With the introduction of the high-frequency IBM System z10™ processor design, a new, robust cache hierarchy was needed to enable up to 80 of these processors aggregated into a tightly coupled symmetric multiprocessor (SMP) system to reach their performance potential. Typically, each time the processor frequency increases by a significant factor, as did the z10™ processor over the predecessor IBM System z9® processor, the access time of data, as measured by the number of processor cycles beyond the level 1 cache on an identical processor cache subsystem, would increase proportionally as well because the flight time on the chip interconnects across multiple hardware packaging levels has stayed relatively constant in nanoseconds. To address the latency scaling problem and the increased demand of the larger 80-way SMP size, the z10 processor cache subsystem introduces new innovative concepts and solutions.
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机译:随着高频IBM System z10™处理器设计的推出,需要一种新的,强大的缓存层次结构,以使多达80个这些处理器聚合到紧密耦合的对称多处理器(SMP)系统中,以发挥其性能潜力。通常,每当处理器频率增加一个显着因素时(就像z10™处理器相比以前的IBM Systemz9®处理器一样),数据的访问时间(由同一同等级别上超过1级高速缓存的处理器周期数来衡量)处理器高速缓存子系统也将按比例增加,因为跨多个硬件封装级别的芯片互连的飞行时间在纳秒内保持相对恒定。为了解决延迟扩展问题以及对更大的80路SMP大小的需求增长,z10处理器高速缓存子系统引入了新的创新概念和解决方案。
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