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    • 62. 发明授权
    • Method for prefetching non-contiguous data structures
    • 预取非连续数据结构的方法
    • US07529895B2
    • 2009-05-05
    • US11617276
    • 2006-12-28
    • Matthias A. BlumrichDong ChenPaul W. CoteusAlan G. GaraMark E. GiampapaPhilip HeidelbergerDirk HoenickeMartin OhmachtBurkhard D. Steinmacher-BurowTodd E. TakkenPavlos M. Vranas
    • Matthias A. BlumrichDong ChenPaul W. CoteusAlan G. GaraMark E. GiampapaPhilip HeidelbergerDirk HoenickeMartin OhmachtBurkhard D. Steinmacher-BurowTodd E. TakkenPavlos M. Vranas
    • G06F13/28
    • G06F12/0862G06F9/52G06F2212/6028
    • A low latency memory system access is provided in association with a weakly-ordered multiprocessor system. Each processor in the multiprocessor shares resources, and each shared resource has an associated lock within a locking device that provides support for synchronization between the multiple processors in the multiprocessor and the orderly sharing of the resources. A processor only has permission to access a resource when it owns the lock associated with that resource, and an attempt by a processor to own a lock requires only a single load operation, rather than a traditional atomic load followed by store, such that the processor only performs a read operation and the hardware locking device performs a subsequent write operation rather than the processor. A simple perfecting for non-contiguous data structures is also disclosed. A memory line is redefined so that in addition to the normal physical memory data, every line includes a pointer that is large enough to point to any other line in the memory, wherein the pointers to determine which memory line to prefect rather than some other predictive algorithm. This enables hardware to effectively prefect memory access patterns that are non-contiguous, but repetitive.
    • 与弱有序的多处理器系统相关联地提供低延迟存储器系统访问。 多处理器中的每个处理器共享资源,并且每个共享资源在锁定设备内具有关联的锁,其提供对多处理器中的多个处理器之间的同步的支持以及资源的有序共享。 当处理器拥有与该资源相关联的锁定时,处理器仅具有访问资源的权限,并且处理器拥有锁的尝试仅需要单个加载操作,而不是传统的原子负载后跟存储,使得处理器 只执行读取操作,并且硬件锁定装置执行后续的写入操作而不是处理器。 还公开了用于非连续数据结构的简单完善。 存储器线被重新定义,使得除了正常的物理存储器数据之外,每行包括足够大的指针以指向存储器中的任何其他行,其中指针用于确定哪个存储器行被提供而不是一些其它预测 算法。 这使得硬件能够有效地预处理不连续但重复的存储器访问模式。
    • 65. 发明授权
    • Snoop filtering system in a multiprocessor system
    • 多处理器系统中的Snoop过滤系统
    • US08103836B2
    • 2012-01-24
    • US12126674
    • 2008-05-23
    • Matthias A. BlumrichDong ChenAlan G. GaraMark E. GiampapaPhilip HeidelbergerDirk I. HoenickeMartin OhmachtValentina SalapuraPavlos M. Vranas
    • Matthias A. BlumrichDong ChenAlan G. GaraMark E. GiampapaPhilip HeidelbergerDirk I. HoenickeMartin OhmachtValentina SalapuraPavlos M. Vranas
    • G06F13/28G06F12/00
    • G06F12/0831G06F12/0813Y02D10/13
    • A system and method for supporting cache coherency in a computing environment having multiple processing units, each unit having an associated cache memory system operatively coupled therewith. The system includes a plurality of interconnected snoop filter units, each snoop filter unit corresponding to and in communication with a respective processing unit, with each snoop filter unit comprising a plurality of devices for receiving asynchronous snoop requests from respective memory writing sources in the computing environment; and a point-to-point interconnect comprising communication links for directly connecting memory writing sources to corresponding receiving devices; and, a plurality of parallel operating filter devices coupled in one-to-one correspondence with each receiving device for processing snoop requests received thereat and one of forwarding requests or preventing forwarding of requests to its associated processing unit. Each of the plurality of parallel operating filter devices comprises parallel operating sub-filter elements, each simultaneously receiving an identical snoop request and implementing one or more different snoop filter algorithms for determining those snoop requests for data that are determined not cached locally at the associated processing unit and preventing forwarding of those requests to the processor unit. In this manner, a number of snoop requests forwarded to a processing unit is reduced thereby increasing performance of the computing environment.
    • 一种用于在具有多个处理单元的计算环境中支持高速缓存一致性的系统和方法,每个单元具有与其可操作耦合的相关联的高速缓存存储器系统 该系统包括多个互连的窥探过滤器单元,每个窥探过滤器单元对应于相应处理单元并与其通信,每个窥探过滤器单元包括用于在计算环境中从相应存储器写入源接收异步窥探请求的多个设备 ; 以及包括用于将存储器写入源直接连接到对应的接收设备的通信链路的点对点互连; 以及与每个接收设备一一对应地耦合的多个并行操作过滤器设备,用于处理在其上接收的窥探请求,并且转发请求之一或者阻止将请求转发到其相关联的处理单元。 多个并行操作过滤器装置中的每一个包括并行操作子滤波器元件,每个并行操作子滤波器元件同时接收相同的窥探请求,并且实现一个或多个不同的窥探滤波器算法,用于确定对于在相关处理中本地未被缓存的数据被确定的窥探请求 并且防止将这些请求转发到处理器单元。 以这种方式,减少了转发到处理单元的多个窥探请求,从而增加了计算环境的性能。