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    • 3. 发明申请
    • Dynamic Service Extension Infrastructure For Cloud Platforms
    • 云平台的动态服务扩展基础设施
    • US20140280484A1
    • 2014-09-18
    • US13838134
    • 2013-03-15
    • Oliver KlemenzGregor Karl FreyUlrich BestfleischHolger Knospe
    • Oliver KlemenzGregor Karl FreyUlrich BestfleischHolger Knospe
    • H04L29/08
    • H04L67/10H04L67/02
    • DSEI (dynamic service extension infrastructure) enables registration of an extension application as a service, storage of application files and development resources, runtime access to runtime artifacts, generic data persistency, Web enablement of application maintenance and persistence access, and so on. An integrated development environment that supports file access may be used for the creation of application service. DSEI provides a WebDAV folder for each extension application, so that the user may work on the application files and resources. Application services may be built with standard Web technologies. It is possible without knowing the technical infrastructure of a cloud application in the cloud platform, to extend the cloud application by creating application services or to enhance existing application services.
    • DSEI(动态服务扩展基础架构)可以将扩展应用程序作为服务注册,应用程序文件和开发资源的存储,运行时工具的运行时访问,通用数据持久性,Web启用应用程序维护和持久访问等。 支持文件访问的集成开发环境可用于创建应用程序服务。 DSEI为每个扩展应用程序提供一个WebDAV文件夹,以便用户可以处理应用程序文件和资源。 应用服务可以使用标准Web技术构建。 不了解云平台云应用的技术基础设施,可以通过创建应用服务或增强现有的应用服务来扩展云应用。
    • 7. 发明申请
    • GENERATING A COMPILER INFRASTRUCTURE
    • 生成编译器基础架构
    • US20130166495A1
    • 2013-06-27
    • US13335935
    • 2011-12-23
    • GERRIT SIMON KAZMAIERSebastian SchroetelUlrich BestfleischNadine Sachs
    • GERRIT SIMON KAZMAIERSebastian SchroetelUlrich BestfleischNadine Sachs
    • G06F17/30G06F7/00
    • G06F17/30592G06F17/30436G06F17/30684
    • In an embodiment, the compiler infrastructure allows execution of multidimensional analytical metadata from various databases by providing a generic transformation. A compilation request to execute a multidimensional analytical metadata is received. A type of the compilation request is determined to identify an associated transformation and corresponding transformation rules. Based upon the type of compilation request, a database of an application server is queried to retrieve the corresponding multidimensional analytical metadata. Based upon the identified transformation rules, the multidimensional analytical metadata is transformed into a generic metadata that is executable by any desired engine. An instance of a calculation scenario is generated based upon the transformation. The compiler infrastructure is generated by deploying the instance of the calculation scenario in the desired engine (e.g. in-memory computing engine.)
    • 在一个实施例中,编译器基础设施允许通过提供通用转换来从各种数据库执行多维分析元数据。 接收执行多维分析元数据的编译请求。 确定一种类型的编译请求以识别相关联的转换和相应的转换规则。 根据编译请求的类型,查询应用程序服务器的数据库以检索相应的多维分析元数据。 基于所识别的变换规则,多维分析元数据被转换成可由任何期望的引擎执行的通用元数据。 基于转换生成计算场景的实例。 编译器基础结构是通过将计算情景的实例部署在期望的引擎(例如,内存计算引擎)中来生成的。
    • 8. 发明授权
    • Executing runtime callback functions
    • 执行运行时回调函数
    • US08666968B2
    • 2014-03-04
    • US13335937
    • 2011-12-23
    • Nadine SachsSebastian SchroetelUlrich BestfleischGerrit Simon Kazmaier
    • Nadine SachsSebastian SchroetelUlrich BestfleischGerrit Simon Kazmaier
    • G06F7/00
    • G06F9/547G06F9/45504G06F17/30286
    • In an embodiment, a runtime callback function is a part of a code that is invoked upon execution of an associated function. To execute the runtime callback function associated with an in-memory computing engine, multidimensional analytical metadata associated with an application server is received and transformed into an in-memory executable metadata, to generate an instance of an in-memory executable calculation scenario. The instance of the in-memory executable calculation scenario is analyzed to determine process callbacks associated with nodes of the in-memory executable calculation scenario. Based upon the determined process callbacks, the runtime callback function is executed by executing a selection callback at the nodes and a transformation callback at part providers associated with the in-memory executable calculation scenario.
    • 在一个实施例中,运行时回调函数是在执行相关函数时调用的代码的一部分。 为了执行与内存计算引擎相关联的运行时回调函数,接收与应用服务器相关联的多维分析元数据并转换成内存中的可执行元数据,以生成内存中可执行计算方案的实例。 分析内存中可执行计算场景的实例以确定与内存中可执行计算方案的节点相关联的进程回调。 基于确定的进程回调,通过在节点处执行选择回调以及与内存中可执行计算方案相关联的部分提供商处的转换回调来执行运行时回调函数。