To rearrange the out of order packets, the application software must reserve a buffer to store the packets before the expected packet arrives.
为了对失序数据包进行重排序,应用程序需要预留一个适当的缓冲区以存储期望包到达之前的数据包。
This dissertation pays attention to buffer management and packet scheduling in wireless multimedia packet networks.
本文重点研究了多媒体无线分组网络中的缓存管理与分组调度算法。
For processing variable length packet, current routers usually separate the packet into the smaller fixed-size one before buffering, or simply provide the packet with a fixed-length buffer.
现代网络设备常采用固定长度缓冲区机制来缓冲可变长度数据包,或采用信元机制将可变长度数据包进行定长化处理后再完成缓冲操作。
Router will abort IP packet when buffer is full and the IP packet is coming in. the tail drop do not use the link enough with TCP/IP's slow start.
当缓冲区满时的丢包策略,最常用的方法是采用尾丢包的方式,而尾丢包的方式和TCP/IP协议的慢启动管理策略会导致全局同步化,给网络带来不良影响,线路利用率不高。
On the basis of the estimated packet arrival rate and the status of network congestion in router, the buffer was managed using rate-based random early detection(RED).
在路由器中根据网络拥塞状态和数据流到达速率,采用基于速率的随机早期检测机制进行缓存管理。
Each processing module may include a network interface, at least one buffer, a packet parser, a packet builder, and at least one processing unit.
每一个处理模块都可以包括网络接口、至少一个缓冲器、分组解析器、分组构造器和至少一个处理单元。
This character results in increase of packet lost rate and queuing delay of buffer system.
这种特性会导致分组丢失率增大和缓存系统排队延时的增加。
The simulation results show that the local sequence and buffer admission-control mechanisms have the same advantages as RRDS, such as load balancing, high throughput and avoiding packet reordering.
模拟结果显示,局部序列号和缓冲区准入相结合,保持了RRDS算法负载分配均匀、吞吐率高和保序等特点。
In the server design, applies two forwarding modes of partial packet and entire packet forwarding, and the dynamic water level of sending buffer.
采用了立即转发和完整转发两种转发模式,以及动态调整发送缓冲区水线的发送模式。
A formula for calculating receiving buffer length was proposed, based on the analysis and research on network parameters, such as jitter, average speed and packet loss fraction.
在分析研究延时抖动、平均速率和丢包率等网络参数的基础上,给出客户端接收缓冲区长度估算公式。根据客户端反馈网络参数在服务器端实现流量控制。
The most important and indispensable component in OPS network is the optical buffer, which is used for storing the data packet to solve the time conflict of signals.
光缓存是OPS网络必需的器件,用以实现数据包的存储功能,解决信号时间上的冲突;
Until now, there is no practical optical buffer. In our case, we try to realize data storage or packet synchronization by slowing down the group velocity of light.
目前还没有可实用的光缓存,我们旨在通过减慢光速来实现信号的存储或者同步。
Until now, there is no practical optical buffer. In our case, we try to realize data storage or packet synchronization by slowing down the group velocity of light.
目前还没有可实用的光缓存,我们旨在通过减慢光速来实现信号的存储或者同步。
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