Administering a system dump on a redundant node controller in a computer system
    1.
    发明授权
    Administering a system dump on a redundant node controller in a computer system 有权
    在计算机系统中的冗余节点控制器上管理系统转储

    公开(公告)号:US07788520B2

    公开(公告)日:2010-08-31

    申请号:US11855355

    申请日:2007-09-14

    IPC分类号: G06F11/00

    摘要: Administering a system dump on a redundant node controller including detecting a communications failure between a system controller and the redundant node controller; generating a unique identifier for the communications failure; instructing a primary node controller to provoke a system dump on the redundant node controller; provoking the system dump on the redundant node controller including suspending a processor of the redundant node controller and storing during the suspension of the processor the unique identifier for the communications failure and an instruction to execute the system dump on the redundant node controller; releasing the processor of the redundant node controller from suspension; in response to releasing the processor from suspension, identifying the unique identifier for the communications failure and the instruction to execute the system dump; and executing the system dump including associating the system dump with the unique identifier.

    摘要翻译: 管理冗余节点控制器上的系统转储,包括检测系统控制器与冗余节点控制器之间的通信故障; 生成通信故障的唯一标识符; 指示主节点控制器在冗余节点控制器上引发系统转储; 引起冗余节点控制器上的系统转储,包括暂停冗余节点控制器的处理器,并且在处理器暂停期间存储用于通信故障的唯一标识符以及在冗余节点控制器上执行系统转储的指令; 释放冗余节点控制器的处理器暂停; 响应于释放处理器停止,识别通信故障的唯一标识符和执行系统转储的指令; 并执行系统转储,包括将系统转储与唯一标识符相关联。

    Administering correlated error logs in a computer system
    2.
    发明授权
    Administering correlated error logs in a computer system 有权
    管理计算机系统中的相关错误日志

    公开(公告)号:US07743274B2

    公开(公告)日:2010-06-22

    申请号:US11854329

    申请日:2007-09-12

    IPC分类号: G06F11/00

    摘要: Administering correlated error logs in a computer system having a system controller and one or more redundant node controllers including providing by the system controller to a redundant node controller a unique identifier for error logs; detecting by the system controller a communications failure between the system controller and the redundant node controller; in response to detecting the communications failure, generating by the system controller a system controller error log for the communications failure including the unique identifier; detecting by the redundant node controller the communications failure between the system controller and the redundant node controller; and in response to detecting the communications failure, generating by the redundant node controller a redundant node controller error log for the communications failure including the unique identifier.

    摘要翻译: 在具有系统控制器和一个或多个冗余节点控制器的计算机系统中管理相关的错误日志,包括由系统控制器向冗余节点控制器提供用于错误日志的唯一标识符; 由系统控制器检测系统控制器与冗余节点控制器之间的通信故障; 响应于检测到通信故障,由系统控制器产生用于包括唯一标识符的通信故障的系统控制器错误日志; 由冗余节点控制器检测系统控制器与冗余节点控制器之间的通信故障; 并且响应于检测到通信故障,由冗余节点控制器产生包括唯一标识符的通信故障的冗余节点控制器错误日志。

    Method For Communication Management
    3.
    发明申请
    Method For Communication Management 有权
    通信管理方法

    公开(公告)号:US20080168168A1

    公开(公告)日:2008-07-10

    申请号:US11621729

    申请日:2007-01-10

    IPC分类号: G06F15/16

    摘要: A method for communication management includes receiving at least one keyword and receiving a replay time span input. Further, the method includes receiving a plurality of communication inputs including at least a first communication input and a second communication input, monitoring at least the first communication input and second communication input for the at least one keyword, and determining an instantiation of the at least one keyword in at least one of the first communication input and second communication input. Additionally, the method includes associating the determined instantiation with one of the first communication input and second communication input, and providing at least a portion of the communication associated with the determined instantiation based on the replay time span input responsive to the instantiation.

    摘要翻译: 一种用于通信管理的方法包括接收至少一个关键字并接收重播时间跨度输入。 此外,该方法包括接收包括至少第一通信输入和第二通信输入的多个通信输入,至少监视至少一个关键字的第一通信输入和第二通信输入,以及至少确定至少一个 在第一通信输入和第二通信输入中的至少一个中的一个关键字。 另外,该方法包括将确定的实例与第一通信输入和第二通信输入之一相关联,并且基于响应于该实例的重放时间跨度输入来提供与所确定的实例的相关联的通信的至少一部分。

    CALL HOLD ENHANCEMENT FOR IMPROVED USER FEEDBACK
    5.
    发明申请
    CALL HOLD ENHANCEMENT FOR IMPROVED USER FEEDBACK 审中-公开
    呼叫保持增强改进的用户反馈

    公开(公告)号:US20080130865A1

    公开(公告)日:2008-06-05

    申请号:US11565824

    申请日:2006-12-01

    IPC分类号: H04M3/22

    CPC分类号: H04M3/523 H04M3/4285

    摘要: A method for the enhancement of a call on-hold operation by the utilization of on-hold calling party feedback information, wherein the method comprises the steps of initiating a primary call from an operator of a communication device, receiving the primary call at a call center, and placing the primary call received at the call center from the communication device in a primary on-hold status state, and placing the on-hold received primary call in an incoming call queue at the call center. Further, the primary call is placed in a secondary on-hold status by the actions of the communication device in order for the communication device to receive a secondary call, the primary call's position in the call queue is maintained, and a response from the communication device is transmitted to the call center upon the call center's suspension of the on-hold status of the primary call.

    摘要翻译: 一种用于通过使用保持呼叫方反馈信息来增强呼叫保持操作的方法,其中所述方法包括以下步骤:从通信设备的运营商发起主要呼叫,在呼叫中接收主要呼叫 中心,并将来自呼叫中心的主要呼叫从通信设备置于主要保持状态,并将保持接收的主要呼叫置于呼叫中心的呼入呼叫队列中。 此外,通过通信设备的动作将主呼叫置于辅助保持状态,以便通信设备接收辅助呼叫,维护主呼叫在呼叫队列中的位置,以及来自通信的响应 当呼叫中心暂停主呼叫的保持状态时,设备被传送到呼叫中心。

    Recovery of a redundant node controller in a computer system
    6.
    发明授权
    Recovery of a redundant node controller in a computer system 有权
    在计算机系统中恢复冗余节点控制器

    公开(公告)号:US07734948B2

    公开(公告)日:2010-06-08

    申请号:US11842409

    申请日:2007-08-21

    IPC分类号: G06F11/00

    CPC分类号: G06F11/2025 G06F11/2038

    摘要: Recovery of a redundant node controller in a computer system including determining a loss of a heartbeat for a predefined period of time between a system controller and the redundant node controller; in response to determining the loss of the heartbeat for the predefined period of time, checking network connectivity between the system controller and the redundant node controller; if there is network connectivity between the system controller and the redundant node controller, determining whether an application on the redundant node controller is running; and if an application on the redundant node controller is running, resetting the redundant node controller through a primary node controller.

    摘要翻译: 恢复计算机系统中的冗余节点控制器,包括在系统控制器和冗余节点控制器之间的预定义时间段内确定心跳的丢失; 响应于在预定时间段内确定心跳的丢失,检查系统控制器与冗余节点控制器之间的网络连接; 如果系统控制器与冗余节点控制器之间存在网络连接,则确定冗余节点控制器上的应用是否正在运行; 并且如果冗余节点控制器上的应用程序正在运行,则通过主节点控制器重置冗余节点控制器。

    Recovery Of A Redundant Node Controller In A Computer System
    7.
    发明申请
    Recovery Of A Redundant Node Controller In A Computer System 有权
    在计算机系统中恢复冗余节点控制器

    公开(公告)号:US20090055679A1

    公开(公告)日:2009-02-26

    申请号:US11842409

    申请日:2007-08-21

    IPC分类号: G06F11/00

    CPC分类号: G06F11/2025 G06F11/2038

    摘要: Recovery of a redundant node controller in a computer system including determining a loss of a heartbeat for a predefined period of time between a system controller and the redundant node controller; in response to determining the loss of the heartbeat for the predefined period of time, checking network connectivity between the system controller and the redundant node controller; if there is network connectivity between the system controller and the redundant node controller, determining whether an application on the redundant node controller is running; and if an application on the redundant node controller is running, resetting the redundant node controller through a primary node controller.

    摘要翻译: 恢复计算机系统中的冗余节点控制器,包括在系统控制器和冗余节点控制器之间的预定义时间段内确定心跳的丢失; 响应于在预定时间段内确定心跳的丢失,检查系统控制器与冗余节点控制器之间的网络连接; 如果系统控制器与冗余节点控制器之间存在网络连接,则确定冗余节点控制器上的应用是否正在运行; 并且如果冗余节点控制器上的应用程序正在运行,则通过主节点控制器重置冗余节点控制器。

    Method, system and computer program product for recovery of formatting in repair of bad sectors in flash memory
    8.
    发明授权
    Method, system and computer program product for recovery of formatting in repair of bad sectors in flash memory 有权
    用于恢复闪存中坏扇区修复格式的方法,系统和计算机程序产品

    公开(公告)号:US07480829B2

    公开(公告)日:2009-01-20

    申请号:US11274850

    申请日:2005-11-15

    IPC分类号: G06F11/00

    摘要: A method for correcting a formatting error in a flash memory is disclosed. An error in a first formatting of a first flash memory is discovered, and a second formatting is extracted from a second flash memory storing second data. The erroneous first formatting is replaced with a modification of the second formatting, and first data is stored in the first flash memory with the modification of the second formatting. The first data is different from the second data.

    摘要翻译: 公开了一种用于校正闪存中的格式化错误的方法。 发现第一闪存的第一格式的错误,并且从存储第二数据的第二闪存中提取第二格式。 错误的第一格式化被替换为第二格式的修改,并且第一数据被存储在第一闪存中并且修改了第二格式。 第一数据与第二数据不同。

    Aircraft propulsion system using air liquefaction and storage
    9.
    发明授权
    Aircraft propulsion system using air liquefaction and storage 失效
    使用空气液化和储存的飞机推进系统

    公开(公告)号:US5106035A

    公开(公告)日:1992-04-21

    申请号:US459254

    申请日:1989-12-29

    IPC分类号: B64D27/24

    摘要: An aircraft propulsion system includes a propeller for propelling the aircraft, an electric motor for driving the propeller, and an electrochemical fuel cell for receiving an oxidizer and providing propulsion power to the electric motor. An air liquefaction system is used for receiving ambient air and providing oxidizer to the fuel cell. Preferably, at low altitude, the air liquefaction system provides oxidizer to the fuel cell and to an oxidizer fuel tank. Then, during high altitude excursions, the oxidizer is provided to the fuel cell from the oxidizer fuel tank. When the oxidizer tank is empty, the aircraft returns to a lower altitude where extraction of oxidizer from the atmosphere is resumed.

    摘要翻译: 飞机推进系统包括用于推进飞行器的螺旋桨,用于驱动螺旋桨的电动机和用于接收氧化剂并向电动机提供推进动力的电化学燃料电池。 空气液化系统用于接收环境空气并向燃料电池提供氧化剂。 优选地,在低空处,空气液化系统向燃料电池和氧化剂燃料箱提供氧化剂。 然后,在高空偏移期间,将氧化剂从氧化剂燃料箱提供给燃料电池。 当氧化剂箱是空的时候,飞机返回到较低的高度,在那里从大气中提取氧化剂被恢复。