IDS 采用动态的多线程架构,具有很好的可伸缩性,可以管理非常大量的数据,在 OLTP环境中提供高性能。
With its dynamic multi-threading architecture, IDS scales well and can manage very large volumes of data, providing high performance in the OLTP environment.
这种做法的唯一问题就是进程间通信,除此之外都比使用线程要好,因为这样的架构能更平滑地进行扩展。
The only problem with that is inter-process communication, but otherwise it is better because the architecture can grow smoother.
内存架构、后台进程和线程。
接下来,我们来看看内存架构、后台进程和线程,比较一下在Oracle和DB 2中使用它们的方式。
Next we'll look at the memory architecture, background processes and threads, and will compare and contrast the way they are used in Oracle and DB2.
可能会有若干有竞争的解决方案(举例来说,通信中的UDP 对TCP)和大量的对于每个解决方案的可配置选择(举例来说,进程架构中的 10线程 对50 个线程)。
There may be several competing solutions (e.g., UDP versus TCP in communications) and a range of configurable choices for each solution (e.g., 10 threads versus 50 threads in a process architecture).
即便如此,在那些依赖于体系架构的领域、内存映射、线程或一些特殊的领域(例如系统管理和自然语言的支持),它们之间还是有差异的。
Even so, differences can arise in the areas that depend on the architecture, memory maps, threading, or some specific areas like system administration or natural language support.
此类架构在多线程应用程序中运行良好,该类应用程序中线程可能被分配给多个处理器以实现并行操作。
This type of architecture works well in multi-threaded applications where threads can be distributed across the processors to operate in parallel.
加上多线程处理架构你可以关掉一些标签拿回占去的资源。
Thanks to its multiprocess architecture you can discard tabs and have all resources back.
另一方面,它要考虑平台方面的技术进步,包括架构(多处理、对称多线程、非一致内存访问 [NUMA]和虚拟化)。
On the other side are the technological advances made in the platform, including architectures (multiprocessing, symmetric multithreading, non-uniform memory access [NUMA]) and virtualization.
为了提高负载能力,产生了一些不同类型的MT架构:创建多组线程,每组线程服务一个任务,而不是一个线程服务一个连接。
In order to improve load scalability, some applications employ a different type of MT architecture: they create one or more thread (s) per task rather than one thread per connection.
对以下技术有深入的理解:网络通讯,多线程,安全,持久化,软件架构或REST。
Strong understanding of network communication, threading, security, persistence, software architecture, web technologies, REST.
为避免相似功能的重复开发,实现代码重用的对象复用架构和基于该架构的线程池实现方案;
The objects reuse framework realizes the codes reuse for similar functions and is used for design of threads pool.
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.
如何在一个多线程的控制台应用程序,用锋利的架构设置NHibernate的?
How to setup NHibernate with Sharp Architecture in a multi-threaded console application?
如何在一个多线程的控制台应用程序,用锋利的架构设置NHibernate的?
How to setup NHibernate with Sharp Architecture in a multi-threaded console application?
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