Master of Financial Mathematics

Master of Financial Mathematics

A masters degree in quantitative finance concerns the application of mathematical methods to the solution of problems in financial economics.[1] There are several like-titled degrees which may further focus on financial engineering, financial risk management, computational finance and/or mathematical finance. In general, these degrees aim to prepare students for roles as "quants" (quantitative analysts), including analysis, structuring, trading, and investing; in particular, these degrees emphasize derivatives and fixed income, and the hedging and management of the resultant market and credit risk. Formal masters-level training in quantitative finance has existed only since 1990. [2]


The program is usually one to one and a half years in duration, and may additionally include a thesis component. The curriculum builds quantitative skills, and simultaneously develops the underlying finance theory. The quantitative component draws on applied mathematics, computer science and statistics, and emphasizes stochastic calculus, numerical methods and simulation techniques [3]; some programs also focus on econometrics / time series analysis [4] [5]. The theory component usually includes a formal study of financial economics, addressing asset pricing and financial markets; some programs may also include general coverage of economics, accounting, corporate finance and portfolio management [6]. The components are then integrated, addressing the modelling, valuation and hedging of equity derivatives, commodity derivatives, Foreign exchange derivatives, and fixed income instruments and their related credit- and interest rate derivatives. Some programs also cover quantitative portfolio management and optimization [7][8][9]. See List of finance topics: Financial mathematics.

The title of the degree will depend on emphasis [10], the major differences between programs being the curriculum’s distribution between mathematical theory, quantitative techniques and financial applications [11]. The more theoretically oriented degrees are usually termed “Masters in Mathematical Finance” or “Masters in Financial Mathematics” while those oriented toward practice are termed “Masters in Financial Engineering” (MFE or MSFE), “Masters in Computational Finance” (MCF or MSCF), or sometimes [12][13], simply "Masters in Finance" (MFin). “Masters in Quantitative Finance” is the more general degree title, although "MQF" degrees are often less theoretical and more practical. The practice oriented programs are often positioned as professional degrees (and in the United States, are sometimes offered as Professional Science Masters [14]). Programs are sometimes offered as a Master of Engineering, [15], or as a Master of Operations Research. [16][17] In a few cases, a quantitative-finance related MBA-specialization is offered. [18][19][20]

Entrance requirements are generally multivariable calculus, linear algebra, differential equations and some exposure to computer programming (usually C++) [21]; programs emphasizing financial mathematics may require some background in Measure theory.

Comparison with other qualifications

The program differs from that of a Master of Science in Finance (MSF), and an MBA in finance, in that these degrees aim to produce finance generalists as opposed to "quants", and therefore focus on corporate finance, accounting, equity valuation and portfolio management. The treatment of any common topics — usually "derivatives", financial modeling, and risk management — will be less (or even non) technical. Entrance requirements are similarly less mathematical. Note that Master of Finance (M.Fin.) and MSc. in Finance degrees, as distinct from the MSF, may be substantially similar to the MQF.

There is some overlap with degrees in actuarial science [22], and both degrees are occasionally offered by the same department.[23] Nevertheless, the programs are almost always separate and distinct [24]. Specifically, whereas actuarial programs cover risk and uncertainty as applied to pensions, insurance and investments, quantitative finance programs are broader (although offer less depth in these areas), and prepare graduates for various of the highly numerate roles in finance [25] - and for other areas that require "quants" [26].

There is similarly overlap with a Master of Financial Economics, although the emphasis is very different. That degree focuses on the underlying economics, and on developing and testing theoretical models, and aims to prepare graduates for research based roles and for doctoral study. The curriculum therefore emphasises coverage of financial theory, and of econometrics, while the treatment of model implementation (through mathematical modeling and programming), while important, is secondary. Entrance requirements are similarly less mathematical. Some Financial Economics degrees are substantially quantitative, and are largely akin to the MQF.

For students whose interests in finance are commercial rather than academic, a Masters in Quantitative Finance may be seen as an alternative to a PhD in finance. At the same time though, “Masters in Mathematical Finance” programs are often positioned as providing a basis for doctoral study.


The first quantitative finance masters programs were offered by Illinois Institute of Technology in 1990, under Dr. Michael Ong. [27] (The programs offered were the "Masters of Science in Quantitative Finance" and "Masters of Science in Financial Markets and Trading", and were combined in 2008 to become the "Masters of Science in Finance, with Financial Engineering Concentration".[28]) The NYU-Poly Financial Engineering degree was the second program of its kind.[29] Carnegie Mellon introduced its "Masters of Computational Finance" program in 1994.[30] OGI's Computational Finance Program (1996, now discontinued) was the first such program based in a computer science department. [31][32] Other pioneering programs include those at NYU's Courant Institute, Columbia, Princeton, and MIT. Subsequent growth in the number and location of programs has paralleled the growth of financial engineering - with its growing importance across all aspects of the financial services industries - and of risk management as professions.[33] More recently undergraduate programs have been offered, both in the US (e.g. Ball State [34], James Madison [35], McIntire. [36]) and internationally (e.g. Essex [37], HKUST [38], UNISA [39]). In some cases, Online - and distance education programs are available (e.g. Washington [40], York [41]).

See also

External links and references

  • Financial Engineering Core Body of Knowledge, International Association of Financial Engineers
  • What Quants Don't Learn at College, Emanuel Derman
  • Guide To Studying The Field, International Association of Financial Engineers
  • The Top 10 Things Practitioners Really Want from Financial Engineers, QuantNet Community
  • Five ways to improve quantitative finance curricula, Aaron Brown, QuantNet Community, October 7, 2011.
  • On becoming a quant, Mark S. Joshi
  • Quantitative Finance, Joel Hasbrouck NYU Stern
  • Why should students still consider a Masters degree in a finance related subject?, Brian Scott-Quinn, ICMA Centre University of Reading
  • Interview and Resume Tips, International Association of Financial Engineers
  • Interview Preparation for Junior Quants, Michael Page International

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