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Date: 21 May 2018
Intel's New Breed of Chips: The chip maker tries to diversify with system-on-chip designs  

Topic Name: Intel's New Breed of Chips: The chip maker tries to diversify with system-on-chip designs
Category: Computer science & technology
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Research persons: Intel Corporation

Location: Intel Corporation, United States


Intel's New Breed of Chips: The chip maker tries to diversify with system-on-chip designs

Intel has long dominated the market for personal-computer and server chips,
but as sales of these components decline, the Santa Clara, CA, company is hoping
to get a better toehold in new markets, particularly those for smart phones,
netbooks, and other mobile Internet devices. To do this, Intel is exploring
system-on-chip (SoC) designs--complex microchips that perform specialized tasks
on top of general-purpose computations.

Future SoC hardware will be less power hungry and capable of doing graphics
processing, complex wireless communication, and on-chip temperature sensing, as
well as general number crunching and memory management.

Today, Intel gave a preview of several papers that its researchers will present
at the International Solid State Circuits Conference in San Francisco next week,
including some revealing new SoC designs. Among the SoC designs disclosed are
ones featuring wireless radios capable of using several different communications
standards and operating at high speeds, integrated graphics processors for
mobile devices that are many times more efficient than those used in desktop
machines, and built-in sensors that track critical conditions on a chip itself.

Over the past few decades, Intel has fulfilled the prediction of its founder,
Gordon Moore: that the number of transistors on a chip will double roughly every
two years. With these new designs, the chip maker is turning its attention to
adding much complexity to its chips as well. Components on these next-generation
chips will be as small as just 32 nanometers.

"This is a new era of scaling in an SoC world," says Mark Bohr, an Intel Senior
Fellow. "As you reduce the size of transistors, the price per transistor goes
down. It enables unprecedented complexity as we scale down to 32 nanometers."

Last July, Intel announced plans to build several types of SoC components based
on an existing processor design, called Intel architecture. The company has more
than 15 SoC projects planned, including a chip code-named Canmore that will
integrate computing, graphics, and audio-video capabilities for portable devices
and is scheduled to debut later this year.

At next week's conference, Intel researchers will also present work on chips
that will most likely hit the market in three to five years, says Soumyanath
Krishnamurthy, an Intel Fellow. One paper details an SoC featuring a new type of
digital wireless radio that operates over a number of standards, including Wi-Fi,
WiMax, and cellular-phone frequencies. One of the problems with this type of
radio design, Krishnamurthy explains, is producing a clear signal. Without
providing specific details, he says that Intel researchers have found a way to
leverage the slight variations in silicon processing techniques to improve the
radio signals.
Intel is working on another SoC radio that operates in the 60-gigahertz
range--a range for which no standards yet exist. At this frequency, the device
could send and receive wireless data rates of up to three gigabits per second,
Krishnamurthy says. This would make the platform ideal for streaming
high-quality video and instantly syncing a collection of computers, mobile
phones, and other gadgets.

Another paper that will be presented at the conference details an energy-saving
graphics processor targeted at mobile devices. It processes multiple pixels at
once--something that only power-hungry desktop chips are capable of today.
Krishnamurthy says, "We want to bring this capability to mobile devices and make
them in our next gen of SoC." He adds that traditional techniques don't work
well at low voltages, but Intel engineers tweaked the design to drastically
reduce the voltage required.

About an on-chip digital temperature sensor, Krishnamurthy says, "We'd like to
be able to sense what's going on at various spots on the die." This is important
because certain parts of the chip heat up faster than others do. A future chip
could be smart enough to off-load some tasks to different parts of the chip so
that it doesn't suffer heat damage.

Tom Halfhill, an analyst at research firm In-stat, says it is not surprising
that Intel wants to enter the market for smaller mobile computers with its own
SoC architectures, given the growth that it has seen in recent years. "You're
seeing a second generation of personal computers: smart phones, netbooks, and
these mobile Internet devices--personal computers you carry on your person," he
says. "That's where the growth market will be in the future, and that's where
Intel hasn't traditionally had good solutions."

Halfill says that Intel will need to catch up quickly with ARM, which supplies
chips to the majority of the mobile market. "Intel is late to the game in some
cases," he says. "ARM was the first for low-power, embedded chips."
But Krishnamurthy is optimistic about Intel's chances of taking the lead. "We
see no show stoppers as we proceed with our goals," he says.

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