The quantum instruction set (QIS) is defined as the quantum gates that are physically realizable by controlling the qubits in a quantum hardware. Compiling quantum circuits into the product of the gates in a properly-defined QIS is a fundamental step in quantum computing. We here propose the variational instruction set (VIS) formed by flexibly-designed multi-qubit gates for higher speed and accuracy of quantum computing. The controlling of qubits for realizing the gates in a VIS are variationally achieved using the fine-grained time optimization algorithm. Significant reductions on both the error accumulation and time cost are demonstrated in realizing the swaps of multiple qubits and quantum Fourier transformations, compared with the compi...
Variational quantum algorithms (VQAs) are expected to be a path to quantum advantages on noisy inter...
Quantum computing (QC) aims to solve certain computational problems beyond the capabilities of even ...
While quantum computing holds great potential in several fields including combinatorial optimization...
Quantum Approximation Optimization Algorithm (QAOA) is a highly advocated variational algorithm for ...
Any quantum program on a realistic quantum device must be compiled into an executable form while tak...
We present a post-compilation quantum circuit optimization technique that takes into account the var...
A quantum computer consists of a set of quantum bits upon which operations called gates are applied ...
Quantum computing is an emerging technology that combines the principles of both computer science an...
For a large number of tasks, quantum computing demonstrates the potential for exponential accelerati...
The increasing capabilities of quantum computing hardware and the challenge of realizing deep quantu...
There is a recent surge of interest and insights regarding the interplay of quantum optimal control ...
Before executing a quantum algorithm, one must first decompose the algorithm into machine-level inst...
Practical realizations of quantum computers are poised to deliver outstanding computational capabili...
Execution of quantum algorithms requires a quantum computer architecture with a dedicated quantum in...
We consider the problem of the variational quantum circuit synthesis into a gate set consisting of t...
Variational quantum algorithms (VQAs) are expected to be a path to quantum advantages on noisy inter...
Quantum computing (QC) aims to solve certain computational problems beyond the capabilities of even ...
While quantum computing holds great potential in several fields including combinatorial optimization...
Quantum Approximation Optimization Algorithm (QAOA) is a highly advocated variational algorithm for ...
Any quantum program on a realistic quantum device must be compiled into an executable form while tak...
We present a post-compilation quantum circuit optimization technique that takes into account the var...
A quantum computer consists of a set of quantum bits upon which operations called gates are applied ...
Quantum computing is an emerging technology that combines the principles of both computer science an...
For a large number of tasks, quantum computing demonstrates the potential for exponential accelerati...
The increasing capabilities of quantum computing hardware and the challenge of realizing deep quantu...
There is a recent surge of interest and insights regarding the interplay of quantum optimal control ...
Before executing a quantum algorithm, one must first decompose the algorithm into machine-level inst...
Practical realizations of quantum computers are poised to deliver outstanding computational capabili...
Execution of quantum algorithms requires a quantum computer architecture with a dedicated quantum in...
We consider the problem of the variational quantum circuit synthesis into a gate set consisting of t...
Variational quantum algorithms (VQAs) are expected to be a path to quantum advantages on noisy inter...
Quantum computing (QC) aims to solve certain computational problems beyond the capabilities of even ...
While quantum computing holds great potential in several fields including combinatorial optimization...