Title :
A 45 nm 8-Core Enterprise Xeon¯ Processor
Author :
Rusu, Stefan ; Tam, Simon ; Muljono, Harry ; Stinson, Jason ; Ayers, David ; Chang, Jonathan ; Varada, Raj ; Ratta, Matt ; Kottapalli, Sailesh ; Vora, Sujal
Author_Institution :
Intel Corp., Santa Clara, CA, USA
Abstract :
This paper describes a 2.3 Billion transistors, 8-core, 16-thread, 64-bit Xeon® EX processor with a 24 MB shared L3 cache implemented in a 45 nm nine-metal process. Multiple clock and voltage domains are used to reduce power consumption. Long channel devices and cache sleep mode are used to minimize leakage. Core and cache recovery improve manufacturing yields and enable multiple product flavors from the same silicon die. The disabled blocks are both clock and power gated to minimize their power consumption. Idle power is reduced by shutting off the unterminated I/O links and shedding phases in the voltage regulator to improve the power conversion efficiency.
Keywords :
clocks; power consumption; power conversion; power transistors; 8-core enterprise; Xeon® processor; cache sleep; multiple clock; nine-metal process; power consumption; power conversion efficiency; transistors; voltage domains; wavelength 45 nm; CMOS technology; Clocks; Energy consumption; High-K gate dielectrics; Integrated circuit interconnections; MOS devices; Power system interconnection; Sockets; Transistors; Voltage; 45 nm process technology; Circuit design; clock distribution; computer architecture; core recovery; leakage reduction; microprocessor; voltage domains;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2009.2034076
