Finance:Interest rate swap

An interest rate swap is a derivative contract in which two parties exchange streams of interest payments on a notional principal for a set period. The most common form exchanges a fixed rate for a floating rate in the same currency. Variants include basis swaps, overnight index swaps (OIS), forward-start swaps and swaps with changing notionals. Since the late 2000s, collateralised swaps are typically priced and risk-managed using OIS discounting, and following the end of LIBOR new trades reference overnight risk-free rates such as the SOFR, the SONIA and the €STR. As at end-June 2024, interest rate derivatives were the largest segment of the global over-the-counter derivatives market by notional outstanding.^[1][2][3]

Arrangements resembling swaps emerged from back-to-back or parallel loans used in the 1970s to navigate exchange controls. A widely cited early landmark was a 1981 currency swap between IBM and the World Bank arranged by Salomon Brothers, which helped popularise the technique.^[4][5] The first interest rate swap is commonly dated to 1982.^[6]

Standard documentation and definitions from the ISDA in the 1990s and 2000s supported market growth and common terminology.^[7] After the 2007–2008 financial crisis, pricing for collateralised swaps shifted to OIS discounting and multi-curve approaches, reflecting the role of collateral and funding costs.^[8]

From 2021 to 2024, regulators completed the transition from LIBOR to overnight risk-free rates. Remaining synthetic sterling and United States dollar LIBOR settings ceased in 2024, which marked the end of LIBOR in mainstream use.^[9][10]

A standard interest rate swap has two legs linked to the same notional amount. The fixed leg pays a fixed rate on scheduled accrual periods. The floating leg pays a rate set at each reset date by a reference index such as the SOFR, the SONIA or the €STR, with payments exchanged on the corresponding payment dates. Day-count and business-day conventions follow market standards defined in documentation such as the ISDA Interest Rate Derivatives Definitions and, for on-venue trading, the relevant rulebooks.^[11][12]

Variants include forward-start swaps, amortising or accreting notionals, zero-coupon swaps, basis swaps in which both legs float, and overnight index swaps that reference a compounded overnight rate.

Common structures include the following.^[13][14]

• Fixed-for-floating swaps exchange a fixed rate for a floating index in the same currency.
• Basis swaps exchange a floating rate for a floating rate of a different tenor of the same index.
• Overnight index swaps pay a fixed rate versus a compounded overnight risk-free rate such as SOFR, SONIA or €STR.
• Forward-start and deferred-start swaps begin on a future date.
• Amortising and accreting swaps use notionals that change over time.
• Constant-maturity swaps link one leg to a constant-maturity swap rate.

Common uses include hedging interest rate exposure, adjusting asset and liability duration, and expressing views on the level or shape of the yield curve. In United States markets, the futures and swaps ecosystem now links SOFR futures and SOFR-linked swaps after the conversion of Eurodollar futures and USD LIBOR swaps in 2023.^[15]

A vanilla fixed-for-floating swap has a value equal to the difference between the present value of the fixed leg and the present value of the floating leg, discounted on the appropriate curve.

The present value of the fixed leg is

${\displaystyle P_{\text{fixed}}=N{\displaystyle \sum _{i=1}^n}K{\alpha }_{i}D(0,t_i)}$

where ${\displaystyle N}$ is notional, ${\displaystyle K}$ is the fixed rate, ${\displaystyle {\alpha }_i}$ are accrual fractions, ${\displaystyle t_i}$ are payment dates and ${\displaystyle D(0,t)}$ are discount factors.

Under a standard par-swap set-up, the floating leg can be written using forward rates ${\displaystyle F_j}$ and discount factors:

${\displaystyle P_{\text{float}}=N{\displaystyle \sum _{j=1}^m}{F}_j{\beta }_{j}D(0,u_j)}$

The par swap rate ${\displaystyle S}$ that sets the swap’s value to zero is

${\displaystyle S={\displaystyle \frac{{\displaystyle \sum _{j=1}^m}{F}_j{\beta }_{j}D(0,u_j)}{{\displaystyle \sum _{i=1}^n}{\alpha }_{i}D(0,t_i)}}}$

For a quoted swap with fixed rate ${\displaystyle R}$, the mark-to-market is often written

${\displaystyle P_{\text{IRS}}=N(R-S)A}$

with ${\displaystyle A={\displaystyle \sum _{i=1}^n}{\alpha }_{i}D(0,t_i)}$.

Following the financial crisis, collateralised swaps are commonly discounted using the overnight index swap curve that matches the collateral rate specified under the credit support annex. This leads to multi-curve frameworks that separate discounting from forward-rate projection.^[16][17]

A large share of plain-vanilla swaps is centrally cleared, with clearing mandates and reporting rules in major jurisdictions. In the United States, the Commodity Futures Trading Commission updated the clearing requirement in 2022 to reflect the transition to risk-free rates and added SOFR overnight index swaps across standard maturities.^[18] In the European Union, reforms under the EMIR 3.0 framework introduce an active account requirement intended to ensure EU market participants maintain and use accounts at EU central counterparties for specified interest rate derivatives.^[19]

Market convention summaries for on-venue trading are published by swap execution facilities and multilateral trading facilities.^[20]

Typical fixed-leg conventions for vanilla swaps vary by currency. Actual terms depend on documentation and venue rules.^[21][22]

Interest rate swaps expose users to several categories of financial risk. The main market risk is interest rate risk, since changes in discount factors and forward rates alter present value and can turn a position from an asset into a liability. Basis risk can arise when cash flows reference different floating rates or tenors, including in the post-LIBOR environment where differences between risk-free rates can be material.^[23][24]

Swaps also create counterparty credit risk. Banks measure and manage the possibility that a counterparty may default, as well as changes in the value of expected exposures. Under the Basel framework, a credit valuation adjustment capital charge applies to capture the risk of CVA changing with credit spreads.^[25][26]

Collateral and margining mitigate bilateral credit exposure but introduce funding and liquidity risks. Requirements at central counterparties and in bilateral agreements can amplify margin calls during stress. Central clearing reduces bilateral counterparty and liquidity risk through multilateral netting, but concentrates exposures between clearing members and the CCP.^[27][28][29]

Financial reporting for swaps reflects these risks. Under IFRS 9, hedge accounting requirements replaced IAS 39 and align reporting more closely with risk management. Under US GAAP, ASC 815 governs derivatives and hedging, including targeted improvements issued since 2017.^[30][31][32]

ICE Swap Rate, formerly ISDAFIX, is a benchmark for swap rates in major currencies and is used in the valuation of some interest rate swaps and swaptions and for certain close-out calculations.^[33]

• Overnight index swap
• Secured Overnight Financing Rate
• Sterling Overnight Index Average
• Euro short-term rate
• International Swaps and Derivatives Association
• Swap execution facility

General:

• Leif B.G. Andersen, Vladimir V. Piterbarg (2010). Interest Rate Modeling in Three Volumes (1st ed. 2010 ed.). Atlantic Financial Press. ISBN 978-0-9844221-0-4. http://www.andersen-piterbarg-book.com. 
• J H M Darbyshire (2017). Pricing and Trading Interest Rate Derivatives (2nd ed. 2017 ed.). Aitch and Dee Ltd.. ISBN 978-0995455528. http://www.tradinginterestrates.com. 
• Richard Flavell (2010). Swaps and other derivatives (2nd ed.) Wiley. ISBN 047072191X
• Miron P. & Swannell P. (1991). Pricing and Hedging Swaps, Euromoney books. ISBN 185564052X

Early literature on the incoherence of the one curve pricing approach:

• Boenkost W. and Schmidt W. (2004). Cross Currency Swap Valuation, Working Paper 2, HfB - Business School of Finance & Management SSRN preprint.
• Tuckman B. and Porfirio P. (2003). Interest Rate Parity, Money Market Basis Swaps and Cross-Currency Basis Swaps, Fixed income liquid markets research, Lehman Brothers

Multi-curves framework:

• Henrard M. (2007). The Irony in the Derivatives Discounting, Wilmott Magazine, pp. 92–98, July 2007. SSRN preprint.
• Kijima M., Tanaka K., and Wong T. (2009). A Multi-Quality Model of Interest Rates, Quantitative Finance, pages 133-145, 2009.
• Henrard M. (2010). The Irony in the Derivatives Discounting Part II: The Crisis, Wilmott Journal, Vol. 2, pp. 301–316, 2010. SSRN preprint.
• Bianchetti M. (2010). Two Curves, One Price: Pricing & Hedging Interest Rate Derivatives Decoupling Forwarding and Discounting Yield Curves, Risk Magazine, August 2010. SSRN preprint.
• Henrard M. (2014) Interest Rate Modelling in the Multi-curve Framework: Foundations, Evolution, and Implementation. Palgrave Macmillan. Applied Quantitative Finance series. June 2014. ISBN 978-1-137-37465-3.

• Pricing and Trading Interest Rate Derivatives by J H M Darbyshire
• Understanding Derivatives: Markets and Infrastructure Federal Reserve Bank of Chicago, Financial Markets Group
• Bank for International Settlements - Semiannual OTC derivatives statistics
• Interest rate swap glossary
• Investopedia - Spreadlock - An interest rate swap future (not an option)
• Basic Fixed Income Derivative Hedging - Article on Financial-edu.com.
• Hussman Funds - Freight Trains and Steep Curves
• Historical LIBOR Swaps data
• "All about money rates in the world: Real estate interest rates", WorldwideInterestRates.com
• Interest Rate Swap Calculators and Portfolio Management Tool
• G4 LIBOR Swap Calculator

and are regarded as an

0.00 (0 votes) Original source: https://en.wikipedia.org/wiki/Interest rate swap. Read more