VOLATILITY MANAGER

DESCRIPTION
INSTRUMENTS
VARIANCE SWAPS
EQUITY TO CREDIT
PRODUCT DESCRIPTION

Volatility Manager is a robust pricing and hedging front office solution based on a proprietary regime switching model featuring jumps, stochastic volatility, and possibly stochastic credit. The underlying price dynamics assume different Brownian volatility and hazard rate parameters (default intensity) in the various regimes. Two to three regimes are typically sufficient to jointly capture the shape of the volatility surface (the smile) together with the CDS term structure. Poisson processes are triggering transitions between regimes causing the Brownian volatility and the hazard rate to suddenly jump together with the underlying.

KEY FEATURES OF THE MODEL
  • The model is designed to accurately calibrate and recalibrate jointly a CDS term structure and a full smile surface. The results of the calibration are shown on a report worksheet which displays the inferred model parameters (volatility and hazard rates in each regime, regime switch intensity, underlying equity jump size) and compares the market input with the model output for both the volatility surface and the CDS term structure.
  • The parameters inferred from the joint calibration of the volatility surface and the CDS term structure, are constant and robust, they are not tweaked to fit each maturity
    independently.
  • Once calibrated, the model can be used to price and hedge various instruments such as other options, CDS, variance swaps, and various exotic derivatives.
  • We propose a recalibration feature which explains how a change in the prices of a few options impacts the entire volatility surface.
  • We exhibit the theoretical price and the Greeks of each option on the volatility surface together with hedge ratios on the underlying and possibly also on other hedging instruments such as a CDS or an out of the money put to hedge the credit risk.
KEY BENEFITS FOR TRADERS AND FUND MANAGERS
  • Consistent calibration, and recalibration of the smile surface and the credit curve (using CDS term structure)
  • Consistent interpolation and extrapolation of the volatility surface
  • Reliable computation of the Greeks on all instruments which depend on credit and equity
  • Easy comparison of the market implied volatility surface to the model implied volatility surface and identification of mispricing and trading opportunities
  • Joint dynamic hedging of the equity and credit risk components with two instruments (typically the underlying and a CDS or an OTM put).
KEY BENEFITS FOR RISK MANAGERS, QUANTS AND IT SPECIALISTS
  • Fast generation of the model implied volatility surface for a single name stock taking into account the credit component
  • Scenario analysis on volatility surface following a change of the underlying equity spot, or a change in the CDS term structure
  • Volatility manager is an open, scalable and easily deployable front office tool with an excel front end
  • Powerful libraries that can be easily integrated in various systems and environments due to well designed multiple interfaces (Java, .Net, C++, Excel)
SUPPORTED INSTRUMENTS

The following instruments are supported by Volatility Manager:

  • Equity to Credit (Options smile and CDS)
  • Barrier options
  • Forward starting options
  • Variance swaps
  • Options on variance
  • VIX options
  • Dividend swaps
VARIANCE SWAPS

The variance swap is an equity derivative with payoff the realized variance of the underlying equity or index. The Black-Scholes-Merton tradition of continuous delta hedging under diffusion confuses it with the log contract. As a consequence, it suggests the variance swap is redundant with the vanilla options. What the variance swap truly is, however, over and above the vanillas, is a play on the possible underlying jumps. We believe variance swaps mark a new age in volatility arbitrage. For this reason, we price them from scratch, independently of the diffusion assumption or even the idea that vanilla options may have ever been a play on variance:

  • We price the variance swaps under our generalized jump-diffusion model with stochastic volatility and stochastic jumps, also known as the “regime-switching model.”
  • We also price the log contract. This way, you can measure the difference due to the jumps.
  • It doesn't matter whether jumps (in the equity or the index) have been known to occur or not to occur in the past. (A jump to default couldn't have occurred in the past.) What matters is whether the market anticipates such jumps.
  • The empirical disconnect between the market price of the variance swap and the theoretical price of the log contract (a.k.a. the strip of vanillas), apparent even on the index, points in that direction.
  • We even calibrate the regime-switching model against the market prices of variance swaps of different starting dates and maturity dates, independently of the vanillas. Indeed, the variance swap is not redundant with the vanillas and its price carries additional information on the underlying process (as does the price of any path-dependent option, generally).
  • People should be suspicious, anyway, of any methodology that is incapable of valuing an instrument as natural and simple and homogeneous as the variance swap directly and says it requires a full strip of known vanilla options prices in order to do so!
  • On top of vanilla variance swaps, our all-numerical solving techniques enable us to price the following payoffs:
    • volatility swaps
    • capped volatility and variance swaps
    • gamma swaps
    • corridor variance swaps
    • up and down corridor variance swaps
    • conditional variance swaps
    • variance options
    • variance swaptions
  • All this is achieved in our general equity-to-credit framework, of which dividends and default risk are an integral part.
EQUITY TO CREDIT

Equity-to-Credit is the new form of volatility arbitrage. Credit risk (through the probability of the underlying equity jumping to zero) adds a component to option premium that cannot be financed by the usual rebalancing of the delta hedge issuing from the Black-Scholes-Merton model. Another hedging instrument has to be held and continuously traded in order to hedge the jump to default. Jointly inferring the Brownian volatility and the hazard rate from the market data of instruments sensitive both to volatility and credit risk (equity options, CDS) and computing the composite dynamic hedging strategy are the new rule of volatility arbitrage.

THE EQUITY-TO-CREDIT PARADIGM

The equity-to-credit paradigm is born from the recognition that credit dependent instruments, starting with standard corporate bonds, have an embedded equity component which results from the high correlation between the credit standing of an issuer and its stock price. With corporate default of big companies looming large in the last few years, investors have been stunned by the collapse of the famed bond floor of convertible bonds. It is now well recognized that the credit component must be hedged with other standard instruments such as CDS or out of the money puts. More generally, equity and credit instruments should be priced and hedged in a unique consistent framework, which is the essence of the equity-to-credit paradigm.

This creates both institutional and technical problems for market participants. Banks have traditionally traded their equity and credit portfolios in separate divisions which cannot cross-hedge their related exposures. Slowly and gradually, they are understanding that they need to merge the various desks which deal with the same issuer.

Hedge funds have taken advantage of the institutional rigidity of banks; they have been the first to benefit from this new paradigm by investing in strategies which aim to arbitrage inconsistencies between the credit and the equity markets. But as more money is flowing into these strategies, obvious opportunities disappear and accurate modelling becomes essential. Traders have so far relied on software and models which are good at pricing one family of instruments but fail to deal consistently with the entire equity-to-credit spectrum. This is an issue for both pre-trade analysis and risk management.

SOLVING THE EQUITY-TO-CREDIT PROBLEM

The Equity-to-Credit problem, as we understand it and handle it, is the problem of pricing and hedging of single name equity derivatives and credit derivatives when the issuer of the underlying equity is subject to default (or credit risk). Posing the problem means specifying the stochastic process followed by the underlying equity (typically, it is a jump-diffusion process where the diffusion, or Brownian component, admits of stochastic volatility and the jump component is a sum of Poisson jump processes with stochastic intensity and jump sizes, notable among which is the jump to default).

Designed by