fault system

fault system音标为：["fɔːlt sɪˈstɪm]

基本翻译为“故障系统”。

速记技巧：fault（故障）+ system（系统）→故障系统。

Fault system这个词的英文词源可以追溯到拉丁语“falsus”和“status”，意思是“错误的状态”或“故障系统”。它的变化形式包括名词fault（故障）和faulty（有错误的）等。

相关单词：

Circuit breaker（断路器）：一种电路保护设备，用于在电路出现故障时断开电路，防止故障扩大。

Fault tolerance（故障容忍度）：指一个系统或设备在出现故障时能够继续运行，并保持其功能的能力。

Fault detection（故障检测）：指检测系统或设备是否存在故障的过程，以便及时采取措施进行修复。

Fault diagnosis（故障诊断）：指对系统或设备的故障进行诊断的过程，以确定故障的类型和原因。

Fault-tolerant（容错）：指系统或设备的设计和实现，使其能够在出现故障时仍能继续运行，并保持其功能。

Fault-prone（易出故障的）：指容易发生故障的系统或设备，通常是由于设计、制造或使用过程中的问题。

Fault-induced（故障引发的）：指由于系统或设备出现故障而导致的其他问题或故障。

Fault-based（基于故障的）：指基于系统或设备出现的故障来评估其性能或决定如何修复它的方法。

Fault-related（与故障相关的）：指与系统或设备的故障有关的信息、问题或解决方案等。

Fault system 常用短语：

1. fault tolerance 容错性

2. fault-prone 易出故障的

3. fault detection and diagnosis 故障检测与诊断

4. fault-induced failure 故障引发的事故

5. fault-tolerant design 容错设计

6. fault-tolerant system 容错系统

7. fault-tolerant computing 容错计算

双语句例：

1. Fault tolerance is crucial for reliable systems. (中文：容错性对于可靠系统至关重要。)

2. Fault-prone components should be replaced regularly. (中文：易出故障的部件应定期更换。)

3. Fault detection and diagnosis is an essential part of system maintenance. (中文：故障检测和诊断是系统维护的重要组成部分。)

4. Fault-induced failures should be avoided at all costs. (中文：故障引发的事故应不惜一切代价避免。)

5. Fault-tolerant design ensures that systems will continue to function even in the face of failure. (中文：容错设计确保系统即使在出现故障的情况下也能继续运行。)

6. Fault-tolerant computing is becoming increasingly important in high-risk environments. (中文：容错计算在高风险环境中变得越来越重要。)

7. The fault system is a complex system that requires careful maintenance and management. (中文：故障系统是一个复杂的系统，需要仔细维护和管理。)

英文小作文：

Fault system is a crucial component of any system, whether it"s a computer network, a power grid, or even a human body. It ensures that the system remains reliable and functional even when faced with unexpected failures or errors. However, maintaining a fault-free system is not always easy, as it requires constant monitoring and maintenance to ensure that any potential issues are identified and addressed promptly.

In addition to regular maintenance, fault systems also require a robust fault detection and diagnosis capability to identify and isolate any potential issues before they become catastrophic. This requires a combination of technical expertise and advanced monitoring tools that can quickly identify and assess the severity of any potential issues. Furthermore, fault systems must be able to adapt and evolve over time to address new challenges and emerging issues, ensuring that the system remains reliable and efficient for the long term.

In conclusion, fault systems are essential for ensuring the reliability and efficiency of any system, whether it"s a computer network, a power grid, or even a human body. Maintaining a fault-free system requires constant monitoring, advanced monitoring tools, robust fault detection and diagnosis capabilities, and adaptive evolution to address new challenges and emerging issues.