Chao-Tung Yang

Title: Innovations of Chao-Tung Yang

Introduction

Chao-Tung Yang is a notable inventor based in Taichung, Taiwan. He has made significant contributions to the field of virtual machine management through his innovative patents. With a total of three patents to his name, Yang's work focuses on enhancing resource allocation and power management in virtual environments.

Latest Patents

One of Yang's latest patents is the "Method of dynamic resource allocation for a virtual machine cluster." This method calculates the resource usage weight of both virtual and physical machines to optimize load balancing. By identifying the physical machine with the greatest resource usage weight as the migration source and the one with the least as the migration object, this method effectively migrates virtual machines to achieve better resource distribution.

Another significant patent is the "Method for managing green power of a virtual machine cluster." This innovative approach determines how many physical machines should operate based on the resource weight ratio of the virtual machine cluster. It involves waking up standby physical machines and migrating virtual machines to ensure efficient power management while maintaining operational flexibility.

Career Highlights

Chao-Tung Yang is affiliated with Tunghai University, where he continues to contribute to research and development in the field of virtual machine technology. His work not only enhances the efficiency of virtual environments but also promotes sustainable practices in technology management.

Collaborations

Yang collaborates with esteemed colleagues such as Hsiang-Yao Cheng and Kuan-Chieh Wang. Their combined expertise fosters innovation and drives advancements in their respective fields.

Conclusion

Chao-Tung Yang's contributions to virtual machine management through his patents reflect his commitment to innovation and sustainability. His work continues to influence the technology landscape, making significant strides in resource allocation and power management.