Company Filing History:
Years Active: 2020-2024
Title: Innovations of Christopher Butler Osborn
Introduction
Christopher Butler Osborn is an accomplished inventor based in Oakland, CA. He has made significant contributions to the field of quantum computing, holding a total of six patents. His work focuses on enhancing the performance and efficiency of hybrid computing systems.
Latest Patents
One of his latest patents is titled "Low-latency, high-performance hybrid computing." This invention describes a computer system that features a low-latency communication link between a classical computer and a quantum computing resource. In this system, a quantum machine image operates on a classical computer, providing a virtualized execution environment for quantum programs. The quantum program is communicated over a low-latency pathway from the classical computer to the quantum computer, where it is executed.
Another notable patent is "Modular control in a quantum computing system." This patent outlines a quantum computing method where a control system assigns subsets of qubit devices in a quantum processor to respective cores. The control system identifies boundary qubit devices and generates control sequences for each core. A signal delivery system communicates with the control system to execute these sequences, applying control signals to the respective cores in the quantum processor.
Career Highlights
Christopher currently works at Rigetti & Co, LLC, a company known for its advancements in quantum computing technology. His innovative work has positioned him as a key figure in the development of hybrid computing systems.
Collaborations
He collaborates with talented individuals such as Nikolas Anton Tezak and Matthew J Reagor, contributing to the advancement of quantum computing technologies.
Conclusion
Christopher Butler Osborn's contributions to quantum computing through his patents and collaborations highlight his role as a leading inventor in this cutting-edge field. His work continues to pave the way for future innovations in hybrid computing systems.