primary-secondary clock

简明释义

子母钟

英英释义

例句

1.In our network, we rely on the primary-secondary clock 主从时钟 to maintain accurate time across all servers.

在我们的网络中，我们依赖 主从时钟 primary-secondary clock 来保持所有服务器的准确时间。

2.To avoid discrepancies, the primary-secondary clock 主从时钟 should be monitored regularly.

为了避免差异，主从时钟 primary-secondary clock 应定期监控。

3.The engineer explained how the primary-secondary clock 主从时钟 system ensures synchronization between multiple devices.

工程师解释了如何通过 主从时钟 primary-secondary clock 系统确保多个设备之间的同步。

4.Our software updates rely on the primary-secondary clock 主从时钟 to ensure they are executed at the right time.

我们的软件更新依赖于 主从时钟 primary-secondary clock 确保它们在正确的时间执行。

5.The primary-secondary clock 主从时钟 configuration is crucial for our data center operations.

对于我们的数据中心运营，主从时钟 primary-secondary clock 配置至关重要。

作文

In the realm of timekeeping and synchronization, the concept of a primary-secondary clock plays a crucial role. A primary-secondary clock system is designed to ensure that time is accurately measured and maintained across various devices and systems. This is particularly important in fields such as telecommunications, navigation, and scientific research, where precise timing is essential for functionality and accuracy.A primary-secondary clock setup typically consists of a primary clock, which serves as the main reference time source, and one or more secondary clocks that derive their time from the primary source. The primary clock is often an atomic clock, known for its exceptional precision. Atomic clocks operate based on the vibrations of atoms, making them incredibly stable and reliable. These clocks can maintain accuracy to within billionths of a second, which is critical in applications like GPS satellites, where even a slight timing error can lead to significant location inaccuracies.The secondary clocks, on the other hand, are synchronized with the primary clock and can be located in different geographic locations or integrated within various systems. These clocks rely on signals transmitted from the primary clock to maintain accurate time. For instance, in a telecommunications network, a primary-secondary clock system ensures that all nodes in the network operate on the same time standard, allowing for efficient data transmission and coordination.One of the key advantages of using a primary-secondary clock configuration is redundancy. If the primary clock fails or experiences a malfunction, the secondary clocks can still function based on their last known synchronization. This redundancy helps maintain operational continuity and reduces the risk of time-related errors.Moreover, the implementation of a primary-secondary clock system allows for scalability. As organizations grow and expand, they can easily add more secondary clocks without needing to replace the primary clock. This flexibility makes it an ideal solution for businesses and institutions that require consistent and reliable timekeeping across multiple locations.In addition to its practical applications, the primary-secondary clock concept also highlights the importance of collaboration and synchronization in our increasingly interconnected world. Just as these clocks work together to maintain accurate time, different systems and technologies must also collaborate to ensure seamless operations. This principle can be applied beyond timekeeping, serving as a metaphor for teamwork and cooperation in various fields.In conclusion, the primary-secondary clock system is an essential component in modern timekeeping, providing accuracy, reliability, and flexibility. As technology continues to advance, the significance of synchronized time will only grow, making the understanding of concepts like the primary-secondary clock increasingly important. Whether in telecommunications, navigation, or scientific research, maintaining accurate time through a well-structured clock system is vital for success and efficiency in today's fast-paced world.

在时间测量和同步的领域中，primary-secondary clock（主从时钟）这一概念发挥着至关重要的作用。primary-secondary clock系统旨在确保各种设备和系统中的时间被准确测量和维持。这在电信、导航和科学研究等领域尤为重要，因为精确的计时对功能和准确性至关重要。primary-secondary clock设置通常由一个主时钟组成，作为主要参考时间源，以及一个或多个从时钟，它们从主源获取时间。主时钟通常是原子钟，以其卓越的精确度而闻名。原子钟基于原子的振动工作，使其具有极高的稳定性和可靠性。这些时钟的准确性可以保持在十亿分之一秒以内，这在GPS卫星等应用中至关重要，因为即使是微小的计时误差也会导致显著的定位不准确。另一方面，从时钟与主时钟同步，并且可以位于不同的地理位置或集成在各种系统中。这些时钟依赖于从主时钟传输的信号来维持准确的时间。例如，在电信网络中，primary-secondary clock系统确保网络中的所有节点都以相同的时间标准运行，从而允许高效的数据传输和协调。使用primary-secondary clock配置的一个主要优点是冗余。如果主时钟故障或发生故障，从时钟仍然可以根据其最后已知的同步继续工作。这种冗余有助于维持操作的连续性，并减少时间相关错误的风险。此外，实施primary-secondary clock系统还允许可扩展性。随着组织的增长和扩展，可以轻松添加更多的从时钟，而无需更换主时钟。这种灵活性使其成为需要在多个地点保持一致和可靠的计时的企业和机构的理想解决方案。除了实际应用之外，primary-secondary clock的概念还突显了在我们日益互联的世界中合作与同步的重要性。正如这些时钟共同工作以维持准确的时间一样，不同的系统和技术也必须协作以确保无缝的操作。这一原则可以超越时间测量，作为各个领域团队合作和协作的隐喻。总之，primary-secondary clock系统是现代计时的一个基本组成部分，提供了准确性、可靠性和灵活性。随着技术的不断进步，同步时间的重要性只会增加，使得像primary-secondary clock这样的概念愈发重要。无论是在电信、导航还是科学研究中，通过结构良好的时钟系统保持准确的时间对于在当今快节奏的世界中取得成功和效率至关重要。