SCI:PHYS:COMP:Physics of Computation Seminar, Tuesday, May 20 (fwd)

From: Eugene Leitl (Eugene.Leitl@lrz.uni-muenchen.de)
Date: Wed May 14 1997 - 11:51:32 MDT


sounds familiar, huh...
---------- Forwarded message ----------
Date: Wed, 14 May 1997 12:04:19 -0400 (EDT)
From: Physics of Computation Seminar <poc@im.lcs.mit.edu>
Cc: phil@hplwbc.hpl.hp.com, culberts@hplwbc.hpl.hp.com
Subject: Physics of Computation Seminar, Tuesday, May 20

            MIT PHYSICS OF COMPUTATION SEMINAR

            Date: Tuesday, May 20 1997
            Time: 3:30 pm (Refreshments after the talk)
            Room: MIT NE43, 8th floor AI Playroom (545 Tech Sq)

    "Imperfect Computers"

    PHIL KUEKES and BRUCE CULBERTSON
    H P Laboratories

    Abstract:

    We have built a reconfigurable computer with 0.22 square meters of
    CMOS silicon in 864 chips, three quarters of which have known
    defects. The Teramac custom computer can be thought of as a giant
    programmable gate array with half a billion configuration bits.
    The large number of configuration bits and the two million wires
    available for routing make it very easy to place and route logic
    designs onto the physical network without depending on an unbroken
    symmetry in the physical network.
    
    Teramac is big enough to let us begin to explore some of the
    issues which will be faced by architects of the first nanoscale
    computers. How do we make a computer with nanometer scale
    components? To make a computer we need not only small components
    but a method of connecting them in a reasonably arbitrary way,
    chosen by the computer designer. Most self assembling strategies
    at the molecular scale create very regular structures which lack
    the complexity required of a computer. More elaborate assembly
    strategies are likely to be very imperfect. The topology of the
    Teramac interconnect is regular only in its fractal
    dimensionality. The place and route software does not depend on
    significant symmetry. If you have enough wires and switches you
    can first build an imperfect machine and then design a perfect
    one.

 
    Hosts: Norm Margolus and Tom Knight

    
This talk is part of a seminar series on adapting computers and
computations to the constraints of, and opportunities afforded by,
microphysics; and on the development and application of the physical
theory of computation and information. This seminar series is
supported by the MIT AI Laboratory's Reversible Computing Project.

Please forward this notice to anyone who you think might be interested.
Anyone who wishes to be added to the distribution list for these seminar
announcements should send email to "poc@mit.edu". Copies of papers
related to recent and upcoming POC talks are available through the World
Wide Web at "http://www.im.lcs.mit.edu/cgi-bin/poc.pl".



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