Essays in International Finance

Du, Wenxin

24 June 2014

This dissertation consists of three essays in international finance. The first two essays study emerging market sovereign risk with a focus on local currency denominated sovereign bonds. The third essay examines econometric tools for robust inference in the presence of missing observations, an issue frequently encountered by researchers in international finance. / Economics

Economics

Finance

Currency Swaps

Emerging Markets

Local Currency Bonds

Sovereign Risk

Valutakursrisker : Hur uppstår dem och hur skiljer sig hanteringen av dessa mellan svenska exportföretag?

Ljung, Mathilda, Lund, Sandra

January 2016

The world is getting more and more globalized and more countries choose to make business abroad today compared to only ten years ago. To establish abroad involves a lot of risks for a company and one important risk a company need to pay attention to is thecurrency risk. A corporation can be exposed to different kinds of currency risks and there is a lot of derivates to use when hedging against those risks. Which strategy or method a company uses is regulated in its financial policy, which constitutes an important part in the work against currency exposure. The main purpose of this dissertation is to investigate which currency hedging methods and derivates Swedish export companies are using when trading on the international market. Another part of the purpose is to explore if there is a difference between large and small companies when it comes to currency hedging and if there is, why there is a difference. To get the answers of the purpose a qualitative study were used and three intervjues with three companies of different sizes in the energy industry were made. The study also included one interview with an expert in the area of currency hedging. Together with theory and earlier studies the dissertation came to a conclusion. The conclusion of this study was that companies are using different derivates to protect themselves against currency risks and there is a difference between small and large companies in the hedging, mainly in the number of different derivates. Another conclusion that can be drawn was that warrants and futures is the most common derivates among swedish export companies which also is supported by theory and earlier studies. / Världen blir allt mer globaliserad och fler och fler länder väljer att röra sig utanför de nationella gränserna och göra affärer internationellt. Att etablera sig utomlands innebär många risker för ett företag och en viktig risk ett företag måste beakta vid handel internationellt är valutarisken. Ett företag kan bli exponerade mot olika typer av valutarisker och det finns flera instrument att använda sig av för att skydda sig mot dessa. Vilken metod ett företag använder sig av finns reglerat i företagens finanspolicy, vilken utgör en viktig del i arbetet mot valutaexponering. Syftet med uppsatsen är att undersöka vilka valutasäkringsmetoder och instrument svenska exportföretag använder sig av vidinternationell handel för att säkra sig mot valutarisker, samt undersöka om det skiljer sig i hur företag av olika storlek hanterar dessa risker. För att besvara vår frågeställning genomfördes forskningen genom en kvalitativ studie där tre stycken energiföretaget av olika storlek intervjuades. I studien intervjuades även en expert inom området och genom en jämförelse av empirin samt tidigare forskning kunde det dras en slutsats. Undersökningens slutsats var att företagen använder sig av flera olika metoder och instrument vid hanteringen av valutarisker. Den typ avvalutarisk de främst är utsatta för är transaktionsexponeringar på samtliga företag. Studien visade också att det skiljde sig i hur företagen av olika storlek hanterar dessa risker, främst i form av antalet instrument företagen använde sig av. En annan slutsats som kunde göras med en jämförelse av tidigare teori är att swappar och terminer är vanliga instrument medan optioner är ett mindre använt instrument för företag vid valutasäkring.

currency risks

currency risk management

currency swaps

currency forwards and currency futures

currency options

valutarisker

valutasäkring

valutaexponering

swapar

terminer

optioner

Modeling Multi-factor Financial Derivatives by a Partial Differential Equation Approach with Efficient Implementation on Graphics Processing Units

Dang, Duy Minh

15 November 2013

This thesis develops efficient modeling frameworks via a Partial Differential Equation (PDE) approach for multi-factor financial derivatives, with emphasis on three-factor models, and studies highly efficient implementations of the numerical methods on novel high-performance computer architectures, with particular focus on Graphics Processing Units (GPUs) and multi-GPU platforms/clusters of GPUs. Two important classes of multi-factor financial instruments are considered: cross-currency/foreign exchange (FX) interest rate derivatives and multi-asset options. For cross-currency interest rate derivatives, the focus of the thesis is on Power Reverse Dual Currency (PRDC) swaps with three of the most popular exotic features, namely Bermudan cancelability, knockout, and FX Target Redemption. The modeling of PRDC swaps using one-factor Gaussian models for the domestic and foreign interest short rates, and a one-factor skew model for the spot FX rate results in a time-dependent parabolic PDE in three space dimensions. Our proposed PDE pricing framework is based on partitioning the pricing problem into several independent pricing subproblems over each time period of the swap's tenor structure, with possible communication at the end of the time period. Each of these subproblems requires a solution of the model PDE. We then develop a highly efficient GPU-based parallelization of the Alternating Direction Implicit (ADI) timestepping methods for solving the model PDE. To further handle the substantially increased computational requirements due to the exotic features, we extend the pricing procedures to multi-GPU platforms/clusters of GPUs to solve each of these independent subproblems on a separate GPU. Numerical results indicate that the proposed GPU-based parallel numerical methods are highly efficient and provide significant increase in performance over CPU-based methods when pricing PRDC swaps. An analysis of the impact of the FX volatility skew on the price of PRDC swaps is provided. In the second part of the thesis, we develop efficient pricing algorithms for multi-asset options under the Black-Scholes-Merton framework, with strong emphasis on multi-asset American options. Our proposed pricing approach is built upon a combination of (i) a discrete penalty approach for the linear complementarity problem arising due to the free boundary and (ii) a GPU-based parallel ADI Approximate Factorization technique for the solution of the linear algebraic system arising from each penalty iteration. A timestep size selector implemented efficiently on GPUs is used to further increase the efficiency of the methods. We demonstrate the efficiency and accuracy of the proposed GPU-based parallel numerical methods by pricing American options written on three assets.

multi-currency swaps

multi-currency options

Power Reverse-Dual Currency

PRDC

Partial Differential Equation

PDE

Alternating Direction Implicit

ADI

Graphics Processing Units

GPU

parallel computing

finite difference

0984

Modeling Multi-factor Financial Derivatives by a Partial Differential Equation Approach with Efficient Implementation on Graphics Processing Units

Dang, Duy Minh

15 November 2013

This thesis develops efficient modeling frameworks via a Partial Differential Equation (PDE) approach for multi-factor financial derivatives, with emphasis on three-factor models, and studies highly efficient implementations of the numerical methods on novel high-performance computer architectures, with particular focus on Graphics Processing Units (GPUs) and multi-GPU platforms/clusters of GPUs. Two important classes of multi-factor financial instruments are considered: cross-currency/foreign exchange (FX) interest rate derivatives and multi-asset options. For cross-currency interest rate derivatives, the focus of the thesis is on Power Reverse Dual Currency (PRDC) swaps with three of the most popular exotic features, namely Bermudan cancelability, knockout, and FX Target Redemption. The modeling of PRDC swaps using one-factor Gaussian models for the domestic and foreign interest short rates, and a one-factor skew model for the spot FX rate results in a time-dependent parabolic PDE in three space dimensions. Our proposed PDE pricing framework is based on partitioning the pricing problem into several independent pricing subproblems over each time period of the swap's tenor structure, with possible communication at the end of the time period. Each of these subproblems requires a solution of the model PDE. We then develop a highly efficient GPU-based parallelization of the Alternating Direction Implicit (ADI) timestepping methods for solving the model PDE. To further handle the substantially increased computational requirements due to the exotic features, we extend the pricing procedures to multi-GPU platforms/clusters of GPUs to solve each of these independent subproblems on a separate GPU. Numerical results indicate that the proposed GPU-based parallel numerical methods are highly efficient and provide significant increase in performance over CPU-based methods when pricing PRDC swaps. An analysis of the impact of the FX volatility skew on the price of PRDC swaps is provided. In the second part of the thesis, we develop efficient pricing algorithms for multi-asset options under the Black-Scholes-Merton framework, with strong emphasis on multi-asset American options. Our proposed pricing approach is built upon a combination of (i) a discrete penalty approach for the linear complementarity problem arising due to the free boundary and (ii) a GPU-based parallel ADI Approximate Factorization technique for the solution of the linear algebraic system arising from each penalty iteration. A timestep size selector implemented efficiently on GPUs is used to further increase the efficiency of the methods. We demonstrate the efficiency and accuracy of the proposed GPU-based parallel numerical methods by pricing American options written on three assets.

multi-currency swaps

multi-currency options

Power Reverse-Dual Currency

PRDC

Partial Differential Equation

PDE

Alternating Direction Implicit

ADI

Graphics Processing Units

GPU

parallel computing

finite difference

0984

Valuation of credit default swaptions using Finite Difference Method / by Karabo Mirriam Motshabi.

Motshabi, Karabo Mirriam

January 2012

Credit default swaptions (CDS options) are credit derivatives that are widely used by finan-cial institutions such as banks and hedging companies to manage their credit risk. These options are usually priced using Black-Scholes model, but the assumptions underlying this model do not always hold especially when solving complex financial problems. The proposed solution is to use numerical methods such as finite difference method (FDM) to approximate the solution of the Black-Scholes PDE in cases where closed form solutions cannot be obtained. The pricing of swaptions are important in financial markets, hence we specifically discuss the pricing of interest rate swaptions, CDS options, commodity swaptions and energy swap-tions using Black-Scholes model. Simple parabolic PDE known as heat equation given at (Higham, 2004) forms a foundations to understand the application of FDM when solving a PDE. Since, Black-Scholes PDE is also a parabolic equation it is transformed to a form of a heat equation (diffusion equation) by applying change of variables technique. FDM, specifically Crank-Nicolson method can be applied to the heat equation but in this dissertation it is applied directly to the Black-Scholes PDE to approximate its solution. Therefore, it is preferable to use Crank-Nicolson method because it is known to be second- order accurate, unconditionally stable, very flexible, suitable and can accommodate varia- tions in financial problems, (Duffy, 2008). The stability of this method is investigated using a matrix approach because it accommodates the effect of boundary conditions. To test the convergence of Crank-Nicolson method, it is compared with the Black-Scholes method used in (Tucker and Wei, 2005) to price CDS options. Conclusively the results obtained by Crank-Nicolson method to price CDS options are similar to those obtained using Black-Scholes method. / Thesis (MSc (Risk Analysis))--North-West University, Potchefstroom Campus, 2013.

Finite dirrerence methods

Black-Scholes method

Credit default swap spreads

credit default swaps and swaptions

interest rate swaps and swaptions

currency swaps and swaptions

Valuation of credit default swaptions using Finite Difference Method / by Karabo Mirriam Motshabi.

Motshabi, Karabo Mirriam

January 2012

Credit default swaptions (CDS options) are credit derivatives that are widely used by finan-cial institutions such as banks and hedging companies to manage their credit risk. These options are usually priced using Black-Scholes model, but the assumptions underlying this model do not always hold especially when solving complex financial problems. The proposed solution is to use numerical methods such as finite difference method (FDM) to approximate the solution of the Black-Scholes PDE in cases where closed form solutions cannot be obtained. The pricing of swaptions are important in financial markets, hence we specifically discuss the pricing of interest rate swaptions, CDS options, commodity swaptions and energy swap-tions using Black-Scholes model. Simple parabolic PDE known as heat equation given at (Higham, 2004) forms a foundations to understand the application of FDM when solving a PDE. Since, Black-Scholes PDE is also a parabolic equation it is transformed to a form of a heat equation (diffusion equation) by applying change of variables technique. FDM, specifically Crank-Nicolson method can be applied to the heat equation but in this dissertation it is applied directly to the Black-Scholes PDE to approximate its solution. Therefore, it is preferable to use Crank-Nicolson method because it is known to be second- order accurate, unconditionally stable, very flexible, suitable and can accommodate varia- tions in financial problems, (Duffy, 2008). The stability of this method is investigated using a matrix approach because it accommodates the effect of boundary conditions. To test the convergence of Crank-Nicolson method, it is compared with the Black-Scholes method used in (Tucker and Wei, 2005) to price CDS options. Conclusively the results obtained by Crank-Nicolson method to price CDS options are similar to those obtained using Black-Scholes method. / Thesis (MSc (Risk Analysis))--North-West University, Potchefstroom Campus, 2013.

Finite dirrerence methods

Black-Scholes method

Credit default swap spreads

credit default swaps and swaptions

interest rate swaps and swaptions

currency swaps and swaptions