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    • 2. 发明授权
    • Volume sharing method and storage system using the same
    • 卷共享方法和存储系统使用相同
    • US08527716B2
    • 2013-09-03
    • US13262962
    • 2011-09-20
    • Toru TanakaNoriko NakajimaYasunori Kaneda
    • Toru TanakaNoriko NakajimaYasunori Kaneda
    • G06F13/00
    • G06F3/0665G06F3/0608G06F3/061G06F3/067
    • Since only one golden image (GI) of a snapshot can exist and is shared among a plurality of storage apparatuses, there was a problem that migration or copy thereof deteriorates the capacity efficiency and increases the cost for managing consistency. The present invention solves the above-mentioned problem by either (1) a direct sharing method of generating a parent-child relationship of snapshots among different storage apparatuses at the time of creating differential LUs from the GI or (2) a virtual sharing method of creating virtual LUs of the GI in the respective storage apparatuses and creating differential LUs of the snapshots from the created virtual LUs, using a storage virtualization function among a plurality of storage apparatuses.
    • 由于快照的仅一个黄金图像(GI)可以存在并且在多个存储装置之间共享,所以存在迁移或复制劣化了容量效率并增加了用于管理一致性的成本的问题。 本发明通过以下方式解决了上述问题:(1)在从GI产生差分LU时,在不同存储装置之间生成快照的父子关系的直接共享方法,或(2)虚拟共享方法 在各个存储装置中创建GI的虚拟LU,并使用多个存储装置中的存储虚拟化功能,从创建的虚拟LU创建快照的差分LU。
    • 3. 发明授权
    • Method and device for eliminating patch duplication
    • 消除补丁重复的方法和设备
    • US08458697B2
    • 2013-06-04
    • US12936041
    • 2010-09-14
    • Takashi AmanoYasunori KanedaToru TanakaNoriko Nakajima
    • Takashi AmanoYasunori KanedaToru TanakaNoriko Nakajima
    • G06F9/455G06F9/46
    • G06F9/45533G06F8/658
    • A first computer is provided that executes a plurality of virtual machines (VMs), a storage device, and a second computer is provided that applies patches to OSs (operating systems) operating upon the VMs to the VMs. The storage device holds storage regions (golden images (GIs)) that store data of the OSs operating upon the VMs at certain time instants, a storage region that stores patches applied to the OSs of the VMs after those certain time instants, and snapshots of the GIs. Patches applied to the OSs of the VMs accessed in the snapshots are stored in the storage pool. The second computer selects, as a GI to be a source of acquisition of snapshots, a GI to which are applied patches of a combination that can be created from patches applied to the OS of some VM, and deletes patches that are patches applied to the selected GI, and that moreover, among the patches applied to that VM, are stored in the storage pool.
    • 提供了执行第一计算机,其执行多个虚拟机(VM),存储设备和第二计算机,其向所述VM提供对在VM上操作的OS(操作系统)的修补程序。 存储装置保存存储区域(黄金图像(GI)),其存储在特定时刻在VM上操作的OS的数据;存储区域,其存储在该特定时刻之后应用于VM的OS的补丁;以及快照 地理标志 应用于快照中访问的VM的操作系统的修补程序将存储在存储池中。 第二台计算机将GI作为获取快照的源,选择可应用于某些VM的操作系统的补丁创建的组合的补丁,并删除应用于 选择的GI,并且此外,在应用于该VM的补丁之中,存储在存储池中。
    • 4. 发明申请
    • VOLUME SHARING METHOD AND STORAGE SYSTEM USING THE SAME
    • 卷共享方法和使用它的存储系统
    • US20130073780A1
    • 2013-03-21
    • US13262962
    • 2011-09-20
    • Toru TanakaNoriko NakajimaYasunori Kaneda
    • Toru TanakaNoriko NakajimaYasunori Kaneda
    • G06F12/06
    • G06F3/0665G06F3/0608G06F3/061G06F3/067
    • Since only one golden image (GI) of a snapshot can exist and is shared among a plurality of storage apparatuses, there was a problem that migration or copy thereof deteriorates the capacity efficiency and increases the cost for managing consistency. The present invention solves the above-mentioned problem by either (1) a direct sharing method of generating a parent-child relationship of snapshots among different storage apparatuses at the time of creating differential LUs from the GI or (2) a virtual sharing method of creating virtual LUs of the GI in the respective storage apparatuses and creating differential LUs of the snapshots from the created virtual LUs, using a storage virtualization function among a plurality of storage apparatuses.
    • 由于快照的仅一个黄金图像(GI)可以存在并且在多个存储装置之间共享,所以存在迁移或复制劣化了容量效率并增加了用于管理一致性的成本的问题。 本发明通过以下方式解决了上述问题:(1)在从GI产生差分LU时,在不同存储装置之间生成快照的父子关系的直接共享方法,或者(2)虚拟共享方法 在各个存储装置中创建GI的虚拟LU,并使用多个存储装置中的存储虚拟化功能,从创建的虚拟LU创建快照的差分LU。
    • 5. 发明申请
    • METHOD AND DEVICE FOR ELIMINATING PATCH DUPLICATION
    • 消除PATCH DUPLICATION的方法和装置
    • US20120066680A1
    • 2012-03-15
    • US12936041
    • 2010-09-14
    • Takashi AmanoYasunori KanedaToru TanakaNoriko Nakajima
    • Takashi AmanoYasunori KanedaToru TanakaNoriko Nakajima
    • G06F9/455G06F9/44
    • G06F9/45533G06F8/658
    • A first computer is provided that executes a plurality of virtual machines (VMs), a storage device, and a second computer is provided that applies patches to OSs (operating systems) operating upon the VMs to the VMs. The storage device holds storage regions (golden images (GIs)) that store data of the OSs operating upon the VMs at certain time instants, a storage region (i.e. a storage pool) that stores patches applied to the OSs of the VMs after those certain time instants, and snapshots of the GIs. Patches applied to the OSs of the VMs accessed in the snapshots are stored in the storage pool. The second computer selects, as a GI to be a source of acquisition of snapshots, a GI to which are applied patches of a combination that can be created from patches applied to the OS of some VM, and deletes patches that are patches applied to the selected GI, and that moreover, among the patches applied to that VM, are stored in the storage pool.
    • 提供了执行第一计算机,其执行多个虚拟机(VM),存储设备和第二计算机,其向所述VM提供对在VM上操作的OS(操作系统)的修补程序。 存储装置保存存储在特定时刻在VM上运行的OS的数据的存储区域(黄金图像(GI)),存储区域(即,存储池),其存储在那些确定之后应用于VM的OS的补丁 时间和地理标志的快照。 应用于快照中访问的VM的操作系统的修补程序将存储在存储池中。 第二台计算机将GI作为获取快照的源,选择可应用于某些VM的操作系统的补丁创建的组合的补丁,并删除应用于 选择的GI,并且此外,在应用于该VM的补丁之中,存储在存储池中。
    • 9. 发明申请
    • COMPUTER SYSTEM, AND METHOD FOR MANAGING RESOURCE POOL INFORMATION
    • 计算机系统和管理资源池信息的方法
    • US20130117427A1
    • 2013-05-09
    • US13320799
    • 2011-11-08
    • Takashi AmanoAkihisa NagamiYasunori KanedaNoriko Nakajima
    • Takashi AmanoAkihisa NagamiYasunori KanedaNoriko Nakajima
    • G06F15/173
    • G06F9/4416H04L29/12207H04L61/20H04L61/6045H04L67/1097
    • A computer system is provided that is capable of reducing an administrator's operational errors by connecting a new server to a SAN and automating a SAN boot setting, and capable of lightening the administrator's task of checking for a wrong connection by detecting a wrong connection made when a new server is connected to an SNW connection device. Once a new server connected to a PnP SAN starts with a boot program obtained from a boot management server, the new server transmits configuration information on the new server to a resource management server. In response to a request from the resource management server, a storage device refers to PnP SAN information to transmit SAN information on a storage network connection device to which the new server is connected. The resource management server determines to add the new server to a resource group on the basis of the SAN information and requirement information. The resource management server sets the storage device and the new server for SAN-booting the new server.
    • 提供了一种计算机系统,其能够通过将新服务器连接到SAN并自动执行SAN引导设置来减少管理员的操作错误,并且能够通过检测错误的连接来减轻管理员检查错误连接的任务 新服务器连接到SNW连接设备。 一旦连接到PnP SAN的新服务器从从引导管理服务器获取的引导程序开始,新服务器将新服务器上的配置信息传输到资源管理服务器。 响应于资源管理服务器的请求,存储设备参考PnP SAN信息,以在连接新服务器的存储网络连接设备上传输SAN信息。 资源管理服务器根据SAN信息和需求信息确定将新服务器添加到资源组。 资源管理服务器设置SAN的存储设备和新服务器,引导新的服务器。
    • 10. 发明授权
    • Computer system, and method for managing resource pool information
    • 计算机系统和资源池信息管理方法
    • US08938528B2
    • 2015-01-20
    • US13320799
    • 2011-11-08
    • Takashi AmanoAkihisa NagamiYasunori KanedaNoriko Nakajima
    • Takashi AmanoAkihisa NagamiYasunori KanedaNoriko Nakajima
    • G06F15/173G06F9/44H04L29/08H04L29/12
    • G06F9/4416H04L29/12207H04L61/20H04L61/6045H04L67/1097
    • A computer system is provided that is capable of reducing an administrator's operational errors by connecting a new server to a SAN and automating a SAN boot setting, and capable of lightening the administrator's task of checking for a wrong connection by detecting a wrong connection made when a new server is connected to an SNW connection device. Once a new server connected to a PnP SAN starts with a boot program obtained from a boot management server, the new server transmits configuration information on the new server to a resource management server. In response to a request from the resource management server, a storage device refers to PnP SAN information to transmit SAN information on a storage network connection device to which the new server is connected. The resource management server determines to add the new server to a resource group on the basis of the SAN information and requirement information. The resource management server sets the storage device and the new server for SAN-booting the new server.
    • 提供了一种计算机系统,其能够通过将新服务器连接到SAN并自动执行SAN引导设置来减少管理员的操作错误,并且能够通过检测错误的连接来减轻管理员检查错误连接的任务 新服务器连接到SNW连接设备。 一旦连接到PnP SAN的新服务器从从引导管理服务器获取的引导程序开始,新服务器将新服务器上的配置信息传输到资源管理服务器。 响应于资源管理服务器的请求,存储设备参考PnP SAN信息,以在连接新服务器的存储网络连接设备上传输SAN信息。 资源管理服务器根据SAN信息和需求信息确定将新服务器添加到资源组。 资源管理服务器设置SAN的存储设备和新服务器,引导新的服务器。