Add to ORKGThesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science, February, 2021Cataloged from the official PDF of thesis.Includes bibliographical references (pages 101-106).Quantum computers promise to solve specific problems significantly faster than classical computers. Superconducting quantum processors comprising more than 50 qubits can achieve quantum supremacy, the ability to outperform existing classical computers for particular problems. However, to build a useful quantum computer, the quantum processor's constituent components such as their control and readout must be very well-calibrated. Qubit-state readout of contemporary superconducting quantum processors is a significant error ...
Quantum error correction will ultimately empower quantum computers to leverage their full potential....
In the race to build scalable quantum computers, minimizing the resource consumption of their full s...
Significant challenges remain with the development of macroscopic quantum computing, hardware proble...
Quantum computers hold the promise to solve specific problems significantly faster than classical co...
This paper presents an innovative way of quantum circuit optimization; we propose an automated super...
Abstract Deep reinforcement learning is an emerging machine-learning approach that can teach a compu...
Quantum computing utilizes quantum mechanics to perform computations with superconducting qubits bei...
High-fidelity and rapid readout of a qubit state is key to quantum computing and communication, and ...
Quantum compiling and qubit manipulations can be efficiently solved by using deep reinforcement lear...
Machine learning with artificial neural networks is revolutionizing science. The most advanced chall...
Quantum computers are one of the most prominent emerging technologies of the 21st century. While sev...
A quantum computer is an information processing machine, much like an ordinary classical computer, b...
Accurate and efficient preparation of quantum state is a core issue in building a quantum computer. ...
To realize the full potential of quantum technologies, finding good strategies to control quantum in...
We propose a protocol to perform quantum reinforcement learning with quantum technologies. At varian...
Quantum error correction will ultimately empower quantum computers to leverage their full potential....
In the race to build scalable quantum computers, minimizing the resource consumption of their full s...
Significant challenges remain with the development of macroscopic quantum computing, hardware proble...
Quantum computers hold the promise to solve specific problems significantly faster than classical co...
This paper presents an innovative way of quantum circuit optimization; we propose an automated super...
Abstract Deep reinforcement learning is an emerging machine-learning approach that can teach a compu...
Quantum computing utilizes quantum mechanics to perform computations with superconducting qubits bei...
High-fidelity and rapid readout of a qubit state is key to quantum computing and communication, and ...
Quantum compiling and qubit manipulations can be efficiently solved by using deep reinforcement lear...
Machine learning with artificial neural networks is revolutionizing science. The most advanced chall...
Quantum computers are one of the most prominent emerging technologies of the 21st century. While sev...
A quantum computer is an information processing machine, much like an ordinary classical computer, b...
Accurate and efficient preparation of quantum state is a core issue in building a quantum computer. ...
To realize the full potential of quantum technologies, finding good strategies to control quantum in...
We propose a protocol to perform quantum reinforcement learning with quantum technologies. At varian...
Quantum error correction will ultimately empower quantum computers to leverage their full potential....
In the race to build scalable quantum computers, minimizing the resource consumption of their full s...
Significant challenges remain with the development of macroscopic quantum computing, hardware proble...