Alan Hourihane

Title: Alan Hourihane: Innovator in Dynamic GPU Allocation

Introduction

Alan Hourihane is a notable inventor based in Flint Mountain, GB. He has made significant contributions to the field of graphics processing, particularly in the dynamic allocation of physical graphics processing units (GPUs) to virtual machines. His innovative approach has the potential to enhance the efficiency of GPU resource management in virtualized environments.

Latest Patents

Alan Hourihane holds a patent for a method titled "Dynamic allocation of physical graphics processing units to virtual machines." This patent outlines methods, techniques, and systems for dynamically allocating GPUs among virtual machines. The dynamic GPU allocation system (DGAS) enables efficient allocation of physical GPU resources to one or more virtual machines. The DGAS comprises virtualization logic running on a server computing system that computes GPU benefit factors for the virtual machines on a dynamic basis. It combines these computed factors with static priorities to determine a ranked ordering of virtual machines. The available GPU resources are then allocated to a subset of these ranked virtual machines, ensuring that physical GPU capacity is matched with the requirements of the subset. This innovative approach allows for the allocation of physical GPU resources to the virtual machines that promise the highest GPU utilization.

Career Highlights

Alan Hourihane is currently employed at VMware, Inc., where he continues to develop and refine technologies related to GPU allocation and virtualization. His work has positioned him as a key player in the field of graphics processing and virtualization technologies.

Collaborations

Throughout his career, Alan has collaborated with talented individuals such as Salim S AbiEzzi and Jose Fonseca. These collaborations have contributed to the advancement of technologies in the field of graphics processing and virtualization.

Conclusion

Alan Hourihane's innovative work in dynamic GPU allocation has the potential to revolutionize how virtual machines utilize physical GPU resources. His contributions to the field are significant and reflect his commitment to advancing technology in graphics processing.