(cores, that is)
http://www.techworld.com.au/article/405599/arm_cto_predicts_chips_size_blood_cells
ARM CTO predicts chips the size of blood cells The chip design company is on
its way to making chips no bigger than a red blood cell, its CTO says
James Niccolai (IDG News Service) 28 October, 2011 07:57 Comments
In less than a decade, that smartphone you're holding could have 32 times the
memory, 20 times the bandwidth and a microprocessor core no bigger than a red
blood cell, the CTO of chip design company ARM said on Thursday.
ARM has already helped develop a prototype, implantable device for monitoring
eye-pressure in glaucoma patients that measures just 1 cubic millimeter, CTO
Mike Muller said at ARM's TechCon conference in Silicon Valley Thursday. The
device includes a microprocessor sandwiched between sensors at the top and a
battery at the bottom.
Strip away those extra components, rearrange the transistors into a cube and
apply the type of advanced manufacturing process expected in 2020, and you'd
end up with a device that occupies about the same volume as a blood cell,
Muller said.
ARM designs the processor cores used in most of today's smartphones and
tablets, and smaller cores are generally more energy efficient, he said. That
helps to extend battery life.
That's a good thing, because battery technology is advancing much more
slowly, and Muller expects only twice the improvement in battery performance
by the end of the decade.
That could be a gating factor for all the other improvements, so the
electrical systems inside portable devices will have to be redesigned so that
people don't have to recharge them multiple times a day.
For example, smartphones today contain basically a single compute system,
with one type of CPU and some memory attached. But the tasks performed by
smartphones, such as making a call or playing a 3D game, require very
different levels of performance.
So in the future, MulIer said, "some systems will have entire subsystems
within them, including their own CPU and their own memory," devoted to a
particular task such as music playback. That way, other subsystems in a
device can be shut down, conserving battery life.
It's a model ARM is already pursuing with its Big.Little architecture
announced last week. That design will see two types of processor core in the
same device, one powerful and one less so, and uses the most
power-appropriate device for the task at hand. The idea of entire subsystems
takes that a step further.
The bandwidth gains in 2020 will come mostly from advances in topology,
according to Muller -- basically increasing the number of cellular base
stations. Spectrum, and the technologies used to send bits across that
spectrum, won't advance much, he predicted.
That's okay for people in cities, where it can make financial sense to
install more base stations. "If you're out in the middle of nowhere, I'm
sorry, there's not going to be much big change for you," Muller said.
He spoke at ARM's TechCon conference in Silicon Valley, where ARM also
announced its next microprocessor architecture, ARMv8, which will be its
first to support 64-bit computing.
James Niccolai covers data centers and general technology news for IDG News
Service. Follow James on Twitter at @jniccolai. James's e-mail address is
james_nicco...@idg.com
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