Relay-Version: version B 2.10 5/3/83; site utzoo.UUCP Posting-Version: version B 2.10 beta 3/9/83; site utecfa.UUCP Path: utzoo!utcsri!utai!utecfa!jaro From: jaro@utecfa.UUCP (Jaro A Pristupa) Newsgroups: ut.general,ut.vlsi Subject: SEMINAR ANNOUNCEMENT Message-ID: <1899@utecfa.UUCP> Date: Fri, 3-Oct-86 14:56:43 EDT Article-I.D.: utecfa.1899 Posted: Fri Oct 3 14:56:43 1986 Date-Received: Fri, 3-Oct-86 16:42:07 EDT Organization: Engineering Computing Facility, University of Toronto Lines: 40 JOINT COMPUTER SCIENCE AND ELECTRICAL ENGINEERING SEMINAR VLSI MODELS OF NEURO-NETWORKS by Professor Carver Mead California Institute of Technology Abstract The Semiconductor technology has evolved to the point where chips containing a million transistors can be fabri- cated without defects. If a small number of defects can be tolerated, this number is increased by two orders of magni- tude. Devices now being fabricated on an experimental basis have shown that another two orders of magnitude are possi- ble. The inescapable conclusion is that wafers containing 10^10 (10 to the tenth power) devices, of which only a van- ishing fraction are defective, will be in production within a few years. This level of complexity is well below that required for higher cortical functions, but is already suf- ficient to solve lower level perception tasks. This remarkable technology has made possible a new dis- cipline: Synthetic Neurobiology. The thesis of this discip- line is that it is not possible, even in principle, to claim a full understanding of a system unless one is able to build one that functions properly. This principle is already well accepted in molecular biology, and more recently in genet- ics. It is hoped that the approach will soon join the trad- itional descriptive and analytical foundations of neurobiol- ogy. Small examples using current technology to attack prob- lems in early vision and hearing will be described. DATE: Monday, October 6, 1986 TIME: 4:00 p.m. PLACE: GB244 Galbraith Building University of Toronto