delay fault

简明释义

延迟故障

英英释义

例句

1.During testing, a delay fault was discovered that led to unexpected results.

在测试过程中，发现了一个延迟故障，导致结果出乎意料。

2.After reviewing the code, we identified a delay fault that was affecting performance.

在审查代码后，我们发现了一个延迟故障，影响了性能。

3.The engineer reported a delay fault in the system that caused the project to fall behind schedule.

工程师报告了一个延迟故障，导致项目进度落后。

4.The team worked late to resolve a critical delay fault before the final deadline.

团队加班解决一个关键的延迟故障，以赶在最终截止日期之前。

5.To avoid future issues, we implemented a monitoring system for delay faults.

为了避免未来的问题，我们实施了一个监控系统来检测延迟故障。

作文

In the realm of computer science and electronic engineering, understanding various types of faults is crucial for the development of reliable systems. One such fault that has garnered attention in recent years is the delay fault. A delay fault refers to a situation where the response time of a system component exceeds the expected time, leading to potential failures in overall system performance. This can occur in digital circuits, where signals may not propagate through the circuit as quickly as intended, resulting in timing issues that can compromise the functionality of the device.The implications of delay faults are significant, particularly in high-speed applications such as telecommunications and computing. For instance, consider a scenario where a processor is designed to execute instructions at a specific clock speed. If a delay fault occurs, the processor may not be able to retrieve data from memory or execute commands in a timely manner, causing bottlenecks and reducing overall efficiency. In critical systems, such as those used in medical devices or automotive safety systems, these delays can lead to catastrophic failures.To mitigate the impact of delay faults, engineers employ various strategies during the design and testing phases. One common approach is to incorporate redundancy into the system. By adding extra components or pathways, the system can continue to function even if one part experiences a delay. Additionally, timing analysis tools are used to predict potential delay faults during the design phase, allowing engineers to make necessary adjustments before the product goes into production.Moreover, testing for delay faults is an essential part of the quality assurance process. Engineers conduct rigorous testing under different conditions to identify any potential delays that could affect performance. This includes simulating various environmental factors, such as temperature and voltage fluctuations, which may exacerbate delay faults. By identifying and addressing these issues early in the development cycle, companies can ensure that their products meet the required performance standards.In conclusion, the concept of delay fault is vital for anyone involved in the fields of electronics and computer engineering. Understanding how these faults occur, their potential impacts, and the strategies for mitigation is essential for developing reliable and efficient systems. As technology continues to advance and systems become more complex, the importance of addressing delay faults will only increase, making it a key area of focus for engineers and developers alike.

在计算机科学和电子工程的领域中，理解各种类型的故障对于开发可靠的系统至关重要。其中一个近年来受到关注的故障是延迟故障。延迟故障指的是系统组件的响应时间超过预期时间，从而导致整体系统性能可能出现故障的情况。这种情况可能发生在数字电路中，信号可能无法像预期那样迅速传播，通过电路传播时，会导致时序问题，从而影响设备的功能。延迟故障的影响是显著的，特别是在电信和计算等高速应用中。例如，考虑一种处理器被设计为以特定的时钟速度执行指令的场景。如果发生延迟故障，处理器可能无法及时从内存中检索数据或执行命令，从而导致瓶颈并降低整体效率。在关键系统中，例如用于医疗设备或汽车安全系统的系统，这些延迟可能导致灾难性的失败。为了减轻延迟故障的影响，工程师在设计和测试阶段采用各种策略。一种常见的方法是将冗余纳入系统。通过添加额外的组件或通道，即使某个部分发生延迟，系统也可以继续运行。此外，时间分析工具用于预测设计阶段可能出现的延迟故障，允许工程师在产品投入生产之前进行必要的调整。此外，测试延迟故障是质量保证过程的重要组成部分。工程师在不同条件下进行严格的测试，以识别可能影响性能的任何潜在延迟。这包括模拟各种环境因素，如温度和电压波动，这些因素可能加剧延迟故障。通过在开发周期早期识别和解决这些问题，公司可以确保其产品符合所需的性能标准。总之，延迟故障的概念对于任何参与电子和计算机工程领域的人来说都是至关重要的。理解这些故障是如何发生的、它们的潜在影响以及缓解策略对于开发可靠高效的系统至关重要。随着技术的不断进步和系统变得越来越复杂，解决延迟故障的重要性只会增加，使其成为工程师和开发人员共同关注的关键领域。