Description
Aims:
An introduction to programming in selected popular languages of use in the financial markets, and mathematical modelling.
Intended learning outcomes:
On successful completion of the module, a student will be able to:
- Apply numerical schemes to solve pricing problems.
- Demonstrate programming proficiency in C++ and Python to solve practical problems in Mathematical Finance and modelling in medicine and healthcare.
Indicative content:
The following are indicative of the topics the module will typically cover:
Success in mathematical finance requires confidence and expertise in applying numerical analysis and programming to solve a wide range of pricing and risk management problems. This module presents programming in C++and Python. C++ continues to retain its ‘sexy’ status in the financial markets and is arguably the most popular language of use in Quantitative Finance. Python is rapidly becoming the standard in scientific computing, receiving much excitement about the application of Python to mathematical finance; its appeal continues to grow in both academia and industry. It is simple to use and free to download, with a growing amount of add-on modules. It is particularly easy to interface with C++.
- C++: Data types; input/output; file management; control of flow and decision making. Functions; headers and source files. Arrays and strings. Pointers; dynamic memory allocation. Recursion. Objects and classes; operator overloading; polymorphism; inheritance.
- Python: Introduction to some of the powerful libraries in Python.
- Scientific manipulations (SciPy); data structures (NumPy); graphics (Matplotlib); data analysis (Pandas).
- Numerics and data analysis.
Requisites:
To be eligible to select this module as optional or elective, a student must: (1) be registered on a programme and year of study for which it is a formally available; (2) have taken either Financial Engineering (COMP0048) or Asset Pricing in Continuous Time (MATH0085) in Term 1.
Module deliveries for 2024/25 academic year
Last updated
This module description was last updated on 19th August 2024.
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