What is Distributed Architecture?
Distributed architecture refers to a network design approach that decentralizes optical splitters, moving them closer to the network edge whilst still maintaining a single level split architecture. This method enhances efficiency, scalability, and performance by reducing reliance on centralized processing hubs.
Key Takeaways
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Decentralized Splitter Placement
Distributed architecture moves optical splitters closer to the network edge—nearer to homes or businesses—while still maintaining a single-level split. This reduces the need for long distribution fiber runs. -
Improved Network Efficiency
By decentralizing splitter locations, the architecture minimizes reliance on centralized hubs, which enhances overall network performance and reduces latency. -
Scalability and Future-Proofing
This design supports easier network expansion and upgrades, making it ideal for growing demand and evolving broadband technologies. -
Lower Installation and Material Costs
Distributed networks require less labor and fewer materials, helping service providers reduce both capital and operational expenditures. -
Enhanced Reliability and Flexibility
With fewer centralized points of failure and more localized infrastructure, distributed architecture increases network resilience and adaptability.
How Distributed Architecture Works
Rather than relying on a single centralized location, a distributed network positions the Optical splitters deeper into the network, closer to the end customer, greatly reducing distribution fiber requirements. This approach maintains a single level split architecture whilst reducing labor and infrastructure needs and helps to enhance overall network scalability and reliability.
Advantages of Distributed Architecture
This approach offers several benefits, including improved network scalability, reduced installation requirements, and reduced material requirements. Offering future scalability and upgradability, distributed networks solve several problems for service providers.