Rupesh Bhagaban Patro

Title: Innovations by Rupesh Bhagaban Patro

Introduction

Rupesh Bhagaban Patro is a notable inventor based in Redmond, WA (US). He has made significant contributions to the field of distributed computing, particularly in the area of virtual machine migration and hypervisor mobility. With a total of 3 patents to his name, Patro continues to push the boundaries of technology.

Latest Patents

One of his latest patents is titled "Virtual machine migration on hypervisor network." This invention describes a distributed computing system that includes a source computing device with a source hypervisor executing a virtual machine. The system also features a source-side router and a destination computing device with a destination hypervisor. During the migration of the virtual machine, the source-side router duplicates packets, ensuring seamless connectivity during the transition.

Another significant patent is "Distributed computing system with hypervisor mobility service." This invention outlines a system that includes a server executing a mobility service and two computing devices, each with its own hypervisor. The first mobility client detects when a virtual machine attaches to the first hypervisor and communicates this information to the second computing device, facilitating efficient network traffic management.

Career Highlights

Rupesh Bhagaban Patro is currently employed at Microsoft Technology Licensing, LLC. His work at Microsoft has allowed him to collaborate with leading experts in the field and contribute to groundbreaking technologies that enhance computing efficiency and flexibility.

Collaborations

Some of his notable coworkers include Shivjit Satish Patil and Kenyon James Hensler. Their collaborative efforts have further advanced the innovations in distributed computing systems.

Conclusion

Rupesh Bhagaban Patro's contributions to the field of distributed computing through his patents demonstrate his commitment to innovation and technology advancement. His work continues to influence the way virtual machines operate within hypervisor networks, paving the way for future developments in this area.