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    • 1. 发明申请
    • SHARED VERSIONED WORKLOAD PARTITIONS
    • 共享版本的工作负载分区
    • US20130283297A1
    • 2013-10-24
    • US13449963
    • 2012-04-18
    • Khalid Filali-AdibJohn M. McConaughyDavid W. SheffieldMarc J. Stephenson
    • Khalid Filali-AdibJohn M. McConaughyDavid W. SheffieldMarc J. Stephenson
    • G06F9/54
    • G06F9/5077G06F9/54
    • According to one aspect of the present disclosure, a method and technique for shared versioned workload partitions is disclosed. The method includes: creating, in a host machine running an instance of a first version of an operating system, a first workload partition associated with a second version of the operating system, the second version of the operating system comprising a different version of the operating system than the first version of the operating system; creating, in the logical partition, a second workload partition associated with the second version of the operating system; and hierarchically linking the second workload partition to the first workload partition to enable sharing of resources of the first workload partition by the second workload partition.
    • 根据本公开的一个方面,公开了一种用于共享版本的工作负载分区的方法和技术。 该方法包括:在运行操作系统的第一版本的实例的主机中创建与操作系统的第二版本相关联的第一工作负载分区,操作系统的第二版本包括操作的不同版本 系统比第一版的操作系统; 在所述逻辑分区中创建与所述操作系统的第二版本相关联的第二工作负载分区; 以及将所述第二工作负载分区分层地链接到所述第一工作负载分区,以使得能够由所述第二工作负载分区共享所述第一工作负载分区的资源。
    • 2. 发明授权
    • Shared versioned workload partitions
    • 共享版本的工作负载分区
    • US08826305B2
    • 2014-09-02
    • US13449963
    • 2012-04-18
    • Khalid Filali-AdibJohn M. McConaughyDavid W. SheffieldMarc J. Stephenson
    • Khalid Filali-AdibJohn M. McConaughyDavid W. SheffieldMarc J. Stephenson
    • G06F3/00G06F9/455
    • G06F9/5077G06F9/54
    • According to one aspect of the present disclosure a system and technique for shared versioned workload partitions is disclosed. The system includes a processor and logic executable by the processor to: create, in a host machine running an instance of a first version of an operating system, a first workload partition associated with a second version of the operating system, the second version of the operating system comprising a different version of the operating system than the first version of the operating system; create, in the logical partition, a second workload partition associated with the second version of the operating system; and hierarchically link the second workload partition to the first workload partition to enable sharing of resources of the first workload partition by the second workload partition.
    • 根据本公开的一个方面,公开了一种用于共享版本化工作负载分区的系统和技术。 该系统包括处理器和可由处理器执行的逻辑,其可以在运行操作系统的第一版本的实例的主机中创建与操作系统的第二版本相关联的第一工作负载分区,第二版本的 操作系统包括与操作系统的第一版本不同的操作系统版本; 在所述逻辑分区中创建与所述操作系统的第二版本相关联的第二工作负载分区; 并且将所述第二工作负载分区分级地链接到所述第一工作负载分区,以使所述第二工作负载分区能够共享所述第一工作负载分区的资源。
    • 3. 发明授权
    • Implementing a versioned virtualized application runtime environment
    • 实现版本化的虚拟化应用程序运行时环境
    • US08484641B2
    • 2013-07-09
    • US12834475
    • 2010-07-12
    • John M. McConaughyMarc J. Stephenson
    • John M. McConaughyMarc J. Stephenson
    • G06F9/46
    • G06F9/545
    • A workload partition, associated with a legacy operating system, is created on an instance of a base operating system implemented on a machine. The legacy operating system is an earlier version of the base operating system. An indication is detected to execute a first command associated with a process of the workload partition associated with the legacy operating system. It is determined that the first command associated with the process of the workload partition associated with the legacy operating system was overlaid with a reference to a runtime execution wrapper associated with the base operating system. The runtime execution wrapper is executed to access a runtime execution environment associated with the base operating system. The first command is executed using the runtime execution environment associated with the base operating system.
    • 与传统操作系统相关联的工作负载分区是在机器上实现的基本操作系统的实例上创建的。 旧版操作系统是基本操作系统的早期版本。 检测到指示以执行与与旧版操作系统相关联的工作负载分区的处理相关联的第一命令。 确定与与旧操作系统相关联的工作负载分区的过程相关联的第一命令被覆盖与对与基本操作系统相关联的运行时执行包装器的引用。 执行运行时执行包装器以访问与基本操作系统相关联的运行时执行环境。 使用与基本操作系统相关联的运行时执行环境来执行第一个命令。
    • 4. 发明申请
    • IMPLEMENTING A VERSIONED VIRTUALIZED APPLICATION RUNTIME ENVIRONMENT
    • 实施虚拟化虚拟化应用程序运行环境
    • US20120011513A1
    • 2012-01-12
    • US12834475
    • 2010-07-12
    • John M. McConaughyMarc J. Stephenson
    • John M. McConaughyMarc J. Stephenson
    • G06F9/46G06F9/48
    • G06F9/545
    • A workload partition, associated with a legacy operating system, is created on an instance of a base operating system implemented on a machine. The legacy operating system is an earlier version of the base operating system. An indication is detected to execute a first command associated with a process of the workload partition associated with the legacy operating system. It is determined that the first command associated with the process of the workload partition associated with the legacy operating system was overlaid with a reference to a runtime execution wrapper associated with the base operating system. The runtime execution wrapper is executed to access a runtime execution environment associated with the base operating system. The first command is executed using the runtime execution environment associated with the base operating system.
    • 与传统操作系统相关联的工作负载分区是在机器上实现的基本操作系统的实例上创建的。 旧版操作系统是基本操作系统的早期版本。 检测到指示以执行与与旧版操作系统相关联的工作负载分区的处理相关联的第一命令。 确定与与旧操作系统相关联的工作负载分区的过程相关联的第一命令被覆盖与对与基本操作系统相关联的运行时执行包装器的引用。 执行运行时执行包装器以访问与基本操作系统相关联的运行时执行环境。 使用与基本操作系统相关联的运行时执行环境来执行第一个命令。
    • 5. 发明授权
    • Minimizing overhead in resolving operating system symbols
    • 最小化解决操作系统符号的开销
    • US09075634B2
    • 2015-07-07
    • US12834356
    • 2010-07-12
    • Stephen B. PeckhamDonald R. StenceMarc J. Stephenson
    • Stephen B. PeckhamDonald R. StenceMarc J. Stephenson
    • G06F9/44G06F9/445G06F9/455
    • G06F9/44521G06F9/44552G06F9/45533
    • A symbol resolution unit can be configured for resolving conflicting operating system symbols. A default symbol resolution data structure can be accessed to resolve a symbol associated with a client of an operating system. A first data entry that corresponds to the symbol is located in the default symbol resolution data structure. It is determined that the first data entry indicates that the symbol is marked special (e.g., as a conflicting operating system symbol). A secondary symbol resolution data structure is accessed in response to determining that the first data entry indicates that the symbol is marked special. A second data entry that corresponds to the symbol is located in the secondary symbol resolution data structure based, at least in part, on an identifier of the client. A memory location indicated in the second data entry that corresponds to the symbol is provided to the client.
    • 可以配置符号解析单元来解决冲突的操作系统符号。 可以访问默认符号解析数据结构来解析与操作系统的客户端相关联的符号。 对应于符号的第一个数据条目位于默认符号解析数据结构中。 确定第一数据条目指示符号被标记为特殊的(例如,作为冲突的操作系统符号)。 响应于确定第一数据条目指示符号被标记为特殊,访问辅助符号解析数据结构。 至少部分地基于客户端的标识符,对应于符号的第二数据条目位于辅助符号解析数据结构中。 将与该符号对应的第二数据条目中指示的存储器位置提​​供给客户端。
    • 7. 发明申请
    • MINIMIZING OVERHEAD IN RESOLVING OPERATING SYSTEM SYMBOLS
    • 最小化解决操作系统符号
    • US20120011512A1
    • 2012-01-12
    • US12834356
    • 2010-07-12
    • Stephen B. PeckhamDonald R. StenceMarc J. Stephenson
    • Stephen B. PeckhamDonald R. StenceMarc J. Stephenson
    • G06F9/46G06F17/30
    • G06F9/44521G06F9/44552G06F9/45533
    • A symbol resolution unit can be configured for resolving conflicting operating system symbols. A default symbol resolution data structure can be accessed to resolve a symbol associated with a client of an operating system. A first data entry that corresponds to the symbol is located in the default symbol resolution data structure. It is determined that the first data entry indicates that the symbol is marked special (e.g., as a conflicting operating system symbol). A secondary symbol resolution data structure is accessed in response to determining that the first data entry indicates that the symbol is marked special. A second data entry that corresponds to the symbol is located in the secondary symbol resolution data structure based, at least in part, on an identifier of the client. A memory location indicated in the second data entry that corresponds to the symbol is provided to the client.
    • 可以配置符号解析单元来解决冲突的操作系统符号。 可以访问默认符号解析数据结构来解析与操作系统的客户端相关联的符号。 对应于符号的第一个数据条目位于默认符号解析数据结构中。 确定第一数据条目指示符号被标记为特殊的(例如,作为冲突的操作系统符号)。 响应于确定第一数据条目指示符号被标记为特殊,访问辅助符号解析数据结构。 至少部分地基于客户端的标识符,对应于符号的第二数据条目位于辅助符号解析数据结构中。 将与该符号对应的第二数据条目中指示的存储器位置提​​供给客户端。
    • 9. 发明授权
    • Persistent file replacement mechanism
    • 持久性文件更换机制
    • US08620975B2
    • 2013-12-31
    • US13458752
    • 2012-04-27
    • Marc J. Stephenson
    • Marc J. Stephenson
    • G06F17/30
    • G06F8/65G06F9/45533
    • An original file of a versioned WPAR, that are incompatible with a global operating system, can be persistently replaced with a corresponding replacement file that is compatible with the global operating system. For this, the original file can be renamed and a symbolic link file can be created to reference the replacement file instead of the original file. A software maintenance program can also be persistently replaced to preserve the replacement file and to maintain compatibility with the global operating system regardless of new instances of the original file delivered by the software maintenance program. The replacement file that corresponds to the original file can be identified and renamed. In response to detecting a new version of the original file, the new version of the original file can be renamed. A reference to the new version of the original file can be updated to reference the replacement file.
    • 与全球操作系统不兼容的版本化WPAR的原始文件可以持续替换为与全局操作系统兼容的相应替换文件。 为此,可以重命名原始文件,并创建符号链接文件以引用替换文件而不是原始文件。 也可以持续更换软件维护程序以保留替换文件,并保持与全局操作系统的兼容性,而不管由软件维护程序提供的原始文件的新实例。 可以识别和重命名与原始文件对应的替换文件。 为了响应检测到原始文件的新版本,可以重新命名新版本的原始文件。 可以更新对原始文件的新版本的引用以引用替换文件。
    • 10. 发明授权
    • Persistent file replacement mechanism
    • 持久性文件更换机制
    • US08620974B2
    • 2013-12-31
    • US12878613
    • 2010-09-09
    • Marc J. Stephenson
    • Marc J. Stephenson
    • G06F17/30
    • G06F8/65G06F9/45533
    • An original file of a versioned WPAR, that is incompatible with a global operating system, can be persistently replaced with a corresponding replacement file that is compatible with the global operating system. For this, the original file can be renamed and a symbolic link file can be created to reference the replacement file instead of the original file. A software maintenance program can also be persistently replaced to preserve the replacement file and to maintain compatibility with the global operating system regardless of new instances of the original file delivered by the software maintenance program. The replacement file that corresponds to the original file can be identified and renamed. In response to detecting a new version of the original file, the new version of the original file can be renamed. A reference to the new version of the original file can be updated to reference the replacement file.
    • 与全局操作系统不兼容的版本化WPAR的原始文件可以持续替换为与全局操作系统兼容的相应替换文件。 为此,可以重命名原始文件,并创建符号链接文件以引用替换文件而不是原始文件。 也可以持续更换软件维护程序以保留替换文件,并保持与全局操作系统的兼容性,而不管由软件维护程序提供的原始文件的新实例。 可以识别和重命名与原始文件对应的替换文件。 为了响应检测到原始文件的新版本,可以重新命名新版本的原始文件。 可以更新对原始文件的新版本的引用以引用替换文件。