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    • 3. 发明公开
    • Monitoring of computer events
    • Überwachungvon Computerereignissen
    • EP1837771A2
    • 2007-09-26
    • EP07394003.3
    • 2007-03-15
    • Iontas Limited
    • Schnurr, ChristopherMaurer, Frank
    • G06F11/34
    • G06F9/4806G06F11/3438G06F11/3466G06F11/349G06F21/552G06F2201/86
    • A data processing system (1) is programmed with an interface (2) for capturing events which arise, and a process engine (3) for automatically monitoring captured events to identify completion of steps, each comprising a plurality of events linked by dependency relationships; and to identify completion of processes, each comprising a plurality of steps linked by dependency relationships. Software functions (5) execute in response to output of the process engine (3). The process engine (3) processes events to recognise a plurality of potential steps, but terminates other potential steps when completion of a step is determined. The process engine (3) processes steps to recognise a plurality of potential processes, but terminates other potential process when completion of a process is determined. The dependency relationships include Boolean AND operators and Boolean OR operators. There is a discrete start event for each step and a discrete start step for each process. The engine executes a plurality of processes simultaneously, applying captured events in real time to relevant steps, some events being applied to a plurality of steps.
    • 数据处理系统(1)被编程有用于捕获出现的事件的接口(2)和用于自动监视所捕获事件以识别步骤完成的处理引擎(3),每个步骤包括通过依赖关系链接的多个事件; 并且识别进程的完成,每个进程包括通过依赖关系链接的多个步骤。 软件功能(5)响应于过程引擎(3)的输出而执行。 过程引擎(3)处理事件以识别多个潜在步骤,但是当确定步骤的完成时终止其他可能的步骤。 过程引擎(3)处理步骤以识别多个潜在过程,但是当确定过程完成时终止其他潜在过程。 依赖关系包括布尔AND运算符和布尔OR运算符。 每个步骤都有一个离散的启动事件,每个进程都有一个离散的启动步骤。 引擎同时执行多个处理,将捕获的事件实时地应用到相关步骤,一些事件被应用于多个步骤。
    • 4. 发明公开
    • Application framework for use with net-centric application program architectures
    • 应用程序框架与网络中心应用程序体系结构一起使用
    • EP1727045A2
    • 2006-11-29
    • EP06076313.3
    • 2002-05-17
    • Accenture Global Services GmbH
    • Rolfs, Damon M.
    • G06F9/46G06F9/44
    • G06F9/4806G06F8/20H04L29/06H04L67/02H04L67/34H04L69/329
    • A robust toolkit provides facilities that can be assembled in a modular manner to specify the fundamental architecture of a net-centric application. A bootstrapping process assembles various facilities within the architecture. A configuration facility defines an API for getting properties that can be defined in any number of different types of sources. A factory de-couples how a resource is produced from where the resource is used. A selector framework applies standard query language to contexts other than querying a database. A pipeline architecture defines a model view controller-like framework for a processing pipeline. Selectors are used to specify when certain portions of a Web conversation should be made available to a user. An authorization facility associates permissions with a user to specify which portions of an application a user is authorized to use.
    • 强大的工具包提供了可以模块化方式组装的工具,以指定以网络为中心的应用程序的基本架构。 引导过程在体系结构中组装各种设施。 配置工具定义了一个API,用于获取可以在任意数量的不同类型的源中定义的属性。 工厂将资源的生产方式与资源的使用方式分开。 选择器框架将标准查询语言应用于除查询数据库之外的上下文。 流水线架构为处理流水线定义了一个类似于模型视图控制器的框架。 选择器用于指定Web对话的某些部分何时应提供给用户。 授权设施将权限与用户相关联以指定用户授权使用的应用程序的哪些部分。
    • 5. 发明公开
    • Dynamic component transfer based on resource negotiations between computer systems
    • 组件的动态转移,基于计算机系统之间的资源谈判
    • EP1321853A2
    • 2003-06-25
    • EP02024417.4
    • 2002-10-28
    • SAP Aktiengesellschaft
    • Gebhart, Alexander
    • G06F9/44
    • G06F9/5027G06F9/465G06F9/4806G06F2209/462G06F2209/5015H04L67/02H04L67/16
    • An application (301) on a client computer (300) connected to a computer network (200,300,501) automatically uses computer software components. The components (502) are deployed on a first server UDDI (501); the components (502) are registered (400) Web Service Description using Language in a second server Yellow Pages (200). The client computer (300) with the application (301) requests (401) a particular component by sending a functionality specification of the particular component to the second server (200). The second server (200) searches for register entries that match the functionality specification and returns (402) a list of matching components to the application. The matching component is executed (403/404) under control of the application.
    • 连接到计算机网络(200300501)的客户端计算机(300)上的应用程序(301)自动地使用计算机软件组件。 组件(502)被部署在第一服务器上UDDI(501); 组件(502)被登记(400)Web服务描述语言中使用的第二服务器黄页(200)。 客户端计算机(300)与所述应用程序(301)请求(401)通过在所述特定组件的规格发送功能向第二服务器(200)的特定组件。 第二服务器(200)中搜索登记簿条目做了本说明书,并返回(402)匹配元件到所述应用程序的列表匹配的功能。 匹配组件被执行(四百〇四分之四百〇三)下的应用程序的控制。
    • 7. 发明公开
    • BATCH PROCESSING METHOD AND DEVICE FOR SYSTEM INVOCATION COMMANDS
    • 用于系统调用命令的分批处理方法和装置
    • EP3208709A1
    • 2017-08-23
    • EP14905888.5
    • 2014-11-10
    • Huawei Technologies Co., Ltd.
    • QI, KaiWANG, WeiCAI, Yi
    • G06F9/44
    • G06F9/5038G06F9/3851G06F9/44G06F9/46G06F9/466G06F9/4806G06F9/4843G06F9/50G06F9/5005G06F9/5033G06F9/5066
    • Embodiments of the present invention provide a method and apparatus for system call command batch processing and relate to the computer field. The method and apparatus for system call command batch processing enable system call commands of a same type to be processed in a same CPU core according to a sequence of entering a kernel, thereby ensuring that returned results of the system call commands are sequential. The method for system call command batch processing includes: obtaining multiple system call commands, where the multiple system call commands are commands that need to call a kernel function; classifying the multiple system call commands according to task identifiers of the multiple system call commands, where system call commands of a same type have a same task identifier; and sending, according to a sequence of obtaining the multiple system call commands, system call commands of a same type to a same CPU core for processing.
    • 本发明实施例提供了一种系统调用命令批量处理的方法和装置,涉及计算机领域。 系统调用命令批量处理的方法和装置使得同一类型的系统调用命令能够按照进入内核的顺序在同一个CPU内核中进行处理,从而保证系统调用命令的返回结果是连续的。 系统调用命令批处理的方法包括:获取多个系统调用命令,所述多个系统调用命令为需要调用内核函数的命令; 根据所述多个系统调用命令的任务标识对所述多个系统调用命令进行分类,其中,相同类型的系统调用命令具有相同的任务标识; 根据获取多个系统调用命令的顺序,将相同类型的系统调用命令发送给同一个CPU内核进行处理。