synchronization accuracy

简明释义

整步准确性

英英释义

例句

1.To achieve effective communication between devices, synchronization accuracy must be prioritized.

为了实现设备之间的有效通信，必须优先考虑同步精度。

2.In distributed computing, maintaining high synchronization accuracy is crucial for data consistency.

在分布式计算中，保持高同步精度对数据一致性至关重要。

3.The GPS system relies on synchronization accuracy to provide precise location information.

GPS系统依赖于同步精度来提供精确的位置信息。

4.The research team focused on enhancing synchronization accuracy in their new algorithm.

研究团队专注于提高他们新算法中的同步精度。

5.In video conferencing, poor synchronization accuracy can lead to delays and miscommunication.

在视频会议中，差的同步精度可能导致延迟和误传。

作文

In today's fast-paced technological landscape, the concept of synchronization accuracy (同步精度) has gained paramount importance across various fields, including telecommunications, computing, and even in everyday applications such as GPS systems. Synchronization refers to the process of aligning events in time, ensuring that different systems or components operate in harmony. The accuracy of this synchronization is critical for the effective functioning of complex systems, where even a slight deviation can lead to significant errors and inefficiencies.For instance, in the realm of telecommunications, synchronization accuracy (同步精度) is essential for maintaining the integrity of data transmission. When multiple signals are transmitted simultaneously, they must be synchronized accurately to prevent interference and data loss. If the synchronization is off, packets of data can arrive out of order or be corrupted, leading to a poor user experience and potential financial losses for companies. Thus, achieving high levels of synchronization accuracy (同步精度) is crucial for service providers to ensure reliable communication channels.Moreover, in the field of computing, particularly in distributed systems, synchronization accuracy (同步精度) plays a vital role in coordinating processes that run on different machines. For example, in cloud computing environments where resources are shared among multiple users, tasks must be synchronized to ensure that they do not interfere with each other. High synchronization accuracy (同步精度) allows for efficient resource allocation and task management, ultimately leading to improved performance and reduced latency.Another area where synchronization accuracy (同步精度) is critical is in navigation systems, particularly those relying on Global Positioning System (GPS) technology. GPS satellites continuously transmit signals that must be synchronized with ground receivers to determine precise locations. Any discrepancies in timing can result in inaccurate positioning, which can have severe implications in sectors such as aviation, maritime navigation, and even autonomous vehicles. Therefore, enhancing synchronization accuracy (同步精度) in these systems is a top priority for engineers and researchers.Furthermore, industries such as finance and healthcare also rely heavily on synchronization accuracy (同步精度). In finance, stock exchanges require precise timing for executing trades, as even milliseconds can make a difference in the stock market. Similarly, in healthcare, synchronized data between medical devices and patient monitoring systems ensures that critical information is conveyed accurately and promptly, which can be a matter of life and death.To achieve optimal synchronization accuracy (同步精度), various technologies and methodologies are employed. Technologies such as Network Time Protocol (NTP) and Precision Time Protocol (PTP) are commonly used to maintain synchronization across networks. Additionally, advancements in atomic clocks and GPS technology have significantly contributed to improving synchronization accuracy (同步精度). Research continues to focus on minimizing latency and enhancing the precision of synchronization methods to meet the growing demands of modern applications.In conclusion, synchronization accuracy (同步精度) is a fundamental aspect of many technological systems that impacts their efficiency and reliability. As we continue to advance into an era dominated by interconnected devices and real-time data processing, the importance of achieving high levels of synchronization accuracy (同步精度) will only increase. By understanding and improving this concept, we can pave the way for more robust and efficient systems that enhance our daily lives and drive innovation across various industries.

在当今快速发展的技术环境中，synchronization accuracy（同步精度）的概念在电信、计算机以及日常应用（如GPS系统）等多个领域变得至关重要。同步指的是在时间上对事件进行对齐的过程，确保不同的系统或组件和谐运作。这种同步的准确性对复杂系统的有效运行至关重要，因为即使是微小的偏差也会导致显著的错误和低效。例如，在电信领域，synchronization accuracy（同步精度）对于维护数据传输的完整性至关重要。当多个信号同时传输时，它们必须准确同步，以防止干扰和数据丢失。如果同步出现问题，数据包可能会错位或损坏，从而导致用户体验不佳，并可能给公司带来经济损失。因此，实现高水平的synchronization accuracy（同步精度）对服务提供商确保可靠的通信渠道至关重要。此外，在计算领域，特别是在分布式系统中，synchronization accuracy（同步精度）在协调不同机器上运行的进程方面起着至关重要的作用。例如，在云计算环境中，资源在多个用户之间共享，任务必须同步，以确保它们不会相互干扰。高synchronization accuracy（同步精度）允许高效的资源分配和任务管理，最终提高性能并减少延迟。另一个synchronization accuracy（同步精度）至关重要的领域是导航系统，特别是依赖全球定位系统（GPS）技术的系统。GPS卫星不断发送信号，这些信号必须与地面接收器同步，以确定精确的位置。任何时间上的差异都可能导致定位不准确，这在航空、海洋导航甚至自动驾驶汽车等行业中可能产生严重影响。因此，提高这些系统中的synchronization accuracy（同步精度）是工程师和研究人员的首要任务。此外，金融和医疗等行业也在很大程度上依赖于synchronization accuracy（同步精度）。在金融领域，证券交易所需要精确的交易执行时间，因为即使是毫秒的差异也能影响股市。同样，在医疗保健中，医疗设备与患者监测系统之间的数据同步确保关键信息的准确和及时传递，这可能关乎生死。为了实现最佳的synchronization accuracy（同步精度），采用了各种技术和方法。网络时间协议（NTP）和精密时间协议（PTP）等技术通常用于维护网络间的同步。此外，原子钟和GPS技术的进步显著提高了synchronization accuracy（同步精度）。研究仍在继续，重点在于最小化延迟并增强同步方法的精度，以满足现代应用日益增长的需求。总之，synchronization accuracy（同步精度）是许多技术系统的基本方面，影响着它们的效率和可靠性。随着我们继续进入一个以互联设备和实时数据处理为主导的时代，实现高水平的synchronization accuracy（同步精度）的重要性只会增加。通过理解和改善这一概念，我们可以为更强大、更高效的系统铺平道路，提升我们的日常生活，并推动各行业的创新。