SYSTEMS, APPARATUS, AND METHODS TO IMPROVE WEBSERVERS USING DYNAMIC LOAD BALANCERS

Organization Name

Intel Corporation

Inventor(s)

Amruta Misra of Bangalore (IN)

Niall Mcdonnell of Limerick (IE)

Mrittika Ganguli of Tempe AZ (US)

Edwin Verplanke of Chandler AZ (US)

Stephen Palermo of Chandler AZ (US)

Rahul Shah of Chandler AZ (US)

Pushpendra Kumar of Agra (IN)

Vrinda Khirwadkar of Bengaluru (IN)

Valerie Parker of Portland OR (US)

SYSTEMS, APPARATUS, AND METHODS TO IMPROVE WEBSERVERS USING DYNAMIC LOAD BALANCERS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18393236 titled 'SYSTEMS, APPARATUS, AND METHODS TO IMPROVE WEBSERVERS USING DYNAMIC LOAD BALANCERS

Simplified Explanation

The abstract describes a patent application related to improving webservers using dynamic load balancers. The method involves identifying different data object types associated with media, enqueuing event data in queues, dequeuing event data into core queues, and executing computing operations based on the event data.

• Identifying data object types associated with media
• Enqueuing event data in queues
• Dequeuing event data into core queues
• Executing computing operations based on event data

Potential Applications

This technology could be applied in various industries where webservers are used, such as e-commerce, social media platforms, and online streaming services.

Problems Solved

This technology helps improve the performance and efficiency of webservers by dynamically balancing the load and optimizing computing operations based on event data.

Benefits

- Enhanced performance of webservers - Efficient resource utilization - Improved user experience on websites

Potential Commercial Applications

"Optimizing Webservers with Dynamic Load Balancers" could be used in cloud computing services, content delivery networks, and data centers to enhance the performance of web applications.

Possible Prior Art

One possible prior art could be the use of traditional load balancers in webservers to distribute incoming network traffic across multiple servers to prevent overload and improve response times.

Unanswered Questions

How does this technology impact cybersecurity measures in webservers?

This article does not address the potential cybersecurity implications of implementing dynamic load balancers in webservers. It would be important to consider how this technology may affect security protocols and measures in place to protect against cyber threats.

What are the scalability limitations of this technology in large-scale web server environments?

The article does not discuss the scalability limitations of implementing dynamic load balancers in large-scale web server environments. It would be essential to understand how this technology performs when dealing with a high volume of traffic and data processing requirements.

Original Abstract Submitted

Methods, apparatus, systems, and articles of manufacture are disclosed to improve webservers using dynamic load balancers. An example method includes identifying a first and second data object type associated with media and with first and second data objects of the media. The example method also includes enqueuing first and second event data associated with the first and second data object in a first and second queue in first circuitry in a die of programmable circuitry. The example method further includes dequeuing the first and second event data into a third and fourth queue associated with a first and second core of the programmable circuitry, the first circuitry separate from the first core and the second core. The example method additionally includes causing the first and second core to execute a first and second computing operation based on the first and second event data in the third and fourth queues.