In your brain right now, a motor protein called kinesin is shuttling vesicles
loaded with neurotransmitters to the synapses in your brain, allowing you to
read this. While some researchers are trying to make similar molecular motors
scoot around and throw switches on electronic chips, it's hardly certain these
motors can ever do better than the electrical contacts that are routinely used
today. The future of biological nanotechnology may not be clear, but what is,
says Professor
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Currently, the gate length, the characteristic length parameter in transistors,
has hit about 90 nm. The shorter the gate length, the faster transistors can
switch on and off. In fact, the transistors have gotten so fast, that the delay
as electrons flow through the skinnier and longer wires needed to cross larger,
complex chips is on track to become the limiting factora in speed. This delay
is just one of the fundamental problems that threatens to make the nanoscale
regime of electronics unfaithful to Moore's Law and demands the design of new
materials and structures or a complete shift in chip architecture.
A decade ago, Saraswat's research group was the first to begin developing a new
kind of chip architecture: the 3-dimensional integrated circuit (3-D IC).
Compared to the 2-D planar chips in computers today, 3-D chips can provide the
same processing power with a reduced chip surface area. Also, instead of having
long, twisting highways of wires, the stacked chips in 3-D ICs allow for short
wires much like elevator shafts, as Professor Chidsey puts it-mitigating the
problem of delay in the wires. Moreover, 3-D IC architecture allows the
integration of all kinds of chips, since chips that require different
technologies or materials can be stacked together.
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