5 Must Know Facts For Your Next Test

1. Active redundancy allows systems to maintain performance levels during component failures, which is crucial for high-reliability applications like aerospace and medical devices.
2. This approach often involves load-sharing among components, meaning they all contribute to the system's output rather than waiting for one to fail.
3. Implementing active redundancy can lead to increased costs due to the need for additional hardware and more complex system designs.
4. Monitoring and maintenance of all active components are critical in active redundancy systems to ensure seamless operation and quick response to any potential failures.
5. The effectiveness of active redundancy is often evaluated through reliability metrics, which measure how well the system performs over time despite component failures.

Review Questions

• How does active redundancy enhance system reliability compared to passive redundancy?
  • Active redundancy enhances system reliability by allowing multiple components to work simultaneously, which means if one component fails, others can immediately take over without interrupting service. This ensures that the system continues to function smoothly under normal conditions, whereas passive redundancy would only activate backup components after a failure occurs, potentially leading to downtime and service interruption.
• What are the potential trade-offs when implementing active redundancy in system design?
  • Implementing active redundancy can improve system reliability and availability, but it also comes with potential trade-offs. These include higher costs due to the need for additional components and infrastructure, increased complexity in system design and management, and the necessity for continuous monitoring of all active components to ensure they function correctly. Balancing these factors is crucial when deciding whether to implement active redundancy in a specific application.
• Evaluate the impact of active redundancy on overall system performance and maintenance requirements in critical applications.
  • Active redundancy significantly impacts overall system performance by allowing uninterrupted service during component failures, which is especially important in critical applications such as aviation and healthcare. However, it also increases maintenance requirements since all active components must be regularly monitored and maintained to prevent failures. This dual focus on performance and maintenance can create challenges for organizations in terms of resource allocation and operational efficiency, making it essential to develop robust strategies that support both goals effectively.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.