asynchronous transfer mode

简明释义

异步传胔模式;

英英释义

例句

1.The company upgraded its network to support asynchronous transfer mode 异步传输模式 for better performance.

公司升级了其网络，以支持asynchronous transfer mode 异步传输模式 以获得更好的性能。

2.In telecommunications, asynchronous transfer mode 异步传输模式 allows for efficient bandwidth management.

在电信领域，asynchronous transfer mode 异步传输模式 允许高效的带宽管理。

3.Using asynchronous transfer mode 异步传输模式, we can handle voice, video, and data simultaneously.

使用asynchronous transfer mode 异步传输模式，我们可以同时处理语音、视频和数据。

4.The network engineer explained that asynchronous transfer mode 异步传输模式 is essential for high-speed data transmission.

网络工程师解释说，asynchronous transfer mode 异步传输模式 对于高速数据传输至关重要。

5.One of the advantages of asynchronous transfer mode 异步传输模式 is its ability to prioritize different types of traffic.

asynchronous transfer mode 异步传输模式 的一个优点是能够优先处理不同类型的流量。

作文

In today's fast-paced digital world, the demand for efficient data transmission has never been higher. One of the key technologies that address this need is asynchronous transfer mode, or ATM, which plays a vital role in the realm of telecommunications and data networking. Understanding asynchronous transfer mode is crucial for anyone interested in the fields of computer science and information technology.Asynchronous transfer mode is a cell-based switching technique used in high-speed networks. Unlike traditional methods that use variable-length packets, ATM transmits data in fixed-size cells, typically 53 bytes long. This standardization allows for more efficient processing and reduces the complexity associated with handling different packet sizes. The fixed size of these cells facilitates faster switching and routing, making asynchronous transfer mode ideal for real-time applications such as video conferencing and online gaming.One of the significant advantages of asynchronous transfer mode is its ability to support multiple types of traffic, including voice, video, and data. This capability is particularly important in today's multimedia environment, where users expect seamless integration of various services. By using a single network infrastructure, service providers can deliver diverse services without compromising quality. This versatility makes ATM a popular choice for organizations that require reliable and high-performance communication solutions.Moreover, asynchronous transfer mode employs a connection-oriented approach, meaning that a virtual circuit must be established before data transmission can occur. This method ensures that bandwidth is allocated efficiently, reducing the chances of congestion and packet loss. Consequently, applications that rely on consistent data streams, such as VoIP (Voice over Internet Protocol), benefit significantly from the predictable performance offered by ATM.However, while asynchronous transfer mode boasts numerous advantages, it is not without its challenges. The complexity of implementing ATM networks can be a barrier for some organizations. Additionally, the rise of newer technologies, such as Internet Protocol (IP) based networks, has led to a decline in the popularity of ATM. Nonetheless, understanding the principles behind asynchronous transfer mode remains essential for IT professionals, as it laid the groundwork for many modern networking concepts.In conclusion, asynchronous transfer mode is a pivotal technology in the landscape of data transmission and networking. Its ability to handle various types of traffic efficiently, combined with its support for real-time applications, makes it a valuable tool in the telecommunications industry. While it faces competition from newer technologies, the foundational principles of asynchronous transfer mode continue to influence the development of contemporary networking solutions. As we move further into an era dominated by digital communication, the importance of understanding such technologies cannot be overstated. For students and professionals alike, grasping the concept of asynchronous transfer mode will undoubtedly enhance their knowledge and capabilities in the ever-evolving field of information technology.

在当今快节奏的数字世界中，对高效数据传输的需求比以往任何时候都要高。解决这一需求的关键技术之一是异步传输模式，或称ATM，它在电信和数据网络领域发挥着重要作用。理解异步传输模式对于任何对计算机科学和信息技术感兴趣的人来说都是至关重要的。异步传输模式是一种用于高速网络的基于单元的交换技术。与使用可变长度数据包的传统方法不同，ATM以固定大小的单元传输数据，通常为53字节。这种标准化使得处理更加高效，并减少了处理不同数据包大小所带来的复杂性。这些单元的固定大小促进了更快的交换和路由，使得异步传输模式非常适合实时应用，如视频会议和在线游戏。异步传输模式的一个显著优点是它能够支持多种类型的流量，包括语音、视频和数据。这种能力在当今多媒体环境中尤为重要，因为用户期望各种服务能够无缝集成。通过使用单一的网络基础设施，服务提供商可以在不妥协质量的情况下提供多样化的服务。这种多功能性使得ATM成为需要可靠和高性能通信解决方案的组织的热门选择。此外，异步传输模式采用面向连接的方法，这意味着在数据传输之前必须建立虚拟电路。这种方法确保带宽的有效分配，减少了拥塞和数据包丢失的可能性。因此，依赖一致数据流的应用程序（如VoIP（互联网协议语音））从ATM提供的可预测性能中受益匪浅。然而，尽管异步传输模式有众多优点，但也面临一些挑战。实施ATM网络的复杂性可能对一些组织构成障碍。此外，随着新技术（如基于互联网协议的网络）的兴起，ATM的受欢迎程度有所下降。尽管如此，理解异步传输模式背后的原理仍然对IT专业人员至关重要，因为它为许多现代网络概念奠定了基础。总之，异步传输模式是数据传输和网络领域的关键技术。其高效处理各种类型流量的能力，加上对实时应用的支持，使其成为电信行业的宝贵工具。尽管面临来自新技术的竞争，但异步传输模式的基础原则仍然影响着当代网络解决方案的发展。随着我们进一步进入一个数字通信主导的时代，理解这些技术的重要性不容忽视。对于学生和专业人士来说，掌握异步传输模式的概念无疑将增强他们在不断发展的信息技术领域的知识和能力。