John Wiley & Sons Modern Computational Finance Cover An incisive and essential guide to building a complete system for derivative scripting In Volume 2 .. Product #: 978-1-119-54078-6 Regular price: $85.89 $85.89 In Stock

Modern Computational Finance

Scripting for Derivatives and xVA

Savine, Antoine / Andreasen, Jesper

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1. Edition December 2021
288 Pages, Hardcover
Wiley & Sons Ltd

ISBN: 978-1-119-54078-6
John Wiley & Sons

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An incisive and essential guide to building a complete system for derivative scripting

In Volume 2 of Modern Computational Finance Scripting for Derivatives and xVA, quantitative finance experts and practitioners Drs. Antoine Savine and Jesper Andreasen deliver an indispensable and insightful roadmap to the interrogation, aggregation, and manipulation of cash-flows in a variety of ways. The book demonstrates how to facilitate portfolio-wide risk assessment and regulatory calculations (like xVA).

Complete with a professional scripting library written in modern C++, this stand-alone volume walks readers through the construction of a comprehensive risk and valuation tool. This essential book also offers:
* Effective strategies for improving scripting libraries, from basic examples--like support for dates and vectors--to advanced improvements, including American Monte Carlo techniques
* Exploration of the concepts of fuzzy logic and risk sensitivities, including support for smoothing and condition domains
* Discussion of the application of scripting to xVA, complete with a full treatment of branching

Perfect for quantitative analysts, risk professionals, system developers, derivatives traders, and financial analysts, Modern Computational Finance Scripting for Derivatives and xVA: Volume 2 is also a must-read resource for students and teachers in master's and PhD finance programs.

My Life in Script by Jesper Andreasen xi

Part I A Scripting Library in C++

Introduction 3

Chapter 1 Opening Remarks 7

Introduction 7

1.1 Scripting is not only for exotics 12

1.2 Scripting is for cash-flows not payoffs 13

1.3 Simulation models 15

1.4 Pre-processing 17

1.5 Visitors 19

1.6 Modern implementation in C++ 21

1.7 Script templates 22

Chapter 2 Expression Trees 25

2.1 In theory 25

2.2 In code 35

Chapter 3 Visitors 41

3.1 The visitor pattern 41

3.2 The debugger visitor 47

3.3 The variable indexer 50

3.4 Pre-processors 54

3.5 Const visitors 55

3.6 The evaluator 57

3.7 Communicating with models 65

Chapter 4 Putting Scripting Together with a Model 71

4.1 A simplistic Black-Scholes Monte-Carlo simulator 71

4.1.1 Random number generators 71

4.1.2 Simulation models 73

4.1.3 Simulation engines 76

4.2 Connecting the model to the scripting framework 76

Chapter 5 Core Extensions and the "Pays" Keyword 81

5.1 In theory 81

5.2 In code 83

Part II Basic Improvements

Introduction 93

Chapter 6 Past Evaluator 95

Chapter 7 Macros 97

Chapter 8 Schedules of Cash-Flows 99

Chapter 9 Support for Dates 105

Chapter 10 Predefined Schedules and Functions 109

Chapter 11 Support for Vectors 113

11.1 Basic functionality 113

11.2 Advanced functionality 115

11.2.1 New node types 116

11.2.2 Support in the parser 116

11.2.3 Processing 117

11.2.4 Evaluation 117

Part III Advanced Improvements Introduction 121

Chapter 12 Linear Products 123

12.1 Interest rates and swaps 123

12.2 Equities, foreign exchange, and commodities 125

12.3 Linear model implementation 126

Chapter 13 Fixed Income Instruments 127

13.1 Delayed payments 127

13.2 Discount factors 128

13.3 The simulated data processor 129

13.4 Indexing 129

13.5 Upgrading "pays" to support delayed payments 131

13.6 Annuities 132

13.7 Forward discount factors 132

13.8 Back to equities 132

13.9 Libor and rate fixings 133

13.10 Scripts for swaps and options 134

Chapter 14 Multiple Underlying Assets 137

14.1 Multiple assets 137

14.2 Multiple currencies 139

Chapter 15 American Monte-Carlo 143

15.1 Least Squares Method 143

15.2 One proxy 147

15.3 Additional regression variables 149

15.4 Feedback and exercise 149

15.5 Multiple exercise and recursion 152

Part IV Fuzzy Logic and Risk Sensitivities Introduction 157

Chapter 16 Risk Sensitivities with Monte-Carlo 161

16.1 Risk instabilities 161

16.2 Two approaches toward a solution 165

16.3 Smoothing for digitals and barriers 166

16.4 Smoothing for scripted transactions 168

Chapter 17 Support for Smoothing 169

Chapter 18 An Automated Smoothing Algorithm 175

18.1 Basic algorithm 176

18.2 Nested and combined conditions 179

18.3 Affected variables 179

18.4 Further optimization 180

Chapter 19 Fuzzy Logic 183

Chapter 20 Condition Domains 189

20.1 Fuzzy evaluation of discrete conditions 189

20.1.1 Condition domains 189

20.1.2 Constant conditions 190

20.1.3 Boolean conditions 191

20.1.4 Binary conditions 193

20.1.5 Discrete conditions 193

20.1.6 Putting it all together 197

20.2 Identification of condition domains 198

20.3 Constant expressions 201

Chapter 21 Limitations 203

21.1 Dead and alive 203

21.2 Non-linear use of fuzzy variables 206

Chapter 22 The Smoothing Factor 209

22.1 Scripting support 209

22.2 Automatic determination 211

Part V Application to xVA

Chapter 23 xVA 215

Chapter 24 Branching 219

Chapter 25 Closing Remarks 223

25.1 Script examples 223

25.2 Multi-threading and AAD 228

25.3 Advanced LSM optimizations 229

Appendix A Parsing 231

A.1 Preparing for parsing 231

A.2 Parsing statements 234

A.3 Recursively parsing conditions 238

A.4 Recursively parsing expressions 244

A.5 Performance 252

Bibliography 255

Index 257
"The Global Financial Crisis resulted in profound changes in quants' Modus Operandi. This timely three-volume set describes some of the tools necessary to deal with these changes. Individual volumes cover in detail several important topics of interest to anyone who wants to stay au courant with modern developments in financial engineering. While the books are predominantly practically oriented, they strike a fine balance between theoretical and applied considerations. The authors are prominent practitioners and indisputable thought-leaders in the field. I recommend this set enthusiastically to anyone who wishes to understand the current and emerging trends in financial engineering."

- Prof. Alexander Lipton, Founder and CEO, Stronghold Labs; Fellow, Connection Science and Engineering, Massachusetts Institute of Technology
ANTOINE SAVINE is a mathematician and derivatives practitioner with 25 years of leadership experience with global investment banks. He wrote the book on automatic adjoint differentiation (AAD) and co-developed Differential Machine Learning. He was also influential in volatility modeling and many areas of numerical and computational finance. Antoine works with Superfly Analytics at Danske Bank, winner of the 2019 Excellence in Risk Management and Modelling RiskMinds award. He holds a PhD in Mathematical Finance from Copenhagen University, where he teaches quantitative and computational finance.

Jesper Andreasen heads the Quantitative Research department at Saxo Bank. Over a 25 year long career he has held senior roles in quant departments of Bank of America, Nordea and General Re Financial Products, and he founded and headed the Superfly Analytics department at Danske Bank. Jesper co-received Risk magazine's 2001 and 2012 Quant of the year awards and their In-House Risk System of the year award in 2015. He is an honorary professor of Mathematical Finance at Copenhagen University and completed his PhD in the same subject at Aarhus University in 1997.