burst transfer rate
简明释义
突发传胔速率;
英英释义
例句
1.The new router is capable of achieving a higher burst transfer rate than the previous model.
新路由器能够达到比之前型号更高的突发传输速率。
2.During the data transfer, the burst transfer rate reached its maximum capacity.
在数据传输过程中,突发传输速率达到了其最大容量。
3.To enhance performance, we need to optimize the burst transfer rate of our network.
为了提升性能,我们需要优化网络的突发传输速率。
4.The SSD's burst transfer rate significantly improves the speed of loading large files.
这个SSD的突发传输速率显著提高了加载大文件的速度。
5.In video streaming, a high burst transfer rate can reduce buffering times.
在视频流媒体中,高突发传输速率可以减少缓冲时间。
作文
In the world of data transfer and computer networks, understanding various metrics is crucial for optimizing performance. One such important metric is the burst transfer rate, which refers to the maximum rate at which data can be transmitted over a network in a short period. This concept becomes particularly relevant in scenarios where large amounts of data need to be sent quickly, such as during file downloads or streaming high-definition videos. The burst transfer rate can significantly impact user experience, especially in environments with limited bandwidth.To comprehend the significance of burst transfer rate, it is essential to consider its relationship with other performance metrics like average transfer rate and latency. While the average transfer rate provides a general idea of how much data can be transferred over time, the burst transfer rate highlights the potential for faster transfers when the network is not congested. For instance, if a user is downloading a large file, the initial phase may utilize the full capacity of the network, resulting in a high burst transfer rate. However, as the download progresses and the network experiences more traffic, the average transfer rate might decline.Moreover, the burst transfer rate is influenced by several factors, including the type of network technology in use, the quality of the connection, and the protocols involved in data transmission. For example, fiber-optic connections typically offer higher burst transfer rates compared to traditional copper-based connections due to their superior bandwidth capabilities. Additionally, the efficiency of data compression algorithms can also play a role in maximizing the burst transfer rate, allowing more data to be packed into a smaller timeframe.Understanding the burst transfer rate is also vital for network engineers and IT professionals when designing and maintaining networks. By analyzing this metric, they can identify bottlenecks and optimize settings to improve overall data transfer efficiency. For instance, if a network consistently shows low burst transfer rates, it may indicate the need for hardware upgrades or adjustments in network configuration to enhance performance.In conclusion, the burst transfer rate is a critical metric in the realm of data transfer, providing insights into the maximum potential of network performance during short bursts of activity. Its understanding aids in improving user experiences and optimizing network infrastructure. As technology continues to evolve, keeping an eye on the burst transfer rate will remain essential for anyone involved in data communication, ensuring that they can provide efficient and effective solutions to meet the demands of modern users.
在数据传输和计算机网络的世界中,理解各种指标对于优化性能至关重要。其中一个重要指标是突发传输速率,它指的是在短时间内可以通过网络传输数据的最大速率。这个概念在需要快速发送大量数据的场景中尤为相关,例如在文件下载或流媒体播放高清晰度视频时。突发传输速率可以显著影响用户体验,尤其是在带宽有限的环境中。要理解突发传输速率的重要性,有必要考虑它与其他性能指标(如平均传输速率和延迟)之间的关系。虽然平均传输速率提供了一个关于数据可以多快传输的总体概念,但突发传输速率则突出显示了在网络不拥塞时更快传输的潜力。例如,如果用户正在下载一个大文件,初始阶段可能会利用网络的全部容量,从而导致高突发传输速率。然而,随着下载的进行,网络经历更多流量,平均传输速率可能会下降。此外,突发传输速率还受到多种因素的影响,包括使用的网络技术类型、连接质量以及数据传输中涉及的协议。例如,光纤连接通常比传统的基于铜缆的连接提供更高的突发传输速率,这是由于其优越的带宽能力。此外,数据压缩算法的效率也可以在最大化突发传输速率方面发挥作用,使得更多的数据能够在更短的时间内被打包。理解突发传输速率对于网络工程师和IT专业人员在设计和维护网络时也至关重要。通过分析这个指标,他们可以识别瓶颈并优化设置以提高整体数据传输效率。例如,如果一个网络持续显示低突发传输速率,这可能表明需要进行硬件升级或调整网络配置,以增强性能。总之,突发传输速率是数据传输领域中的一个关键指标,提供了关于网络性能在短暂活动期间最大潜力的洞察。理解这一点有助于改善用户体验和优化网络基础设施。随着技术的不断发展,关注突发传输速率将继续对任何参与数据通信的人至关重要,确保他们能够提供有效且高效的解决方案,以满足现代用户的需求。
