TOWARD AN OPTIMAL FOUNDATION ARCHITECTURE FOR OPTOELECTRONIC COMPUTING .2. PHYSICAL CONSTRUCTION AND APPLICATION PLATFORMS

Authors
OZAKTAS HM
Citation
Hm. Ozaktas, TOWARD AN OPTIMAL FOUNDATION ARCHITECTURE FOR OPTOELECTRONIC COMPUTING .2. PHYSICAL CONSTRUCTION AND APPLICATION PLATFORMS, Applied optics, 36(23), 1997, pp. 5697-5705
Citations number
41
Categorie Soggetti
Optics
Journal title
Applied opticsACNP
ISSN journal
00036935
Volume
36
Issue
23
Year of publication
1997
Pages
5697 - 5705
Database
ISI
SICI code
0003-6935(1997)36:23<5697:TAOFAF>2.0.ZU;2-O
Abstract
Various issues pertaining to the physical construction of systems that are based on regularly interconnected device planes, such as heat rem oval and extensibility of the optical interconnections fog larger syst ems, are discussed. Regularly interconnected device planes constitute a foundation architecture that is reasonably close to the best possibl e as defined by physical limitations. Three application platforms base d on the foundation architecture described are offered. (C) 1997 Optic al Society of America.