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    • 1. 发明申请
    • REMOTE MIRRORING IN A SWITCHED ENVIRONMENT
    • 在开关环境中远程监控
    • US20070198668A1
    • 2007-08-23
    • US11627000
    • 2007-01-25
    • David MeiriDan ArnonMark HalsteadPeter Kamvysselis
    • David MeiriDan ArnonMark HalsteadPeter Kamvysselis
    • G06F15/177
    • H04L67/1095G06F11/20G06F11/201G06F11/2071H04L67/1097
    • A mechanism to support remote mirroring of storage devices by data storage systems in a one-to-many switched environment. Each data storage system includes a disk director that is adapted to control at least one device group that is supported in a mirrored configuration with a corresponding device group controlled by one of the other data storage systems. For each device group and corresponding device group, there are first ports associated with the device group and second ports associated with the corresponding device group. A switch element is adapted to connect one of the first ports to at least one of the second ports so that data may be exchanged between the ports for each device group and corresponding device group. The disk director selects which first port is to be connected to which second port via the switch element in the establishment of a logical link. Thus, each port connected to the switch is capable of achieving multiple connections to multiple destinations for increased connectivity, redundancy and performance (load balance) without additional hardware.
    • 支持数据存储系统在一对多交换环境中远程镜像存储设备的机制。 每个数据存储系统包括磁盘引导器,该磁盘引导器适于控制被镜像配置中支持的至少一个设备组与由其他数据存储系统之一控制的相应设备组。 对于每个设备组和相应的设备组,都有与设备组相关联的第一个端口和与相应设备组相关联的第二个端口。 开关元件适于将第一端口中的一个连接到至少一个第二端口,使得可以在用于每个设备组和相应设备组的端口之间交换数据。 在建立逻辑链路时,磁盘控制器通过交换机元件选择要连接到哪个第二端口的第一端口。 因此,连接到交换机的每个端口能够实现多个连接到多个目的地,以增加连接性,冗余和性能(负载平衡),而无需额外的硬件。
    • 3. 发明申请
    • Determining configuration data in connection with dynamic RDF
    • 确定与动态RDF相关的配置数据
    • US20050091463A1
    • 2005-04-28
    • US10995810
    • 2004-11-23
    • Mark HalsteadDan ArnonDavid Meiri
    • Mark HalsteadDan ArnonDavid Meiri
    • G06F3/06G06F11/20H04L12/56G06F12/00
    • G06F11/1666G06F3/0601G06F11/20G06F11/2069G06F2003/0697H04L12/56Y10S707/99952Y10S707/99953
    • Dynamically creating a communication path between first and second storage devices, includes creating a connection to a source volume on the first storage device and indicating that the source volume is not ready to transmit data on the communication path, after successfully creating the connection to the source volume, creating a connection to a destination volume on the second storage device and initially indicating that portions of one of: the destination volume and the source volume do not contain valid copies of data, where the destination volume accepts data from the source volume, and after successfully creating the connections to the source and destination volumes, indicating that the source volume is ready to transmit data on the communication path. Dynamically creating a communication path between first and second storage devices, may also include creating at least one of: the source volume and the destination volume. Creating the connection to the source volume may include modifying a table containing configuration information for the first storage device. Creating the connection to the destination volume may include modifying a table containing configuration information for the second storage device.
    • 在第一和第二存储设备之间动态地创建通信路径,包括在成功创建到源的连接之后创建到第一存储设备上的源卷的连接并且指示源卷未准备好在通信路径上传输数据 创建与第二存储设备上的目的地卷的连接,并且最初指示目的卷和源卷之一的部分不包含数据的有效副本,其中目的地卷接收来自源卷的数据,以及 在成功创建到源卷和目标卷的连接后,指示源卷准备好在通信路径上传输数据。 在第一和第二存储设备之间动态地创建通信路径还可以包括创建源卷和目的地卷中的至少一个。 创建与源卷的连接可能包括修改包含第一个存储设备的配置信息的表。 创建到目标卷的连接可能包括修改包含第二个存储设备的配置信息的表。
    • 4. 发明授权
    • Multisite replication with coordinated cycle switching
    • 具有协调循环切换的多站点复制
    • US08732124B1
    • 2014-05-20
    • US13429504
    • 2012-03-26
    • Dan ArnonDavid MeiriMark HalsteadBenjamin YoderOliver M. D. Shorey
    • Dan ArnonDavid MeiriMark HalsteadBenjamin YoderOliver M. D. Shorey
    • G06F17/30
    • G06F17/30578G06F11/00G06F11/1464
    • Handling asynchronous data provided by at least two sources includes synchronizing data between the at least two sources, coordinating cycle switching between the at least two sources, where an asynchronous cycle of data from one of the sources corresponds to an asynchronous cycle of data from an other one of the sources, receiving asynchronous data corresponding to a data cycle from at least one of the sources, and saving at least some of the received data. A first portion of data for a particular cycle may be transmitted from one of the sources and a second portion of data for the particular cycle, different from the first portion of data, may be transmitted from an other one of the sources and the first portion and the second portion together may correspond to all of the data for the particular cycle.
    • 处理由至少两个源提供的异步数据包括在至少两个源之间同步数据,协调至少两个源之间的周期切换,其中来自一个源的数据的异步周期对应于来自另一个源的数据的异步周期 其中一个源,从至少一个源接收对应于数据周期的异步数据,并且保存至少一些所接收的数据。 用于特定周期的数据的第一部分可以从源之一发送,并且与数据的第一部分不同的特定周期的第二数据部分可以从源中的另一个发送,并且第一部分 并且第二部分在一起可以对应于特定周期的所有数据。
    • 5. 发明申请
    • Scanning a message-list
    • 扫描消息列表
    • US20050204000A1
    • 2005-09-15
    • US11083486
    • 2005-03-18
    • David MeiriDan ArnonMark HalsteadPeter Kamvysselis
    • David MeiriDan ArnonMark HalsteadPeter Kamvysselis
    • G06F15/16H04Q7/20
    • G06F15/16
    • A method for scanning a message-list accessible to a plurality of processors includes retrieving, from a cache associated with a scanning processor from the plurality of processors, information identifying a starting message-slot. This information is then used to begin a scan of the message-list at that starting message-slot. The information indicating the starting message-slot is obtained by identifying, in the message-list, a message-slot containing a message intended for a recipient processor from the plurality of processors and obtaining, from the identified message-slot, information indicative of a location of a succeeding message-slot in the message-list. This information is then cached, for retrieval during a subsequent scan of the message-list.
    • 用于扫描多个处理器可访问的消息列表的方法包括从多个处理器中的与扫描处理器相关联的高速缓存中检索标识起始消息时隙的信息。 然后,该信息用于开始在该起始消息时隙处的消息列表的扫描。 指示起始消息时隙的信息通过在消息列表中识别包含来自多个处理器的接收者处理器的消息的消息时隙来获得,并从所标识的消息时隙获得指示 消息列表中的后续消息时隙的位置。 然后将该信息缓存,以便在消息列表的后续扫描期间进行检索。
    • 8. 发明授权
    • Techniques for dynamic binding of device identifiers to data storage devices
    • 用于将设备标识符动态绑定到数据存储设备的技术
    • US08966211B1
    • 2015-02-24
    • US13329758
    • 2011-12-19
    • Dan ArnonDavid Meiri
    • Dan ArnonDavid Meiri
    • G06F12/00G06F13/00G06F13/28
    • G06F13/102
    • Described are techniques for performing dynamic binding of device identifiers to data storage devices. A first device identifier assigned to an application on a host is received. The first device identifier is a unique detachable device identifier dynamically bound to different data storage devices at different points in time in accordance with data storage devices used by the application. The first device identifier is attached to a first data storage device of the data storage system used by the application at a first point in time. The first device identifier is detached from the first data storage device thereby making the first data storage device unavailable for data operations from the application. The first device identifier is attached to a second data storage device used by the application at a second point in time thereby making the second data storage device available for data operations from the application.
    • 描述了用于执行设备标识符到数据存储设备的动态绑定的技术。 接收分配给主机上的应用的第一设备标识符。 第一设备标识符是根据应用使用的数据存储设备在不同时间点动态地绑定到不同数据存储设备的唯一的可拆卸设备标识符。 第一设备标识符附加到应用在第一时间点使用的数据存储系统的第一数据存储设备。 第一设备标识符与第一数据存储设备分离,从而使得第一数据存储设备不可用于来自应用的数据操作。 第一设备标识符附加到在第二时间点由应用使用的第二数据存储设备,从而使第二数据存储设备可用于来自应用的数据操作。
    • 9. 发明授权
    • Link sharing for multiple replication modes
    • 多种复制模式的链路共享
    • US08838849B1
    • 2014-09-16
    • US13314849
    • 2011-12-08
    • David MeiriDan Arnon
    • David MeiriDan Arnon
    • G06F13/20
    • G06F13/385
    • Sharing at least one link among a plurality of processes includes determining a capacity of the at least one link based on a number of I/O operations per unit time supported by the at least one link as a function of the amount of data provided by each of the I/O operations, determining a requirement of each of the processes based on user specifications and an amount of data provided by each I/O operation for each of the processes, and apportioning link capacity among the processes according to the requirement of each of the processes. In response to a sum of requirements for each of the processes being less than the capacity of the at least one link, additional link capacity may be provided to at least some of the processes.
    • 在多个处理中共享至少一个链路包括基于由至少一个链路支持的每单位时间的I / O操作的数量来确定至少一个链路的容量,作为由每个链路提供的数据量的函数 的I / O操作,根据用户规格确定每个进程的要求,以及根据每个进程的每个I / O操作提供的数据量,以及根据每个进程的要求在进程之间分配链路容量 的过程。 响应于每个过程的要求的总和小于至少一个链路的容量的总和,可以向至少一些进程提供额外的链路容量。
    • 10. 发明授权
    • Obtaining data from a remote storage device
    • 从远程存储设备获取数据
    • US06553464B1
    • 2003-04-22
    • US09801252
    • 2001-03-07
    • Peter KamvysselisDan ArnonDavid MeiriMark J. Halstead
    • Peter KamvysselisDan ArnonDavid MeiriMark J. Halstead
    • G06F1516
    • H04L29/06H04L67/10H04L67/2842H04L69/329
    • Providing data from a volume of a remote storage device coupled to a local storage device that is coupled to a host, includes providing a command to the remote storage device to request the data, if the data is stored in a cache portion of the remote storage device, the remote storage device providing the data, and if the data is not stored in the cache portion of the remote storage device, the remote storage device causing the data to be fetched from the volume and returning one of: a disconnect or an indicator that the data was not found. Causing the data to be fetched from the volume may include creating a separate wait task that waits for the data to be fetched from the volume. The separate wait task may be created only if there is not already another wait task waiting for the same data. The wait task may post an error if the data is not fetched after a predetermined amount of time, such as four seconds. An error may be posted if the data is not fetched after a predetermined amount of time, such as eight seconds. After the data has been fetched from the volume, the remote storage device may provide a reconnect command followed by the data.
    • 从耦合到与主机耦合的本地存储设备的远程存储设备的卷的数据提供数据包括向所述远程存储设备提供命令以请求所述数据,如果所述数据被存储在所述远程存储器的高速缓存部分中 设备,提供数据的远程存储设备,以及如果数据未被存储在远程存储设备的高速缓存部分中,则远程存储设备使数据从卷中获取并返回以下之一:断开或指示符 没有找到数据。 导致从卷中获取的数据可能包括创建等待从卷中获取的数据的单独的等待任务。 只有当尚未有其他等待任务等待相同数据时,才能创建单独的等待任务。 如果在预定的时间量(例如四秒)之后未获取数据,则等待任务可能发布错误。 如果在预定的时间(例如8秒)之后未获取数据,则可能会发布错误。 从卷中取出数据后,远程存储设备可以提供重新连接命令,后跟数据。