Company Filing History:
Years Active: 2017
Title: Innovations of Christopher E Granade in Quantum Information Processing
Introduction
Christopher E Granade is a notable inventor based in Sydney, Australia. He has made significant contributions to the field of quantum information processing. His innovative work focuses on the development of quantum information processors that enhance the manipulation of qubits.
Latest Patents
Christopher E Granade holds a patent for "Processing quantum information." This patent describes a quantum information processor that includes a control system and a system of processor nodes. Each processor node consists of multiple qubits and an actuator. The control system is designed to manipulate the qubits of multiple processor nodes based on cross-node quantum interactions. In certain instances, the control system performs multi-qubit quantum gates on qubits of different processor nodes, leveraging these interactions. The qubits within each processor node interact with the actuator through intra-node quantum coupling, while inter-node quantum coupling occurs between the actuators of different nodes. The cross-node quantum interaction is produced by the non-commutivity of the intra-node and inter-node quantum couplings. Additionally, the qubits can be manipulated by applying a control sequence that creates an interaction frame where the cross-node quantum interaction dominates the system's time evolution.
Career Highlights
Christopher E Granade is associated with Quantum Valley Investment Fund LP, where he continues to explore advancements in quantum technology. His work has positioned him as a key figure in the field of quantum information processing.
Collaborations
He has collaborated with notable individuals such as David G Cory and Troy W Borneman, contributing to the advancement of quantum technologies.
Conclusion
Christopher E Granade's innovative contributions to quantum information processing highlight his role as a leading inventor in this cutting-edge field. His patent and ongoing work continue to influence the future of quantum technology.