We review the state of the art and recent advances in quantum computing applied to derivative pricing and the computation of risk estimators like Value at Risk. After a brief description of the financial derivatives, we first review the main models and numerical techniques employed to assess their value and risk on classical computers. We then describe some of the most popular quantum algorithms for pricing and VaR. Finally, we discuss the main remaining challenges for the quantum algorithms to achieve their potential advantages
The variational quantum Monte Carlo (VQMC) method has received significant attention because of its ...
This paper proposes a quantum computing approach for insurance capital modelling. Using an open-sour...
We present a methodology to price options and portfolios of options on a gate-based quantum computer...
Derivatives contracts are one of the fundamental pillars of modern financial markets and are routine...
Quantum Computing commenced in 1980’s with the pioneering work of Paul Benioff (Benioff, 1980) who p...
Quantum computers are expected to surpass the computational capabilities of classical computers duri...
NEASQC Use Case 5 (UC5) works on the development and evaluation of quantum algorithms for financial ...
This thesis explains the challenges that arise when pricing financial derivative contracts and how ...
49 pages, 4 figuresQuantum computers are expected to have substantial impact on the finance industry...
A derivative is a financial security whose value is a function of underlying traded assets and marke...
Quantum computers have the potential to increase the solution speed for many computational problems....
An introduction to how the mathematical tools from quantum field theory can be applied to economics ...
Recently there has been increased interest on quantum algorithms and how they are applied to real li...
Abstract. Quantum effects are a natural phenomenon and just like evo-lution, or immune systems, can ...
Quantum computers are not yet up to the task of providing computational advantages for practical sto...
The variational quantum Monte Carlo (VQMC) method has received significant attention because of its ...
This paper proposes a quantum computing approach for insurance capital modelling. Using an open-sour...
We present a methodology to price options and portfolios of options on a gate-based quantum computer...
Derivatives contracts are one of the fundamental pillars of modern financial markets and are routine...
Quantum Computing commenced in 1980’s with the pioneering work of Paul Benioff (Benioff, 1980) who p...
Quantum computers are expected to surpass the computational capabilities of classical computers duri...
NEASQC Use Case 5 (UC5) works on the development and evaluation of quantum algorithms for financial ...
This thesis explains the challenges that arise when pricing financial derivative contracts and how ...
49 pages, 4 figuresQuantum computers are expected to have substantial impact on the finance industry...
A derivative is a financial security whose value is a function of underlying traded assets and marke...
Quantum computers have the potential to increase the solution speed for many computational problems....
An introduction to how the mathematical tools from quantum field theory can be applied to economics ...
Recently there has been increased interest on quantum algorithms and how they are applied to real li...
Abstract. Quantum effects are a natural phenomenon and just like evo-lution, or immune systems, can ...
Quantum computers are not yet up to the task of providing computational advantages for practical sto...
The variational quantum Monte Carlo (VQMC) method has received significant attention because of its ...
This paper proposes a quantum computing approach for insurance capital modelling. Using an open-sour...
We present a methodology to price options and portfolios of options on a gate-based quantum computer...