Load Balancing and Traffic Distribution Strategies in Active-Active Architecture
- Round-robin: Requests are delivered in a circular pattern across active servers to ensure an equitable distribution of traffic.
- Least Connections: Requests are directed to the server with the fewest active connections, which helps to equally share the demand.
- Weighted Round-robin: Different weights can be allocated to servers based on their ability to handle traffic, resulting in more effective resource use.
Active Passive & Active Active Architecture for High Availability System
Active-Passive and Active-Active architectures stand out as two important strategies for achieving high availability. These architectures offer distinct approaches to distributing workloads, managing resources, and mitigating downtime, each tailored to address specific operational requirements and scalability demands.
Important Topics for Active Passive & Active Active Architecture for High Availability System
- What is Active-Passive Architecture?
- Components and Characteristics of Active-Passive Architecture
- Failover Process and Recovery Mechanisms in Active-Passive Architecture
- Use Cases of Active-Passive Architecture
- Benefits of Active-Passive Architecture
- Challenges of Active-Passive Architecture
- What is Active-Active Architecture?
- Components and Characteristics of Active-Active Architecture
- Load Balancing and Traffic Distribution Strategies in Active-Active Architecture
- Real-World Examples and Use Cases of Active-Active Architecture
- Benefits of Active-Active Architecture
- Challenges of Active-Active Architecture
- Factors Influencing Architecture Selection
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