DocumentCode
3296113
Title
NanoFabrics: spatial computing using molecular electronics
Author
Goldstein, Seth Copen ; Budiu, Mihai
Author_Institution
Carnegie Mellon Univ., Pittsburgh, PA, USA
fYear
2001
fDate
2001
Firstpage
178
Lastpage
189
Abstract
The continuation of the remarkable exponential increases in processing power over the recent past faces imminent challenges due in part to the physics of deep-submicron CMOS devices and the costs of both chip masks and future fabrication plants. A promising solution to these problems is offered by an alternative to CMOS-based computing, chemically assembled electronic nanotechnology (CAEN). In this paper we outline how CAEN-based computing can become a reality. We briefly describe recent work in CAEN and how CAEN will affect computer architecture. We show how the inherently reconfigurable nature of CAEN devices can be exploited to provide high-density chips with defect tolerance at significantly reduced manufacturing costs. We develop a layered abstract architecture for CAEN-based computing devices and we present preliminary results which indicate that such devices will be competitive with CMOS circuits
Keywords
computer architecture; molecular electronics; nanotechnology; CMOS-based computing; NanoFabrics; chemically assembled electronic nanotechnology; deep-submicron CMOS devices; defect tolerance; molecular electronics; processing power; spatial computing; Assembly; CMOS process; Chemicals; Computer architecture; Costs; Fabrication; Face; Molecular electronics; Nanotechnology; Physics;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Architecture, 2001. Proceedings. 28th Annual International Symposium on
Conference_Location
Goteborg
ISSN
1063-6897
Print_ISBN
0-7695-1162-7
Type
conf
DOI
10.1109/ISCA.2001.937446
Filename
937446
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