A typical WAN consists of electronic devices called packet switches interconnected by communication lines.
一种典型的WAN由称为信息包交换机的电子设备通过通信线路连接而成。
In Chapter 3, the performance of nonblocking packet switches with correlated traffic arrival model is studied.
在第3章中,研究了在相关性信元到达模型下无阻塞交换机的性能分析。
Authors presents a new 2-approximation heuristic algorithm to schedule optical packet switches with configuration delay.
文章针对切换时延不为零的光交换调度提出了一种新算法———2近似启发算法。
In Chapter 2, we focus on the performance analysis of internal nonblocking packet switches with Bernoulli traffic arrival model.
在第2章中,研究在贝努里信元到达模型下,内部无阻塞交换机的性能分析。
In a sense, this permits arbitrarily large networks of devices, including servers, end devices, and switches (complete with device discovery and packet routing).
从某种意义上说,这种技术支持任意规模的大型设备网络,该网络可以包含服务器、终端设备和交换机(用于设备发现和包路由)。
Packet voice technology converts voice signal to digitized voice packet in certain length, then switches and transmits these packets by means of store and forward.
分组语音技术是指将语音信号转化为一定长度的数字化语音包,采用存储转发的方法以包的形式进行交换和传输的技术。
In a network based only on switches are packet collisions possible?
在一个基于网络的开关的分组碰撞的可能?
In the packet switching network, packet scheduling algorithms in the routers and switches decide how to serve packets, admission control algorithms decide bandwidth reservation and release.
在分组交换网络中,分组调度算法在交换机和路由器中决定着分组的服务规则,而接入允许控制算法则决定着带宽资源的预留和释放。
Additionally, the BCM56504 is based on a 72 Gbps packet processor that is capable of processing over 100 million packets per second, which is unrivaled for integrated multi-layer switches.
此外,BCM 56504是基于每秒可处理超过1亿包的72gbps包处理器,这一能力在集成多层交换机领域无可匹敌。
When the FC switch receives the packet, the packet will be forwarded to the SAN network to other switches or server.
当FC交换机接收到报文时,会将这些报文转发给SAN网络内的其他交换机或者是服务器。
Parallel Packet switch (PPS) can realize high speed switching by using low speed switches, which is a hot spot in switching area.
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。
The sender tracks the packet loss status according to the algorithm-loss rate estimation based on variable frame size and switches two audio sample files in accordance with packet loss status.
传送端根据以变动框架长度为基础之 遗失率估算法,来估算目前网路上封包遗失的状况,并以此作为切换高低音质档案的依据。
Using external packet filters or layer-specific switches optimizes the function of the device.
使用外部数据包过滤器或特定层的转换可以优化设备的功能。
External packet filters and IP Layer-4 and Layer-7 switches can also handle and route client requests.
外部数据包过滤器以及IP的第4层和第7层之间的转换也可以处理和发送客户机请求。
External packet filters and IP Layer-4 and Layer-7 switches can also handle and route client requests.
外部数据包过滤器以及IP的第4层和第7层之间的转换也可以处理和发送客户机请求。
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