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The Death of the Silicon Computer Chip

Posted by kdawson on from the aye-and-it-had-a-good-run dept.

Stony Stevenson sends a report from the Institute of Physics' Condensed Matter and Material Physics conference, where researchers predicted that the reign of the silicon chip is nearly over. Nanotubes and superconductors are leading candidates for a replacement; they don't mention graphene. "...the conventional silicon chip has no longer than four years left to run... [R]esearchers speculate that the silicon chip will be unable to sustain the same pace of increase in computing power and speed as it has in previous years. Just as Gordon Moore predicted in 2005, physical limitations of the miniaturized electronic devices of today will eventually lead to silicon chips that are saturated with transistors and incapable of holding any more digital information. The challenge now lies in finding alternative components that may pave the way to faster, more powerful computers of the future"

2 of 150 comments (clear)

  1. Not again by Maury+Markowitz · · Score: 5, Informative

    I've been hearing this claim every few years for the last 25. Remember optical computers in the mid-80s? How about gallium arsenide? CRAY-3 anyone?

    And of course what's really reaching a limit is not the CPU's, but our ability to use them effectively. See "TRIPS architecture" on the wiki as an example end-run around the problem that offers hundred-times improvements using existing fabs.

    Maury

  2. Unlikely by aneviltrend · · Score: 5, Informative

    Intel's CTO Justin Rattner just gave a talk at Cornell two days ago; he covered this topic carefully and confirmed that Intel has the technology and plans to carry out Moore's Law for another 10 years on silicon. Technologies such as SOI and optical interconnects will be leveraged to hit this.

    It's not necessarily the size of the transistors that make chips hard to make these days either (although they are now giving us huge problems with leakage current). It's harder to route the metal between these transistors than it is to pack them onto the silicon. New processors from Intel and AMD have areas with low transistor density just because it was impossible to route the large metal interconnects between them. Before we can take advantage of even smaller transistors we'll need a way for higher interconnect density.