Futures contract explained

In finance, a futures contract (sometimes called futures) is a standardized legal contract to buy or sell something at a predetermined price for delivery at a specified time in the future, between parties not yet known to each other. The asset transacted is usually a commodity or financial instrument. The predetermined price of the contract is known as the forward price or delivery price. The specified time in the future when delivery and payment occur is known as the delivery date. Because it derives its value from the value of the underlying asset, a futures contract is a derivative.

Contracts are traded at futures exchanges, which act as a marketplace between buyers and sellers. The buyer of a contract is said to be the long position holder and the selling party is said to be the short position holder.[1] As both parties risk their counter-party reneging if the price goes against them, the contract may involve both parties lodging as security a margin of the value of the contract with a mutually trusted third party. For example, in gold futures trading, the margin varies between 2% and 20% depending on the volatility of the spot market.[2]

A stock future is a cash-settled futures contract on the value of a particular stock market index. Stock futures are one of the high risk trading instruments in the market. Stock market index futures are also used as indicators to determine market sentiment.[3]

The first futures contracts were negotiated for agricultural commodities, and later futures contracts were negotiated for natural resources such as oil. Financial futures were introduced in 1972, and in recent decades, currency futures, interest rate futures, stock market index futures, and cryptocurrency inverse futures and perpetual futures have played an increasingly large role in the overall futures markets. Even organ futures have been proposed to increase the supply of transplant organs.[4]

The original use of futures contracts mitigates the risk of price or exchange rate movements by allowing parties to fix prices or rates in advance for future transactions. This could be advantageous when (for example) a party expects to receive payment in foreign currency in the future and wishes to guard against an unfavorable movement of the currency in the interval before payment is received.[5]

However, futures contracts also offer opportunities for speculation in that a trader who predicts that the price of an asset will move in a particular direction can contract to buy or sell it in the future at a price which (if the prediction is correct) will yield a profit. In particular, if the speculator is able to profit, then the underlying commodity that the speculator traded would have been saved during a time of surplus and sold during a time of need, offering the consumers of the commodity a more favorable distribution of commodity over time.[2]

Origin

The Dōjima Rice Exchange, first established in 1697 in Osaka, is considered by some to be the first futures exchange market, to meet the needs of samurai who—being paid in rice—needed a stable conversion to coin after a series of bad harvests.[6]

The Chicago Board of Trade (CBOT) listed the first-ever standardized 'exchange traded' forward contracts in 1864, which were called futures contracts. This contract was based on grain trading, and started a trend that saw contracts created on a number of different commodities as well as a number of futures exchanges set up in countries around the world.[7] By 1875 cotton futures were being traded in Bombay in India and within a few years this had expanded to futures on edible oilseeds complex, raw jute and jute goods and bullion.[8] In the 1930s two thirds of all futures was in wheat.[9]

The 1972 creation of the International Monetary Market (IMM) by the Chicago Mercantile Exchange was the world's first financial futures exchange, and launched currency futures. In 1976, the IMM added interest rate futures on US treasury bills, and in 1982 they added stock market index futures.[10]

Risk mitigation

Although futures contracts are oriented towards a future time point, their main purpose is to mitigate the risk of default by either party in the intervening period. In this vein, the futures exchange requires both parties to put up initial cash, or a performance bond, known as the margin. Margins, sometimes set as a percentage of the value of the futures contract, must be maintained throughout the life of the contract to guarantee the agreement, as over this time the price of the contract can vary as a function of supply and demand, causing one side of the exchange to lose money at the expense of the other.

To mitigate the risk of default, the product is marked to market on a daily basis where the difference between the initial agreed-upon price and the actual daily futures price is re-evaluated daily. This is sometimes known as the variation margin, where the futures exchange will draw money out of the losing party's margin account and put it into that of the other party, ensuring the correct loss or profit is reflected daily. If the margin account goes below a certain value set by the exchange, then a margin call is made and the account owner must replenish the margin account.

On the delivery date, the amount exchanged is not the specified price on the contract but the spot value, since any gain or loss has already been previously settled by marking to market.

Margin

See main article: Margin (finance).

To minimize counterparty risk to traders, trades executed on regulated futures exchanges are guaranteed by a clearing house. The clearing house becomes the buyer to each seller, and the seller to each buyer, so that in the event of a counterparty default the clearer assumes the risk of loss. This enables traders to transact without performing due diligence on their counterparty.

Margin requirements are waived or reduced in some cases for hedgers who have physical ownership of the covered commodity or spread traders who have offsetting contracts balancing the position.

Clearing margin are financial safeguards to ensure that companies or corporations perform on their customers' open futures and options contracts. Clearing margins are distinct from customer margins that individual buyers and sellers of futures and options contracts are required to deposit with brokers.

Customer margin Within the futures industry, financial guarantees required of both buyers and sellers of futures contracts and sellers of options contracts to ensure fulfillment of contract obligations. Futures Commission Merchants are responsible for overseeing customer margin accounts. Margins are determined on the basis of market risk and contract value. Also referred to as performance bond margin.

Initial margin is the equity required to initiate a futures position. This is a type of performance bond. The maximum exposure is not limited to the amount of the initial margin, however, the initial margin requirement is calculated based on the maximum estimated change in contract value within a trading day. The initial margin is set by the exchange.

If a position involves an exchange-traded product, the amount or percentage of the initial margin is set by the exchange concerned.

In case of loss or if the value of the initial margin is being eroded, the broker will make a margin call in order to restore the amount of initial margin available. Often referred to as "variation margin", margin called, for this reason, is usually done on a daily basis, however, in times of high volatility, a broker can make a margin call intra-day.

Margin calls are usually expected to be paid and received on the same day. If not, the broker has the right to close sufficient positions to meet the amount called by way of margin. After the position is closed out the client is liable for any resulting deficit in the client's account.

Some U.S. exchanges also use the term "maintenance margin", which in effect defines how much the value of the initial margin can reduce before a margin call is made. However, most non-US brokers only use the term "initial margin" and "variation margin".

The Initial Margin requirement is established by the Futures exchange, in contrast to other securities' Initial Margin (which is set by the Federal Reserve in the U.S. Markets).

A futures account is marked to market daily. If the margin drops below the margin maintenance requirement established by the exchange listing the futures, a margin call will be issued to bring the account back up to the required level.

Maintenance margin A set minimum margin per outstanding futures contract that a customer must maintain in their margin account.

Margin-equity ratio is a term used by speculators, representing the amount of their trading capital that is being held as margin at any particular time. The low margin requirements of futures results in substantial leverage of the investment. However, the exchanges require a minimum amount that varies depending on the contract and the trader. The broker may set the requirement higher, but may not set it lower. A trader, of course, can set it above that, if he does not want to be subject to margin calls.

Performance bond margin The amount of money deposited by both a buyer and seller of a futures contract or an options seller to ensure the performance of the term of the contract. Margin in commodities is not a payment of equity or down payment on the commodity itself, but rather it is a security deposit.

Return on margin (ROM) is often used to judge performance because it represents the gain or loss compared to the exchange's perceived risk as reflected in the required margin. ROM may be calculated (realized return) / (initial margin). The Annualized ROM is equal to (ROM+1)(year/trade_duration)-1. For example, if a trader earns 10% on margin in two months, that would be about 77% annualized.

Settlement − physical versus cash-settled futures

Settlement is the act of consummating the contract, and can be done in one of two ways, as specified per type of futures contract:

Expiry (or Expiration in the U.S.) is the time and the day that a particular delivery month of a futures contract stops trading, as well as the final settlement price for that contract. For many equity index futures and interest rate futures as well as for most equity (index) options, this happens on the third Friday of certain trading months. On this day the back month futures contract becomes the front-month futures contract. For example, for most CME and CBOT contracts, at the expiration of the December contract, the March futures become the nearest contract. During a short period (perhaps 30 minutes) the underlying cash price and the futures prices sometimes struggle to converge. At this moment the futures and the underlying assets are extremely liquid and any disparity between an index and an underlying asset is quickly traded by arbitrageurs. At this moment also, the increase in volume is caused by traders rolling over positions to the next contract or, in the case of equity index futures, purchasing underlying components of those indexes to hedge against current index positions. On the expiry date, a European equity arbitrage trading desk in London or Frankfurt will see positions expire in as many as eight major markets almost every half an hour. Exchanges implement strict limits on how much exposure an entity may have closer to expiration as an effort to avoid any volatility around final settlement.

Pricing

When the deliverable asset exists in plentiful supply or may be freely created, then the price of a futures contract is determined via arbitrage arguments. This is typical for stock index futures, treasury bond futures, and futures on physical commodities when they are in supply (e.g. agricultural crops after the harvest). However, when the deliverable commodity is not in plentiful supply or when it does not yet exist—for example on crops before the harvest or on Eurodollar Futures or Federal funds rate futures (in which the supposed underlying instrument is to be created upon the delivery date)—the futures price cannot be fixed by arbitrage. In this scenario, there is only one force setting the price, which is simple supply and demand for the asset in the future, as expressed by supply and demand for the futures contract.

Arbitrage arguments

Arbitrage arguments ("rational pricing") apply when the deliverable asset exists in plentiful supply or may be freely created. Here, the forward price represents the expected future value of the underlying discounted at the risk-free rate—as any deviation from the theoretical price will afford investors a riskless profit opportunity and should be arbitraged away. We define the forward price to be the strike K such that the contract has 0 value at the present time. Assuming interest rates are constant the forward price of the futures is equal to the forward price of the forward contract with the same strike and maturity. It is also the same if the underlying asset is uncorrelated with interest rates. Otherwise, the difference between the forward price on the futures (futures price) and the forward price on the asset, is proportional to the covariance between the underlying asset price and interest rates. For example, a futures contract on a zero-coupon bond will have a futures price lower than the forward price. This is called the futures "convexity correction".

Thus, assuming constant rates, for a simple, non-dividend paying asset, the value of the futures/forward price, F(t,T), will be found by compounding the present value S(t) at time t to maturity T by the rate of risk-free return r.

F(t,T)=S(t) x (1+r)(T-t)

or, with continuous compounding

F(t,T)=S(t)er(T-t)

This relationship may be modified for storage costs u, dividend or income yields q, and convenience yields y. Storage costs are costs involved in storing a commodity to sell at the futures price. Investors selling the asset at the spot price to arbitrage a futures price earns the storage costs they would have paid to store the asset to sell at the futures price. Convenience yields are benefits of holding an asset for sale at the futures price beyond the cash received from the sale. Such benefits could include the ability to meet unexpected demand, or the ability to use the asset as an input in production.[12] Investors pay or give up the convenience yield when selling at the spot price because they give up these benefits. Such a relationship can be summarized as:

F(t,T)=S(t)e(r+u-y)(T-t)

The convenience yield is not easily observable or measured, so y is often calculated, when r and u are known, as the extraneous yield paid by investors selling at spot to arbitrage the futures price.[13] Dividend or income yields q are more easily observed or estimated, and can be incorporated in the same way:[14]

F(t,T)=S(t)e(r+u-q)(T-t)

In a perfect market, the relationship between futures and spot prices depends only on the above variables; in practice, there are various market imperfections (transaction costs, differential borrowing, and lending rates, restrictions on short selling) that prevent complete arbitrage. Thus, the futures price in fact varies within arbitrage boundaries around the theoretical price.

Pricing via expectation

When the deliverable commodity is not in plentiful supply (or when it does not yet exist) rational pricing cannot be applied, as the arbitrage mechanism is not applicable. Here the price of the futures is determined by today's supply and demand for the underlying asset in the future.

In an efficient market, supply and demand would be expected to balance out at a futures price that represents the present value of an unbiased expectation of the price of the asset at the delivery date. This relationship can be represented as[15] ::

F(t)=

(r)(T-t)
E
t\left\{S(T)\right\}e

By contrast, in a shallow and illiquid market, or in a market in which large quantities of the deliverable asset have been deliberately withheld from market participants (an illegal action known as cornering the market), the market clearing price for the futures may still represent the balance between supply and demand but the relationship between this price and the expected future price of the asset can break down.

Relationship between arbitrage arguments and expectation

The expectation-based relationship will also hold in a no-arbitrage setting when we take expectations with respect to the risk-neutral probability. In other words: a futures price is a martingale with respect to the risk-neutral probability. With this pricing rule, a speculator is expected to break even when the futures market fairly prices the deliverable commodity.

Contango, backwardation, normal and inverted markets

The situation where the price of a commodity for future delivery is higher than the expected spot price is known as contango. Markets are said to be normal when futures prices are above the current spot price and far-dated futures are priced above near-dated futures. The reverse, where the price of a commodity for future delivery is lower than the expected spot price is known as backwardation. Similarly, markets are said to be inverted when futures prices are below the current spot price and far-dated futures are priced below near-dated futures.

Futures contracts and exchanges

Contract

There are many different kinds of futures contracts, reflecting the many different kinds of "tradable" assets about which the contract may be based such as commodities, securities (such as single-stock futures), currencies or intangibles such as interest rates and indexes. For information on futures markets in specific underlying commodity markets, follow the links. For a list of tradable commodities futures contracts, see List of traded commodities. See also the futures exchange article.

Trading on commodities began in Japan in the 18th century with the trading of rice and silk, and similarly in Holland with tulip bulbs. Trading in the US began in the mid 19th century when central grain markets were established and a marketplace was created for farmers to bring their commodities and sell them either for immediate delivery (also called spot or cash market) or for forward delivery. These forward contracts were private contracts between buyers and sellers and became the forerunner to today's exchange-traded futures contracts. Although contract trading began with traditional commodities such as grains, meat, and livestock, exchange trading has expanded to include metals, energy, currency and currency indexes, equities and equity indexes, government interest rates, and private interest rates.

Exchanges

Contracts on financial instruments were introduced in the 1970s by the Chicago Mercantile Exchange (CME) and these instruments became hugely successful and quickly overtook commodities futures in terms of trading volume and global accessibility to the markets. This innovation led to the introduction of many new futures exchanges worldwide, such as the London International Financial Futures Exchange in 1982 (now Euronext. liffe), Deutsche Terminbörse (now Eurex) and the Tokyo Commodity Exchange (TOCOM). Today, there are more than 90 futures and futures options exchanges worldwide trading to include:

Codes

Most futures contract codes are five characters. The first two characters identify the contract type, the third character identifies the month and the last two characters identify the year.

On CME Group markets, third (month) futures contract codes are:[17] Contracts expire after the listing month. Therefore traders must roll over their positions into the next month code.

Example: CLX14 is a Crude Oil (CL), November (X) 2014 (14) contract.

Futures contracts users

Futures traders are traditionally placed in one of two groups: hedgers and speculators. Hedgers have an interest in the underlying asset (which could include an intangible such as an index or interest rate) and are seeking to hedge out the risk of price changes. Speculators, by contrast, seek to make a profit by predicting market moves and opening a derivative contract related to the asset "on paper", while they have no practical use for or intent to actually take or make delivery of the underlying asset. In other words, speculators are seeking exposure to the asset in long futures contracts or the opposite effect via short futures contracts.

Hedgers

Hedgers typically include producers and consumers of a commodity or the owner of an asset or assets subject to certain influences such as an interest rate.

For example, in traditional commodity markets, farmers often sell futures contracts for the crops and livestock they produce to guarantee a certain price, making it easier for them to plan. Similarly, livestock producers often purchase futures to cover their feed costs, so that they can plan on a fixed cost for feed. In modern (financial) markets, "producers" of interest rate swaps or equity derivative products will use financial futures or equity index futures to reduce or remove the risk on the swap.

Those that buy or sell commodity futures need to be careful. If a company buys contracts hedging against price increases, but in fact, the market price of the commodity is substantially lower at the time of delivery, they could find themselves disastrously non-competitive (for example see: VeraSun Energy).

Investment fund managers at the portfolio and the fund sponsor level can use financial asset futures to manage portfolio interest rate risk, or duration, without making cash purchases or sales using bond futures.[18] Invest firms that receive capital calls or capital inflows in a different currency than their base currency could use currency futures to hedge the currency risk of that inflow in the future.[19]

Speculators

Speculators typically fall into three categories: position traders, day traders, and swing traders (swing trading), though many hybrid types and unique styles exist. With many investors pouring into the futures markets in recent years controversy has risen about whether speculators are responsible for increased volatility in commodities like oil, and experts are divided on the matter.

Notes and References

  1. Web site: Understanding Derivatives: Markets and Infrastructure – Federal Reserve Bank of Chicago . Chicagofed.org . 2015-11-09.
  2. Web site: The Gold Futures Market | Guide & Information from . BullionVault . 2015-11-09.
  3. Web site: Martin. Ken. 2020-11-19. Stock futures trade lower ahead of jobless claims, retail earnings. 2020-12-02. FOXBusiness. en-US.
  4. Albertsen . Andreas . December 2023 . Efficiency and the futures market in organs . Monash Bioethics Review . 41 . Suppl 1 . 66–81 . 10.1007/s40592-023-00180-0 . 1836-6716 . 37688713.
  5. Web site: Futures Contract Definition: Types, Mechanics, and Uses in Trading . 2024-04-07 . Investopedia . en.
  6. 10.1016/0378-4266(89)90028-9 . Schaede . Ulrike . Ulrike Schaede . Forwards and futures in Tokugawa-period Japan: A new perspective on the Dōjima rice market . Journal of Banking & Finance . 13 . 4–5 . September 1989 . 487–513 .
  7. Web site: timeline-of-achievements . . August 5, 2010 .
  8. Web site: Convergence of Securities and Commodity Markets report . Inter-Ministerial task force (chaired by Wajahat Habibullah) . . May 2003 . August 5, 2010 . dead . https://web.archive.org/web/20100112225929/http://fmc.gov.in/htmldocs/reports/rep03.htm . January 12, 2010 .
  9. Book: Otter . Chris . Diet for a large planet . 2020 . University of Chicago Press . Illinois . 978-0-226-69710-9 . 71 .
  10. Web site: Leo Melamed – Biographical Notes. www.leomelamed.com.
  11. [Wikinvest: Cash settlement|Cash settlement on Wikinvest]
  12. Commodity Futures Prices: Some Evidence on Forecast Power, Premiums, and the Theory of Storage. The University of Chicago Press. Fama. Eugene F.. French. Kenneth R.. The Journal of Business. 1987. 60. 1. 55–73. 10.1086/296385. 2352947.
  13. Book: Options, Futures, and Other Derivatives. 122–123. Pearson. Hull. John C.. 9th. 2015.
  14. Book: Options, Futures, and Other Derivatives. 112. Pearson. Hull. John C.. 9th. 2015.
  15. Book: Options, Futures, and Other Derivatives. 125. Pearson. Hull. John C.. 9th. 2015.
  16. Web site: NSE. 2 May 2023. nseindia.com.
  17. Web site: Month Codes . CME Group . 2015-11-09.
  18. Web site: Swaps, Forwards, and Futures Strategies. Valbuzzi. Barbara. CFA Institute. 7–8. 2019. 2020-05-18.
  19. Web site: Swaps, Forwards, and Futures Strategies. Valbuzzi. Barbara. CFA Institute. 17. 2019. 2020-05-18.