We present quantum numerical methods for the typical initial boundary value problems (IBVPs) of convection-diffusion equations in fluid dynamics. The IBVP is discretized into a series of linear systems via finite difference methods and explicit time marching schemes. To solve these discrete systems in quantum computers, we design a series of quantum circuits, including four stages of encoding, amplification, adding source terms, and incorporating boundary conditions. In the encoding stage, the initial condition is encoded in the amplitudes of quantum registers as a state vector to take advantage of quantum algorithms in space complexity. In the following three stages, the discrete differential operators in classical computing are converted ...
In this paper, we explore the suitability of upcoming novel computing technologies, in particular ad...
International audienceDeveloping numerical methods to simulate efficiently nonlinear fluid dynamics ...
Among the many computational models for quantum computing, the Quantum Circuit Model is the most wel...
We present quantum numerical methods for the typical initial boundary value problems (IBVPs) of conv...
Computer simulations of certain natural phenomena are computationally expensive on a classical compu...
This chapter describes results of a recent investigation aiming to assess the potential of quantum c...
In recent years, significant progress has been made in the development of quantum algorithms for lin...
This chapter describes results of a recent investigation aiming to assess the potential of quantum c...
A novel quantum algorithm implementing a discrete-velocity method for the collisionless Boltzmann eq...
A new algorithm for solving the Navier-Stokes equations (NSE) on a quantum device is presented. For ...
This is the final version. Available from the American Physical Society via the DOI in this recordWe...
The development and evaluation of quantum computing algorithms for computational fluid dynamics is d...
Classical algorithms that simulate the electronic and vibrational structure of atoms and molecules a...
We present a pedagogical introduction to the current state of quantum computing algorithms for the s...
When faced with a quantum-solving problem for partial differential equations, people usually transfo...
In this paper, we explore the suitability of upcoming novel computing technologies, in particular ad...
International audienceDeveloping numerical methods to simulate efficiently nonlinear fluid dynamics ...
Among the many computational models for quantum computing, the Quantum Circuit Model is the most wel...
We present quantum numerical methods for the typical initial boundary value problems (IBVPs) of conv...
Computer simulations of certain natural phenomena are computationally expensive on a classical compu...
This chapter describes results of a recent investigation aiming to assess the potential of quantum c...
In recent years, significant progress has been made in the development of quantum algorithms for lin...
This chapter describes results of a recent investigation aiming to assess the potential of quantum c...
A novel quantum algorithm implementing a discrete-velocity method for the collisionless Boltzmann eq...
A new algorithm for solving the Navier-Stokes equations (NSE) on a quantum device is presented. For ...
This is the final version. Available from the American Physical Society via the DOI in this recordWe...
The development and evaluation of quantum computing algorithms for computational fluid dynamics is d...
Classical algorithms that simulate the electronic and vibrational structure of atoms and molecules a...
We present a pedagogical introduction to the current state of quantum computing algorithms for the s...
When faced with a quantum-solving problem for partial differential equations, people usually transfo...
In this paper, we explore the suitability of upcoming novel computing technologies, in particular ad...
International audienceDeveloping numerical methods to simulate efficiently nonlinear fluid dynamics ...
Among the many computational models for quantum computing, the Quantum Circuit Model is the most wel...