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    • 5. 发明申请
    • AUTONOMIC RECOVERY FROM HARDWARE ERRORS IN AN INPUT/OUTPUT FABRIC
    • 自动恢复输入/输出织物中的硬件错误
    • US20060281630A1
    • 2006-12-14
    • US11466290
    • 2006-08-22
    • David BaileyTrung NguyenGregory NordstromKanisha PatelSteven Thurber
    • David BaileyTrung NguyenGregory NordstromKanisha PatelSteven Thurber
    • B01J27/24
    • G06F11/0793G06F11/0712G06F11/0745
    • An apparatus, program product and method propagate errors detected in an IO fabric element from an IO fabric that is used to couple a plurality of endpoint IO resources to processing elements in a computer. In particular, such errors are propagated to the endpoint IO resources affected by the IO fabric element in connection with recovering from the errors in the IO fabric element. By doing so, a device driver or other program code used to access each affected IO resources may be permitted to asynchronously recover from the propagated error in its associated IO resource, and often without requiring the recovery from the error in the IO fabric element to wait for recovery to be completed for each of the affected IO resources. In addition, an IO fabric may be dynamically configured to support both recoverable and non-recoverable endpoint IO resources. In particular, IO fabric elements within an IO fabric may be dynamically configured to enable machine check signaling in such IO fabric elements in response to detection that an endpoint IO resource is non-recoverable in nature. The IO fabric elements that are dynamically configured as such are disposed within a hardware path that is defined between the non-recoverable resource and a processor that accesses the non-recoverable resource.
    • 装置,程序产品和方法将用于将多个端点IO资源耦合到计算机中的处理元件的IO架构在IO结构元素中检测到的错误传播。 特别地,这些错误被传播到由IO结构元素影响的端点IO资源以及从IO结构元素中的错误的恢复。 通过这样做,可以允许用于访问每个受影响的IO资源的设备驱动程序或其他程序代码从其关联的IO资源中的传播错误异步恢复,并且通常不需要从IO架构元素中的错误中恢复以等待 以便为每个受影响的IO资源完成恢复。 此外,IO结构可以动态配置为支持可恢复和不可恢复的端点IO资源。 特别地,IO结构中的IO结构元素可以被动态地配置成使得在这种IO结构元素中的机器检查信令能够响应于端点IO资源在本质上是不可恢复的检测。 被动态地配置的IO结构元素被布置在在不可恢复资源和访问不可恢复资源的处理器之间定义的硬件路径中。
    • 8. 发明申请
    • Computer apparatus and method for autonomically detecting system reconfiguration and maintaining persistent I/O bus numbering
    • 用于自动检测系统重新配置和维护持续I / O总线编号的计算机设备和方法
    • US20050010705A1
    • 2005-01-13
    • US10616683
    • 2003-07-10
    • David BaileyGregory NordstromThomas Sand
    • David BaileyGregory NordstromThomas Sand
    • G06F13/00G06F13/40
    • G06F13/4081
    • In a computer system that includes multiple physical enclosures, an enclosure includes a non-volatile memory that includes bus numbering information for its own buses as well as bus numbering information for one or more of its neighbors. In the preferred implementation, all enclosures include a non-volatile memory that includes bus numbering information for its own buses and for both of its neighbors. This creates a distributed database of the interconnection topology for the computer system. Because an enclosure contains bus numbering information about its neighbor enclosure(s), the bus numbers for the buses in the physical enclosures are made persistent across numerous different system reconfigurations. The preferred embodiments also include a bus number manager that reads the non-volatile memories in the physical enclosures during initial program load (i.e., boot) that reconstructs the interconnection topology from the information read from the non-volatile memories, and that assigns bus numbers to the buses according to the derived interconnection topology.
    • 在包括多个物理外壳的计算机系统中,机箱包括非易失性存储器,其包括用于其自己的总线的总线编号信息以及用于其一个或多个邻居的总线编号信息。 在优选实施方式中,所有外壳包括非易失性存储器,其包括用于其自己的总线及其两个邻居的总线编号信息。 这将创建计算机系统的互连拓扑的分布式数据库。 由于机箱包含有关其邻近机箱的总线编号信息,所以物理机柜中总线的总线编号在多个不同的系统重新配置中保持不变。 优选实施例还包括总线编号管理器,其在初始程序加载(即引导)期间读取物理外壳中的非易失性存储器,其根据从非易失性存储器读取的信息重建互连拓扑,并且分配总线编号 根据导出的互连拓扑到总线。