active redundancy

简明释义

工作冗余

英英释义

例句

1.Using active redundancy in power supply systems helps prevent outages during peak demand.

在电力供应系统中使用主动冗余有助于防止在高峰需求期间发生停电。

2.The airline uses active redundancy in its flight systems to provide backup in case of equipment failure.

航空公司在其飞行系统中使用主动冗余以备设备故障时提供备份。

3.The hospital's life support systems are designed with active redundancy to ensure patient safety at all times.

医院的生命支持系统设计了主动冗余以确保患者安全始终得到保障。

4.By employing active redundancy, the network can automatically switch to a backup route if the primary one fails.

通过采用主动冗余，网络可以在主要路径失败时自动切换到备份路径。

5.In a data center, we implemented active redundancy to ensure that our servers remain operational even during maintenance periods.

在数据中心，我们实施了主动冗余以确保我们的服务器在维护期间仍然可以正常运行。

作文

In today's fast-paced world, the concept of reliability is more important than ever. Organizations across various sectors strive to maintain operational efficiency while minimizing downtime. One effective strategy that has gained traction in recent years is the implementation of active redundancy. This term refers to a system design approach where multiple components perform the same function simultaneously, ensuring that if one component fails, the others can seamlessly take over without any interruption. This proactive method contrasts with passive redundancy, where backup systems are only activated after a failure occurs.The significance of active redundancy becomes evident when we consider critical systems such as those in aviation, healthcare, and data centers. For instance, in an aircraft, multiple redundant systems for navigation and control are essential for safety. If one system fails, the pilot can rely on another system to maintain control, thereby preventing catastrophic outcomes. Similarly, in healthcare, life-support machines often have active redundancy built into their design. This ensures that patients receive uninterrupted care, even if one component of the machine malfunctions.Moreover, active redundancy is not limited to physical systems; it also applies to organizational structures. Companies that adopt this principle often create teams that can perform overlapping functions. This way, if one team member is unavailable due to illness or other reasons, another can step in and continue the work without significant delays. This flexibility enhances productivity and reduces the risk of project delays.However, implementing active redundancy is not without its challenges. It requires careful planning and investment in resources. Organizations must evaluate the costs associated with maintaining multiple systems or overlapping roles and weigh them against the potential risks of failure. Additionally, training employees to handle multiple functions can be resource-intensive but is crucial for the success of this approach.Despite these challenges, the benefits of active redundancy far outweigh the drawbacks. By ensuring that systems remain operational even in the face of failures, organizations can enhance their resilience and reliability. This is particularly vital in industries where downtime can lead to significant financial losses or jeopardize human lives.In conclusion, active redundancy represents a forward-thinking approach to system design and organizational management. By embedding redundancy into operations, organizations can safeguard against unexpected failures and maintain continuous service delivery. As we move further into an era where technology and efficiency are paramount, embracing active redundancy will likely become a standard practice across various industries, ensuring that they remain robust and capable of meeting the demands of the future.

在当今快节奏的世界中，可靠性的概念比以往任何时候都重要。各个行业的组织都在努力保持运营效率，同时最大限度地减少停机时间。近年来，实施主动冗余这一有效策略得到了广泛关注。这个术语指的是一种系统设计方法，其中多个组件同时执行相同的功能，以确保如果一个组件发生故障，其他组件可以无缝接管而不会中断。这种主动的方法与被动冗余形成对比，在被动冗余中，备份系统仅在发生故障后才被激活。当我们考虑航空、医疗和数据中心等关键系统时，主动冗余的重要性变得显而易见。例如，在飞机中，导航和控制的多个冗余系统对于安全至关重要。如果一个系统出现故障，飞行员可以依靠另一个系统维持控制，从而防止灾难性的后果。同样，在医疗保健中，生命支持机器通常在其设计中内置了主动冗余。这确保患者在一个组件发生故障时仍能获得不间断的护理。此外，主动冗余不仅限于物理系统；它也适用于组织结构。采用这一原则的公司通常会创建能够执行重叠职能的团队。这样，如果某个团队成员因疾病或其他原因无法出席，其他人可以介入并继续工作，而不会造成显著的延误。这种灵活性提高了生产力，并减少了项目延迟的风险。然而，实施主动冗余并非没有挑战。这需要仔细的规划和资源投资。组织必须评估维护多个系统或重叠角色的成本，并将其与故障的潜在风险进行权衡。此外，培训员工以处理多重职能可能会耗费大量资源，但对于这一方法的成功至关重要。尽管面临这些挑战，主动冗余的好处远远超过缺点。通过确保系统在面对故障时仍然可操作，组织可以增强其韧性和可靠性。这在停机可能导致重大财务损失或危及人类生命的行业中尤为重要。总之，主动冗余代表了一种前瞻性的系统设计和组织管理方法。通过将冗余嵌入运营，组织可以防范意外故障，保持持续的服务交付。随着我们进一步进入一个技术和效率至关重要的时代，拥抱主动冗余可能会成为各个行业的标准实践，确保它们保持强大并能够满足未来的需求。