Valuing European Options Using Monte Carlo Simulation-Derivative Pricing in Python

Post date: Feb 07, 2020 12:41:51 AM

In a previous post, we presented a methodology for pricing European options using a closed-form formula. In this installment, we price these options using a numerical method. Specifically, we will use Monte Carlo simulation.

Recall that,

• • A call option gives the buyer the right, but not the obligation to buy an agreed quantity of the underlying from the seller at a future time for a given price. The payoff of the call option at expiration is max(S_T-K,0),

  • A put option gives the buyer the right, but not the obligation to sell an agreed quantity of the underlying to the seller at a future time for a given price. The payoff of the put option at expiration is max(K -S_T,0),

where S_T denotes the stock price at expiration and K is the strike price.

To price these options, we first simulate the price paths using the following Stochastic Differential Equation:

where

• • S_t is the stock price at time t,

  • σ denotes the stock volatility,

  • µ is the drift which equals the risk-free rate, and

  • dW_t represents the standard normal random variable.

The simulation is carried out until the options’ maturity. We then apply the terminal payoff functions and calculate the mean values of all the payoffs. Finally, we discount the mean values to the present and thus obtain the option values. For a more detailed presentation of the Monte Carlo method, see Reference [1].

The picture below shows the call and put option prices using 100000 simulations. All other parameters are the same as in the previous post.

We compare the above results to the ones obtained by using a third-party software and notice that they are in good agreement.

In the next installment, we will present a methodology for pricing American options using Monte Carlo simulation.

References

[1] Glasserman, Paul; Monte Carlo Methods in Financial Engineering, Springer; 2003

Follow the link below to download the Python program.

Originally Published Here: Valuing European Options Using Monte Carlo Simulation-Derivative Pricing in Python