system bandwidth

简明释义

系统带宽

英英释义

例句

1.The system bandwidth was insufficient for streaming high-definition videos.

对于高清晰度视频流媒体来说，系统带宽不足。

2.The network administrator increased the system bandwidth to improve data transfer speeds.

网络管理员增加了系统带宽以提高数据传输速度。

3.A higher system bandwidth allows for more devices to connect simultaneously without lag.

更高的系统带宽允许更多设备同时连接而不会出现延迟。

4.Upgrading the system bandwidth can significantly enhance user experience in cloud applications.

升级系统带宽可以显著提升云应用中的用户体验。

5.We need to monitor the system bandwidth to ensure optimal performance during peak hours.

我们需要监控系统带宽以确保在高峰时段的最佳性能。

作文

In the realm of technology and communication, the term system bandwidth refers to the maximum rate at which data can be transmitted over a network or processed within a system. Understanding system bandwidth is crucial for both developers and users as it determines the efficiency and speed of data transfer in various applications. For instance, when streaming videos online, the system bandwidth dictates how quickly the video loads and plays without buffering. A higher system bandwidth means that more data can be sent and received simultaneously, leading to a smoother experience. Bandwidth is often measured in bits per second (bps), and this measurement can vary depending on the type of connection—be it wired or wireless. In a wired connection, such as fiber optics, the system bandwidth can reach incredibly high levels, allowing for fast internet speeds that are ideal for heavy data usage activities like gaming or high-definition streaming. On the other hand, wireless connections, such as Wi-Fi, may have lower system bandwidth due to factors like distance from the router, interference from other devices, and environmental obstacles.Moreover, the concept of system bandwidth extends beyond just internet connections. In computing, it relates to how much data can be processed by a computer's CPU and memory at any given time. If a system has a low system bandwidth, it may struggle to handle multiple applications running concurrently, leading to lag and reduced performance. Therefore, understanding the system bandwidth of a computer system is essential for optimizing its performance and ensuring that it can handle the demands placed upon it by users.In practical terms, when evaluating a network or a computer system, one should consider not only the raw system bandwidth but also how it is utilized. For instance, a network could have high bandwidth, but if it is congested with too many users or devices, the effective system bandwidth available to each user may be significantly reduced. This phenomenon is commonly referred to as bandwidth throttling, where the actual speed experienced by users falls short of the advertised capabilities.Furthermore, as technology continues to evolve, the demand for higher system bandwidth grows. With the rise of cloud computing, IoT devices, and 4K streaming, users expect seamless connectivity and instantaneous data access. As a result, companies are constantly working to enhance their infrastructure to provide greater system bandwidth to meet these expectations. This ongoing development not only improves user experience but also drives innovation in technology.In conclusion, the importance of system bandwidth cannot be overstated. It plays a pivotal role in determining the speed and efficiency of data transmission across networks and within systems. By understanding and optimizing system bandwidth, both consumers and businesses can ensure they are getting the most out of their technology investments. As we move forward into an increasingly digital world, the need for high system bandwidth will only continue to grow, making it a key factor in the advancement of technology and communication.

在技术和通信领域，术语系统带宽指的是数据在网络上传输或在系统内处理的最大速率。理解系统带宽对开发者和用户至关重要，因为它决定了各种应用中数据传输的效率和速度。例如，在网上观看视频时，系统带宽决定了视频加载和播放的速度，而不会出现缓冲。更高的系统带宽意味着可以同时发送和接收更多的数据，从而带来更流畅的体验。带宽通常以每秒比特数（bps）来衡量，这一测量值可能会因连接类型而异——无论是有线还是无线。在有线连接中，例如光纤，系统带宽可以达到极高的水平，使得互联网速度快速，非常适合于重数据使用活动，如游戏或高清流媒体。另一方面，无线连接，如Wi-Fi，由于距离路由器、其他设备的干扰以及环境障碍等因素，可能具有较低的系统带宽。此外，系统带宽的概念不仅限于互联网连接。在计算中，它与计算机的CPU和内存在任何给定时间内可以处理的数据量有关。如果系统的系统带宽较低，它可能难以处理多个应用程序同时运行，从而导致延迟和性能下降。因此，理解计算机系统的系统带宽对于优化其性能和确保能够满足用户的需求至关重要。在实际操作中，评估网络或计算机系统时，不仅应考虑原始的系统带宽，还应考虑其使用情况。例如，一个网络可能具有高带宽，但如果被过多用户或设备拥挤，则每个用户可用的有效系统带宽可能会显著降低。这种现象通常被称为带宽限制，用户实际体验到的速度远低于广告宣传的能力。此外，随着技术的不断发展，对更高系统带宽的需求也在增长。随着云计算、物联网设备和4K流媒体的兴起，用户期望无缝连接和瞬时数据访问。因此，各公司不断努力增强其基础设施，以提供更大的系统带宽来满足这些期望。这种持续的发展不仅改善了用户体验，还推动了技术创新。总之，系统带宽的重要性不容小觑。它在决定网络和系统内数据传输的速度和效率方面发挥着关键作用。通过理解和优化系统带宽，消费者和企业都可以确保他们充分利用技术投资。随着我们进入一个日益数字化的世界，对高系统带宽的需求只会继续增长，使其成为技术和通信进步的关键因素。