synchronous transmission

简明释义

同步传输

英英释义

例句

1.The synchronous transmission of data in real-time applications is crucial for maintaining quality.

在实时应用中，数据的同步传输对于维持质量至关重要。

2.In a synchronous network, synchronous transmission ensures that all devices operate on the same clock cycle.

在同步网络中，同步传输确保所有设备在相同的时钟周期上运行。

3.In a network, synchronous transmission refers to data being sent at regular intervals, which allows for efficient communication.

在网络中，同步传输指的是数据以规律的时间间隔发送，这样可以实现高效的通信。

4.Television broadcasting often uses synchronous transmission to ensure that audio and video signals are perfectly aligned.

电视广播通常使用同步传输来确保音频和视频信号完美对齐。

5.Using synchronous transmission, the system can achieve higher data rates compared to asynchronous methods.

使用同步传输，系统可以比异步方法实现更高的数据传输速率。

作文

In the modern world, communication and data transfer have become essential components of everyday life. One of the key technologies that facilitate efficient communication is synchronous transmission. This method of data transfer allows information to be sent in a continuous stream, ensuring that the sender and receiver are in perfect alignment during the exchange. The importance of synchronous transmission cannot be overstated, especially in contexts where timing is critical, such as in telecommunications and computer networks.To understand synchronous transmission, it is important to compare it with its counterpart, asynchronous transmission. In asynchronous transmission, data is sent in chunks or packets, which may not require the sender and receiver to be synchronized. This can lead to delays and inefficiencies, particularly when large volumes of data are being transferred. On the other hand, synchronous transmission ensures that both parties are working in unison, which significantly reduces the chances of data loss and improves the overall speed of communication.One of the most common applications of synchronous transmission is in digital communication systems. For instance, when you make a phone call, your voice is converted into digital signals that are transmitted over the network. This process relies on synchronous transmission to ensure that the signals are sent and received in real-time. Any delay or mismatch in timing could result in poor call quality or dropped calls, highlighting the necessity of this technology.Moreover, synchronous transmission is also widely used in computer networking. When data is transferred between computers or devices, maintaining synchronization is crucial for effective communication. Protocols such as Synchronous Data Link Control (SDLC) and High-Level Data Link Control (HDLC) utilize synchronous transmission to manage the flow of data and maintain the integrity of the information being exchanged. These protocols ensure that data packets are sent and received in a timely manner, preventing issues such as data corruption or loss.Another significant advantage of synchronous transmission is its ability to support high-speed data transfer. In environments where large amounts of data need to be transmitted quickly, such as in financial trading or video streaming, synchronous transmission provides the necessary speed and efficiency. This capability is especially important in industries that rely on real-time data analysis and decision-making.However, synchronous transmission does come with its own set of challenges. One of the main drawbacks is the complexity of the systems required to maintain synchronization. This can lead to increased costs and technical difficulties, particularly in large-scale networks. Additionally, if there is any disruption in the synchronization, it can result in significant data loss or errors, which can be detrimental to businesses that depend on accurate data communication.In conclusion, synchronous transmission plays a vital role in the modern communication landscape. Its ability to facilitate real-time data transfer while maintaining synchronization makes it an indispensable technology in various fields, including telecommunications and computer networking. As we continue to advance technologically, understanding and utilizing synchronous transmission will become increasingly important for ensuring efficient and reliable communication in our interconnected world.

同步传输在现代世界中，通信和数据传输已成为日常生活的基本组成部分。促进高效通信的关键技术之一是同步传输。这种数据传输方法允许信息以连续流的方式发送，确保发送方和接收方在交换过程中完全对齐。同步传输的重要性不容小觑，尤其是在电信和计算机网络等时机至关重要的背景下。要理解同步传输，重要的是将其与其对立面——异步传输进行比较。在异步传输中，数据以块或数据包的形式发送，这可能不要求发送方和接收方保持同步。这可能导致延迟和效率低下，特别是在大量数据被传输时。另一方面，同步传输确保双方协同工作，这显著减少了数据丢失的机会，并提高了通信的整体速度。同步传输最常见的应用之一是在数字通信系统中。例如，当你打电话时，你的声音会被转换为数字信号并通过网络传输。这个过程依赖于同步传输来确保信号实时发送和接收。任何延迟或时序不匹配都可能导致通话质量差或通话断断续续，突显了这一技术的必要性。此外，同步传输还广泛应用于计算机网络。当数据在计算机或设备之间传输时，保持同步对于有效通信至关重要。诸如同步数据链路控制（SDLC）和高级数据链路控制（HDLC）等协议利用同步传输来管理数据流并维护所交换信息的完整性。这些协议确保数据包及时发送和接收，防止数据损坏或丢失等问题。同步传输的另一个显著优点是支持高速数据传输。在需要快速传输大量数据的环境中，如金融交易或视频流媒体，同步传输提供了必要的速度和效率。这种能力在依赖实时数据分析和决策的行业中尤为重要。然而，同步传输也有其自身的一系列挑战。主要缺点之一是维持同步所需系统的复杂性。这可能导致成本增加和技术困难，特别是在大规模网络中。此外，如果同步出现任何中断，可能导致重大数据丢失或错误，这对依赖准确数据通信的企业而言是有害的。总之，同步传输在现代通信领域中扮演着至关重要的角色。其能够在保持同步的同时促进实时数据传输，使其成为电信和计算机网络等多个领域不可或缺的技术。随着我们技术的不断进步，理解和利用同步传输将变得越来越重要，以确保我们互联世界中的高效和可靠通信。