The mix of new materials as well as P-channel and N-channel transistors
can potentially enable Intel Corp. to build microprocessors that
consume just 10% of today’s chips in future.
Intel recently disclosed advancement details on a P-channel transistor,
built on a silicon substrate, that makes use of compound
semiconductors, also known as III-V materials because they are made of
elements that straddle silicon in the periodic table, silicon being in
column IV. This research resulted in the highest performing P-channel
transistors reported to date. A year earlier, Intel described III-V
N-channel transistors, also built on a silicon substrate.
According to Intel, when combined, these two results could form. the
building blocks for CMOS logic circuits, which use both N-channel and
P-channel transistors. Potentially suitable for future microprocessors,
they run far cooler: the world’s largest chipmaker claims that t about
50% the voltage, consuming only 10% the power of today's transistors.
Potentially, if the innovation proves to be viable for mass production
of microprocessors, this enables either very small and power efficient
chips which are powerful by today’s standards or chips that are
dramatically more complex compared to contemporary, but consume the
same amount of power. Obviously, the new materials can also enable
dramatic improvements in energy efficiency not only for
microprocessors, but also for graphics processors, core-logic sets and
other highly-integrated devices.
Currently Intel is already researching the aforementioned materials and
it will take years before the innovation could materialize.
