Author_Institution :
Dept. of Chem., California Univ., Berkeley, CA, USA
Abstract :
In the past few years, two important trends have evolved that could change the shape of computing: multimedia applications and portable electronics. Together, these trends will lead to a personal mobile-computing environment, a small device carried all the time that incorporates the functions of the pager, cellular phone, laptop computer, PDA, digital camera, and video game. The microprocessor needed for these devices is actually a merged general-purpose processor and digital-signal processor, with the power budget of the latter. Yet for almost two decades, architecture research has focused on desktop or server machines. We are designing processors of the future with a heavy bias toward the past. To design successful processor architectures for the future, we first need to explore future applications and match their requirements in a scalable, cost-effective way. The authors describe Vector IRAM, an initial approach in this direction, and challenge others in the very successful computer architecture community to investigate architectures with a heavy bias for the future
Keywords :
computer architecture; microprocessor chips; mobile computing; multimedia computing; Vector IRAM; computer architecture research; digital signal processor; general purpose processor; microprocessor; multimedia applications; personal mobile-computing environment; portable electronics; power budget; processor architectures; Application software; Cellular phones; Computer applications; Computer architecture; Digital cameras; Multimedia computing; Personal digital assistants; Portable computers; Process design; Shape;
