This thesis proposes novel methodologies for design, optimisation and generalisation of reconfigurable hardware based finance computation. The applications of the proposed methodologies to numerical methods which are commonly used in the finance industry, such as Monte Carlo and Finite Difference are studied in detail. These studies show reconfigurable hardware can effectively improve performance and energy efficiency in finance computation. There are three contributions. First, an application independent Monte Carlo framework for interest rate derivatives payoff evaluations based on the HeathJarrowMorton (HJM) mathematical Framework. By identifying three levels of functional specialisations in the model, the framework is able to retain goo...
This book is concerned with the emerging field of High Performance Reconfigurable Computing (HPRC), ...
The computation of fair prices for options has become an increasingly intrinsic aspect of finance t...
Monte Carlo simulation is one of the most widely used techniques for computationally intensive simul...
This thesis proposes novel approaches to the design, optimisation, and management of reconfigurable ...
Reconfigurable computing involves the use of reconfigurable devices such as FPGAs (Field-Programmabl...
Abstract—Explicit finite difference method is widely used in finance for pricing many kinds of optio...
This thesis proposes novel approaches to the design, optimisation, and management of reconfigurable ...
accelerate financial derivative calculations is becoming very common. In this work, we implement an ...
This book covers the latest approaches and results from reconfigurable computing architectures emplo...
This thesis describes FPGA-accelerated Monte-Carlo integration using adaptive stratified sampling. M...
Summarization: Financial engineering is a very active research field as a result of the growth of th...
This paper shows two examples of how the analysis of option pricing problems can lead to computation...
Computational finance relies heavily on the use of Monte Carlo simulation techniques. However, Monte...
This paper shows two examples of how the analysis of option pricing problems can lead to computation...
The simulation of interest rate derivatives is a powerful tool to face the current market fluctuation...
This book is concerned with the emerging field of High Performance Reconfigurable Computing (HPRC), ...
The computation of fair prices for options has become an increasingly intrinsic aspect of finance t...
Monte Carlo simulation is one of the most widely used techniques for computationally intensive simul...
This thesis proposes novel approaches to the design, optimisation, and management of reconfigurable ...
Reconfigurable computing involves the use of reconfigurable devices such as FPGAs (Field-Programmabl...
Abstract—Explicit finite difference method is widely used in finance for pricing many kinds of optio...
This thesis proposes novel approaches to the design, optimisation, and management of reconfigurable ...
accelerate financial derivative calculations is becoming very common. In this work, we implement an ...
This book covers the latest approaches and results from reconfigurable computing architectures emplo...
This thesis describes FPGA-accelerated Monte-Carlo integration using adaptive stratified sampling. M...
Summarization: Financial engineering is a very active research field as a result of the growth of th...
This paper shows two examples of how the analysis of option pricing problems can lead to computation...
Computational finance relies heavily on the use of Monte Carlo simulation techniques. However, Monte...
This paper shows two examples of how the analysis of option pricing problems can lead to computation...
The simulation of interest rate derivatives is a powerful tool to face the current market fluctuation...
This book is concerned with the emerging field of High Performance Reconfigurable Computing (HPRC), ...
The computation of fair prices for options has become an increasingly intrinsic aspect of finance t...
Monte Carlo simulation is one of the most widely used techniques for computationally intensive simul...