66 - [c45]Thomas L. Sterling, Peter M. Kogge, William J. Dally, Steve Scott, William Gropp
Multi-core issues - Multi-Core for HPC: breakthrough or breakdown? SC 2006: 73 - [c44]Erik DeBenedictis, Fernand (Doc) Bedard, Thomas L. Sterling:
Exotic technologies I - HPC computational systems of 2020. SC 2006: 295 - 2005
- [j17]Jack J. Dongarra, Thomas L. Sterling, Horst D. Simon
High-performance computing: clusters, constellations, MPPs, and future directions. Comput. Sci. Eng. 7(2): 51-59 (2005) - [c43]Thomas L. Sterling:
Challenges to Evaluating Petaflops Systems. QEST 2005: 166-167 - [c42]Thomas L. Sterling:
Towards a Technology and Architecture Hybrid? SC 2005: 63 - 2004
- [j16]Thomas L. Sterling:
Productivity Metrics and Models for High Performance Computing. Int. J. High Perform. Comput. Appl. 18(4): 433-440 (2004) - [c41]Thomas L. Sterling, Maciej Brodowicz:
The "MIND" scalable PIM architecture. High Performance Computing Workshop 2004: 159-183 - [c40]Thomas L. Sterling:
Towards Memory Oriented Scalable Computer Architecture and High Efficiency Petaflops Computing. NPC 2004: 2 - [c39]Ed T. Upchurch, Thomas L. Sterling, Jay B. Brockman:
Analysis and Modeling of Advanced PIM Architecture Design Tradeoffs. SC 2004: 12 - 2003
- [j15]Timothy Mark Pinkston, Alan F. Benner, Michael Krause, Irv M. Robinson, Thomas L. Sterling:
InfiniBand: The "De Facto" Future Standard for System and Local Area Networks or Just a Scalable Replacement for PCI Buses? Clust. Comput. 6(2): 95-104 (2003) - [c38]Guang R. Gao, Kevin B. Theobald, Ramaswamy Govindarajan, Clement Leung, Ziang Hu, Haiping Wu, Jizhu Lu, Juan del Cuvillo, Adeline Jacquet, Vincent Janot, Thomas L. Sterling:
Programming Models and System Software for Future High-End Computing Systems: Work-in-Progress. IPDPS 2003: 206 - [c37]Adeline Jacquet, Vincent Janot, Clement Leung, Guang R. Gao, Ramaswamy Govindarajan, Thomas L. Sterling:
An Executable Analytical Performance Evaluation Approach for Early Performance Prediction. IPDPS 2003: 268 - 2002
- [c36]Thomas L. Sterling:
Launching into the Future of Commodity Cluster Computing. CLUSTER 2002: 345- - [c35]Guang R. Gao, Kevin B. Theobald, Ziang Hu, Haiping Wu, Jizhu Lu, Keshav Pingali, Paul Stodghill, Thomas L. Sterling, Rick Stevens, Mark Hereld:
Next Generation System Software for Future High-End Computing Systems. IPDPS 2002 - [c34]Thomas L. Sterling:
The Gilgamesh MIND Processor-in-Memory Architecture for Petaflops-Scale Computing. ISHPC 2002: 1-5 - [c33]Thomas L. Sterling, Hans P. Zima:
Gilgamesh: a multithreaded processor-in-memory architecture for petaflops computing. SC 2002: 38:1-38:23 - 2001
- [j14]Thomas L. Sterling:
Continuum computer architecture for exaflops computation. Commun. ACM 44(3): 78-80 (2001) - [j13]Thomas L. Sterling:
An Introduction to PC Clusters for High Performance Computing. Int. J. High Perform. Comput. Appl. 15(2): 92-101 (2001) - [j12]Thomas L. Sterling, Daniel S. Katz
High Performance Computing Systems for Autonomous Spaceborne Missions. Int. J. High Perform. Comput. Appl. 15(3): 282-296 (2001) - [j11]Mitchell D. Theys, Shoukat Ali, Howard Jay Siegel, K. Mani Chandy, Kai Hwang, Ken Kennedy, Lui Sha, Kang G. Shin, Marc Snir, Larry Snyder, Thomas L. Sterling:
What Are the Top Ten Most Influential Parallel and Distributed Processing Concepts of the Past Millenium? J. Parallel Distributed Comput. 61(12): 1827-1841 (2001) - [c32]Thomas L. Sterling:
An Introduction to the Gilgamesh PIM Architecture. Euro-Par 2001: 16-32 - 2000
- [j10]Abdullah I. AlMojel, Tarek A. El-Ghazawi, Thomas L. Sterling:
Characterizing and representing workloads for parallel computer architectures. J. Syst. Archit. 46(1): 23-37 (2000) - [c31]Thomas L. Sterling:
PC Clusters - The Convergence of High Performance Systems Architecture. CLUSTER 2000: 267- - [c30]Hans P. Zima, Thomas L. Sterling:
Support for Irregular Computations in Massively Parallel PIM Arrays, Using an Object-Based Execution Model. IPDPS Workshops 2000: 450-456 - [c29]Hans P. Zima, Thomas L. Sterling:
Macroservers: An Object-Based Programming and Execution Model for Processor-in-Memory Arrays. ISHPC 2000: 7-25 - [c28]Thomas L. Sterling:
Symbolic Computing with Beowulf-Class PC Clusters. PVM/MPI 2000: 7-8
1990 – 1999
- 1999
- [j9]Thomas L. Sterling, Daniel Savarese:
From Toys to Teraflops: Bridging the Beowulf Gap. Int. J. High Perform. Comput. Appl. 13(3): 191-200 (1999) - [j8]Abdullah I. Meajil, Tarek A. El-Ghazawi, Thomas L. Sterling:
A Vector-space Model for Parallel Workload Characterization. J. King Saud Univ. Comput. Inf. Sci. 11: 1-23 (1999) - [c27]Thomas L. Sterling, Daniel Savarese:
A Coming of Age for Beowulf-Class Computing. Euro-Par 1999: 78-88 - [c26]Thomas L. Sterling, Larry A. Bergman:
A design analysis of a hybrid technology multithreaded architecture for petaflops scale computation3. International Conference on Supercomputing 1999: 286-293 - [c25]Jay B. Brockman, Peter M. Kogge, Thomas L. Sterling, Vincent W. Freeh, Shannon K. Kuntz:
Microservers: a new memory semantics for massively parallel computing. International Conference on Supercomputing 1999: 454-463 - 1998
- [c24]John K. Salmon, Thomas L. Sterling, Rajesh Bordawekar, Christopher Stein:
Scaling of Beowulf-Class Distributed Systems. HPDC 1998: 368-369 - [c23]Hank G. Dietz, José Duato
Convergence Points on Commercial Parallel Systems: Do We Have the Node Architecture? Do We Have the Network? Do We Have the Programming Paradigm? ICPP 1998: 392-395 - [c22]Thomas L. Sterling:
Beowulf PC clusters: breaking the cost barrier to high end application computing (keynote address - abstract). SAC 1998: 1 - [c21]John K. Salmon, Christopher Stein, Thomas L. Sterling:
Scaling of Beowulf-class Distributed Systems. SC 1998: 51 - 1997
- [j7]David W. Pfitzner, John K. Salmon, Thomas L. Sterling:
Halo World: Tools for Parallel Cluster Finding in Astrophysical N-body Simulations. Data Min. Knowl. Discov. 1(4): 419-438 (1997) - [c20]Michael S. Warren, Donald J. Becker, M. Patrick Goda, John K. Salmon, Thomas L. Sterling:
Parallel Supercomputing with Commodity Components. PDPTA 1997: 1372-1381 - [c19]Michael S. Warren, John K. Salmon, Donald J. Becker, M. Patrick Goda, Thomas L. Sterling, W. Winckelmans:
Pentium Pro Inside: I. A Treecode at 430 Gigaflops on ASCI Red, II. Price/Performance of $50/Mflop on Loki and Hyglac. SC 1997: 61 - 1996
- [j6]Thomas L. Sterling:
The Scientific Workstation of the Future May Be a Pile of PCs. Commun. ACM 39(9): 11-12 (1996) - [j5]Thomas L. Sterling, Phillip Merkey, Daniel Savarese:
Improving Application Performance on the HP/Convex Exemplar. Computer 29(12): 50-55 (1996) - [j4]Thomas L. Sterling, Daniel Savarese, Phillip Merkey, Kevin Olson:
An Empirical Evaluation of the Convex SPP-1000 Hierarchical Shared Memory System. Int. J. Parallel Program. 24(4): 377-396 (1996) - [c18]Chance Reschke, Thomas L. Sterling, Daniel Ridge, Daniel Savarese, Donald J. Becker, Phillip Merkey:
A Design Study of Alternative Network Topologies for the Beowulf Parallel Workstation. HPDC 1996: 626-636 - [c17]Thomas L. Sterling, Donald J. Becker, Chance Reschke, Daniel Savarese, Michael R. Berry:
Achieving a Balanced Low-Cost Architecture for Mass Storage Management through Multiple Fast Ethernet Channels on the Beowulf Parallel Workstation. IPPS 1996: 104-108 - [c16]Abdullah I. Meajil, Tarek A. El-Ghazawi, Thomas L. Sterling:
A Quantitative Approach for Architecture-Invariant Parallel Workload Characterization. PARA 1996: 515-524 - 1995
- [j3]Thomas Lawrence Sterling, Daniel Savarese, Phillip R. Merkey, Jeffrey P. Gardner:
An initial evaluation of the Convex SPP-1000 for earth and space science applications. Future Gener. Comput. Syst. 11(6): 567-583 (1995) - [c15]Thomas L. Sterling, Daniel Savarese, Phillip Merkey, Kevin Olson:
An empirical evaluation of the Convex SPP-1000 hierarchical shared memory system. PACT 1995: 214-223 - [c14]Thomas L. Sterling, Daniel Savarese, Phillip Merkey, Jeffrey P. Gardner:
An Initial Evaluation of the Convex SPP-1000 for Earth and Space Science Application. HPCA 1995: 176-185 - [c13]Thomas L. Sterling, Daniel Savarese, Donald J. Becker, Bruce Fryxell, Kevin Olson:
Communication Overhead for Space Science Applications on the Beowulf Parallel Workstation. HPDC 1995: 23-30 - [c12]Thomas L. Sterling, Daniel Savarese, Donald J. Becker, John E. Dorband, Udaya A. Ranawake, Charles V. Packer:
BEOWULF: A Parallel Workstation for Scientific Computation. ICPP (1) 1995: 11-14 - [c11]Thomas L. Sterling, Daniel Savarese, Peter MacNeice, Kevin Olson, Clark Mobarry, Bruce Fryxell, Phillip Merkey:
A Performance Evaluation of the Convex SPP-1000 Scalable Shared Memory Parallel Computer. SC 1995: 55 - [c10]Paul Messina, James C. T. Pool, Thomas L. Sterling:
System Software and Tools for High-Performance Computing Environments. SC 1995: 94 - 1994
- [c9]Steven Hotovy, Thomas L. Sterling:
JNNIE: Evaluation of Scalable Parallel Processing Architectures. HPCN 1994: 172-173 - [c8]Steven Hotovy, Wayne Pfeiffer, Thomas L. Sterling:
Findings of the joint NSF-NASA initiative in evaluation. SC 1994: 811-813 - 1993
- [j2]Thomas L. Sterling, Jeffrey M. Arnold:
Fine Grain Dataflow Computation without Tokens for Balanced Execution. J. Parallel Distributed Comput. 18(3): 327-339 (1993) - [c7]Thomas L. Sterling, Michael J. MacDonald:
The Realities of Parallel Processing and Dataflow's Role in It: Lessons from the NASA HPCC Program. Architectures and Compilation Techniques for Fine and Medium Grain Parallelism 1993: 165-176 - 1992
- [c6]Mark R. Thistle, Thomas L. Sterling, James T. Kuehn, Thomas A. Anastasio:
The Effectiveness of Random Mapping on Fine-Grain MIMD Architectures. ICPP (2) 1992: 41-48
1980 – 1989
- 1988
- [c5]Thomas L. Sterling, Albert J. Musciano, Donald J. Becker:
Multiprocessor Performance Measurement Using Embedded Instrumentation. ICPP (1) 1988: 156-165 - [c4]Albert J. Musciano, Thomas L. Sterling:
Efficient Dynamic Scheduling of Medium-Grained Tasks for General Purpose Parallel Processing. ICPP (2) 1988: 166-175 - [c3]Thomas L. Sterling, Ellery Y. Chan:
A Practical Static Data Flow Computer Based on Associative Methods. ICPP (1) 1988: 225-234 - [c2]Thomas L. Sterling, D. Scott Wills, Ellery Y. Chan:
Tokenless static data flow using associative templates. SC 1988: 70-79 - 1987
- [j1]Thomas L. Sterling, Albert J. Musciano, Ellery Y. Chan, Douglas Thomae:
Effective Implementation of a Parallel Language on a Multiprocessor. IEEE Micro 7(6): 46-62 (1987) - 1986
- [c1]Robert H. Halstead Jr., Thomas L. Anderson, Randy B. Osborne, Thomas L. Sterling:
Concert: Design of a Multiprocessor Development System. ISCA 1986: 40-48
Coauthor Index
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