UltraSPARC T1处理器:CMT可靠性

A. Leon, B. Langley, Jinuk Luke Shin
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引用次数: 43

摘要

吞吐量计算代表了处理器设计中的一种新范式,它专注于最大限度地提高商业工作负载的总体吞吐量,同时满足当今数据中心对改进电源、冷却和可靠性日益增长的需求。第一代“Niagara”SPARC处理器实现了节能芯片多线程(CMT)架构,在低功耗和热包膜下提供高性能和可靠性。UltraSPARC T1处理器结合了8个4线程64b内核,一个高带宽互连交叉条,一个共享的3MB L2缓存和4个双宽DDR2 DRAM接口。采用90nm CMOS技术,378mm2芯片在1.2GHz时仅消耗63W。除了CMT优化吞吐量性能的能力之外,本文还强调了CMT在功率和热控制、可靠性、RAS和设计稳健性方面的优势,并描述了与这些主题相关的设计的关键特征
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The UltraSPARC T1 Processor: CMT Reliability
Throughput computing represents a new paradigm in processor design focusing on maximizing overall throughput of commercial workloads while addressing increasing demands for improved power, cooling and reliability in today's datacenters. The first generation of "Niagara" SPARC processors implements a power-efficient chip multithreading (CMT) architecture to deliver high performance and reliability in a low power and thermal envelope. The UltraSPARC T1 processor combines eight 4-threaded 64b cores, a high bandwidth interconnect crossbar, a shared 3MB L2 cache and four double-width DDR2 DRAM interfaces. Implemented in 90nm CMOS technology, the 378mm2 die consumes only 63W at 1.2GHz. Beyond the ability of CMT to optimize throughput performance, this paper highlights the advantages of CMT in the areas of power and thermal control, reliability, RAS, and design robustness, describing key features of the design relevant to each of these topics
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