quasi-synchronizing method
简明释义
准同步法
英英释义
例句
1.By using a quasi-synchronizing method, the system can handle multiple inputs without lag.
通过使用准同步方法,系统可以在没有延迟的情况下处理多个输入。
2.The researchers implemented a quasi-synchronizing method to improve the efficiency of data processing.
研究人员实施了一种准同步方法以提高数据处理的效率。
3.The quasi-synchronizing method proved effective in reducing errors during data transmission.
这种准同步方法在减少数据传输过程中的错误方面证明是有效的。
4.The quasi-synchronizing method allows for flexibility in timing while still achieving synchronization.
这种准同步方法允许在时间上有灵活性,同时仍能实现同步。
5.In our latest project, we adopted a quasi-synchronizing method for better coordination among team members.
在我们最新的项目中,我们采用了一种准同步方法以更好地协调团队成员。
作文
In the realm of modern technology, synchronization plays a crucial role in ensuring that systems operate seamlessly and efficiently. One innovative approach that has emerged is the quasi-synchronizing method(准同步方法). This technique is particularly relevant in fields such as telecommunications, data processing, and distributed computing, where the timing and coordination of tasks are essential for optimal performance. The quasi-synchronizing method(准同步方法)is designed to achieve a level of synchronization that is not absolute but sufficiently close to meet the operational requirements of various applications. Unlike traditional synchronization methods that demand precise timing, this approach allows for slight deviations in timing, thereby accommodating the inherent delays and variations that occur in real-world systems. One of the primary advantages of the quasi-synchronizing method(准同步方法)is its flexibility. In environments where multiple processes need to communicate and work together, strict synchronization can lead to bottlenecks and inefficiencies. By adopting a quasi-synchronized framework, systems can continue to function effectively even when some components experience delays. This is particularly valuable in large-scale networks where latency can significantly impact overall performance. For example, consider a distributed database system that relies on numerous nodes to process transactions. If all nodes were required to operate in perfect synchrony, any delay at one node could halt the entire operation. However, with the implementation of the quasi-synchronizing method(准同步方法), each node can function independently while still maintaining a loose level of coordination with others. This not only enhances the system's resilience but also improves throughput and response times. Moreover, the quasi-synchronizing method(准同步方法)can be beneficial in real-time applications, such as video streaming or online gaming. In these scenarios, a small amount of latency is often acceptable, and users may not even notice slight discrepancies in timing. By allowing for a quasi-synchronized approach, developers can optimize their systems to deliver better performance without compromising the user experience. However, it is important to note that while the quasi-synchronizing method(准同步方法)offers significant benefits, it also presents challenges. The key lies in determining the acceptable limits of deviation in timing. If the timing differences become too pronounced, they can lead to inconsistencies and errors in data processing. Therefore, careful consideration must be given to the specific requirements of each application to ensure that the quasi-synchronization remains effective. In conclusion, the quasi-synchronizing method(准同步方法)represents a significant advancement in the field of synchronization techniques. By allowing for flexible timing while still achieving a functional level of coordination among processes, it enables systems to operate more efficiently and effectively. As technology continues to evolve, the importance of such innovative methods will only grow, paving the way for more resilient and high-performing systems across various industries.
在现代科技领域,同步性在确保系统无缝且高效地运行中发挥着至关重要的作用。一种新兴的创新方法是准同步方法(quasi-synchronizing method)。这一技术在电信、数据处理和分布式计算等领域尤为相关,因为在这些领域中,任务的时间协调对于最佳性能至关重要。准同步方法(quasi-synchronizing method)旨在实现一种不同于绝对同步但足够接近以满足各种应用的操作要求的同步水平。与传统的同步方法要求精确的时间不同,这种方法允许时间上有轻微的偏差,从而适应现实世界系统中固有的延迟和变化。准同步方法(quasi-synchronizing method)的主要优点之一是其灵活性。在多个进程需要协同工作和沟通的环境中,严格的同步可能导致瓶颈和低效率。通过采用准同步框架,系统即使在某些组件出现延迟时也能继续有效运作。这在大规模网络中尤为宝贵,因为延迟会显著影响整体性能。例如,考虑一个依赖多个节点处理事务的分布式数据库系统。如果所有节点都要求完美同步,任何一个节点的延迟都可能导致整个操作停滞。然而,通过实施准同步方法(quasi-synchronizing method),每个节点可以独立运作,同时仍保持与其他节点的松散协调。这不仅增强了系统的韧性,还提高了吞吐量和响应时间。此外,准同步方法(quasi-synchronizing method)在实时应用中也很有价值,例如视频流或在线游戏。在这些场景中,少量延迟通常是可以接受的,用户甚至可能不会注意到时间上的轻微差异。通过允许采取准同步的方法,开发者可以优化他们的系统,以在不妨碍用户体验的情况下提供更好的性能。然而,值得注意的是,尽管准同步方法(quasi-synchronizing method)提供了显著的好处,但它也带来了挑战。关键在于确定时间偏差的可接受限度。如果时间差异变得过于明显,可能会导致数据处理中的不一致性和错误。因此,必须仔细考虑每个应用的具体要求,以确保准同步保持有效。总之,准同步方法(quasi-synchronizing method)代表了同步技术领域的一项重大进展。通过允许灵活的时间安排,同时实现进程之间功能性的协调,它使系统能够更高效、更有效地运行。随着技术的不断发展,这种创新方法的重要性只会增加,为各个行业中更具韧性和高性能的系统铺平道路。
