Henry M. Levy

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name Citations Publications World Ranking National Ranking

Computer Science D-index 74 Citations 27,680 194 World Ranking 882 National Ranking 524

Research.com Recognitions

Awards & Achievements

2011 - Member of the National Academy of Engineering For contributions to design, implementation, and evaluation of operating systems, distributed systems, and processor architectures.

2002 - IEEE Fellow For contributions to multithreaded processor and operating system design.

1996 - ACM Fellow For exceptional contributions to computer science research in operating systems and computer architecture, to education (through publications and students), and to the ACM.

Overview

What is he best known for?

The fields of study he is best known for:

Operating system
Programming language
Central processing unit

Henry M. Levy spends much of his time researching Operating system, Distributed computing, Thread, Parallel computing and Software. His research in Operating system intersects with topics in Domain and Web page. His Distributed computing research includes elements of Node, Computer network, Object and Addressability.

His work deals with themes such as Unix, Task parallelism and Speedup, which intersect with Thread. He is interested in Multiprocessing, which is a field of Parallel computing. His Software research integrates issues from Extensibility, Computer architecture and Embedded system.

His most cited work include:

Simultaneous multithreading: maximizing on-chip parallelism (1440 citations)
Measurement, modeling, and analysis of a peer-to-peer file-sharing workload (815 citations)
Exploiting Choice: Instruction Fetch and Issue on an Implementable Simultaneous Multithreading Processor (781 citations)

What are the main themes of his work throughout his whole career to date?

Henry M. Levy mainly investigates Operating system, Parallel computing, Distributed computing, Programming language and World Wide Web. Software, Virtual memory, Address space, Extensibility and File system are subfields of Operating system in which his conducts study. He works mostly in the field of Virtual memory, limiting it down to concerns involving Embedded system and, occasionally, Overhead and Reliability.

His study in Parallel computing is interdisciplinary in nature, drawing from both Simultaneous multithreading and Thread. His study on Simultaneous multithreading is covered under Multithreading. His research investigates the connection between Distributed computing and topics such as Shared memory that intersect with problems in Distributed shared memory.

He most often published in these fields:

Operating system (25.77%)
Parallel computing (20.62%)
Distributed computing (17.53%)

What were the highlights of his more recent work (between 2006-2020)?

Operating system (25.77%)
World Wide Web (10.82%)
Computer security (5.67%)

In recent papers he was focusing on the following fields of study:

Henry M. Levy mostly deals with Operating system, World Wide Web, Computer security, Cloud computing and Web service. As part of his studies on Operating system, Henry M. Levy often connects relevant areas like Fidelity. The Web page and The Internet research Henry M. Levy does as part of his general World Wide Web study is frequently linked to other disciplines of science, such as Internet security, therefore creating a link between diverse domains of science.

His Computer security research incorporates themes from Web threat, Virtual machine and Internet privacy. His research in Cloud computing intersects with topics in Distributed computing and Mobile device. His Distributed computing research incorporates themes from Kernel, Extensibility, Software deployment and Data system.

Between 2006 and 2020, his most popular works were:

Vanish: increasing data privacy with self-destructing data (312 citations)
Operating system implications of fast, cheap, non-volatile memory (139 citations)
SpyProxy: execution-based detection of malicious web content (128 citations)

In his most recent research, the most cited papers focused on:

Operating system
Programming language
Central processing unit

His scientific interests lie mostly in Computer security, Operating system, The Internet, Internet privacy and Data sharing. The concepts of his Computer security study are interwoven with issues in Web threat, Virtual machine, Web server and Web content. The study incorporates disciplines such as Distributed computing, Runtime system and Kernel in addition to Operating system.

Henry M. Levy has included themes like Node, Key, Set and Computer data storage in his The Internet study. His work deals with themes such as Cryptography, Cache, Password, Cloud computing security and Plug-in, which intersect with Internet privacy. His biological study spans a wide range of topics, including File system and Data management.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Simultaneous multithreading: maximizing on-chip parallelism

Dean M. Tullsen;Susan J. Eggers;Henry M. Levy.
international symposium on computer architecture (1995)

2309 Citations

Measurement, modeling, and analysis of a peer-to-peer file-sharing workload

Krishna P. Gummadi;Richard J. Dunn;Stefan Saroiu;Steven D. Gribble.
symposium on operating systems principles (2003)

1356 Citations

Exploiting Choice: Instruction Fetch and Issue on an Implementable Simultaneous Multithreading Processor

Dean M. Tullsen;Susan J. Eggers;Joel S. Emer;Henry M. Levy.
international symposium on computer architecture (1996)

1216 Citations

Fine-grained mobility in the Emerald system

Eric Jul;Henry Levy;Norman Hutchinson;Andrew Black.
ACM Transactions on Computer Systems (1988)

1211 Citations

Fine-grained mobility in the Emerald system

Eric Jul;Henry Levy;Norman Hutchinson;Andrew Black.
ACM Transactions on Computer Systems (1988)

1166 Citations

Scheduler activations: effective kernel support for the user-level management of parallelism

Thomas E. Anderson;Brian N. Bershad;Edward D. Lazowska;Henry M. Levy.
ACM Transactions on Computer Systems (1992)

1024 Citations

An analysis of internet content delivery systems

Stefan Saroiu;Krishna P. Gummadi;Richard J. Dunn;Steven D. Gribble.
operating systems design and implementation (2002)

922 Citations

On the scale and performance of cooperative Web proxy caching

Alec Wolman;M. Voelker;Nitin Sharma;Neal Cardwell.
symposium on operating systems principles (1999)

914 Citations

Capability-Based Computer Systems

Henry M. Levy.
(1984)

738 Citations

Distrbution and Abstract Types in Emerald

A. Black;N. Hutchinson;E. Jul;H. Levy.
IEEE Transactions on Software Engineering (1987)

669 Citations

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