G
Gerard V. Kopcsay
Researcher at IBM
Publications - 41
Citations - 2214
Gerard V. Kopcsay is an academic researcher from IBM. The author has contributed to research in topics: Transmission line & Supercomputer. The author has an hindex of 17, co-authored 41 publications receiving 2194 citations. Previous affiliations of Gerard V. Kopcsay include GlobalFoundries.
Papers
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Proceedings ArticleDOI
An Overview of the BlueGene/L Supercomputer
N. R. Adiga,Gheorghe Almasi,George Almási,Y. Aridor,Rajkishore Barik,D. Beece,Ralph Bellofatto,Gyan Bhanot,R. Bickford,Matthias A. Blumrich,A. A. Bright,Jose R. Brunheroto,Calin Cascaval,José G. Castaños,Waiman Chan,Luis Ceze,Paul W. Coteus,Siddhartha Chatterjee,Dong Chen,G. Chiu,Thomas Mario Cipolla,Paul G. Crumley,K.M. Desai,A. Deutsch,T. Domany,M. B. Dombrowa,Wilm E. Donath,Maria Eleftheriou,C. Christopher Erway,J. Esch,Blake G. Fitch,J. Gagliano,Alan Gara,Rahul Garg,Robert S. Germain,Mark E. Giampapa,B. Gopalsamy,John A. Gunnels,Manish Gupta,Fred G. Gustavson,Shawn A. Hall,R. A. Haring,D. Heidel,P. Heidelberger,L.M. Herger,Dirk Hoenicke,Rory D. Jackson,T. Jamal-Eddine,Gerard V. Kopcsay,Elie Krevat,Manish P. Kurhekar,A.P. Lanzetta,Derek Lieber,L.K. Liu,M. Lu,M. Mendell,A. Misra,Yosef Moatti,L. Mok,José E. Moreira,Ben J. Nathanson,M. Newton,Martin Ohmacht,Adam J. Oliner,Vinayaka Pandit,R.B. Pudota,Rick A. Rand,R. Regan,B. Rubin,Albert E. Ruehli,Silvius Rus,Ramendra K. Sahoo,A. Sanomiya,Eugen Schenfeld,M. Sharma,E. Shmueli,Suryabhan Singh,Peilin Song,Vijayalakshmi Srinivasan,Burkhard Steinmacher-Burow,Karin Strauss,C. Surovic,Richard A. Swetz,Todd E. Takken,R.B. Tremaine,M. Tsao,A. R. Umamaheshwaran,P. Verma,Pavlos M. Vranas,T.J.C. Ward,M. Wazlowski,William A. Barrett,C. Engel,B. Drehmel,B. Hilgart,D. Hill,F. Kasemkhani,D. Krolak,C.T. Li,T. Liebsch,James Anthony Marcella,Adam J. Muff,A. Okomo,M. Rouse,A. Schram,Matthew R. Tubbs,G. Ulsh,Charles D. Wait,J. Wittrup,M. Bae,Kenneth Alan Dockser,Lynn Kissel,M.K. Seager,Jeffrey S. Vetter,K. Yates +114 more
TL;DR: An overview of the BlueGene/L Supercomputer, a massively parallel system of 65,536 nodes based on a new architecture that exploits system-on-a-chip technology to deliver target peak processing power of 360 teraFLOPS (trillion floating-point operations per second).
Journal ArticleDOI
When are transmission-line effects important for on-chip interconnections?
Alina Deutsch,Gerard V. Kopcsay,Phillip J. Restle,Howard H. Smith,George A. Katopis,Wiren D. Becker,Paul W. Coteus,C.W. Surovic,Barry J. Rubin,R.P. Dunne,T. Gallo,Keith A. Jenkins,L.M. Terman,Robert H. Dennard,George Anthony Sai-Halasz,Byron L. Krauter,D.R. Knebel +16 more
TL;DR: In this paper, the authors analyzed short, medium, and long on-chip interconnections having linewidths of 0.45-52 /spl mu/m in a five-metal-layer structure.
Patent
Multi-petascale highly efficient parallel supercomputer
Sameh W. Asaad,Ralph Bellofatto,Michael A. Blocksome,Matthias A. Blumrich,Peter Boyle,Jose R. Brunheroto,Dong Chen,Chen-Yong Cher,George Liang-Tai Chiu,N. H. Christ,Paul W. Coteus,Kristan D. Davis,Gabor Dozsa,Alexandre E. Eichenberger,Noel A. Eisley,Matthew R. Ellavsky,Kahn C. Evans,Bruce M. Fleischer,Thomas W. Fox,Alan Gara,Mark E. Giampapa,Thomas M. Gooding,Michael K. Gschwind,John A. Gunnels,Shawn A. Hall,Rudolf A. Haring,Philip Heidelberger,Todd A. Inglett,Brant L. Knudson,Gerard V. Kopcsay,Sameer Kumar,Amith R. Mamidala,James Anthony Marcella,Mark G. Megerian,Douglas R. Miller,Samuel J. Miller,Adam J. Muff,Michael B. Mundy,John Kevin Patrick O'Brien,Kathryn M. O'Brien,Martin Ohmacht,Jeffrey J. Parker,Ruth J. Poole,Joseph D. Ratterman,Valentina Salapura,David L. Satterfield,Robert M. Senger,Brian E. Smith,Burkhard Steinmacher-Burow,William Maupin Stockdell,Craig B. Stunkel,Krishnan Sugavanam,Yutaka Sugawara,Todd E. Takken,Barry M. Trager,James L. Van Oosten,Charles D. Wait,Robert E. Walkup,Alfred T. Watson,Robert W. Wisniewski,Peng Wu +60 more
TL;DR: A multi-petascale Highly Efficient Parallel Supercomputer of 100 petaOPS-scale computing, at decreased cost, power and footprint, allows for a maximum packaging density of processing nodes from an interconnect point of view.
Patent
Ultrascalable petaflop parallel supercomputer
Matthias A. Blumrich,Dong Chen,George Liang-Tai Chiu,Thomas Mario Cipolla,Paul W. Coteus,Alan Gara,Mark E. Giampapa,Shawn A. Hall,Rudolf A. Haring,Philip Heidelberger,Gerard V. Kopcsay,Martin Ohmacht,Valentina Salapura,Krishnan Sugavanam,Todd E. Takken +14 more
TL;DR: In this paper, a massively parallel supercomputer of petaOPS-scale includes node architectures based upon System-On-a-Chip technology, where each processing node comprises a single Application Specific Integrated Circuit (ASIC) having up to four processing elements.
Patent
Methods for the measurement of the frequency dependent complex propagation matrix, impedance matrix and admittance matrix of coupled transmission lines
TL;DR: In this article, a method for characterizing coupled transmission lines by short-pulse propagation is described, where the complex frequency-dependent propagation matrix, impedance matrix and admittance matrix for a set of n parallel transmission lines can be determined by comparing the properties of two sets of coupled transmission line of different lengths.