redundant system

简明释义

备用系统

英英释义

例句

1.A redundant system can help avoid downtime in manufacturing processes.

一个冗余系统可以帮助避免制造过程中的停机时间。

2.The data center has a redundant system to ensure continuous operation during power outages.

数据中心拥有一个冗余系统，以确保在停电期间持续运行。

3.In aviation, a redundant system is critical for maintaining flight safety.

在航空中，冗余系统对于保持飞行安全至关重要。

4.The hospital relies on a redundant system for life-support machines to ensure patient safety.

医院依赖于一个冗余系统来确保生命支持机器的患者安全。

5.Our IT department implemented a redundant system to prevent data loss.

我们的IT部门实施了一个冗余系统以防止数据丢失。

作文

In today's fast-paced and technology-driven world, the concept of a redundant system (冗余系统) has become increasingly important in various fields such as engineering, computing, and even organizational management. A redundant system is designed to provide backup or additional capacity to ensure that a primary system continues to function effectively, even in the event of failure or unexpected issues. This essay will explore the significance of redundant systems in different contexts, their benefits, and how they contribute to overall reliability and efficiency.One of the most common examples of a redundant system can be found in the realm of computer networks. In a typical network setup, multiple servers may be employed to handle requests from users. If one server goes down due to a hardware failure or maintenance issues, a redundant system ensures that another server can take over the workload seamlessly. This not only minimizes downtime but also enhances user experience by providing uninterrupted access to services. The implementation of redundant systems in networking is crucial for businesses that rely heavily on online operations, as even a few minutes of downtime can lead to significant financial losses and damage to reputation.In addition to computing, redundant systems are vital in engineering, particularly in the design of safety-critical systems such as those used in aviation or medical devices. For instance, commercial aircraft are equipped with multiple redundant systems for critical functions like navigation and communication. If one system fails, a redundant system can immediately take over, ensuring the safety of passengers and crew. This layered approach to safety not only protects lives but also instills confidence in the technology used in these high-stakes environments.Moreover, organizations often adopt redundant systems in their operational processes to enhance resilience. For example, a company may have multiple suppliers for the same component to avoid disruptions in production if one supplier encounters problems. This strategic redundancy allows businesses to maintain continuity and adapt quickly to changes in the supply chain. By incorporating redundant systems into their operations, organizations can mitigate risks and ensure long-term sustainability.However, while redundant systems offer numerous advantages, they also come with challenges. The implementation of these systems can lead to increased costs and complexity. Organizations must balance the need for redundancy with budget constraints and operational efficiency. Additionally, maintaining redundant systems requires regular testing and updates to ensure they function correctly when needed. Failure to do so can lead to a false sense of security, where an organization believes it is protected but discovers vulnerabilities during a crisis.In conclusion, the role of redundant systems (冗余系统) in modern society cannot be overstated. Whether in technology, engineering, or business operations, these systems provide essential backup and support to ensure reliability and continuity. As we continue to innovate and integrate advanced technologies into our daily lives, understanding and implementing redundant systems will be critical in safeguarding against failures and enhancing overall performance. By recognizing the importance of redundancy, we can better prepare ourselves for unforeseen challenges and maintain the integrity of our systems and processes.

在当今快速发展的技术驱动世界中，冗余系统（redundant system）的概念在工程、计算机和组织管理等多个领域变得越来越重要。冗余系统旨在提供备份或额外容量，以确保主要系统在发生故障或意外问题时仍能有效运行。本文将探讨冗余系统在不同背景下的重要性、其好处以及它们如何有助于整体可靠性和效率。在计算机网络领域，冗余系统的一个常见例子可以找到。在典型的网络设置中，可能会使用多个服务器来处理用户请求。如果一台服务器由于硬件故障或维护问题而停机，冗余系统确保另一台服务器能够无缝接管工作负载。这不仅最小化了停机时间，还通过提供不间断的服务访问增强了用户体验。在网络中实施冗余系统对于高度依赖在线操作的企业至关重要，因为即使是几分钟的停机也可能导致重大财务损失和声誉损害。除了计算机，冗余系统在工程中也至关重要，特别是在航空或医疗设备等安全关键系统的设计中。例如，商业飞机配备了多个冗余系统以处理导航和通信等关键功能。如果一个系统发生故障，冗余系统可以立即接管，确保乘客和机组人员的安全。这种分层的安全方法不仅保护生命，还增强了人们对这些高风险环境中所使用技术的信心。此外，组织通常在其运营过程中采用冗余系统以增强韧性。例如，一家公司可能会有多个供应商提供相同的组件，以避免如果一个供应商遇到问题时生产中断。这种战略性冗余使企业能够保持连续性，并迅速适应供应链中的变化。通过将冗余系统纳入其运营，组织可以减轻风险，确保长期可持续发展。然而，尽管冗余系统提供了许多优势，但它们也带来了挑战。这些系统的实施可能导致成本和复杂性增加。组织必须在冗余需求与预算限制和运营效率之间取得平衡。此外，维护冗余系统需要定期测试和更新，以确保在需要时能够正常运行。未能做到这一点可能导致虚假的安全感，即组织认为自己受到保护，但在危机期间发现了漏洞。总之，冗余系统（冗余系统）在现代社会中的作用不可低估。无论是在技术、工程还是商业运营中，这些系统都提供了必要的备份和支持，以确保可靠性和连续性。随着我们继续创新并将先进技术融入日常生活，理解和实施冗余系统在防范故障和提高整体性能方面至关重要。通过认识到冗余的重要性，我们可以更好地为不可预见的挑战做好准备，并维护我们系统和流程的完整性。