1 edition of Optical computing 88 found in the catalog.
Optical computing 88
by SPIE--The International Society for Optical Engineering in Bellingham, Wash., USA
Written in English
Includes bibliographical references.
|Statement||J.S. Goodman, P. Chavel, G. Roblin, chairs/editors; a topical meeting of the International Commission for Optics ; organized by Société Francaise d"Optique, a member of Europtica ; cosponsoring organizations, Optical Society of America (OSA), SPIE--the International Society for Optical Engineering, cooperating with Association Nationale de la Recherche Technique (ANRT) ; collaborating organization, Deutsche Gesellschaft für angewandte Optik (DGaO) ... [et al.]. --|
|Series||Proceedings /SPIE -- v. 963, Proceedings of SPIE--the International Society for Optical Engineering -- v. 963|
|Contributions||Goodman, Joseph W., Chavel, P., Roblin, G., International Commission for Optics., Société française d"optique., Optical Society of America., Society of Photo-optical Instrumentation Engineers.|
|LC Classifications||TA1505 .O66 1989|
|The Physical Object|
|Pagination||xiv, 734 p. :|
|Number of Pages||734|
Hailed as the "next big thing" in computing during the s, optical technology was supposed to revolutionize everything from networks to processors. But . Book Description. Written by ten leading experts in the field, Optical Computing cover topics such as optical bistability, optical interconnects and circuits, photorefractive devices, spatial light modulators, associative memory, and optical computer architectures.
The concept of optical computing is reintroduced with an important new twist — optical computing not as a digital machine, but as an analog engine able . This book presents the principles, experimental technologies, up-to-date research findings and applications of various optical-computing technologies and devices. It also discusses semiconductor multiple quantum well (MQW) photoelectronic devices, vertical-cavity surface-emitting lasers (VCSELs).
The era of cloud computing has fuelled the increasing demand on data centers for high-performance, high-speed data storage and computing. Digital signal processing may find applications in future cloud computing networks containing a large sum of data centers. Addition and subtraction are considered to be fundamental building blocks of digital signal processing which are ubiquitous in. The conference "Nonlinear Optics and Optical Computing" was held May , in Erice, Sicily. This was the 13th conference organized by the International School of Quantum Electronics, under the auspices of the "Ettore Majorana" Center for Scientific Culture. This volume contains both the.
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Additional discussions focus on analog optical computing, digital logic and digital optical computing. Exercise problems, up-to-date references and further reading resources complete the book. Product details. Series: Wiley Series in Microwave and Optical Engineering (Book 3)Cited by: De Gruyter, ; pages; US$ (hardcover) This is a book about the area of optical computing called photonic reservoir computing, which is an optical implementation of neural networks, a machine-learning technique.
A source on the rapidly changing field of optical computing. Readers are taken through the relevant concepts of classical and Fourier optics, digital logic and digital image processing. In addition to exploration of the basic principles, it applies the characteristics of both all-optical and electro-optic devices/systems to the solution of optical computing.5/5(1).
Optical Computing Hardware provides information pertinent to the advances in the development of optical computing hardware. This book discusses the two application areas, namely, high-performance computing and high-throughput photonic switching.
Organized into 11 chapters, this book begins with an overview of the requirements on hardware from s. Get this from a library. Optical computing 29 August-2 SeptemberToulon, France: a topical meeting of the International Commission for Optics.
[J W Goodman; P Chavel; G Roblin; International Commission for Optics.; Société française d'optique.; Optical Society of America.; Society of Photo-optical Instrumentation Engineers.;].
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In short, there are reasons for optimism about the development of optical computing, but without overestimating its possibilities: when computer scientist Dror Feitelson published his book Optical Computing (MIT Press) inthere was Optical computing 88 book of a new field that was already beginning to.
An optical switch that can be turned on by a single photon could point toward new designs for both classical and quantum computers. July 4, Research update: Multiple steps toward the ‘quantum singularity’. Hailed as the "next big thing" in computing during the s, optical technology was supposed to revolutionize everything from networks to processors.
But the pace of research cooled when materials used to make optical chips -- which convey light, or photons, rather than electrons, as in traditional semiconductors -- failed to emerge. Optical computing: A survey for computer scientists Book Feitelson, D G An in-depth review of the possibilities and limitations of optical data processing is presented, focusing on applications and connections to computer science rather than optical devices or phenomena.
Optical Computing provides the first in-depth review of the possibilities and limitations of optical data processing. It focuses on applications and connections to computer science rather than optical devices or phenomena, covering all the main topics and choices involved in this wide and exciting field that is only now reaching maturity.
The book includes numerous figures, a glossary, and an. Additional discussions focus on analog optical computing, digital logic and digital optical computing. Exercise problems, up-to-date references and further reading resources complete the book. Cited By. Stepney S, Abramsky S, Bechmann M, Gorecki J, Kendon V, Naughton T, Perez-Jimenez M, Romero-Campero F and Sebald A Heterotic computing examples.
SPIE Vol Optical Computing 88 () / Superposition in Optical Computing B. Keith Jenkins Signal and Image Processing Institute MC University of Southern California, Los Angeles, California and C.
Lee Giles Air Force Office of Scientific Research/NE Boiling AFB, D.C. Optical computing: introduction by the guest editors to the feature in the 1 May issue Ravindra A. Athale, Demetri Psaltis, and Kelvin Wagner The feature in the 1 May issue of Applied Optics includes a collection of papers originally presented at the Lake Tahoe Topical Meeting on Optical Computing.
Optical Computing Hardware provides information pertinent to the advances in the development of optical computing hardware. This book discusses the two application areas, namely, high-performance computing and high-throughput photonic zed into 11 chapters, this book begins with an overview of the requirements on hardware from s system perspective.
Instigation of three journals dedicated to optical information processing: Applied Optics: Information Processing Int.
Optical Computing, J. Wiley Optical Computing & Processing, Taylor & Francis An Introduction to Optics in Computers, Arsenault, H.H. and Sheng, Y., SPIE Tutorial Texts Series, TT8, pp.
Google Scholar. Optical chips will power our future datacenters and supercomputers. Electronic chips can now have a layer of optical components, like lasers and switches, added to it, to increase their computing power.
(Artistic impression: Martijn Heck, Aarhus University.). The term optical computing can refer to many different types of technologies. Basically, it refers to computers that use light, rather than electricity, to perform many of its tasks.
Optical computing processes data 1, times faster and using 1/th the power of CMOS technology. Optical computing reduces data center power consumption and carbon footprints; improves communication between cores on a chip; and supports the coming 5G wireless revolution.
NLM materials enable the optical future. Other optical computing architectures that seek to emulate perfectly in step-by-step fashion the operations of digital electronic architectures (e.g., architectures built upon all-optical flip-flops (Clavero et al.
) and all-optical network routers (Dorren et al. )) occupy an important place in the taxonomy of optical computing. However. Optical Processing and Computing is a collection of research from the USA, Canada, Russia, and Poland on the developments in the fields of digital optical computing and analog optical processing.
This book is organized into 15 chapters and begins with an overview of the hierarchy of interconnect problems. Some chapters deal with the fundamental.Analog optical computing. The term "optical computing" has been used for decades to refer to any kind of (numeric or mathematical) computation done using light, such as the canonical 4F processor.
But this article currently only reflects the much narrower area of digital optical computing. An expansion of the article would be great.Book: Optical computing: A survey for computer scientists.
Optical computing: A survey for computer scientists. Full Record; Other Related Research; Abstract. An in-depth review of the possibilities and limitations of optical data processing is presented, focusing on applications and connections to computer science rather than optical.