The difficulty of RS encoder IP core design is how to improve operation rate of encoding circuit.
RS编码器IP核设计的难点是提高编码电路的编码运算速度。
Comparing to this, in communication of speech, the network communication based on IP has incredible growth rate, and has reduced the cost that launch the speech business.
相对于语音通信,基于IP的网络通信有着令人难以置信的增长速度,并且大大降低了开展语音业务的成本。
TFRC was the widely accepted rate control scheme in wired IP networks, but it suffered performance degradation in wireless networks.
TFRC是有线ip网络中最为常用的速率控制机制,但是它在无线网络中的性能会发生急剧降低。
Practical application indicate, sow on the basis of MPEG-4 standard and IP multicast system of technology have in high compression rate, high network width utilization ratio, etc. characteristic.
实际应用表明,基于MPEG - 4标准和ip组播技术的系统具有更高的压缩率、更高的网络带宽利用率等特点。
In contrast with general IP data acquisition, DNM expands frequency band of power, widens sampled time and raises detective rate.
与传统的激发极化数据采集方法相比,电场差分法增加了供电的周期,扩大了采样的时间区段,提高了采样的速度。
The system achieves video streaming reliable transmission in IP network, and meets the individual requirements of the different users for spatial resolution, frame rate and video quality.
该系统实现了视频流在IP网络上的可靠传输,并且满足了不同用户对空间分辨率、帧率和视频质量的个性化需求等。
According the displayed IP address, users can collect the CPU and Memory usage of these machines, furthermore, there will a graphical display in accordance with a specific refresh rate.
根据显示的IP地址,用户可以收集这些机器的CPU和内存使用率,并且按照一定得刷新频率图形化显示出来。
In this paper, we first contrast the pros and cons of rate-based and credit-based flow control patterns, and get the conclusion that the latter is more suitable for the IP router design.
本文针对基于网络处理器体系结构的IP路由器中流量控制技术进行研究,讨论并比较了基于速率和基于信用两种流控方式的优缺点,认为在路由器内部适于采用基于信用的流量控制机制。
They feature 4cif full-frame-rate video and three IP video streams to catch all the action.
它有4cif全帧速率视频和三个能捕捉所有动作的IP视频流。
This blade can be used to produce counter pressure gradient at cascade passage end, reduce secondary flow loss, increase the efficiency of IP casing consequently, and improve the heat rate of units.
本文讨论了透平叶栅中的二次流产生的机理,并深入探讨了一种减少二次流损失的有效方法---叶片斜置和复合斜置技术,分析研究它对叶栅气动性能和级特性的影响。
This blade can be used to produce counter pressure gradient at cascade passage end, reduce secondary flow loss, increase the efficiency of IP casing consequently, and improve the heat rate of units.
本文讨论了透平叶栅中的二次流产生的机理,并深入探讨了一种减少二次流损失的有效方法---叶片斜置和复合斜置技术,分析研究它对叶栅气动性能和级特性的影响。
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