A 45nm 8-core enterprise Xeon® processor

2009 IEEE Asian Solid-State Circuits Conference Pub Date : 1900-01-01 DOI:10.1109/ISSCC.2009.4977305
S. Rusu, S. Tam, H. Muljono, J. Stinson, D. Ayers, Jonathan Chang, Raj Varada, Matt Ratta, Sailesh Kottapalli
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引用次数: 73

Abstract

A 2.3B transistors, 8-core, 16-thread 64-bit Xeon® EX processor with a 24MB shared L3 cache was implemented in a 45nm 9-metal process. Multiple clock and voltage domains are employed 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 using the same silicon die and package. The disabled blocks are both clock and power gated to minimize their power consumption. Idle power is reduced by shutting off the un-terminated I/O links and shedding phases in the voltage regulator to improve the power conversion efficiency.
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45纳米8核企业至强®处理器
采用45纳米9金属工艺实现了2.3B晶体管,8核,16线程64位Xeon®EX处理器,具有24MB共享L3缓存。采用多个时钟域和电压域来降低功耗。长通道设备和缓存休眠模式用于减少泄漏。核心和缓存恢复提高了制造产量,并使用相同的硅芯片和封装实现多种产品口味。禁用的块都是时钟和电源门控,以尽量减少其功耗。通过关闭未终止的I/O链路和电压调节器中的脱落相来减少空闲功率,以提高功率转换效率。
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2009 IEEE Asian Solid-State Circuits Conference
2009 IEEE Asian Solid-State Circuits Conference
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