会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 62. 发明申请
    • L2 cache array topology for large cache with different latency domains
    • 具有不同延迟域的大型缓存的L2缓存阵列拓扑
    • US20060179223A1
    • 2006-08-10
    • US11054930
    • 2005-02-10
    • Leo ClarkGuy GuthrieKirk LivingstonWilliam Starke
    • Leo ClarkGuy GuthrieKirk LivingstonWilliam Starke
    • G06F12/00
    • G06F12/0897G06F12/0822G06F12/0824
    • A cache memory logically associates a cache line with at least two cache sectors of a cache array wherein different sectors have different output latencies and, for a load hit, selectively enables the cache sectors based on their latency to output the cache line over successive clock cycles. Larger wires having a higher transmission speed are preferably used to output the cache line corresponding to the requested memory block. In the illustrative embodiment the cache is arranged with rows and columns of the cache sectors, and a given cache line is spread across sectors in different columns, with at least one portion of the given cache line being located in a first column having a first latency, and another portion of the given cache line being located in a second column having a second latency greater than the first latency. One set of wires oriented along a horizontal direction may be used to output the cache line, while another set of wires oriented along a vertical direction may be used for maintenance of the cache sectors. A given cache line is further preferably spread across sectors in different rows or cache ways. For example, a cache line can be 128 bytes and spread across four sectors in four different columns, each sector containing 32 bytes of the cache line, and the cache line is output over four successive clock cycles with one sector being transmitted during each of the four cycles.
    • 缓存存储器逻辑地将高速缓存行与高速缓存阵列的至少两个缓存扇区相关联,其中不同扇区具有不同的输出延迟,并且对于负载命中,基于它们的等待时间来选择性地启用高速缓存扇区以在连续的时钟周期上输出高速缓存行 。 优选使用具有较高传输速度的较大导线来输出与所请求的存储块相对应的高速缓存行。 在说明性实施例中,高速缓存器配置有高速缓存扇区的行和列,并且给定的高速缓存行分布在不同列中的扇区之间,其中给定高速缓存行的至少一部分位于具有第一等待时间的第一列中 并且所述给定高速缓存行的另一部分位于具有大于所述第一等待时间的第二等待时间的第二列中。 可以使用沿水平方向定向的一组线来输出高速缓存线,而沿着垂直方向定向的另一组线可以用于高速缓存扇区的维护。 给定的高速缓存行进一步优选地分布在不同行或高速缓存方式的扇区之间。 例如,高速缓存行可以是128字节并且分布在四个不同列中的四个扇区上,每个扇区包含32个字节的高速缓存行,并且高速缓存行在四个连续的时钟周期内被输出,在每个 四个周期。
    • 65. 发明申请
    • Method, apparatus, and computer program product in a processor for dynamically during runtime allocating memory for in-memory hardware tracing
    • 处理器中的方法,装置和计算机程序产品在运行时动态地分配用于存储器内硬件跟踪的存储器
    • US20060184836A1
    • 2006-08-17
    • US11055977
    • 2005-02-11
    • Ra'ed Al-OmariAlexander MericasWilliam Starke
    • Ra'ed Al-OmariAlexander MericasWilliam Starke
    • G06F11/00
    • G06F11/2268G06F11/3476G06F11/348
    • A method, apparatus, and computer program product are disclosed in a processor for dynamically, during runtime, allocating memory for in-memory hardware tracing. The processor is included within a data processing system. The processor includes multiple processing units that are coupled together utilizing a system bus. The processing units include a memory controller that controls a system memory. A particular size of the system memory is determined that is needed for storing trace data. A hardware trace facility requests, dynamically after the data processing system has completed booting, the particular size of the system memory to be allocated to the hardware trace facility for storing trace data that is captured by the hardware trace facility. The firmware selects particular locations within the system memory. All of the particular locations together are the particular size. The firmware allocates the particular locations for use exclusively by the hardware trace facility.
    • 在处理器中公开了一种方法,装置和计算机程序产品,用于在运行时期间动态地为存储器内硬件跟踪分配存储器。 处理器包含在数据处理系统中。 处理器包括使用系统总线耦合在一起的多个处理单元。 处理单元包括控制系统存储器的存储器控​​制器。 确定存储跟踪数据所需的特定大小的系统存储器。 硬件跟踪设施在数据处理系统完成启动之后动态地请求要分配给硬件跟踪设备的系统内存的特定大小,用于存储由硬件跟踪设备捕获的跟踪数据。 固件选择系统内存中的特定位置。 所有特定位置在一起是特定的尺寸。 固件分配由硬件跟踪设备专门使用的特定位置。
    • 66. 发明申请
    • Store stream prefetching in a microprocessor
    • 在微处理器中存储流预取
    • US20060179238A1
    • 2006-08-10
    • US11054871
    • 2005-02-10
    • John GriswellHung LeFrancis O'ConnellWilliam StarkeJeffrey StuecheliAlbert Williams
    • John GriswellHung LeFrancis O'ConnellWilliam StarkeJeffrey StuecheliAlbert Williams
    • G06F13/28
    • G06F12/0862G06F9/30043G06F9/30047G06F9/383G06F12/0811
    • In a microprocessor having a load/store unit and prefetch hardware, the prefetch hardware includes a prefetch queue containing entries indicative of allocated data streams. A prefetch engine receives an address associated with a store instruction executed by the load/store unit. The prefetch engine determines whether to allocate an entry in the prefetch queue corresponding to the store instruction by comparing entries in the queue to a window of addresses encompassing multiple cache blocks, where the window of addresses is derived from the received address. The prefetch engine compares entries in the prefetch queue to a window of 2M contiguous cache blocks. The prefetch engine suppresses allocation of a new entry when any entry in the prefetch queue is within the address window. The prefetch engine further suppresses allocation of a new entry when the data address of the store instruction is equal to an address in a border area of the address window.
    • 在具有加载/存储单元和预取硬件的微处理器中,预取硬件包括预取队列,其包含指示分配的数据流的条目。 预取引擎接收与由加载/存储单元执行的存储指令相关联的地址。 预取引擎通过将队列中的条目与包含多个高速缓存块的地址的窗口进行比较来确定是否对与存储指令相对应的预取队列中的条目进行分配,其中地址窗口从接收到的地址导出。 预取引擎将预取队列中的条目与两个连续高速缓存块的窗口进行比较。 当预取队列中的任何条目都在地址窗口内时,预取引擎抑制新条目的分配。 当存储指令的数据地址等于地址窗口的边界区域中的地址时,预取引擎进一步抑制新条目的分配。
    • 67. 发明申请
    • DATA PROCESSING SYSTEM AND METHOD OF DATA PROCESSING SUPPORTING TICKET-BASED OPERATION TRACKING
    • 数据处理系统和数据处理方法支持基于票单的操作跟踪
    • US20070266126A1
    • 2007-11-15
    • US11279643
    • 2006-04-13
    • Leo ClarkJames FieldsBenjiman GoodmanWilliam StarkeJeffrey Stuecheli
    • Leo ClarkJames FieldsBenjiman GoodmanWilliam StarkeJeffrey Stuecheli
    • G06F15/173
    • G06F12/0831G06F12/0897G06F12/1458
    • A data processing system includes a plurality of processing units coupled by a plurality of communication links for point-to-point communication such that at least some of the communication between multiple different ones of the processing units is transmitted via intermediate processing units among the plurality of processing units. The communication includes operations having a request and a combined response representing a system response to the request. At least each intermediate processing unit includes one or more masters that initiate first operations, a snooper that receives at least second operations initiated by at least one other of the plurality of processing units, a physical queue that stores master tags of first operations initiated by the one or more masters within that processing unit, and a ticketing mechanism that assigns to second operations observed at the intermediate processing unit a ticket number indicating an order of observation with respect to other second operations observed by the intermediate processing unit. The ticketing mechanism provides the ticket number assigned to an operation to the snooper for processing with a combined response of the operation.
    • 数据处理系统包括由多个通信链路耦合用于点对点通信的多个处理单元,使得多个处理单元中的多个不同处理单元之间的通信中的至少一些通过多个处理单元之间的中间处理单元发送 处理单位。 该通信包括具有请求的操作和表示对请求的系统响应的组合响应。 至少每个中间处理单元包括启动第一操作的一个或多个主机,至少接收由所述多个处理单元中的至少另一个处理单元发起的至少第二操作的侦听器;存储由所述多个处理单元发起的第一操作的主标签的物理队列 在该处理单元内的一个或多个主设备,以及票据机构,其分配在中间处理单元处观察到的第二操作,该票单号指示关于由中间处理单元观察到的其他第二操作的观察次序。 票务机制将分配给操作员的操作的票号提供给操作的组合响应进行处理。
    • 70. 发明申请
    • Method, apparatus, and computer program product in a processor for performing in-memory tracing using existing communication paths
    • 处理器中的方法,装置和计算机程序产品,用于使用现有通信路径执行内存中跟踪
    • US20060184833A1
    • 2006-08-17
    • US11055821
    • 2005-02-11
    • Ra'ed Al-OmariAlexander MericasWilliam Starke
    • Ra'ed Al-OmariAlexander MericasWilliam Starke
    • G06F11/00
    • G06F11/2268G06F11/348
    • A method, apparatus, and computer program product are disclosed for performing in-memory hardware tracing in a processor using an existing system bus. The processor includes multiple processing units that are coupled together utilizing the system bus. The processing units include a memory controller that controls a system memory. Information is transmitted among the processing units utilizing the system bus. The information is formatted according to a standard system bus protocol. Hardware trace data is captured utilizing a hardware trace facility that is coupled directly to the system bus. The system bus is utilized for transmitting the hardware trace data to the memory controller for storage in the system memory. The memory controller is coupled directly to the system bus. The hardware trace data is formatted according to the standard system bus protocol for transmission via the system bus.
    • 公开了一种用于使用现有系统总线在处理器中执行存储器内硬件跟踪的方法,装置和计算机程序产品。 处理器包括利用系统总线耦合在一起的多个处理单元。 处理单元包括控制系统存储器的存储器控​​制器。 利用系统总线在处理单元之间传送信息。 信息根据标准系统总线协议进行格式化。 使用直接耦合到系统总线的硬件跟踪功能来捕获硬件跟踪数据。 系统总线用于将硬件跟踪数据发送到存储器控制器以存储在系统存储器中。 存储器控制器直接耦合到系统总线。 硬件跟踪数据根据标准系统总线协议进行格式化,以便通过系统总线进行传输。