automatic switchover

简明释义

1. 自动转接; 2. 自动转接程序;

英英释义

例句

1.Our cloud service offers an automatic switchover feature to enhance reliability.

我们的云服务提供自动切换功能以增强可靠性。

2.The database management system supports automatic switchover to ensure high availability.

数据库管理系统支持自动切换以确保高可用性。

3.The telecommunications network uses automatic switchover to maintain service continuity during outages.

电信网络使用自动切换在故障期间保持服务连续性。

4.In case of a power failure, the system will perform an automatic switchover to the backup generator.

在电源故障的情况下，系统将执行自动切换到备用发电机。

5.The server is configured for an automatic switchover to ensure minimal downtime during maintenance.

服务器配置了自动切换以确保在维护期间最小化停机时间。

作文

In today's fast-paced world, technology plays an increasingly vital role in our daily lives. One of the remarkable advancements in technology is the concept of automatic switchover (自动切换). This term refers to the seamless transition from one system or source to another without any manual intervention. In various fields such as telecommunications, power supply, and data management, automatic switchover has become a crucial feature that enhances efficiency and reliability.For instance, consider the realm of telecommunications. Communication networks often face disruptions due to maintenance or unexpected outages. The implementation of automatic switchover ensures that when one network path fails, the system instantly reroutes the data through an alternative path. This process minimizes downtime and maintains uninterrupted service for users. Without this technology, users would experience delays and interruptions, which could lead to dissatisfaction and loss of trust in the service provider.Similarly, in the power supply industry, automatic switchover systems are essential for ensuring a continuous power supply. When the primary power source fails, these systems automatically switch to a backup generator or an alternative power source. This capability is particularly important for critical facilities such as hospitals, data centers, and emergency services, where even a momentary loss of power can have severe consequences. By utilizing automatic switchover technology, these facilities can operate smoothly and effectively, safeguarding both equipment and lives.Moreover, in the context of data management, automatic switchover is vital for maintaining data integrity and availability. Organizations often rely on multiple servers to store and manage their data. If one server encounters issues or goes offline, automatic switchover mechanisms can redirect requests to a standby server, ensuring that users continue to have access to the necessary information. This redundancy is crucial for businesses that depend on real-time data processing and accessibility.However, implementing automatic switchover systems is not without challenges. Organizations must invest in robust infrastructure and ensure that their systems are compatible with the switchover technology. Additionally, regular testing and maintenance are required to guarantee that the switchover mechanisms function correctly when needed. Failure to do so could result in catastrophic failures during critical times, negating the benefits of having such systems in place.In conclusion, the concept of automatic switchover (自动切换) represents a significant advancement in technology that enhances operational efficiency across various sectors. By enabling seamless transitions between systems, it minimizes disruptions and ensures reliability in telecommunications, power supply, and data management. As technology continues to evolve, the importance of automatic switchover will only increase, making it an essential component of modern infrastructure. Organizations that embrace this technology will be better positioned to meet the demands of an ever-changing world, ultimately leading to improved service delivery and customer satisfaction.

在当今快节奏的世界中，技术在我们日常生活中扮演着越来越重要的角色。技术的一项显著进步是自动切换（automatic switchover）的概念。这个术语指的是从一个系统或来源到另一个系统或来源的无缝过渡，而无需任何人工干预。在电信、电力供应和数据管理等各个领域，自动切换已成为增强效率和可靠性的关键特性。例如，考虑电信领域。由于维护或意外停机，通信网络经常面临中断。实施自动切换可以确保当一条网络路径失败时，系统会立即通过替代路径重新路由数据。这个过程最小化了停机时间，并为用户保持不间断的服务。如果没有这项技术，用户将会经历延迟和中断，这可能导致不满和对服务提供商的信任丧失。同样，在电力供应行业，自动切换系统对于确保连续的电力供应至关重要。当主要电源失败时，这些系统会自动切换到备用发电机或替代电源。这种能力对于医院、数据中心和紧急服务等关键设施尤为重要，因为即使是短暂的停电也可能产生严重后果。通过利用自动切换技术，这些设施能够顺利有效地运作，保护设备和生命。此外，在数据管理的背景下，自动切换对于维护数据完整性和可用性至关重要。组织通常依赖多个服务器来存储和管理他们的数据。如果一台服务器遇到问题或离线，自动切换机制可以将请求重定向到备用服务器，确保用户继续访问所需的信息。这种冗余对于依赖实时数据处理和可访问性的企业至关重要。然而，实施自动切换系统并非没有挑战。组织必须投资于强大的基础设施，并确保其系统与切换技术兼容。此外，定期测试和维护是必要的，以确保在需要时切换机制正常工作。如果未能做到这一点，可能会在关键时刻导致灾难性故障，抵消拥有此类系统的好处。总之，自动切换（automatic switchover）这一概念代表了技术的重大进步，增强了各个行业的运营效率。通过实现系统之间的无缝过渡，它最小化了中断，并确保了电信、电力供应和数据管理的可靠性。随着技术的不断发展，自动切换的重要性只会增加，使其成为现代基础设施的一个重要组成部分。拥抱这项技术的组织将更好地满足不断变化的世界的需求，从而最终提高服务交付和客户满意度。