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
730
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.
read more
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.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Hardware/software managed scratchpad memory for embedded system
Andhi Janapsatya,Sri Parameswaran,Aleksandar Ignjatovic +2 more
- 07 Nov 2004
TL;DR: Experimental results indicate the method uses 50.7% lower energy and improves performance by 53.2% when compared to a traditional cache system which is identical in size.
47
Cool-cache for hot multimedia
Osman Unsal,Raksit Ashok,Israel Koren,C. Mani Krishna,Csaba Andras Moritz +4 more
- 01 Dec 2001
TL;DR: Two complementary media-sensitive energy-saving techniques that leverage static information are presented that are applicable to existing architectures and propose a new caching architecture by re-evaluating the architecture-compiler interface.
A survey on cache tuning from a power/energy perspective
Wei Zang,Ann Gordon-Ross +1 more
TL;DR: This survey focuses on state-of-the-art offline static and online dynamic cache tuning techniques and summarizes the techniques' attributes, major challenges, and potential research trends to inspire novel ideas and future research avenues.
46
Dual scalable 500MS/s, 5b time-interleaved SAR ADCs for UWB applications
Brian P. Ginsburg,Anantha P. Chandrakasan +1 more
- 18 Sep 2005
TL;DR: A dual 500MS/s, 5b ADC chip is implemented in a 0.18 mum CMOS process for use in an I/Q UWB receiver that uses full custom logic, self-timed bit-cycling, and duty cycling of the comparator preamplifiers.
46
Patent
Integrated circuit with separate supply voltage for memory that is different from logic circuit supply voltage
Brian J. Campbell,Kaenel Vincent R. Von,Daniel C. Murray,Gregory S. Scott,Sribalan Santhanam +4 more
- 20 Feb 2008
TL;DR: In this article, the memory circuit is configured to be read and written responsive to the logic circuit even if the first supply voltage is less than the second supply voltage during use, and the memory cell responds to the read using signals that are referenced to the first-supply voltage.
46
References
A 200-MHz 64-b dual-issue CMOS microprocessor
Daniel W. Dobberpuhl,R. Witek,R. Allmon,R. Anglin,D. Bertucci,S.M. Britton,L. Chao,R.A. Conrad,D.E. Dever,B. Gieseke,Soha Hassoun,G. Hoeppner,K. Kuchler,M. Ladd,B.M. Leary,L. Madden,Edward J. McLellan,D.R. Meyer,J. Montanaro,Donald A. Priore,V. Rajagopalan,S. Samudrala,S. Santhanam +22 more
- 19 Feb 1992
TL;DR: A RISC (reduced-instruction-set computer)-style microprocessor operating up to 200 MHz, implements a 64-b architecture that provides huge linear address space without bottlenecks that would impede highly concurrent implementations.
A 320 MHz, 1.5 mW@1.35 V CMOS PLL for microprocessor clock generation
TL;DR: A low-power microprocessor clock generator based upon a phase-locked loop (PLL) that is fully integrated onto a 2.2-million transistors microprocessor in a 0.35-/spl mu/m triple-metal CMOS process without the need for external components is described.
139
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
- 15 Feb 1995
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.
81