KINETIC POWER CAPPING USING FUZZY LOGIC-BASED DYNAMIC SYSTEM PRIORITIZATION

Organization Name

dell products l.p.

Inventor(s)

Rishi Mukherjee of Bangalore (IN)

Shivendra Katiyar of Bangalore (IN)

Lori Lynn Matthews of Austin TX (US)

Elie Antoun Jreij of Pflugerville TX (US)

KINETIC POWER CAPPING USING FUZZY LOGIC-BASED DYNAMIC SYSTEM PRIORITIZATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240126360 titled 'KINETIC POWER CAPPING USING FUZZY LOGIC-BASED DYNAMIC SYSTEM PRIORITIZATION

Simplified Explanation

The technology described in this patent application involves the dynamic adjustment of power capping for servers within a server system based on various weighted average values.

• Explanation of the patent:

 - The method involves generating weighted average values for current workload priority, current performance efficiency, and predicted future power usage for a subset of servers.
 - The subset of servers is then ranked compared to another subset based on these weighted average values.
 - A power cap is applied to the subset of servers based on this ranking.

Potential Applications

The technology could be applied in data centers, cloud computing environments, and server farms to optimize power usage and performance.

Problems Solved

- Efficient power management for servers - Optimization of workload distribution - Improved performance efficiency

Benefits

- Reduced energy consumption - Enhanced server performance - Cost savings on power usage

Potential Commercial Applications

"Dynamic Power Capping for Server Optimization" could be used in industries such as IT, telecommunications, and e-commerce to improve server efficiency and reduce operational costs.

Possible Prior Art

One possible prior art could be the use of static power capping techniques in server management systems, which do not dynamically adjust based on workload and performance efficiency.

Unanswered Questions

How does this technology impact server reliability and longevity?

The article does not address the potential effects of dynamic power capping on server reliability and longevity. This could be an important consideration for businesses looking to implement this technology.

What are the potential security implications of dynamically adjusting power capping for servers?

The article does not discuss the security implications of dynamically adjusting power capping for servers. It would be important to understand how this technology could impact the overall security of a server system.

Original Abstract Submitted

technology described herein relates to dynamic adjustment of power capping for one or more servers of a subset of servers. a method can comprise generating, by a system operatively coupled to a processor, for a first server subset of a server system, weighted average values comprising a first weighted average value of current workload priority at the first server subset, a second weighted average value of current performance efficiency of the first server subset, and a third weighted average value of predicted future power usage for the first server subset, ranking, by the system, the first server subset as compared to a second server subset of the server system that does not overlap servers with the first server subset, wherein the ranking is based on at least one of the weighted average values, and applying, by the system, a power cap to the first server subset based on the ranking.