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Philip G. Emma
2000 – 2009
- 2009
[j29]Philip G. Emma, Eren Kursun: Opportunities and Challenges for 3D Systems and Their Design. IEEE Design & Test of Computers 26(5): 6-14 (2009)- 2008
- [j28]Philip G. Emma, Eren Kursun: Is 3D chip technology the next growth engine for performance improvement? IBM Journal of Research and Development 52(6): 541-552 (2008)
- [j27]Allan Hartstein, Vijayalakshmi Srinivasan, Thomas R. Puzak, Philip G. Emma: On the Nature of Cache Miss Behavior: Is It √2? J. Instruction-Level Parallelism 10 (2008)
- [j26]Thomas R. Puzak, Allan Hartstein, Philip G. Emma, Vijayalakshmi Srinivasan, Arthur Nadas: Analyzing the Cost of a Cache Miss Using Pipeline Spectroscopy. J. Instruction-Level Parallelism 10 (2008)
- [j25]
- [j24]Philip G. Emma: Guest Editor's Introduction: Existential Architectures: The Metaphysics of Computer Design. IEEE Micro 28(6): 4-6 (2008)
- [j23]Philip G. Emma, William R. Reohr, Mesut Meterelliyoz: Rethinking Refresh: Increasing Availability and Reducing Power in DRAM for Cache Applications. IEEE Micro 28(6): 47-56 (2008)
- 2007
- [j22]Philip G. Emma: Reinventing Entrepreneurial Inventing for the 21st Century. IEEE Micro 27(1): 134-136 (2007)
- [j21]
- [j20]Philip G. Emma: Arcane Facts and New Words: Expanding Your Creative Talent. IEEE Micro 27(3): 110-112 (2007)
- [j19]
- [j18]Philip G. Emma: You're Invited to a Party! (How To Hold a Collaborative IP-Development Session). IEEE Micro 27(6): 62-64 (2007)
- [c12]Thomas R. Puzak, Allan Hartstein, Philip G. Emma, Viji Srinivasan, Jim Mitchell: An analysis of the effects of miss clustering on the cost of a cache miss. Conf. Computing Frontiers 2007: 3-12
- [c11]Kerry Bernstein, Paul Andry, Jerome Cann, Philip G. Emma, David Greenberg, Wilfried Haensch, Mike Ignatowski, Steven J. Koester, John Magerlein, Ruchir Puri, Albert M. Young: Interconnects in the Third Dimension: Design Challenges for 3D ICs. DAC 2007: 562-567
- [c10]Thomas R. Puzak, Allan Hartstein, Philip G. Emma, Viji Srinivasan, Arthur Nadas: Pipeline spectroscopy. Experimental Computer Science 2007: 15
- [c9]Thomas R. Puzak, Allan Hartstein, Viji Srinivasan, Philip G. Emma, Arthur Nadas: Pipeline spectroscopy. SIGMETRICS 2007: 351-352
- 2006
- [j17]
- [j16]
- [j15]
- [j14]
- [j13]
- [j12]
- [c8]Allan Hartstein, Viji Srinivasan, Thomas R. Puzak, Philip G. Emma: Cache miss behavior: is it sqrt(2)? Conf. Computing Frontiers 2006: 313-320
- [c7]Philip G. Emma: Industrial Perspectives: The Next Roadblocks in SOC Evolution: On-Chip Storage Capacity and Off-Chip Bandwidth. HPCA 2006: 201-201
- [c6]Philip G. Emma: The End of Scaling? Revolutions in Technology and Microarchitecture as We Pass the 90 Nanometer Node. ISCA 2006: 128
- 2005
- [j11]Philip G. Emma, Allan Hartstein, Thomas R. Puzak, Viji Srinivasan: Exploring the limits of prefetching. IBM Journal of Research and Development 49(1): 127-144 (2005)
- [j10]
- [j9]
- [j8]
- [j7]
- [c5]Thomas R. Puzak, Allan Hartstein, Philip G. Emma, Viji Srinivasan: When prefetching improves/degrades performance. Conf. Computing Frontiers 2005: 342-352
- 2004
- [j6]Victor V. Zyuban, David Brooks, Viji Srinivasan, Michael Gschwind, Pradip Bose, Philip N. Strenski, Philip G. Emma: Integrated Analysis of Power and Performance for Pipelined Microprocessors. IEEE Trans. Computers 53(8): 1004-1016 (2004)
- 2003
- [j5]David Brooks, Pradip Bose, Viji Srinivasan, Michael Gschwind, Philip G. Emma, Michael G. Rosenfield: New methodology for early-stage, microarchitecture-level power-performance analysis of microprocessors. IBM Journal of Research and Development 47(5-6): 653-670 (2003)
- 2002
- [c4]Viji Srinivasan, David Brooks, Michael Gschwind, Pradip Bose, Victor V. Zyuban, Philip N. Strenski, Philip G. Emma: Optimizing pipelines for power and performance. MICRO 2002: 333-344
- [c3]Pradip Bose, David Brooks, Alper Buyuktosunoglu, Peter W. Cook, K. Das, Philip G. Emma, Michael Gschwind, Hans M. Jacobson, Tejas Karkhanis, Prabhakar Kudva, Stanley Schuster, James E. Smith, Viji Srinivasan, Victor V. Zyuban, David H. Albonesi, Sandhya Dwarkadas: Early-Stage Definition of LPX: A Low Power Issue-Execute Processor. PACS 2002: 1-17
1990 – 1999
- 1997
- [j4]Philip G. Emma: Understanding some simple processor-performance limits. IBM Journal of Research and Development 41(3): 215-232 (1997)
- [j3]David R. Kaeli, Philip G. Emma: Improving the Accuracy of History Based Branch Prediction. IEEE Trans. Computers 46(4): 469-472 (1997)
- 1992
- [j2]David R. Kaeli, Philip G. Emma, Joshua W. Knight, Thomas R. Puzak: Contrasting instruction-fetch time and instruction-decode time branch prediction mechanisms: Achieving synergy through their cooperative operation. Microprocessing and Microprogramming 35(1-5): 401-408 (1992)
- 1991
- [c2]David R. Kaeli, Philip G. Emma: Branch History Table Prediction of Moving Target Branches due to Subroutine Returns. ISCA 1991: 34-42
1980 – 1989
- 1989
- [c1]Philip G. Emma, Joshua W. Knight, James H. Pomerence, Thomas R. Puzak, Rudolph N. Rechtschaffen: Simulation and analysis of a pipeline processor. Winter Simulation Conference 1989: 1047-1057
- 1987
- [j1]Philip G. Emma, Edward S. Davidson: Characterization of Branch and Data Dependencies in Programs for Evaluating Pipeline Performance. IEEE Trans. Computers 36(7): 859-875 (1987)
Coauthor Index
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last updated on 2012-12-22 19:53 CET by the dblp team