traffic throughput

简明释义

通话能力

英英释义

例句

1.Monitoring traffic throughput 流量吞吐量 helps identify bottlenecks in the system.

监测流量吞吐量有助于识别系统中的瓶颈。

2.The network's traffic throughput 流量吞吐量 increased significantly after the upgrade.

网络的流量吞吐量在升级后显著增加。

3.The data center achieved a remarkable traffic throughput 流量吞吐量 of 10 Gbps.

数据中心实现了显著的流量吞吐量，达到10 Gbps。

4.To improve traffic throughput 流量吞吐量, we need to optimize our routing protocols.

为了提高流量吞吐量，我们需要优化路由协议。

5.Increased traffic throughput 流量吞吐量 can lead to faster file transfers and downloads.

增加的流量吞吐量可以导致更快的文件传输和下载速度。

作文

In today's rapidly advancing technological landscape, the concept of traffic throughput (交通吞吐量) has become increasingly important, especially in the realm of network performance and transportation systems. Understanding this term is crucial for both engineers and everyday users who rely on efficient systems for communication and travel.Traffic throughput refers to the amount of data or vehicles that can be processed or transmitted in a given amount of time. In the context of computer networks, it is often measured in bits per second (bps), indicating how much information can be sent across the network within a specific timeframe. Similarly, in transportation, traffic throughput (交通吞吐量) can refer to the number of vehicles that pass through a certain point, such as a toll booth or an intersection, over a defined period.One of the primary factors influencing traffic throughput (交通吞吐量) in networking is bandwidth. Bandwidth represents the maximum rate of data transfer across a network path. A higher bandwidth allows for greater traffic throughput (交通吞吐量), enabling more data to be sent simultaneously. However, it is essential to note that other elements, such as latency and network congestion, can also affect overall performance. For instance, even with high bandwidth, if the network experiences significant delays or bottlenecks, the actual traffic throughput (交通吞吐量) may be lower than expected.In transportation systems, factors affecting traffic throughput (交通吞吐量) include road capacity, traffic signals, and driver behavior. A well-designed road with multiple lanes and efficient traffic management systems can significantly improve traffic throughput (交通吞吐量). Conversely, narrow roads, construction, or accidents can lead to decreased traffic throughput (交通吞吐量), resulting in congestion and longer travel times.Improving traffic throughput (交通吞吐量) is a common goal for both network engineers and urban planners. In networking, techniques such as load balancing and data compression are employed to enhance traffic throughput (交通吞吐量). Load balancing distributes incoming network traffic across multiple servers, ensuring that no single server becomes overwhelmed. Data compression reduces the size of data packets, allowing more information to be transmitted in less time.In urban planning, strategies such as optimizing traffic light timings, implementing intelligent transportation systems, and expanding road infrastructure can help maximize traffic throughput (交通吞吐量). Smart traffic lights that adapt to real-time conditions can reduce wait times at intersections, while expanded road networks can accommodate more vehicles, ultimately improving the flow of traffic.Furthermore, understanding traffic throughput (交通吞吐量) is vital for assessing the efficiency of both networks and transportation systems. By analyzing traffic throughput (交通吞吐量), stakeholders can identify areas for improvement and implement solutions that enhance overall performance. This not only benefits individual users but also contributes to the broader goal of creating more efficient and sustainable systems.In conclusion, traffic throughput (交通吞吐量) is a critical concept that plays a significant role in both networking and transportation. By comprehending the factors that influence traffic throughput (交通吞吐量) and employing strategies to improve it, we can create more efficient systems that meet the demands of our increasingly connected world. Whether it's ensuring faster internet speeds or reducing traffic congestion, enhancing traffic throughput (交通吞吐量) remains a key objective for engineers, planners, and users alike.

在当今快速发展的技术环境中，交通吞吐量的概念变得越来越重要，尤其是在网络性能和交通系统的领域。理解这个术语对于依赖高效系统进行通信和旅行的工程师和普通用户来说至关重要。交通吞吐量是指在给定时间内可以处理或传输的数据或车辆的数量。在计算机网络的上下文中，它通常以每秒比特数（bps）来衡量，表示在特定时间框架内可以通过网络发送多少信息。同样，在交通运输中，交通吞吐量可以指经过某个点（如收费站或交叉口）的车辆数量，通常是在一段定义的时间内。影响网络中交通吞吐量的主要因素之一是带宽。带宽表示网络路径上数据传输的最大速率。较高的带宽允许更大的交通吞吐量，使得更多的数据可以同时发送。然而，必须注意的是，延迟和网络拥塞等其他因素也会影响整体性能。例如，即使带宽很高，如果网络经历了显著的延迟或瓶颈，则实际的交通吞吐量可能低于预期。在交通系统中，影响交通吞吐量的因素包括道路容量、交通信号和驾驶员行为。设计良好的多车道道路和高效的交通管理系统可以显著改善交通吞吐量。相反，狭窄的道路、施工或事故可能导致交通吞吐量下降，从而导致拥堵和更长的旅行时间。提高交通吞吐量是网络工程师和城市规划者的共同目标。在网络中，负载均衡和数据压缩等技术被用来增强交通吞吐量。负载均衡将进入的网络流量分配到多个服务器上，确保没有单个服务器过载。数据压缩减少数据包的大小，使得在更短的时间内可以传输更多的信息。在城市规划中，优化交通灯时机、实施智能交通系统和扩展道路基础设施等策略可以帮助最大化交通吞吐量。能够根据实时情况调整的智能交通灯可以减少交叉口的等待时间，而扩展的道路网络可以容纳更多的车辆，最终改善交通流动。此外，理解交通吞吐量对于评估网络和交通系统的效率至关重要。通过分析交通吞吐量，利益相关者可以识别改进的领域并实施增强整体性能的解决方案。这不仅有利于个人用户，还有助于实现创造更高效和可持续系统的更广泛目标。总之，交通吞吐量是一个关键概念，在网络和交通领域发挥着重要作用。通过理解影响交通吞吐量的因素并采取措施加以改善，我们可以创建更高效的系统，以满足我们日益互联的世界的需求。无论是确保更快的互联网速度还是减少交通拥堵，提高交通吞吐量仍然是工程师、规划者和用户共同的关键目标。