Multithread is a concept in modern operating system.
多线程是现代操作系统中出现的概念。
By MultiThread complete source code can be used directly.
斐波纳契通过多线程完整的源代码可以直接使用。
Lastly, the implementation based on multithread is addressed.
最后,介绍了一种基于多线程的网控中心的实现。
The multithread technology can effectively solve this problem.
采用多线程技术能有效解决此问题。
What is the performance of C/C++ allocator in multithread context?
什么是C / c++分配器的性能在多流上下文?。
Fibonacci By MultiThread complete source code can be used directly.
斐波纳契通过多线程完整的源代码可以直接使用。
The technology of multithread is used in both sender and receiver module.
发送和接收模块均采用多线程技术实现。
Familiar with parallel processing and multithread programming techniques.
熟悉并行处理和多线程开发技术。
The Thread Pool technology is widely used in many multithread applications.
线程池技术现在被广泛地应用在多线程系统中。
The paper discusses how to implement the multithread programming based on MFC in details.
比较全面地阐述了如何基于MFC实现多线程编程。
Multithread technology has been adopted in recently developed mainstream operating systems.
现代主流操作系统已经广泛采用了多线程技术。
This application is able to manage the multithread and that is noticed in the results below.
这一应用是能够管理的线程,就是看到的结果如下。
The paper presents control? synchronization & exclusiveness and communication of multithread.
介绍线程的控制、同步与互斥和通信的技术。
The multithread concurrent server can receive, send and distribute ACARS messages in real time.
ACARS报文通信服务器实现了实时接收、发送和分发acars报文。
The multithread programming technique is used to fulfill the requirement of real time application.
使用多线程的编程技术,满足了对通信软件实时性的要求。
Its effective usage can achieve multithread synchronization and mutex to ensure program running correctly.
有效地使用可以在多线程之间实现同步和互斥,以保证程序的正确的运行。
Finally, some useful functions are stated, and the algorithm for multithread process indicator is presented.
最后,对一些常用功能程序和函数进行了说明,并给出了多线程进度指示器的进度算法。
In order to develop the parallelisms of inter transaction and intra transaction, multithread technique is used, thus system performance is improved.
利用多线索技术来提高事务间的和事务内的并行性,以提高系统的性能。
The serial ports of communication technology, communication program development, and multithread programming technology has been analyzed in detail.
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。
There is something wrong with current asynchronous serial communications and a solution to it by using multithread programming technology is supposed.
首先提出了目前异步串行通信技术中存在的问题及使用多线程技术解决这些问题的设想。
The fiber strain sensor system is introduced, ways of signal process, multithread, high precision timing are adopted to meet the requirement of real time.
介绍了光纤应变测试系统,采用信号处理、多线程、高精度定时等处理方法,满足了对系统实时性的要求。
The serial communication was developed by using asynchronous IO mechanism and multithread technology, which improve the real-time performance of the system.
检测系统的串口通信采用异步IO机制,并运用多线程技术,提高了系统的实时性;
The main techniques are: multithread technique to parallel handle three task of user interface, thyristor digital trigger and adjust PID parameter automatically;
主要技术包括:多线程技术并行处理用户交互、晶闸管数字触发、PID参数的自整定等任务;
The fault simulating is completed on the full set of faults and multithread processing is applied to the communication of C/S. A good acceleration rate is achieved.
在系统实现中,将故障模拟在全故障集上进行,并对C/S通信进行了多线程处理,取得了比较好的加速效果。
This article analyzes three methods of realizing serial communication program automation, including software polling, communication event and multithread in details.
详细分析了实现串行通讯程序自动化的三种方法:软件查询、通讯事件和多线程。
This article illustrates the basic theory of multithread, then discusses its application on serial communication, and presents a general way and step of implementation.
首先介绍了多线程技术的基本原理,然后讨论了多线程技术在串口通信中的应用,并给出了实现的方法和步骤。
Secondly, this thesis discusses the single process, multithread and thread poll concurrency modes to meet the certain performance requirement of different call traffics.
第二部分论述并发模式,针对不同的呼叫流量负载采用了单进程、多线程、线程池几种并发模式,讨论了它们的性能。
To execute timed tasks and random tasks in the same multithread, multiple tasks are encapsulated as one object for dispatch in the multithread according to instructions.
为了在同一多线程中执行定时任务和随机任务,将多种任务封装成一个对象,在多线程中根据指令进行调度。
Applying multithread technology to DHCP server and realize it by the thread pool mechanism is a very effective method which improves DHCP server's performance at present.
将多线程技术应用到DHCP服务器,用线程池机制实现DHCP服务器是当前提高DHCP服务器效率一种很有效的方法。
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.
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。
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