A 160 MHz 32 b 0.5 W CMOS RISC microprocessor
J. Montanaro,R. Witek,K. Anne,A.J. Black,Elizabeth M. Cooper,Daniel W. Dobberpuhl,P. Donahue,J. Eno,A. Farell,G. Hoeppner,D. Kruckemyer,Thomas H. Lee,P. Lin,L. Madden,Daniel C. Murray,M. Pearce,S. Santhanam,K. Snyder,R. Stephany,S.C. Thierauf +19 more
- 08 Feb 1996
- Vol. 31, Iss: 11, pp 1703-1714
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TL;DR: This custom VLSI implementation of a microprocessor architecture delivers 184 Drystone/MIPS at 162 MHz dissipating 0.5 W using an 1.5 V internal supply and Clock generation uses an on-chip PLL with 3.68 MHz input clock to minimize high frequency clock signals on the board.
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Abstract: This paper describes a 160 MHz 500 mW 32 b StrongARM(R) microprocessor designed for low-power, low-cost applications. The chip implements the ARM(R) V4 instruction set and is bus compatible with earlier implementations. The pin interface runs at 3.3 V but the internal power supplies can vary from 1.5 to 2.2 V, providing various options to balance performance and power dissipation. At 160 MHz internal clock speed with a nominal Vdd of 1.65 V, it delivers 185 Dhrystone 2.1 MIPS while dissipating less than 450 mW. The range of operating points runs from 100 MHz at 1.65 V dissipating less than 300 mW to 200 MHz at 2.0 V for less than 900 mW. An on-chip PLL provides the internal clock based on a 3.68 MHz clock input. The chip contains 2.5 million transistors, 90% of which are in the two 16 kB caches. It is fabricated in a 0.35-/spl mu/m three-metal CMOS process with 0.35 V thresholds and 0.25 /spl mu/m effective channel lengths. The chip measures 7.8 mm/spl times/6.4 mm and is packaged in a 144-pin plastic thin quad flat pack (TQFP) package.
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Citations
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Power- and Performance - Aware Architectures
Ramon Canal Corretger
- 14 Jun 2004
TL;DR: This thesis compromises the detailed study of one of the most power hungry units in a processor (the issue logic) and the use of value compression (through hardware and software) as a mean to reduce the energy consumption in all the stages of the pipeline.
Dense, Efficient Chip-to-Chip Communication at the Extremes of Computing
Matthew Loh
- 01 Jan 2013
TL;DR: A novel all-digital clock and data recovery technique for high-performance, high density interconnect has been developed, and a capacitive proximity interconnect have been developed to support 3D integration of biomedical implants.
3
•Dissertation
The evaluation of an ARM-based on-board computer for a low earth orbit satellite
Gregor Dreijer
- 01 Dec 2002
TL;DR: In this article, the authors evaluated the use of a commercial grade ARM processor in a low earth orbit (LEO) microsatellite on-board computer and developed a typical aBC system for the chosen processor.
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A Buffered Dual-Access-Mode Scheme Designed for Low-Power Highly-Associative Caches
Yul Chu,Marven Calagos +1 more
TL;DR: The experimental results show that the proposed cache scheme improves the EDP energy delay product up to 40% for instruction cache and up to 42% for data cache compared to way-prediction cache, which performs better than phased cache.
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Energy efficient software through dynamic voltage scheduling
G. Konduri,J. Goodman,Anantha P. Chandrakasan +2 more
- 30 May 1999
TL;DR: This work describes how the operating frequency and the supply voltage can be changed on a low power microprocessor and demonstrates over an order of magnitude reduction in the energy consumption.
3
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A 300-MHz 64-b quad-issue CMOS RISC microprocessor
B.J. Benschneider,A.J. Black,W.J. Bowhill,S.M. Britton,D.E. Dever,D.R. Donchin,R.J. Dupcak,R.M. Fromm,M.K. Gowan,P.E. Gronowski,M. Kantrowitz,M.E. Lamere,Swati Mehta,J.E. Meyer,R.O. Mueller,A. Olesin,R.P. Preston,Donald A. Priore,S. Santhanam,M.J. Smith,G.M. Wolrich +20 more
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TL;DR: This 300 MHz quad-issue custom VLSI implementation of the Alpha architecture delivers 1200 MIPS, 600 MFLOPS, 341 SPECint92, and 512 SPECfp92 and is packaged in a 499-pin ceramic IPGA.
102
A 320 MHz, 1.5 mW at 1.35 V CMOS PLL for microprocessor clock generation
V. von Kaenel,D. Aebischer,Christian Piguet,Evert Dijkstra +3 more
- 08 Feb 1996
TL;DR: The challenge was to design a phase-locked-loop (PLL) which combines limited jitter, low-supply voltage and low-power consumption.
86
A 433 MHz 64 b quad issue RISC microprocessor
P.E. Gronowski,P. Bannon,R.P. Blake-Campos,G.A. Bouchard,W.J. Bowhill,David A. Carlson,R.W. Castelino,D.R. Donchin,R.M. Fromm,M.K. Gowan,A. Jain,B.J. Loughlin,Swati Mehta,J.E. Meyer,R.O. Mueller,A. Olesin,T.N. Pham,R.P. Preston,Paul I. Rubinfeld +18 more
- 08 Feb 1996
TL;DR: This 9.6 M transistor quad-issue RISC microprocessor achieves greater than 500 SPECint92 (estimated) at 433 MHz and dissipates less than 25 W.
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