SYSTEMS AND METHODS FOR PACKAGE-TO-PACKAGE COMMUNICATION

Organization Name

meta platforms technologies, llc

Inventor(s)

Jumnit Hong of Portland OR (US)

Amnon Harpak of Tel Aviv (IL)

Orit Lev of Zikhron Ya'akov (IL)

Ram Weiss of Zoran (IL)

SYSTEMS AND METHODS FOR PACKAGE-TO-PACKAGE COMMUNICATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240338267 titled 'SYSTEMS AND METHODS FOR PACKAGE-TO-PACKAGE COMMUNICATION

The disclosed computer-implemented method involves coalescing and queueing messages in multiple message queues based on a latency tolerance level and transitioning a data transfer link to an active state based on the latency tolerance level to optimize power usage.

• Coalescing and queueing messages based on latency tolerance levels
• Transitioning data transfer link to active state based on latency tolerance levels
• Optimizing power for data transfer link by keeping it in low power state
• Methods, systems, and computer-readable media are disclosed

Potential Applications: - Data processing systems - Communication networks - IoT devices

Problems Solved: - Power optimization in data transfer links - Efficient message queue management

Benefits: - Reduced power consumption - Improved performance in data transfer - Enhanced system reliability

Commercial Applications: Optimizing power usage in communication networks can lead to cost savings for businesses and improved efficiency in data processing systems, making this technology valuable for various industries.

Questions about the technology: 1. How does the method optimize power for data transfer links? 2. What are the potential applications of this technology in IoT devices?

Frequently Updated Research: Stay updated on advancements in power optimization techniques for data transfer links and message queue management systems to enhance the efficiency of this technology.

Original Abstract Submitted

the disclosed computer-implemented method may include coalescing and queueing, by an integrated circuit, messages in multiple message queues based on a latency tolerance level for the message. additionally, the disclosed computer-implemented method may include transitioning, by the integrated circuit, a data transfer link to an active state based on the latency tolerance level for the message queue. this method may optimize power for the data transfer link by keeping it in a low power state for as long as possible. various other methods, systems, and computer-readable media are also disclosed.