parallel transmission

简明释义

并行传输

英英释义

例句

1.The new network design allows for parallel transmission of data, improving overall speed.

新的网络设计允许数据的并行传输，提高了整体速度。

2.In modern computing, parallel transmission can significantly reduce processing time.

在现代计算中，并行传输可以显著减少处理时间。

3.With parallel transmission, multiple signals can be sent simultaneously over the same channel.

通过并行传输，多个信号可以同时通过同一通道发送。

4.The software update introduced parallel transmission capabilities for better performance.

软件更新引入了并行传输功能，以提升性能。

5.Using parallel transmission in communication systems enhances the efficiency of data transfer.

在通信系统中使用并行传输提高了数据传输的效率。

作文

In the age of rapid technological advancement, the concept of parallel transmission has become increasingly relevant. This term refers to the simultaneous transfer of data across multiple channels or pathways, allowing for faster and more efficient communication. Understanding this concept is essential, especially in fields such as computer science, telecommunications, and networking.To illustrate the importance of parallel transmission, let’s consider the example of data transfer in computers. Traditionally, data was transmitted in a serial manner, meaning that bits of information were sent one after another. While this method was effective, it often resulted in bottlenecks, particularly when large amounts of data needed to be processed quickly. With the advent of parallel transmission, multiple bits can be sent at the same time, significantly increasing the overall speed of data transfer.This capability is particularly crucial in applications that require real-time processing, such as video streaming and online gaming. In these scenarios, any delay in data transmission can lead to a poor user experience. By utilizing parallel transmission, service providers can ensure that data flows smoothly and efficiently, enhancing the quality of service.Moreover, parallel transmission is not limited to just computer networks; it also plays a vital role in various other technologies. For instance, in the realm of telecommunications, parallel transmission allows for the simultaneous sending of multiple voice calls over a single line. This is achieved through multiplexing techniques, which divide the available bandwidth into separate channels, enabling numerous conversations to occur without interference.In addition to its practical applications, the concept of parallel transmission also has implications for future technological innovations. As we continue to push the boundaries of what is possible with technology, the need for faster and more efficient data transfer methods will only grow. Researchers are constantly exploring new ways to enhance parallel transmission techniques, such as using advanced materials for better signal integrity or developing algorithms that optimize data flow.Furthermore, the rise of cloud computing and big data analytics has made parallel transmission even more critical. Organizations are now required to process vast amounts of data in real-time, necessitating methods that can handle multiple streams of information simultaneously. By leveraging parallel transmission, businesses can improve their operational efficiency and make data-driven decisions faster than ever before.In conclusion, the concept of parallel transmission is a cornerstone of modern communication technology. Its ability to facilitate rapid data transfer across multiple channels not only enhances user experiences but also drives innovation across various industries. As we look to the future, understanding and mastering parallel transmission will be essential for anyone looking to thrive in a technology-driven world. Embracing this concept will undoubtedly pave the way for advancements that we have yet to imagine, ultimately shaping the landscape of communication and data processing for years to come.

在快速发展的技术时代，并行传输的概念变得越来越相关。这个术语指的是通过多个通道或路径同时传输数据，从而实现更快和更高效的通信。理解这一概念至关重要，尤其是在计算机科学、电信和网络等领域。为了说明并行传输的重要性，让我们考虑计算机中的数据传输示例。传统上，数据是以串行方式传输的，这意味着信息位一个接一个地发送。虽然这种方法有效，但在需要快速处理大量数据时，往往会导致瓶颈。随着并行传输的出现，多个位可以同时发送，从而显著提高数据传输的整体速度。这种能力在需要实时处理的应用中尤为关键，例如视频流和在线游戏。在这些场景中，数据传输的任何延迟都可能导致用户体验不佳。通过利用并行传输，服务提供商可以确保数据流畅高效，从而提高服务质量。此外，并行传输不仅限于计算机网络，它在各种其他技术中也发挥着重要作用。例如，在电信领域，并行传输允许在单条线路上同时发送多个语音通话。这是通过复用技术实现的，该技术将可用带宽划分为多个独立通道，使得多个对话可以在不干扰的情况下进行。除了实际应用外，并行传输的概念对未来技术创新也有影响。随着我们不断推动技术的可能性，快速和高效的数据传输方法的需求只会增加。研究人员正在不断探索增强并行传输技术的新方法，例如使用先进材料以改善信号完整性或开发优化数据流的算法。此外，云计算和大数据分析的兴起使得并行传输变得更加关键。组织现在需要实时处理大量数据，这需要能够同时处理多个信息流的方法。通过利用并行传输，企业可以提高运营效率，并比以往更快地做出基于数据的决策。总之，并行传输的概念是现代通信技术的基石。它能够促进通过多个通道快速传输数据，不仅增强了用户体验，还推动了各行业的创新。展望未来，理解和掌握并行传输将是任何希望在技术驱动的世界中蓬勃发展的人的必备技能。拥抱这一概念无疑将为我们尚未想象的进步铺平道路，最终塑造未来数年通信和数据处理的格局。