fault tolerance

简明释义

失效容差

英英释义

例句

1.The new server architecture is designed with fault tolerance 容错性 to ensure continuous operation even if one component fails.

新的服务器架构设计具有容错性，以确保即使一个组件失败也能持续运行。

2.Our application uses a microservices architecture that enhances fault tolerance 容错性 by isolating services.

我们的应用程序采用微服务架构，通过隔离服务来增强容错性。

3.The database system has built-in fault tolerance 容错性 mechanisms to prevent data loss.

数据库系统具有内置的容错性机制，以防止数据丢失。

4.Implementing fault tolerance 容错性 in software design can significantly reduce downtime.

在软件设计中实施容错性可以显著减少停机时间。

5.In cloud computing, fault tolerance 容错性 is crucial for maintaining service availability during outages.

在云计算中，容错性对在停机期间维护服务可用性至关重要。

作文

In the rapidly evolving world of technology, the concept of fault tolerance is becoming increasingly crucial. Fault tolerance refers to the ability of a system to continue functioning properly in the event of a failure of some of its components. This characteristic is particularly vital in critical systems such as healthcare, aviation, and financial services, where even a minor malfunction can lead to catastrophic consequences.One of the primary reasons for implementing fault tolerance in systems is to ensure reliability. Systems that are designed with fault tolerance in mind can automatically detect failures and switch to backup components or processes without any noticeable interruption to the user. For example, in a hospital, life-support machines are often equipped with fault tolerance mechanisms to ensure that they continue to operate even if one part fails. This not only protects the patients but also gives peace of mind to medical staff.Another important aspect of fault tolerance is its role in maintaining data integrity. In the digital age, data is one of the most valuable assets for any organization. A system that lacks fault tolerance may suffer data loss during a hardware failure, leading to significant financial and reputational damage. By integrating fault tolerance strategies, such as data replication and error correction codes, organizations can safeguard their data and ensure that it remains accessible even in the face of unexpected failures.Moreover, fault tolerance contributes to the overall user experience. Users today expect seamless service, and any downtime can result in frustration and loss of trust. For instance, consider online banking systems. These platforms must be available 24/7, and any downtime can lead to customers losing faith in their ability to manage their finances. Implementing fault tolerance allows these systems to handle failures gracefully, ensuring that users can continue to access their accounts and perform transactions without interruption.The implementation of fault tolerance can take various forms, including redundancy, where critical components are duplicated, and failover systems, which automatically switch to a backup system in case of failure. Additionally, regular testing and maintenance of these systems are essential to ensure that they can respond effectively when a failure occurs. Organizations must invest in training their personnel to understand and manage these fault tolerance systems, as human error can also lead to system failures.In conclusion, fault tolerance is an indispensable component of modern technology systems. It enhances reliability, protects data integrity, and improves user experience. As we continue to rely more on technology in our daily lives, understanding and implementing fault tolerance will be key to ensuring that systems remain robust and resilient in the face of inevitable failures. Organizations that prioritize fault tolerance will not only safeguard their operations but also gain a competitive edge in an increasingly technology-driven world.

在快速发展的科技世界中，容错性的概念变得愈发重要。容错性是指系统在某些组件发生故障时，继续正常运行的能力。这一特性在医疗、航空和金融服务等关键系统中尤为重要，因为即使是微小的故障也可能导致灾难性的后果。实现系统的容错性的主要原因之一是确保可靠性。设计时考虑到容错性的系统能够自动检测故障，并在没有明显中断用户体验的情况下切换到备用组件或流程。例如，在医院中，生命维持设备通常配备有容错性机制，以确保即使某个部分出现故障，它们仍能继续运行。这不仅保护了病人，也让医务人员感到安心。容错性的另一个重要方面是维护数据完整性的作用。在数字时代，数据是任何组织最有价值的资产之一。缺乏容错性的系统在硬件故障期间可能会遭受数据丢失，从而导致重大的财务和声誉损失。通过整合容错性策略，例如数据复制和错误校正代码，组织可以保障其数据安全，并确保即使在意外故障面前数据仍然可访问。此外，容错性还有助于改善整体用户体验。如今的用户期望无缝服务，任何停机时间都可能导致挫败感和信任丧失。例如，考虑在线银行系统。这些平台必须全天候可用，任何停机都会导致客户对管理财务的能力失去信心。实施容错性使这些系统能够优雅地处理故障，确保用户能够继续访问他们的账户并进行交易，而不会中断。容错性的实现可以采取多种形式，包括冗余，即关键组件的重复，以及故障转移系统，在发生故障时自动切换到备用系统。此外，定期测试和维护这些系统对于确保它们在故障发生时能够有效响应至关重要。组织必须投资于培训其人员，以理解和管理这些容错性系统，因为人为错误也可能导致系统故障。总之，容错性是现代技术系统不可或缺的组成部分。它增强了可靠性，保护了数据完整性，并改善了用户体验。随着我们在日常生活中越来越依赖技术，理解和实施容错性将是确保系统在不可避免的故障面前保持稳健和弹性的关键。优先考虑容错性的组织不仅能保障其运营，还将在日益以技术驱动的世界中获得竞争优势。