link span

简明释义

连接架;连接桥

英英释义

例句

1.In the user interface design, each link span 链接范围 should be visually distinct to enhance usability.

在用户界面设计中，每个link span 链接范围应该在视觉上是独特的，以增强可用性。

2.The website's navigation is organized into a clear link span 链接范围 that helps users find information easily.

网站的导航被组织成一个清晰的link span 链接范围，帮助用户轻松找到信息。

3.To improve SEO, make sure that your link span 链接范围 contains relevant keywords.

为了提高SEO，确保你的link span 链接范围包含相关关键词。

4.The link span 链接范围 on the homepage directs users to the most important sections of the site.

主页上的link span 链接范围引导用户访问网站上最重要的部分。

5.The developer created a link span 链接范围 for social media sharing on the blog.

开发者为博客创建了一个link span 链接范围用于社交媒体分享。

作文

In the world of technology and communication, the term link span refers to the distance or duration between two points in a network where data is transmitted. This concept is crucial in understanding how information flows through various systems, especially in the context of internet connectivity and telecommunications. A well-defined link span can significantly impact the performance and efficiency of a network, making it an essential aspect for engineers and designers to consider when building infrastructure. To illustrate the importance of link span, let’s consider a simple analogy. Imagine a highway system where cars represent data packets traveling from one city to another. The length of the highway, the number of lanes, and the traffic conditions all contribute to how quickly these cars can reach their destination. Similarly, in a digital network, the link span determines how fast and efficiently data can be transmitted. If the link span is too long or has too many obstacles, such as routers or switches, it can lead to delays and reduced performance. Moreover, understanding the link span is not only vital for improving speed but also for ensuring reliability in data transmission. In a scenario where data needs to be sent over a long distance, the integrity of the information must be maintained throughout the journey. Engineers often use various techniques to minimize errors during transmission, such as error-checking protocols and signal boosters, which are all influenced by the link span. In recent years, with the rise of cloud computing and the Internet of Things (IoT), the concept of link span has become even more significant. As more devices connect to the internet and communicate with each other, the demand for efficient and reliable data transmission increases. Companies are investing in technologies that optimize link span to reduce latency and improve user experience. For instance, content delivery networks (CDNs) strategically place servers closer to end-users to shorten the link span and enhance loading times for websites and applications. Furthermore, as we move towards a more interconnected world, understanding the implications of link span extends beyond just technical specifications. It also has socio-economic impacts. Regions with better network infrastructure and shorter link spans tend to attract more businesses and investments, leading to economic growth. Conversely, areas with poor connectivity may struggle to develop, highlighting the importance of investing in technology that minimizes link span challenges. In conclusion, the concept of link span is integral to the functioning of modern networks. It affects everything from data transmission speed to the overall reliability of communication systems. As technology continues to evolve, understanding and optimizing link span will remain a priority for engineers, businesses, and policymakers alike. By addressing the challenges associated with link span, we can pave the way for a more connected and efficient future, ultimately enhancing the way we communicate and interact in our daily lives.

在技术和通信的世界中，术语link span指的是网络中两个点之间数据传输的距离或持续时间。这个概念对于理解信息如何通过各种系统流动至关重要，尤其是在互联网连接和电信的背景下。一个明确定义的link span可以显著影响网络的性能和效率，使其成为工程师和设计师在构建基础设施时必须考虑的重要方面。为了说明link span的重要性，让我们考虑一个简单的类比。想象一下一个高速公路系统，其中汽车代表从一个城市到另一个城市的数据包。高速公路的长度、车道数量和交通状况都影响这些汽车到达目的地的速度。同样，在数字网络中，link span决定了数据传输的速度和效率。如果link span过长或有太多障碍物，如路由器或交换机，就可能导致延迟和性能下降。此外，理解link span不仅对提高速度至关重要，还对确保数据传输的可靠性至关重要。在需要长距离发送数据的情况下，必须在整个旅程中保持信息的完整性。工程师们通常使用各种技术来最小化传输过程中的错误，例如错误检查协议和信号增强器，这些都受到link span的影响。近年来，随着云计算和物联网（IoT）的兴起，link span的概念变得更加重要。随着越来越多的设备连接到互联网并相互通信，对高效和可靠数据传输的需求也在增加。公司正在投资于优化link span的技术，以减少延迟并改善用户体验。例如，内容分发网络（CDN）将服务器战略性地放置在离最终用户更近的位置，以缩短link span并增强网站和应用程序的加载时间。此外，随着我们向一个更加互联的世界迈进，理解link span的影响不仅限于技术规范。它还具有社会经济影响。网络基础设施和较短link spans的地区往往能吸引更多的企业和投资，从而促进经济增长。相反，连接不良的地区可能会发展困难，这突显了投资于减少link span挑战的技术的重要性。总之，link span的概念对于现代网络的运行至关重要。它影响从数据传输速度到通信系统整体可靠性的方方面面。随着技术的不断发展，理解和优化link span将继续是工程师、企业和政策制定者的优先事项。通过解决与link span相关的挑战，我们可以为一个更加互联和高效的未来铺平道路，最终增强我们在日常生活中的沟通和互动方式。