A processor designed around Android's most-used apps could significantly extend the lives of smart-phone batteries.
"Chip design for mobile phones needs rethinking for two reasons," says Taylor. "One is to improve their use of the limited energy available to a phone, and the other is to attack a problem called dark silicon, which is set to make conventional chip designs even less efficient."
"Dark silicon" is a portion of a microchip that is left unused. Although uncommon today, dark silicon is expected to become necessary in two or three years, because engineers will be unable to reduce chips' operating voltages any further to offset increases in power consumption and waste heat produced by smaller, faster chips.
Operating shrinking transistors with lower voltages was "traditionally the escape valve that enabled more computational power without more heat output," says Taylor, "but now there is no place to go." Operating voltages have crept close to a fundamental limit at which transistors cease to function practically. This means that soon, as transistors continue to get smaller, each generation of chips will be less efficient than the one before, he says. "If you kept using all of the chip, each generation would generate double the heat of the one before." Keeping energy use constant will require switching on only certain parts of a chip at any one time.
Source : technologyreview.com
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