EFFICIENTLY INTERCONNECTING COMPUTING NODES TO ENABLE USE OF HIGH-RADIX NETWORK SWITCHES

Organization Name

MICROSOFT TECHNOLOGY LICENSING, LLC

Inventor(s)

Hitesh Ballani of Cambridge (GB)

Winston Allen Saunders of Seattle WA (US)

Christian L. Belady of Mercer Island WA (US)

Lisa Ru-Feng Hsu of Durham NC (US)

Paolo Costa of London (GB)

Douglas M. Carmean of Seattle WA (US)

EFFICIENTLY INTERCONNECTING COMPUTING NODES TO ENABLE USE OF HIGH-RADIX NETWORK SWITCHES - A simplified explanation of the abstract

This abstract first appeared for US patent application 18520339 titled 'EFFICIENTLY INTERCONNECTING COMPUTING NODES TO ENABLE USE OF HIGH-RADIX NETWORK SWITCHES

Simplified Explanation

The abstract describes a system for efficiently interconnecting computing nodes using network switches and node interfaces.

• The system includes multiple computing nodes and network switches connected in parallel.
• Each computing node has at least one node interface for each network switch.
• Node interfaces are configured to send data to other computing nodes through the network switches.
• Each network switch has at least one switch interface for each computing node.
• Switch interfaces are connected to corresponding node interfaces to facilitate communication between computing nodes.

Potential Applications

This technology could be applied in data centers, supercomputers, and cloud computing environments to improve communication and data transfer between computing nodes.

Problems Solved

This system solves the problem of efficiently interconnecting multiple computing nodes in a parallel configuration, enabling faster and more reliable data transmission.

Benefits

The benefits of this technology include increased efficiency, reduced latency, improved scalability, and enhanced overall performance of interconnected computing nodes.

Potential Commercial Applications

Potential commercial applications of this technology include high-performance computing systems, large-scale data processing platforms, and network infrastructure for cloud services.

Possible Prior Art

One possible prior art for this technology could be traditional network topologies used in data centers and supercomputers, which may not be as efficient or scalable as the system described in the patent application.

Unanswered Questions

How does this system handle network congestion and prioritize data traffic between computing nodes?

This system does not provide specific details on how it manages network congestion or prioritizes data traffic, which could be crucial for optimizing performance in real-world applications.

What security measures are in place to protect data transmitted between computing nodes through the network switches?

The abstract does not mention any security features or protocols implemented in the system to ensure the confidentiality and integrity of data transferred between computing nodes, raising concerns about potential vulnerabilities in the network infrastructure.

Original Abstract Submitted

A system for efficiently interconnecting computing nodes can include a plurality of computing nodes and a plurality of network switches coupled in parallel to the plurality of computing nodes. The system can also include a plurality of node interfaces. Each computing node among the plurality of computing nodes can include at least one node interface for each network switch among the plurality of network switches. The plurality of node interfaces corresponding to a computing node can be configured to send data to another computing node via the plurality of network switches. The system can also include a plurality of switch interfaces. Each network switch among the plurality of network switches can include at least one switch interface for each computing node among the plurality of computing nodes. A switch interface corresponding to the computing node can be coupled to a node interface corresponding to the computing node.