It was clear that these now substantial funding costs should be quantified alongside CVA. The cost of funding was named FVA (funding value adjustment) which had the useful effect of consuming the strange DVA accounting requirements (from a bank’s point of view at least). Not surprisingly, the increase in funding costs also naturally led banks to tighten up collateral requirements. However, this created a knock-on effect for typical end-users of derivatives that historically have not been able or willing to enter into collateral agreement for liquidity and operational reasons. Some sovereign entities considered posting collateral, not only to avoid the otherwise large counterparty risk and funding costs levied upon them, but also to avoid the issue that banks hedging their counterparty risk may buy CDS protection on them, driving their credit spread wider and potentially causing borrowing problems. Some such entities posted their own bonds as collateral, solving the funding problems if not the counterparty risk ones. It also became clear that there was hidden value in collateral agreements that should be considered using collateral value adjustment (ColVA). Finally, the dramatic increase in capital requirements led to the consideration of capital value adjustment (KVA) and impending requirements to post initial margin to margin value adjustment (MVA).
Regulation aimed at reducing counterparty risk and therefore CVA was becoming better understood and managed. However, this in turn was driving the increased importance of other components such as DVA, FVA, ColVA, KVA and MVA. CVA, once an only child, had been joined by a twin (DVA) and numerous other relatives. The xVA family was growing and, bizarrely, regulation aimed at making OTC derivatives simpler and safer was driving this growth.
3
The OTC Derivatives Market
In my view, derivatives are financial weapons of mass destruction, carrying dangers that, while now latent, are potentially lethal. 6
3.1 The derivatives market
Derivatives contracts represent agreements either to make payments or to buy or sell an underlying security at a time or times in the future. The times may range from a few weeks or months (for example, futures contracts) to many years (such as long-dated swaps). The value of a derivative will change with the level of one of more underlying rates, assets or indices, and possibly decisions made by the parties to the contract. In many cases, the initial value of a traded derivative will be contractually configured to be zero for both parties at inception.
Derivatives are not a particularly new financial innovation; for example, in medieval times, forward contracts were popular in Europe. However, derivatives products and markets have become particularly large and complex in the last three decades.
One of the advantages of derivatives is that they can provide very efficient hedging tools. For example, consider the following risks that an institution, such as a corporate, may experience:
• IR risk. They need to manage liabilities such as transforming floating- into fixed-rate debt via an interest rate swap.
• FX risk. Due to being paid in various currencies, there is a need to hedge cash inflow or outflow in these currencies via FX forwards.
• Commodity. The need to lock in commodity prices either due to consumption (e.g. airline fuel costs) or production (e.g. a mining company) via commodity futures or swaps.
There are many different users of derivatives, such as sovereigns, central banks, regional/local authorities, hedge funds, asset managers, pension funds, insurance companies and corporates. All use derivatives as part of their investment strategy or to hedge the risks they face from their business activities.
In many ways, derivatives are no different from the underlying cash instruments. They simply allow one to take a very similar position in a synthetic way. For example, an airline wanting to reduce their exposure to a potential rise in aviation fuel price can buy oil futures, which are cash-settled and therefore represent a very simple way to go “long oil” (with no storage or transport costs). An institution wanting to reduce their exposure to a certain asset can do so via a derivative contract, which means they do not have to sell the asset directly in the market.
The credit risk of derivatives contracts is usually called counterparty risk. As the derivatives market has grown, so has the importance of counterparty risk. Furthermore, the lessons from events such as the failure of Long-Term Capital Management and Lehman Brothers (as discussed in the last chapter) have highlighted the problems when a major player in the derivatives market defaults. This in turn has led to an increased focus on counterparty risk and related aspects.
Within the derivatives markets, many of the simplest products are traded through exchanges. A derivatives exchange is a financial centre where parties can trade standardised contracts such as futures and options at a specified price. An exchange promotes market efficiency and enhances liquidity by centralising trading in a single place, thereby making it easy to enter and exit positions.The process by which a financial contract becomes exchange-traded can be thought of as a long journey where a reasonable trading volume, standardisation and liquidity must first develop. Whilst an exchange provides efficient price discovery,7 it also typically provides a means of mitigating counterparty risk. Modern-day exchanges have a central counterparty clearing function to guarantee performance and therefore reduce counterparty risk. Since the mid-1980s, all exchanges have had such central clearing facilities.
Compared to exchange-traded derivatives, OTC derivatives tend to be less standard structures and are typically traded bilaterally, i.e., between two parties. They are private contracts, traditionally not reported or part of any customer asset protection programme. Hence, each party takes counterparty risk with respect to the other party. Many players in the OTC derivatives market do not have strong credit quality, nor are they able to post collateral to reduce counterparty risk. This counterparty risk is therefore an unavoidable consequence of the OTC derivatives market. A relatively small number of banks are fairly dominant in OTC derivatives: generally these are large and highly interconnected, and are generally viewed as being “too big to fail”.
In 1986, the total notional of OTC derivatives was slightly less than that of exchange traded derivatives at $500 billion.8 Arguably, even at this point OTC markets were more significant due to the fact that they are longer-dated (for example, a ten-year OTC interest rate swap is many times more risky than a three-month interest rate futures contract).
Figure 3.1 Total outstanding notional of OTC and exchange-traded derivatives transactions. The figures cover interest rate, foreign exchange, equity, commodity and credit derivative contracts. Note that notional amounts outstanding are not directly comparable to those for exchange-traded derivatives, which refer to open interest or net positions, whereas the amounts outstanding for OTC markets refer to gross positions, i.e., without netting.
Source: BIS.
Nevertheless, in the following two decades, the OTC derivatives market grew exponentially in size (