并行交换结构能够极大提升网络设备的交换能力,使网络设备拥有更高的交换容量和交换速率,以支持更多的网络业务。
Parallel switches highly improve the switching capability of network equipments that means higher switching capacity, higher switching speed and more networks services.
我们也能发现这些活动是并行的,通常高效的,跨功能的交换信息和工作成果——就像RUP中那样。
We also see that the activities run in parallel, typically exchanging information and work packages in a highly efficient, cross-functional manner -- just like in the RUP.
然而,任务再无法并行运行,或使用多个CPU,它会使用更少的内存,并会运行得更快,因为InfoSphereDataStage服务器不需要再进行内存交换。
While the job will no longer run in parallel, or use multiple CPUs, it will use less memory and run faster because the InfoSphere DataStage server no longer has to swap.
同时,全交换操作在并行计算领域中有着大量而且重要的应用。
Moreover, complete exchange, also known as all-to-all personalized communication, occurs in numerous important applications in parallel computing environment.
在并行工程和协同设计环境下,为了提升产品开发的效率,必须保证CAD模型数据在不同应用软件之间的交换质量。
Ensuring the quality of CAD model data exchanged among different CAD system can promote the development of new products in concurrent engineering and collaborate engineering environments.
方便了后续过程对表格图形数据的引用,可以满足并行工程中的数据交换。
This makes the using of form drawing datum by next process easier and could meet the data exchanging in the concurrent engineering.
这样数据交换和任务处理就可以并行进行,从而就缩短了各成员机因负载不均匀而造成的停机等待时间。
In this way, data exchange and task processing can be executed parallelly, so the halt wailing time caused by the unbalanced loads on member computers can be reduced.
介绍了奇偶交换排序,给出了用C语言实现奇偶交换排序的并行算法,从而找到了一种基于并行处理系统的有效排序方法。
This paper explains and analyzes odd-even exchange sort, it also provides a parallel algorithm by language C, and finds an efficient sorting method for parallel-processing system.
针对传统的PCI总线结构形成系统通信瓶颈的缺陷,提出了以交换网络为中心的可扩展并行PC体系结构设计思想。
According to the traditional PCs defect that the PCI bus forms the bottleneck of system communication, we propose the design of Parallel PC architecture for switching network centric.
提出基于光交换互连系统(otis)网络结构的矩阵乘并行算法,分析它的时间复杂性。
A parallel algorithm for matrix multiplication based on optical transpose interconnection system (OTIS) network is proposed, and the time complexity is analyzed.
元数据服务器不涉及任何形式的数据访问,用户与存储服务器之间可以进行高效的并行数据交换。
The metadata server does not relate to any data access, and there are paralleled and highly efficient data exchange between users and storage servers.
由于该通讯单元采用双CPU结构,使所有的数据交换并行进行,因此系统通信速度快。
The communication system has rapid data flows attributed to parallel data transmission by using double CPU.
本文提出了一种基于多业务并行atm交换机的智能输入端口控制器。
A new intelligent input port controller of multi traffic parallel ATM switch is presented in this paper.
在幸存路径管理部分采用了两路并行回溯的设计方法,与寄存器交换法相比,回溯算法更适用于FPGA开发设计。
In the survivor management, two parallel trace-back module is designed, trace-back algorithm is better than register-change algorithm for designing on FPGA.
组合输入交叉缓存交换机以结构上存储的相对独立性而占有优势,能获得更高的并行性。
Combined input and cross point queue have advantage due to relative independency. it can be more parallel due to its independent and distributed memory.
并行分组交换机(PPS)是一种利用多个低速交换结构实现高速交换的新技术,它是当前高速交换领域的一个研究热点。
Parallel Packet switch (PPS) can realize high speed switching by using low speed switches, which is a hot spot in switching area.
MAI管理设备控制器内的所有状态寄存器,并且通过8位并行数据线与设备端mcu进行数据交换。
MAI, which manages all the control status registers, exchange data with MCU through 8-bit data bus.
也即当采用并行端口的众多多功能外设器件彼此相连时,在通用串行总线(usb)上可以实现他们的高速数据交换。
While many MFP devices still use the parallel port, there is a shift to Universal Serial Bus (USB) for the high-speed connection of peripheral devices.
分组调度方面:提出了一种新的多级缓存并行分组交换结构和一种分布式变长分组调度算法(DVLPS)。
On packet scheduling: A novel multi-stage buffering PPS and the Distributed Variable-Length Packet Scheduling (DVLPS) algorithm are present.
本文讨论了光分组交换网络中的多种组播机制,包括并行模式,串行模式及混合模式全光组播机制。
Different multicasting schemes in optical packet switched networks are discussed, including the parallel mode, serial mode, and hybrid mode multicasting schemes.
本文讨论了光分组交换网络中的多种组播机制,包括并行模式,串行模式及混合模式全光组播机制。
Different multicasting schemes in optical packet switched networks are discussed, including the parallel mode, serial mode, and hybrid mode multicasting schemes.
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