Author_Institution :
Illinois Univ., Urbana, IL, USA
Abstract :
To increase processor performance, the microprocessor industry is scaling feature sizes into the deep submicron and sub-100-nanometer regime. The recent emergence of noise and the dramatic increase in process variations have raised serious questions about using nanometer process technologies to design reliable, low-power, high-performance computing systems. The design and electronic design automation communities must work closely with the process engineering community to address these problems. Specifically, researchers must explore the tradeoffs between reliability and energy efficiency at the device, circuit, architectural, algorithmic, and system levels.
Keywords :
electronic design automation; microprocessor chips; performance evaluation; power consumption; semiconductor device noise; system-on-chip; electronic design automation; energy efficiency; high-performance computing systems; low-power computing systems; microprocessor industry; nanometer process technologies; noise; process engineering; processor performance; reliable system-on-chip design; Circuit noise; Electronic design automation and methodology; Microprocessors; Noise level; Phase noise; Power system reliability; Semiconductor device noise; Signal processing; System-on-a-chip; Threshold voltage;
