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    Fault tolerant storage controller utilizing tightly coupled dual controller modules
    5.
    发明授权
    Fault tolerant storage controller utilizing tightly coupled dual controller modules 失效
    固定连接的两用控制模块容错存储控制器

    公开(公告)号:EP0632379B1

    公开(公告)日:2004-08-18

    申请号:EP94108649.8

    申请日:1994-06-06

    申请人: Compaq Computer Corporation

    发明人: Sicola, Stephen J. Jackson, James P. Oakey, Roger L. Brame, Richard G. Mclean, Ronald H. Walker, Michael D. Fava, Thomas F. Adams, Thomas Gene

    IPC分类号: G06F11/16 G06F11/20

    CPC分类号: G06F11/2089 G06F11/1008 G06F11/1662 G06F11/201 G06F11/2097

    摘要: A fault tolerant storage controller utilizing tightly coupled dual controller modules. The controller modules each check to see if another controller module or cache module is present and, if so, then all configuration information with respect to the controller modules and attached devices are shared between them. Configuration information may be entered into either or both of the controller modules and the information is shared dynamically. Each cache module may be "locked" by an individual controller module to prevent the other controller module from inadvertently disturbing the contents of the other controller module's cache. During initialization, each controller module checks for the existence of an associated cache module and, if present, it is immediately "locked" by the controller module. Should a controller module fail or give an indication of a malfunction, the other controller module will disable or "kill" the malfunctioning controller module thereby resetting it and releasing any lock it may have had on its cache module. In those instances where the cache module is a write cache, the surviving controller module can resume operations where the malfunctioning controller module left off and complete any remaining writes to the disabled controller module's storage devices preventing the loss of any host computer data. The controller modules are tolerant of the other controller module failing and then rebooting and the sequence of events is detected and recognized by the surviving controller module such that it does not disable the one that failed. The dual controller modules communicate asynchronously to verify that they are each operational and to exchange and verify configuration information and to provide operational status dynamically.

    Dynamic hibernation time in a computer system
    6.
    发明授权
    Dynamic hibernation time in a computer system 失效
    动态Hibernationszeit计算机系统

    公开(公告)号:EP0819999B1

    公开(公告)日:2004-04-28

    申请号:EP97305237.6

    申请日:1997-07-15

    申请人: Compaq Computer Corporation

    发明人: Hallowell, William C. Fritz, Brian C.

    IPC分类号: G06F1/30 G06F11/14

    CPC分类号: G06F9/4418 G06F1/30 G06F11/1441 Y02D10/44

    摘要: A dynamic hibernation time apparatus monitors and ensures that battery packs in a computer system have sufficient energy capacity to sustain a proper saving of the hibernation file into the hard disk drive. The invention determines the memory size of the computer and adds the storage space needed to store the chip register contents to arrive at the determination of the hibernation file size. Next, the time necessary to save the hibernation file on the disk data storage device and the hibernation energy required to operate the disk data storage device to completely save the hibernation file are determined. When the battery capacity drops within a range of the previously computed hibernation energy, a warning message is generated at the user and the hibernation file is saved. The computer is shut down after the hibernation file has been properly saved. Thus, by determining the total memory size to be saved in the hibernation file, by determining the time and the energy required to completely store the hibernation file into the disk drive, and by sensing either the battery capacity or requesting that the smart battery sends an alarm to initiate the hibernation file saving process, the present invention ensures that sufficient energy exists in the battery packs to properly save the hibernation file onto the hard disk drive before system shut down occurs due to low battery capacity without wasting energy by determining the set point based on a maximum memory configuration.

    On-line disk array reconfiguration
    7.
    发明授权
    On-line disk array reconfiguration 失效
    在线重新配置一个磁盘阵列的

    公开(公告)号:EP0768599B1

    公开(公告)日:2003-12-17

    申请号:EP96307279.8

    申请日:1996-10-04

    申请人: COMPAQ COMPUTER CORPORATION (a Delaware corporation)

    发明人: Schultz, Stephen M. Thompson, Mark J.

    IPC分类号: G06F3/06 G06F11/10

    CPC分类号: G06F11/1096 G06F3/0626 G06F3/0632 G06F3/0689 G11C29/74

    摘要: A system for performing on-line reconfiguration of a disk array in which a source logical volume is reconfigured to a destination logical volume. Disk array configuration is invoked if a new physical drive is inserted, or a drive is removed. Reconfiguration can also be performed if the user desires to change the configuration of a particular logical volume, such as its stripe size. The disk array reconfiguration is run as a background task by firmware on a disk controller board. The reconfigure task first moves data from the source logical volume to a posting memory such as RAM memory. The reconfigure task operates one stripe at a time, with the stripe size being that of the destination logical volume. Once a stripe of data is moved into the posting memory, it is written back to corresponding locations in the destination logical volume. The reconfigure task continues until all data in the source logical volume have been moved into the destination logical volume. While the reconfigure task is working on a particular logical volume, data remains accessible to host write and read requests.