Central Counterparties. A Numerical Implementation of the Default Waterfall
Abstract
This thesis studies so called Central Counterparties (CCP), nancial institutions
which consist of clearing members, such as large banks. CCPs have the
role of centralizing, mutualizing and reducing counterparty risk, by acting
as an intermediate in nancial transactions. CCPs have existed for a while,
however after the 2007-2009 nancial crisis regulators have pushed for all
OTC-derivatives to be cleared by CCPs. In order to be risk mitigating, the
CCPs must have su cient funds to be able to absorb losses from member
defaults. To increase the resilience of the CCP, the loss-absorbing safety
bu er exists in several layers, often denoted as the default waterfall. In this
thesis we numerically implement the CCP model by Ghamami (2015). We
use two di erent static credit models to quantify the various layers of the
default waterfall. Our model is found to adjust to di erent default probabilities
and default correlations by increasing the fund requirements in stressed
scenarios in both settings. Finally, we perform a sensitivity analysis in which
we change the number of clearing members, the time period considered and
the interest rate setting. In each stress test the model reacts to extreme
scenarios by increasing the layers accordingly.
Degree
Master 2-years
Other description
MSc in Finance
Collections
View/ Open
Date
2016-09-21Author
Ejvegård, Karl
Romaniello, Christian
Keywords
Risk Management
Central Counterparty
Risk
Stochastic Models
Monte Carlo Simulation
Mixed Binomial Models
Interest Rate Swap
Series/Report no.
2016:123
Master Degree Project
Language
eng