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ORCID34th MICRO 2001: Austin, Texas, USA
- Yale N. Patt, Josh Fisher, Paolo Faraboschi, Kevin Skadron:
Proceedings of the 34th Annual International Symposium on Microarchitecture, Austin, Texas, USA, December 1-5, 2001. ACM/IEEE Computer Society 2001, ISBN 0-7695-1369-7
Keynote
- Harvey G. Cragon, Ernest Cockrell Jr.:
Fifty years of microarchitecture. 2
Novel ideas
- Chen-Yong Cher, T. N. Vijaykumar:
Skipper: a microarchitecture for exploiting control-flow independence. 4-15 - Brian Fahs, Satarupa Bose, Matthew M. Crum, Brian Slechta, Francesco Spadini, Tony Tung, Sanjay J. Patel, Steven S. Lumetta:
Performance characterization of a hardware mechanism for dynamic optimization. 16-27 - Eric Rotenberg
:
Using variable-MHz microprocessors to efficiently handle uncertainty in real-time systems. 28-39 - Ramadass Nagarajan, Karthikeyan Sankaralingam, Doug Burger, Stephen W. Keckler:
A design space evaluation of grid processor architectures. 40-51
Memory hierarchies
- Michael D. Powell, Amit Agarwal, T. N. Vijaykumar, Babak Falsafi, Kaushik Roy:
Reducing set-associative cache energy via way-prediction and selective direct-mapping. 54-65 - Yuan Xie, Wayne H. Wolf, Haris Lekatsas:
A code decompression architecture for VLIW processors. 66-75 - Byung-Kwon Chung, Jinsuo Zhang, Jih-Kwon Peir, Shih-Chang Lai, Konrad Lai:
Direct load: dependence-linked dataflow resolution of load address and cache coordinate. 76-87
Energy efficient architectures
- Dmitry Ponomarev, Gurhan Kucuk, Kanad Ghose:
Reducing power requirements of instruction scheduling through dynamic allocation of multiple datapath resources. 90-101 - Wei Zhang, Narayanan Vijaykrishnan, Mahmut T. Kandemir, Mary Jane Irwin, David Duarte, Yuh-Fang Tsai:
Exploiting VLIW schedule slacks for dynamic and leakage energy reduction. 102-113 - John S. Seng, Eric Tune, Dean M. Tullsen:
Reducing power with dynamic critical path information. 114-123 - Emmett Witchel, Samuel Larsen, C. Scott Ananian, Krste Asanovic:
Direct addressed caches for reduced power consumption. 124-133
Keynote
- Andrew Wolfe:
Emerging applications for the connected home. 136
Modulo scheduling
- Matthew C. Merten, Wen-mei W. Hwu:
Modulo schedule buffers. 138-149 - Alex Aletà, Josep M. Codina, F. Jesús Sánchez, Antonio González:
Graph-partitioning based instruction scheduling for clustered processors. 150-159 - Javier Zalamea, Josep Llosa, Eduard Ayguadé, Mateo Valero:
Modulo scheduling with integrated register spilling for clustered VLIW architectures. 160-169
Compilation
- Artour Stoutchinin, François de Ferrière:
Efficient static single assignment form for predication. 172-181 - Youngsoo Choi, Allan D. Knies, Luke Gerke, Tin-Fook Ngai:
The impact of if-conversion and branch prediction on program execution on the Intel Itanium processor. 182-191 - Gary William Grewal, Thomas Charles Wilson:
Mapping reference code to irregular DSPs within the retargetable, optimizing compiler COGEN(T). 192-202
Superscalar architectures
- Mary D. Brown, Jared Stark, Yale N. Patt:
Select-free instruction scheduling logic. 204-213 - Joydeep Ray, James C. Hoe, Babak Falsafi:
Dual use of superscalar datapath for transient-fault detection and recovery. 214-224 - Masahiro Goshima, Kengo Nishino, Toshiaki Kitamura, Yasuhiko Nakashima, Shinji Tomita, Shin-ichiro Mori:
A high-speed dynamic instruction scheduling scheme for superscalar processors. 225-236 - Rajeev Balasubramonian, Sandhya Dwarkadas, David H. Albonesi:
Reducing the complexity of the register file in dynamic superscalar processors. 237-248
Multimedia and graphics
- Christopher J. Hughes, Jayanth Srinivasan, Sarita V. Adve:
Saving energy with architectural and frequency adaptations for multimedia applications. 250-261 - John W. Sias, Hillery C. Hunter, Wen-mei W. Hwu:
Enhancing loop buffering of media and telecommunications applications using low-overhead predication. 262-273 - Osman S. Unsal, Raksit Ashok, Israel Koren, C. Mani Krishna, Csaba Andras Moritz:
Cool-cache for hot multimedia. 274-283 - Emile Hsieh, Vladimir Pentkovski, Thomas Piazza:
ZR: a 3D API transparent technology for chunk rendering. 284-291
Multithreading and value prediction
- Ravi Rajwar, James R. Goodman:
Speculative lock elision: enabling highly concurrent multithreaded execution. 294-305 - Jamison D. Collins, Dean M. Tullsen, Hong Wang, John Paul Shen:
Dynamic speculative precomputation. 306-317 - Dean M. Tullsen, Jeffery A. Brown:
Handling long-latency loads in a simultaneous multithreading processor. 318-327 - Milo M. K. Martin, Daniel J. Sorin, Harold W. Cain, Mark D. Hill, Mikko H. Lipasti:
Correctly implementing value prediction in microprocessors that support multithreading or multiprocessing. 328-337
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