FAT TREE ADAPTIVE ROUTING

Organization Name

hewlett packard enterprise development lp

Inventor(s)

Abdulla M. Bataineh of Vista CA (US)

Thomas L. Court of Three Lakes WI (US)

Edwin L. Froese of Burnaby (CA)

FAT TREE ADAPTIVE ROUTING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240259301 titled 'FAT TREE ADAPTIVE ROUTING

The patent application describes systems and methods for efficiently routing data through a network with a fat-tree topology.

• Receiving a data transmission with multiple packets at an edge port of the network.
• Routing the data transmission through the network based on a routing table.
• The routing table includes entries for routing decisions using a destination-based hash function.

Potential Applications: - Data centers - High-performance computing networks - Cloud computing infrastructure

Problems Solved: - Efficient data routing in complex network topologies - Minimizing latency and packet loss in data transmission

Benefits: - Improved network performance - Enhanced data transmission efficiency - Scalability for large networks

Commercial Applications: Title: "Efficient Data Routing Technology for High-Performance Networks" This technology can be used in data centers, cloud computing providers, and telecommunications companies to optimize network performance and enhance data transmission efficiency.

Prior Art: Researchers and developers can explore prior art related to fat-tree network topologies, data routing algorithms, and hash functions in network routing.

Frequently Updated Research: Stay updated on advancements in network routing algorithms, data center networking technologies, and hash function optimizations for routing efficiency.

Questions about Efficient Data Routing Technology: 1. How does the destination-based hash function improve data routing efficiency in the network? - The destination-based hash function helps distribute data packets evenly across network paths, reducing congestion and improving overall performance.

2. What are the key differences between fat-tree network topologies and other network configurations? - Fat-tree topologies offer high bandwidth and low latency by providing multiple paths for data transmission, unlike traditional network structures.

Original Abstract Submitted

systems and methods are provided for efficiently routing data through a network having a plurality of switches configured in a fat-tree topology, including: receiving a data transmission comprising a plurality of packets at an edge port of the network, and routing the data transmission through the network with routing decisions based upon a routing table, wherein the routing table includes entries to effect routing decisions based upon a destination based hash function.