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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, Thomas L. Sterling:
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, Thomas L. Sterling:
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, Luke Dalessandro, Ezra Kissel, Andrew Lumsdaine, Thomas L. Sterling, D. Martin Swany:
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, Allan Porterfield, Nicholas Chaimov, Hartmut Kaiser, Allen D. Malony, Thomas L. Sterling, Rob Fowler:
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, Bo Zhang:
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, Bryce Adelstein-Lelbach:
Tabulated Equations of State with a Many-tasking Execution Model. IPDPS Workshops 2013: 1691-1699 - [c57]Matthew Anderson, Maciej Brodowicz, Abhishek Kulkarni, Thomas L. Sterling:
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, Bryce Adelstein-Lelbach, Thomas L. Sterling:
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, Jean-Claude Andre, David Barkai, Jean-Yves Berthou, Taisuke Boku, Bertrand Braunschweig, Franck Cappello, Barbara M. Chapman, Xuebin Chi, Alok N. Choudhary, Sudip S. Dosanjh, Thom H. Dunning, Sandro Fiore, Al Geist, Bill Gropp, Robert J. Harrison, Mark Hereld, Michael A. Heroux, Adolfy Hoisie, Koh Hotta, Zhong Jin, Yutaka Ishikawa, Fred Johnson, Sanjay Kale, Richard Kenway, David E. Keyes, Bill Kramer, Jesús Labarta, Alain Lichnewsky, Thomas Lippert, Bob Lucas, Barney Maccabe, Satoshi Matsuoka, Paul Messina, Peter Michielse, Bernd Mohr, Matthias S. Müller, Wolfgang E. Nagel, Hiroshi Nakashima, Michael E. Papka, Daniel A. Reed, Mitsuhisa Sato, Edward Seidel, John Shalf, David Skinner, Marc Snir, Thomas L. Sterling, Rick Stevens, Frederick H. Streitz, Bob Sugar, Shinji Sumimoto, William M. Tang, John A. Taylor, Rajeev Thakur, Anne E. Trefethen, Mateo Valero, Aad J. van der Steen, Jeffrey S. Vetter, Peg Williams, Robert W. Wisniewski, Katherine A. Yelick:
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, Maciej Brodowicz, Thomas L. Sterling:
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, Weirong Zhu:
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, Weirong Zhu:
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, David E. Keyes, Peter H. Beckman:
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, Erich Strohmaier:
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, Larry A. Bergman:
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, Steven L. Scott, Thomas L. Sterling, Craig B. Stunkel, Stephen R. Wheat:
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