18184381. SLICE COORDINATION simplified abstract (QUALCOMM Incorporated)
Contents
SLICE COORDINATION
Organization Name
Inventor(s)
Jian Liang of San Diego CA (US)
Ruobai Feng of San Diego CA (US)
SLICE COORDINATION - A simplified explanation of the abstract
This abstract first appeared for US patent application 18184381 titled 'SLICE COORDINATION
The abstract of the patent application describes an apparatus with multiple slices for distributed information processing and dedicated databuses for local coordination.
- Each slice of the apparatus is configured for distributed information processing.
- Each slice is coupled to a dedicated databus for local coordination.
- The slices work together for distributed information processing.
Potential Applications: - Data centers - Cloud computing - High-performance computing
Problems Solved: - Efficient coordination in distributed systems - Scalability in information processing
Benefits: - Improved performance in distributed processing - Enhanced coordination capabilities - Scalability for growing data needs
Commercial Applications: Title: Enhanced Coordination Technology for Data Centers This technology can be used in data centers to improve coordination and scalability, leading to better performance and efficiency in processing large amounts of data.
Questions about Enhanced Coordination Technology for Data Centers: 1. How does this technology improve coordination in distributed systems? This technology enhances coordination by allowing each slice to work independently while still being able to communicate and coordinate with other slices through dedicated databuses.
2. What are the potential market implications of this technology in cloud computing? This technology could revolutionize cloud computing by enabling more efficient coordination and scalability, leading to better performance and cost-effectiveness for cloud service providers.
Original Abstract Submitted
Aspects of the disclosure are directed to coordination. In accordance with one aspect, an apparatus including a plurality of slices, wherein each slice of the plurality of slices is configured for distributed information processing; and a plurality of dedicated databuses, wherein each slice of the plurality of slices is coupled to one of the plurality of dedicated databuses and each slice of the plurality of slices is configured for local coordination for the distributed information processing.
