clinfo进程提供用于在集群管理器和应用程序之间进行通信的API。
The clinfo process provides an API for communicating between cluster manager and your application.
在绑定模式中,JMS应用程序必须在与队列管理器相同的主机上运行,它们将使用进程间通讯(IPC)协议进行通信。
In bindings mode, a JMS application must run on the same host machine as the queue manager, and they will communicate using Inter-Process Communication (IPC) protocols.
相反的,用纯函数式语言编写的程序在并发自主的进程中通过传递消息来通信。
Instead, programs written in pure functional languages communicate by passing messages between concurrent, autonomous processes.
ESB充当允许不同应用程序进程之间进行通信的中间层。
The ESB ACTS as an intermediary layer to enable communication between different application processes.
分布式应用程序需要一个定义两个并发进程间通信机制的协议。
Distributed applications require a protocol which defines the communication mechanism between two concurrent processes.
它提供了同一进程中的应用程序或安全上下文之间安全通信的方法。
It provides a way to safely communicate between applications or security contexts in the same process.
例如,用于存储输入在Web表单中的数据的servlet,或者在PC上运行的地址簿应用程序,它们不需要与其他进程通信。
For instance, a servlet storing data entered into a Web form or an address book application running on a PC does not need to communicate with other processes.
Fastpath应用程序在与队列管理器相同的进程中运行,因此能够更高效地与队列管理器通信。
Fastpath applications run in the same process as the parts of the queue manager so making communication with the queue manager more efficient.
桌面显然需要进程间通信(例如,要使应用程序之间的数据和设置同步),但这与组件嵌入无关。
A desktop obviously needs interprocess communication (for example, to synchronize data and Settings between applications), but this is independent from component embedding.
应用程序把它当作是一个正常的KParts组件(在同一个进程内),但实际上它是与另一个进程(使用DCOP)通信的代理,那个进程才是该组件真正所在的位置。
The application sees a normal KParts component (in the same process), but it is in fact a proxy that communicates with another process (using DCOP), where the component is really located.
通信的顺序进程语言是对分布式系统进行程序设计的一种语言。本文介绍了迹、断言迹集合、断言迹集合的核以及进程迹集合等概念。
To define the semantics of Communicating Sequential Processes, the notions of trace, assertion trace set, kernel of assertion trace set and process trace aet are introduced in this paper.
该系统的代理接收导调控制程序的脚本指令,并通过邮槽实现与该终端内各指控系统软件的进程间通信。
The control agent disposes in the emulation terminal receives script codes from control software and implement Inter Procedure Communication (IPC) with command control software in each terminal.
该系统的代理接收导调控制程序的脚本指令,并通过邮槽实现与该终端内各指控系统软件的进程间通信。
The control agent disposes in the emulation terminal receives script codes from control software and implement Inter Procedure Communication (IPC) with command control software in each terminal.
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