Sponsored educational feature: UBS Delta

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Fixed-income risk analysis requires credit curves to be built from market prices daily, ideally for every issuer and seniority. In practice, spread curves are often built for groups of issuers, by rating and industry, due to the lack of liquid data points. Where individual spread curves are built (such as in UBS Delta), they are separated by currency due to apparent differences between trading of bonds in different currencies, and bond spread curves are built separately from credit default swap (CDS) curves.

Based on detailed analysis of thousands of bond and CDS price histories, UBS Delta has developed a new approach for bootstrapping credit fixed-income curves, building unified hazard rate curves for each issuer and seniority, by combining market prices of CDSs and bonds across multiple currencies. The basis between currencies and instruments – bond versus CDS – is estimated simultaneously and consistently.

We use these individual issuer curves to derive more stable and robust market, sector and region curves (‘market curves’). Comparing individual issuers with market curves also allows us to show market-implied ratings.

Single-issuer curves
We believe – and the experience of the last few years bears out – that credit fixed-income risk analysis should be based on calibrations at the level of the individual issuer and seniority. Broad-rating or sector-based approaches do not capture issuer level idiosyncrasies and diversification, and do not support analysis of issuer risk or concentration risk.

There are, however, many examples of issuers only issuing a few bonds in a given currency, where our current approach is to use comparable securities and build a market/sector curve to complete the issuer curve. For example, figure 1 shows a bond spread curve for such an issuer – BMW issuing in GBP. The grey squares represent asset swap margins over Libor for bonds, the red line is the z-spread curve over Libor for BMW in GBP, and the blue curve is a proxy curve – in this case GBP corporate single A rated issuers. Beyond six years, the BMW curve is extrapolated using the proxy curve, enabling the risk management of positions that have longer-dated, unlisted or illiquid GBP exposure to BMW.

Single issuer – Multiple currencies and instruments
Single-issuer curves, such as that presented in figure 1, could be improved by using other currencies of bonds issued by the same entity, as well as CDSs referencing that entity. However, this has historically proven difficult to implement. Spreads on bonds can differ quite significantly from CDS premia, and bond spreads trade quite distinctly in different currencies even for the same issuer. Figure 2 shows this for BMW issuing in GBP and EUR and for BMW CDSs. Note that these three curves are built independently, without any of them influencing any other.
Based on histories of the five-year tenor, the average correlation between the spread moves on these curves is less than 30%. A fixed-income risk model based on spreads at the individual issuer level would likely treat these as three separate sources of risk.

A new approach – Unified hazard-rate curves
We address these and related risk-modelling problems by implementing a unified hazard-rate-based approach that jointly estimates curves across multiple currencies of bonds and CDSs, rather than building totally separate spread curves (see figure 3).

Bond spreads and CDS quotes are not directly comparable due to differences in how the instruments are funded and differences in cashflow structure. To tackle this, we treat bonds consistently with CDSs by allowing two scenarios – default and no default – and discounting the probability weighted values. Using this approach, we infer a term structure of market-implied default probabilities from the prices of instruments. Deriving hazard rates puts the various instruments in comparable terms, especially as the discounting rates we use to bootstrap the hazard rates are market funding rates, derived from overnight indexed swap rates and from cross-currency basis swaps.

For each issuer, we use bond prices in all issued currencies and CDS quotes as inputs to the joint estimation of one hazard-rate curve and the basis for each currency and instrument type. Figure 3 shows the hazard-rate curve for BMW issuing in GBP for August 28, 2012. This is built using bond prices for BMW senior debt issued in GBP, as well as AUD, CAD, CHF, EUR and NOK, along with the CDS quotes referencing BMW senior debt. The two blue squares represent two of the three BMW GBP bonds that were used previously. In this new approach, bringing more data points to an issuer’s curve, we are able to raise the minimum liquidity requirements and the third bond is no longer used. The other points are the other quotes adjusted by their basis to GBP to show how they contribute to the shape of the GBP curve.

Through the joint estimation process, the hazard rates implied by all of the other asset prices provide ‘support’ to the GBP curve, enabling a more robust and stable curve to be built. If one of the GBP bonds was to become illiquid or experience a price spike, we would not see the whole curve shift as significantly as we would have seen under a traditional methodology, as detailed above. For comparison, the hazard rate at the long end of the curve translates to a z-spread of approximately 115 basis points (bp) over Libor for BMW in GBP versus more than 200bp seen using the sector proxy curve in figure 1.

Why hazard rates?
Hazard-rate curves can be translated into implied CDS terms as seen in figure 4, which shows implied CDS levels, derived from the unified hazard-rate curve and the basis for each of five currencies of issue, for another high-grade issuer. The implied CDS curves in figure 4 show very similar behaviour over time. The correlation between the spread moves is now averaging well over 60% and the unified hazard-rate process has much greater explanatory power for the issuer’s credit risk than traditional single currency spread to Libor curves (such as z-spread). Figure 5 shows the z-spreads over Libor for the five curves above, and we see much less correlation between these spreads than we do with the hazard rates – with the average now below 30%.

We build a unified hazard-rate curve and the basis for each currency and instrument type, every day, for thousands of issuers. Each of these can be viewed as hazard rate, implied CDS, par spread or z-spread curves, each with multi-year daily histories.

Market surfaces and artificial ratings migration volatility
Using the issuer curves constructed above, we build curves for sectors and whole markets, such as the Europe ex-UK/automobiles and parts/A2 curve shown as the dotted line in figure 3. A traditional approach is to build an independent market curve for each sector and rating. These sector-ratings curves often exhibit large step jumps and high volatility – not due to underlying market moves, but purely from ratings jumps and classification changes. In order to make market curves more useful, we actually build market surfaces, populating every rating and maturity. The sector curve shown in figure 3 is a line for that rating drawn across the hazard-rate surface. We only build a market surface for a region/sector where we have sufficient data to populate the whole surface. Figure 6 shows the market surface for Europe ex-UK/automobiles and parts, rescaled to show cumulative default frequency. Key to our approach is that this surface is built as one surface, not rating by rating. In constructing the surface, each rating point influences the surface at the ratings points either side of them, with this influence reducing as the distance increases. The surface is calibrated as a whole, rather than each rating slice in isolation. This, together with the more robust underlying issuer curves, gives us market curves that are much more granular than with the traditional approach.

This approach also reduces the artificial jumps seen in ratings-based curves from rating migrations, and it allows for the generation of market CDS curves for region-sector-rating combinations where no names are actually trading, such as the A1 curve that could be drawn across this surface. This has applications in many situations including, for example, marking of credit valuation adjustment.

Market-implied ratings
Comparing hazard rate tenor points from individual issuer curves with the hazard-rate market surfaces allows us to derive market-implied ratings. These are the ratings that would make the individual issuer curve lie on the market surface at that tenor. Market-implied ratings can be based on the user’s chosen market curve, as shown in figure 7.

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