PyFENG: [Py]thon [F]inancial [ENG]ineering

PyFENG provides an implementation of the standard financial engineering models for derivative pricing.

Implemented Models

Black-Scholes-Merton (BSM) and displaced BSM models:
- Analytic option price, Greeks, and implied volatility.
Bachelier (Normal) model
- Analytic option price, Greeks, and implied volatility.
Constant-elasticity-of-variance (CEV) model
- Analytic option price, Greeks, and implied volatility.
Stochastic-alpha-beta-rho (SABR) model
- Hagan's BSM vol approximation.
- Choi & Wu's CEV vol approximation.
- Analytic integral for the normal SABR.
- Closed-form MC simulation for the normal SABR.
Hyperbolic normal stochastic volatility (NSVh) model
- Analytic option pricing.
Heston model
- FFT option pricing.
- Almost exact MC simulation by Glasserman & Kim and Choi & Kwok.
Schobel-Zhu (OUSV) model
- FFT option pricing.
- Almost exact MC simulation by Choi
Rough volatility models
- Rough Heston MC by Ma & Wu

About the Package

Uses numpy arrays as basic datatype so computations are naturally vectorized.
Purely Python without C/C++ extensisons.
Implemented with Python class.
Intended for academic use. By providing reference models, it saves researchers' time. See PyFENG for Papers in Related Projects below.

Installation

pip install pyfeng

For upgrade,

pip install pyfeng --upgrade

Code Snippets

In [1]:

import numpy as np
import pyfeng as pf
m = pf.Bsm(sigma=0.2, intr=0.05, divr=0.1)
m.price(strike=np.arange(80, 121, 10), spot=100, texp=1.2)

Out [1]:

array([15.71361973,  9.69250803,  5.52948546,  2.94558338,  1.48139131])

In [2]:

sigma = np.array([[0.2], [0.5]])
m = pf.Bsm(sigma, intr=0.05, divr=0.1) # sigma in axis=0
m.price(strike=[90, 95, 100], spot=100, texp=1.2, cp=[-1,1,1])

Out [2]:

array([[ 5.75927238,  7.38869609,  5.52948546],
       [16.812035  , 18.83878533, 17.10541288]])

Author

Prof. Jaehyuk Choi (Peking University HSBC Business School). Email: pyfe@eml.cc

Related Projects

Commercial versions (implemented and optimized in C/C++) for some models are available. Email the author at pyfe@eml.cc.
PyFENG for Papers is a collection of Jupyter notebooks that reproduce the results of financial engineering research papers using PyFENG.
FER: Financial Engineering in R developed by the same author. Not all models in PyFENG are implemented in FER. FER is a subset of PyFENG.

Name	Name	Last commit message	Last commit date
Latest commit History 713 Commits
.idea	.idea
docs	docs
pyfeng	pyfeng
tests	tests
.gitignore	.gitignore
.pypirc	.pypirc
.readthedocs.yaml	.readthedocs.yaml
LICENSE	LICENSE
README.md	README.md
setup.py	setup.py

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