具体包括数据源、立方体和MDX的优化以及多线程技术的采用和查询智能拆分的开发。
In detail it includes the optimization of data source, cube, MDX and the adoption of multi-thread technique and the development of intelligent query division.
采用多媒体定时器以及多线程技术,实现高速下数据在串口系统中的传输以及多串口数据通讯问题。
The multimedia timer and multithread technique were used to solve the high speed data transmission in serial port system and data communication in multi-serial port system.
这些应用程序通常使用可以显著改进性能的技巧,例如分区、多线程以及通过缓存进行写入。
Such applications typically use tricks that can greatly improve performance, such as partitioning, multi-threading, and write through caching.
本文更侧重于桌面用户以及如何使用现有硬件来创建分布式多线程设置。
This article focuses more on the desktop user and how to use existing hardware to create a distributed multihead setup.
在接下来的章节中,您将看到如何存储和检索自动保存的表单数据以及如何在多线程的环境中使用表单数据。
In the following sections, you'll see how to store and retrieve the auto-saved form data and how to work with it in a multithreaded environment.
它具有操作灵活简便、功能强大、多任务、多线程、以及即插即用等特性。
It is well established for its flexible operations, powerful functions, multitasking, multithreading and plug and play.
文章对串行口通信技术以及通信程序的开发、多线程编程技术进行了详细分析。
The serial ports of communication technology, communication program development, and multithread programming technology has been analyzed in detail.
本主题说明了可用的类以及如何在典型的多线程应用程序中使用它们创建线程安全类。
This topic explains the classes available and how to use them to create thread-safe classes in a typical multithreaded application.
介绍了CORBA中的四种异步激发方式:多线程方式、单向异步激发方式、延迟同步激发方式以及异步方法调用方式,并讨论了各种异步激发方式的优缺点。
In this article, we introduce four kinds of asynchronous invocation way in CORBA:Multithread, Oneway, Deferred Synchronous and AMI. We also discuss their advantages and disadvantages.
通过分析工具并发方法,可以从多线程应用程序收集资源争用数据以及线程和进程活动数据。
The Profiling Tools concurrency method enables you to collect resource contention and thread and process activity data from multithreaded applications.
介绍多线程处理的常见问题以及避免这些问题的策略。
Describes common problems with multithreading and strategies for avoiding problems.
多协议、多服务、并发的客户端和服务器端应用的设计,使系统具有多线程处理并发请求的能力以及灵活的扩展性。
Multi-protocol, multi-service and concurrent design of client-side and customer-side apply the capability that treat request of multithreading con-current and mobile to the system.
有关这些限制的说明以及使用线程的其他提示,请参见多线程处理:编程提示。
For descriptions of these restrictions and other tips about using threads, see Multithreading: Programming tips.
在芯片的架构方面,考虑到硬件的可并行性,存储器资源的利用率以及芯片面积等诸多因素,我们在片内集成了9个扫描匹配引擎,来实现多线程并行扫描。
On the aspect of chip architecture, considering the factors such as parallelizable of hardware, utilization of memory and chip area, we embodied 9 scan engines on chip to realize the multi-scan.
描述什么是进程和线程以及MFC的多线程处理方法是什么。
Describes what processes and threads are and what the MFC approach to multithreading is.
它以事件循环,多线程,动态载入以及对象系统的方式为C语言提供了数据结构处理,轻便封装,以及运行时功能的接口。
It provides data structure handling for c, portability wrappers, and interfaces for such runtime functionality as an event loop, threads, dynamic loading, and an object system.
文章第五部分介绍了采用多线程机制实现系统各个部分的同步工作,提高了系统资源的利用率以及系统的稳定性和实时性。
The fifth chapter introduced multi_threads mechanism which made the system synchronous work, improved efficiency of system resource allocation, system stability and real_time capability.
我们描述了如何利用多线程中单个线程实现神经元的独立自主运行,以及如何利用多线程中的同步机制实现神经元之间的消息传递。
We describe how to use a single thread of multi-thread to actualize the independent running of neurons, and how to use the synchronized mechanism in multi-thread to actu…
我们描述了如何利用多线程中单个线程实现神经元的独立自主运行,以及如何利用多线程中的同步机制实现神经元之间的消息传递。
We describe how to use a single thread of multi-thread to actualize the independent running of neurons, and how to use the synchronized mechanism in multi-thread to actu…
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