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Nicholas P. Carter
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2010 – 2019
- 2013
- [c20]Nicholas P. Carter, Aditya Agrawal, Shekhar Borkar, Romain Cledat, Howard David, Dave Dunning, Joshua B. Fryman, Ivan Ganev, Roger A. Golliver, Rob C. Knauerhase, Richard Lethin, Benoît Meister, Asit K. Mishra, Wilfred R. Pinfold, Justin Teller, Josep Torrellas, Nicolas Vasilache, Ganesh Venkatesh, Jianping Xu:
Runnemede: An architecture for Ubiquitous High-Performance Computing. HPCA 2013: 198-209 - 2011
- [c19]Byn Choi, Rakesh Komuravelli, Hyojin Sung, Robert Smolinski, Nima Honarmand, Sarita V. Adve, Vikram S. Adve, Nicholas P. Carter, Ching-Tsun Chou:
DeNovo: Rethinking the Memory Hierarchy for Disciplined Parallelism. PACT 2011: 155-166 - 2010
- [c18]André DeHon, Heather M. Quinn, Nicholas P. Carter:
Vision for cross-layer optimization to address the dual challenges of energy and reliability. DATE 2010: 1017-1022 - [c17]Nicholas P. Carter, Helia Naeimi, Donald S. Gardner:
Design techniques for cross-layer resilience. DATE 2010: 1023-1028
2000 – 2009
- 2007
- [j10]Nitin Navale, Erica Lundgren, Nicholas P. Carter:
A magnetoelectronic register file cell for a self-checkpointing microprocessor. Int. J. Circuit Theory Appl. 35(3): 371-390 (2007) - [j9]Richard B. Kujoth, Chi-Wei Wang, Jeffrey J. Cook, Derek B. Gottlieb, Nicholas P. Carter:
A wire delay-tolerant reconfigurable unit for a clustered programmable-reconfigurable processor. Microprocess. Microsystems 31(2): 146-159 (2007) - [j8]Love Kothari, Nicholas P. Carter:
Architecture of a Self-Checkpointing Microprocessor that Incorporates Nanomagnetic Devices. IEEE Trans. Computers 56(2): 161-173 (2007) - 2006
- [j7]Nicholas P. Carter, Azmat Hussain:
Modeling wire delay, area, power, and performance in a simulation infrastructure. IBM J. Res. Dev. 50(2-3): 311-320 (2006) - 2005
- [j6]Pratyush Das Kanungo, Alexandra Imre, Bin Wu, Alexei O. Orlov, Gregory L. Snider, Wolfgang Porod, Nicholas P. Carter:
Gated hybrid Hall effect device on silicon. Microelectron. J. 36(3-6): 294-297 (2005) - [c16]Nicholas P. Carter, Steve Ferrera, Love Kothari, Stanley Ye:
Hall-effect circuits and architectures for non-volatile system design. ECCTD 2005: 131-134 - [c15]Chi-Wei Wang, Nicholas P. Carter, Richard B. Kujoth, Jeffrey J. Cook, Derek B. Gottlieb:
Exploiting Pipelining to Tolerate Wire Delays in a Programmable-Reconfigurable Processor. FPL 2005: 57-64 - 2004
- [j5]Jeffrey M. Stine, Nicholas P. Carter, José Flich:
Comparing Adaptive Routing and Dynamic Voltage Scaling for Link Power Reduction. IEEE Comput. Archit. Lett. 3 (2004) - [j4]Nicholas P. Carter, Steve Ferrera:
Reconfigurable magnetoelectronic circuits for threshold logic. Int. J. Circuit Theory Appl. 32(5): 363-382 (2004) - [c14]Steve Ferrera, Nicholas P. Carter:
A magnetoelectronic macrocell employing reconfigurable threshold logic. FPGA 2004: 143-151 - [c13]Richard B. Kujoth, Chi-Wei Wang, Derek B. Gottlieb, Jeffrey J. Cook, Nicholas P. Carter:
A reconfigurable unit for a clustered programmable-reconfigurable processor. FPGA 2004: 200-209 - 2003
- [c12]Steve Ferrera, Nicholas P. Carter:
Reconfigurable Circuits Using Hybrid Hall Effect Devices. FPL 2003: 1-10 - [c11]Jeffrey J. Cook, Lee Baugh, Derek B. Gottlieb, Nicholas P. Carter:
Mapping computation kernels to clustered programmable-reconfigurable processors. FPT 2003: 435-438 - [c10]Derek B. Gottlieb, Nicholas P. Carter:
Microprocessor Interfacing Laboratory. MSE 2003: 106-107 - 2002
- [c9]Joshua D. Walstrom, Jeffrey J. Cook, Derek B. Gottlieb, Steve Ferrera, Chi-Wei Wang, Nicholas P. Carter:
The Design of the Amalgam Reconfigurable Cluster. FCCM 2002: 309-310 - [c8]Jeffrey J. Cook, Derek B. Gottlieb, Joshua D. Walstrom, Steve Ferrera, Chi-Wei Wang, Nicholas P. Carter:
Mapping Algorithms to the Amalgam Programmable-Reconfigurable Processor. FCCM 2002: 311- - [c7]Derek B. Gottlieb, Jeffrey J. Cook, Joshua D. Walstrom, Steve Ferrera, Chi-Wei Wang, Nicholas P. Carter:
Clustered programmable-reconfigurable processors. FPT 2002: 134-141 - 2000
- [c6]Nicholas P. Carter, William J. Dally, Whay Sing Lee, Stephen W. Keckler, Andrew Chang:
Processor Mechanisms for Software Shared Memory. ISHPC 2000: 120-133
1990 – 1999
- 1999
- [b1]Nicholas P. Carter:
Processor mechanisms for software shared memory. Massachusetts Institute of Technology, Cambridge, MA, USA, 1999 - 1998
- [j3]Whay Sing Lee, William J. Dally, Stephen W. Keckler, Nicholas P. Carter, Andrew Chang:
An Efficient, Protected Message Interface. Computer 31(11): 69-75 (1998) - [c5]Andrew Chang, William J. Dally, Stephen W. Keckler, Nicholas P. Carter, Whay Sing Lee:
The effects of explicitly parallel mechanisms on the multi-ALU processor cluster pipeline. ICCD 1998: 474-481 - [c4]Stephen W. Keckler, William J. Dally, Daniel Maskit, Nicholas P. Carter, Andrew Chang, Whay Sing Lee:
Exploiting Fine-grain Thread Level Parallelism on the MIT Multi-ALU Processor. ISCA 1998: 306-317 - 1997
- [j2]Marco Fillo, Stephen W. Keckler, William J. Dally, Nicholas P. Carter, Andrew Chang, Yevgeny Gurevich, Whay Sing Lee:
The M-machine multicomputer. Int. J. Parallel Program. 25(3): 183-212 (1997) - 1995
- [c3]Marco Fillo, Stephen W. Keckler, William J. Dally, Nicholas P. Carter, Andrew Chang, Yevgeny Gurevich, Whay Sing Lee:
The M-Machine multicomputer. MICRO 1995: 146-156 - 1994
- [c2]Nicholas P. Carter, Stephen W. Keckler, William J. Dally:
Hardware Support for Fast Capability-based Addressing. ASPLOS 1994: 319-327 - [c1]Nicholas P. Carter:
Conversion of the Haydn symphonies into electronic form using automatic score recognition: a pilot study. Document Recognition 1994: 279-290 - 1992
- [j1]Nicholas P. Carter:
Segmentation and preliminary recognition of madrigals notated in white mensural notation. Mach. Vis. Appl. 5(3): 223-229 (1992)
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