Tag: Understanding Futures options

Understand Treasuries Contract Specifications

Understand Treasury Contract Specifications

Futures markets trade standardized futures contracts, which means futures that share an underlying asset are interchangeable. They have certain terms that are clearly defined by the futures contract and are usually summed up the contract specifications.

Contract specifications can be thought of as the agreement between the buyer or seller of the futures contract and the exchange that lists and clears that futures contract. Knowing a futures contract’s specification is important because it outlines the contract’s terms and obligations. Additionally, it may provide insights into how the contract will price and behave versus the underlying physical product or index.

In this module, we will consider the contract specifications for U.S. Treasury futures. CME Group lists active futures on U.S. Treasuries at numerous points along yield curve. Each futures contract has its own contract specifications; some contracts have similar terms while other terms are specific to a unique contract.

Identifying Maturity Points

To begin, we will need to identify the maturity points of the actively traded U.S. Treasury futures curve. Be advised that the futures contract name may not perfectly reflect that contract’s true deliverable U.S. Treasury security maturity. Currently CME Group has 2-Year Note, 5-Year Note, 10-Year Note, Ultra 10-Year Note, U.S. Bond and Ultra Bond futures contracts.

Important Specifications

We will explore the following specifications that are necessary for you to understand the contract structure, pricing and quotation mechanism, and delivery grade securities that provide the underlying product and trading cycle:

Contract size
Contract factor
Delivery grade for final settlement
Price quotation
Minimum price fluctuation (tick size)
Listed contract months
Termination of trading (last trading day)

The 2-Year Note

The 2-Year Note has a contract size of $200,000 face-value per contract. This size is unique to 2-Year Notes as all other active U.S. Treasury futures have a face value of $100,000.

When calculating a 2-Year Note’s invoice amount, CME Group calculations sometimes refer to a contract factor. The contract factor for 2-Year Notes is $2,000 per contract. The delivery grade of a U.S. Treasury futures contract refers to the U.S. Treasury securities eligible to be delivered into the futures contract that will fulfil the terms for final settlement.

All CME Group U.S. Treasury futures contracts settle to a physical delivery of an underlying U.S. Treasury note or bond. But each individual contract has its own list of securities that can be delivered. In other words, the short position, responsible for making delivery, cannot simply pick any government security and deliver it to the long position, responsible for accepting and paying for delivery. The short position must choose from one of several securities eligible according to the contract specifications.

For 2-Year Note futures, the eligible securities are defined as, “U.S. Treasury notes with an original term to maturity of not more than five years and three months and a remaining term to maturity of not less than one year and nine months from the first day of the delivery month and a remaining term to maturity of not more than two years from the last day of the delivery month. The invoice price equals the futures settlement price times a conversion factor, plus accrued interest. The conversion factor is the price of the delivered note ($1 par value) to yield 6 percent.

2-Year Note futures trade in points and fractions of 1/32 of a point. The smallest increment a 2-Year Note futures contract can trade in is a ¼ of a 1/32. Since the 2-Year Note has a face-value of $200,000 per contract 1/32 is equal to $62.50 per contract. Therefore, the minimum tick, or smallest increment of price change, is ¼ of 1/32 a tick is worth 0.25 x $62.50 or $15.625 per contract.

2-Year Note futures list three consecutively quarterly contract months at a time following the March, June, September, and December expiration cycle.

Termination of trading, also known as last trading day (LTD), is the last business day of a quarterly contract month. The last delivery day (LDD) is three business days after the last business day of a quarterly contract month.

The 5-Year Note

5-Year Note futures are similar to 2-Years in their listing cycle; they are listed in three consecutive quarterly expiration months following the March, June, September, December cycle. 5-Year Notes have a face value of $100,000 per contract and a contract factor of $1,000 per contract.

The deliverable grade for 5-Year Notes is, “U.S. Treasury notes with an original term to maturity of not more than five years and three months and a remaining term to maturity of not less than four years and two months as of the first day of the delivery month. The invoice price equals the futures settlement price times a conversion factor, plus accrued interest. The conversion factor is the price of the delivered note ($1 par value) to yield 6 percent.”

Like all U.S. Treasury futures, 5-Year Note futures trade in points and fractions of a 1/32. The minimum price fluctuation, or tick size, is ¼ of a 1/32. Since the face value of the 5-Year Note future is $100,000 a 1/32 is worth $31.25, therefore ¼ of a 1/32 is equal to 0.25 x $31.25 = $7.8125, rounded to the nearest cent per contract.

Last trading day and last delivery day are the same as 2-Year Notes. LTD for 5-Year notes is the last business day of a quarterly contract month and LDD is three business days following the last business day of the quarterly contract month.

The 10-Year Note

10-Year Notes and all the consecutively longer maturity contracts also have a $100,000 face value and $1,000 contract factor amount. The 10-Year Note’s delivery grade is, “U.S. Treasury notes with a remaining term to maturity of at least six and a half years, but not more than 10 years, from the first day of the delivery month. The invoice price equals the futures settlement price times a conversion factor, plus accrued interest. The conversion factor is the price of the delivered note ($1 par value) to yield 6 percent.”

10-Year Note futures minimum price fluctuation, or tick size, is ½ of 1/32. Therefore, the minimum price change would be 0.50 x $31.25 = $15.625, rounded to the nearest cent per contract. CME Group lists three consecutive quarterly contracts in 10-Year Notes.

LTD and LDD are different than 2- and 5-Year Note futures. The 10-Year Note ceases trading (LTD) seven business days prior to the last business day of the quarterly contract month. The LDD for 10-Year Notes is the last business day of the quarterly contract month.

Ultra 10-Year Note

Ultra 10-Year Notes list, price and trade just like the original 10-Year Notes described above.

The only difference in specifications between the 10-Year Note and Ultra 10-Year note is in the delivery grade. Securities eligible for delivery into the Ultra 10-Year are referenced as, “Original issue 10-Year U.S. Treasury notes with not less than 9 years 5 months and not more than 10 years of remaining term to maturity from first day of futures delivery month. The invoice price equals the futures settlement price times a conversion factor, plus accrued interest. The conversion factor is the price of the delivered note ($1 par value) to yield 6 percent.”

U.S. Treasury Bonds

The original U.S. Treasury Bond contract, sometimes referred to as the Classic Bond, has a face value of $100,000 per contract and a contract factor of $1,000.

Its deliverable grade is defined as, “U.S. Treasury bonds that have remaining term to maturity of at least 15 years and less than 25 years from the first day of the futures delivery month.* The delivery invoice amount equals the futures settlement price times a conversion factor, plus accrued interest. The conversion factor is the price of the delivered bond ($1 par value) to yield 6 percent.”

The minimum price fluctuation is 1/32 of a point or $31.25 per contract. CME Group lists three consecutive quarterly month contracts of this contract. Its LTD is seven business days prior to the last business day of the quarterly contract. LDD is the last business of the quarterly contract month.

The Ultra Bond

The Ultra-Bond contract is just like the Classic Bond except in deliverable grade terms.

The delivery grade terms for the Ultra-Bond are, “U.S. Treasury bonds with remaining term to maturity of not less than 25 years from the first day of the futures contract delivery month. The invoice price equals the futures settlement price times a conversion factor, plus accrued interest. The conversion factor is the price of the delivered bond ($1 par value) to yield 6 percent.

Summary

Understanding how to read contract specifications is important because the specs define the terms and obligations of the buyers and sellers and may provide clues into how a contract prices versus its underlying product.

If you have questions send us a message or schedule an online review .

Regards,
Peter Knight Advisor

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Disclosure

Treasuries – Delivery Process

At the expiration of a futures contract, the contract is usually settled one of two ways, through a physical settlement involving a delivery of the underlying product or by means of a financial, or cash, settlement to an index or widely accepted price benchmark.

Knowing the final settlement process of a futures contract is important, even though most open futures positions never go all the way to expiration. Interest rate futures traded at CME Group are settled both financially and through physical delivery.

U.S. Treasury notes and bonds are settled through physical-delivery. It is the prospect of having to make or take delivery of an actual U.S. Treasury security that imposes the pricing integrity to the U.S. Treasury futures market. Therefore, understanding the delivery process is essential to understanding how futures on U.S. Treasuries price and trade.

Delivery Process

The U.S. Treasury futures delivery process takes place over or near the quarterly contract delivery month. Quarterly contract months are defined by CME Group as March, June, September and December.

The short (seller) position has all the optionality regarding delivery. This means the short position choses when to deliver and which eligible security to deliver based on the contract’s specifications and their own financial self-interest.

The long (buyer) position is passive until assigned delivery by the clearing house. The short position may deliver security for contract on any business day of the expiring quarterly contract month. In this case, futures on U.S. Treasuries behave like an American-style option, in that the short can exercise its option before the last trading day of the contract. This is an important and defining feature.

The actual delivery process is a three-day event. It is always three days and cannot be shortened nor extended. The three days are known as intention day, notice day and delivery day.

Large Open Interest Holders

The possibility of an unexpected early delivery effects when the large open interest holders roll forward to the next quarterly contract.

Because many large open interest holders do not want to assume the responsibility of delivery and want to avoid delivery completely, they chose to roll their positions into the next quarterly contract prior to intention day. By rolling forward early they avoid any chance of an unintended delivery.

By rolling forward they also take liquidity in the front quarterly contract and transfer it to the next quarterly contract. Which causes the roll, or calendar spread, between front and next quarterly contract to be most liquid and tight during the last few days of the month preceding the quarterly expiration month. This is unique to physically-settled futures and distinct from cash-settled contracts.

Intention Day

Because the delivery process is a three-day event and because the short can elect to deliver securities the first business day of the quarterly contract expiration month, it is necessary that the first intention day precede the first business by two business days. This date, two business days prior to the first business day of the expiration month, is first intention day, also known as first position day.

Example

For the March 2017 contracts, the first business day of March 2017 is Wednesday, March 1. First position day would therefore be Monday, February 27, 2017. On February 27, an open long position could be subject to being assigned delivery of a U.S. Treasury security for settlement March 1.

When a short futures position decides to make delivery, they must notify CME Clearing by 6 p.m. Central Time of their intention to deliver. This is where the name, intention day comes from.

The short notifies CME Clearing of its intention to deliver, causing the process to begin. The first thing to note is that day’s official CME Group settlement price of the intended contract, which is now used to create the invoice amount for this delivery. Then CME Clearing assigns the delivery to the oldest outstanding long position. The longest, or oldest-dated longs, have the greatest chance of an early delivery.

On intention day, the short position declares they are making delivery, final contract price is determined and the long position is assigned by CME Clearing.

Notice Day

Notice Day is when the short position declares which U.S. Treasury security they will deliver versus cash payment to the long position.

The short must select a government security that fulfills the eligibility requirements determined by the contract specifications of the respective contract being delivered. Each eligible security has its own conversion factor, which is based on the security’s coupon, maturity date and the expiration date of the futures contract. This conversion factor is used along with the final futures price and accrued interest to determine the final invoice amount of the delivery.

At the end of notice day, the second day in the three-day delivery process, the short and the long know the final price, security, conversion factor for the security and accrued interest of that security. They calculate, using those inputs, the invoice amount. CME Clearing confirms these amounts for each matched short versus long for that delivery and assures the respective parties have exchange bank wire instructions.

Delivery Day

Having confirmed all the details and instructions, all security versus cash transactions are completed by 1 p.m. on the third day, delivery day, and the delivery process is over.

Summary

It is important to remember that this process may occur prior to the last trading day of a contract. 10-year note and bond contracts cease trading seven business days prior to the last business day of a quarterly contract month and 2-year and 5-year notes cease trading the last business day of the month.

If the short elects to deliver after last trading day, the final price on last trading day is used to determine the final invoice amount. Last delivery day for 10-year notes and bonds is the last business day of the expiring quarterly contract month. Last delivery day for 2-year and 5-year notes is three days after the last business day of the expiring quarterly contract month.

Though most traders and hedgers never go all the way through to delivery, it is important to understand the delivery process because the concepts and formula that define the final invoice amount drive the pricing and trading behavior of the futures contract.

If you have questions send us a message or schedule an online review .

Regards,
Peter Knight Advisor

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Understanding Packs and Bundles

Understanding Eurodollar Packs and Bundles

Previously, we discussed how market participants can use Eurodollars to hedge floating rate loans by using strips of Eurodollar futures. You might choose to hedge a one year loan (hedge against higher interest rates) with quarterly reset dates by selling four quarterly Eurodollar futures contracts in what is known as a strip hedge. The strip consists of quarterly ED futures strung together.

While strips solved the problem of interest rate risk for some, they came with another issue: creating the strips necessitated legging futures contracts individually. Moreover, longer-dated loans and other hedges would require even longer strips of Eurodollars. Legging each contract individually entailed some risk, as the market sometimes moved appreciably before you could get all the legs completed. There was also the risk of execution mistakes as well as unfilled orders. In response to the marketplace, CME Group developed the concept of packs and bundles to simplify transactions for the increasing number of traders using strips of Eurodollar contracts.

Packs and Bundles: A Logical Evolution

A pack or bundle may be thought of as the purchase or sale of a series of Eurodollar futures representing a particular segment along the yield curve. They may be used to create or liquidate positions along the yield curve. Packs and bundles offer the advantage of being transactable at a single price or value, eliminating the necessity of entering multiple orders in each contract and the further possibility that some orders may go unfilled.

The popularity of packs and bundles is reflected in Eurodollar volume and open interest patterns. Unlike most futures contracts, where virtually all volume and open interest is concentrated in the nearby or lead month, Eurodollar futures have significant volume and open interest in the deferred months going out 10 years along the yield curve. During the first half of 2013, some 14% of all Eurodollar futures contracts were transacted in the form of packs or bundles. In 2016, packs and bundles were approximately 20% of overall Eurodollar volume.

What are Bundles?

A Eurodollar bundle consists of the simultaneous sale or purchase of one each of a series of consecutive Eurodollar futures contracts. The first contract in any bundle is typically the first quarterly contract in the Eurodollar strip, but bundles may be constructed starting with any quarterly contract. CME Group lists bundles in 1-, 2-, 3-,4-, 5-, 6-, 7-, 8-, 9- and 10-year terms to maturity.

Eurodollars are sometimes color-coded to facilitate reference to individual contract months or to packs and bundles. Eurodollars have 40 expirations: four quarterlies going out 10 years. That means there is a March expiration for 2017 as well as 2018 and all the way until 2027. To avoid confusion, CME Group created color codes. White represents the first year, red the second and so on until coppers, which represents the quarterly expiration in the tenth year. The chart below illustrates how bundles are constructed along the entire Eurodollar yield curve.

You may buy a 1-year white bundle by purchasing the first four quarterly expiration Eurodollar futures contracts. This way the entire strip of four quarterly futures contracts are conveniently bundled, eliminating execution risk and promoting efficiencies. Another example, you may sell a 3-year green bundle, which would bundle the first 12 quarterly expiration together in one package. A 5-year gold bundle would involve 20 quarterly expirations all bundled in one transaction.

What are packs?

Packs are similar to bundles in that they represent an aggregation of several Eurodollar futures contracts traded simultaneously. They are designed to represent a series of four consecutive quarterly Eurodollar futures whereas some bundles represent multiples of four quarterly expirations.

For example, you may buy a white pack by buying the first four quarterly expiration Eurodollar futures contracts. Or, you may sell a red pack in the second year by selling the fifth through eighth quarterly cycle month contracts. Or you may buy a gold pack in the fifth year by buying the 17th through 20th quarterly cycle month contracts.

Notice the BPV (basis point value) remains at $100 per pack whereas the BPVs continually rise as you add more quarterly expirations.

Both packs and bundles transacted on the CME Globex electronic trading platform.

Quoting Packs and Bundles

The price of a pack or bundle is quoted by reference to the average change in the value of all Eurodollar futures contracts included in the pack or bundle since the prior day’s settlement price. They are quoted in increments of 1/4 of one basis point (0.01%). E.g., if the first four quarterly Eurodollar contracts have advanced two basis points for the day, while the next four quarterly Eurodollar contracts have advanced three basis points for the day, then a 2-year, or red bundle, may be quoted as +, or up, 2.5 basis points.

If you have questions send us a message or schedule an online review .

Regards,
Peter Knight Advisor

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How to Trade Eurodollar Spreads

How to Trade Eurodollar Spreads

Arguably the most liquid futures contract in the world, the Eurodollar futures contract owes its success to a very large user base and an underlying market (3-mo LIBOR money market and forward rate agreement markets) that is staggering in size. That large user base consists of traders, asset liability managers, interest rate hedgers and spread traders.

This module will cover the basic spread strategies used in Eurodollar futures including calendar or yield curve spreads.

Review of the Yield Curve

The yield curve is simply a plot of yield versus maturity. Generally, as maturities increase, yields also increase due to the added risk of holding a fixed income security over a longer period.

For example, 3-month Treasury Bills currently yield .60% while the 2-Year Treasury Note yields 1.25%, the 5-Year Note yields 2.07 and the 10-Year Note yields 2.54%. If you plot yield versus maturity, you get a curve known as the yield curve.

You could also plot 3-month LIBOR, 6-month LIBOR, etc. and generate a similar yield curve across the 40 expirations of Eurodollar futures.

Changes in the Yield Curve

Sometimes yields rise at a greater pace in certain areas of the curve than others. For example, short-term rates might rise faster than long-term rates, contributing to a flattening of the yield curve. Or long-term rates might go up faster than short-term rates, contributing to a steepening of the yield curve.

Traders can take advantage of changes in the yield curve using spread strategies in Eurodollar futures. Spreading in Eurodollar futures is one of the most popular strategies among Eurodollar traders and involves the simultaneous purchase and sale of futures contracts of different maturities. The hope is your profitable leg of the spread makes more than the unprofitable leg loses. Spreading can reduce risk because you are simultaneously long and short. But remember, not all spread trades are profitable. They may reduce risk but they do not eliminate it.

Examples

Calendar, or Yield Curve, spreads are one of the most common Eurodollar trades at CME Group. Since the value of one basis point is $25 in all the quarterly Eurodollar futures, the ratios for Yield curve spreads are 1:1.

Steepening Yield Curve Strategy: Buy the shorter maturity Eurodollar future; sell the longer maturity Eurodollar future

Flattening Yield Curve Strategy: Sell the shorter maturity Eurodollar future; buy the longer maturity Eurodollar future.

Remember: Prices move inversely with yields in Eurodollar futures.

Choosing a Spread Strategy

Choose a Steepening yield curve strategy when the market anticipates long-term interest rates will rise faster than short-term rates or long-term rates remain steady while short-term rates fall. The rationale: a perception is that the economy remains weak and the Federal Reserve is expected to do nothing or to lower interest rates. When the Fed does this, it usually affects short-term rates more.

Choose a flattening yield curve strategy when the market anticipates short-term interest rates will rise faster than longer-term interest rates. The rationale: economic news and events surprise market and economy is expected to strengthen further and the Federal Reserve is expected to raise short-term interest rates to head off potential rise in inflation.

Example using Eurodollar futures:

Steepening Yield Curve Strategy

Buy the shorter maturity Eurodollar future and sell the longer maturity Eurodollar Future

Date	Buy Mar 2017 Eurodollar IMM Price	Sell Mar ‘2020 Spread Eurodollar IMM Price
01/25/17	98.90	97.56	134 b.p.
03/30/17	98.06	96.20	186 b.p. (+52)

Date

Buy Mar 2017

Eurodollar

IMM Price

Sell Mar ‘2020 Spread

Eurodollar

IMM Price

01/25/17

98.90

97.56

134 b.p.

03/30/17

98.06

96.20

186 b.p. (+52)

The trader in the example above bought the spread in January at a difference of 134 basis points from the March 2017 and March 2020 contracts. He wants the spread to widen by either longer rates going up more than shorter rates or shorter rates rallying relative to longer term rates.

By March of 2017, the spread widened to 186 basis points a gain of 52 basis points. To calculate his profit, each basis point = $25.00 in Eurodollar futures. Hence: 52 bps X $25.00/bp equates to a profit of $1,300.00.

There are many more types of futures spreads in Eurodollars including butterfly spreads, packs and bundles.

If you have questions send us a message or schedule an online review .

Regards,
Peter Knight Advisor

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Understanding IMM Price and Date

International Money Market (IMM) Index and Date

IMM stands for the International Monetary Market. Interest Rate products that have an original maturity of less than 366 days, trade in what is commonly referred to as the “Money Market”.

The IMM index is the pricing convention and the IMM date is the date of expiration for these products.

There are several features that distinguish money market products from longer dated interest rate products like notes and bonds.

Longer Date Interest Rates

Bonds and notes pay a periodic interest to their holders, these are known as coupon payments. For example, a U.S. Treasury ten-year note with a coupon of three percent (3%) will pay semi-annually roughly half of its coupon, about one and a half percent (1.50%), of the principal amount to the holder.

Bonds and notes also trade in price format.

Money Market Instruments

Money market instruments, like T-bills, CDs, commercial paper do not make periodic payments, and they trade in yield terms.

IMM Index Conversion

Eurodollars are an example of another money market instrument and they are traditionally quoted in yield terms referring to LIBOR rates. When the Eurodollar future was introduced, futures brokers back-office operations could not handle contracts traded in yield terms. A system was devised to take what was normally traded in yield terms and convert it into a price traded convention. This was the beginning of the IMM index or IMM quote convention.

IMM Index = 100 – Yield

If three-month LIBOR rate = 0.75%

IMM Index = 100 – 0.75

IMM Index = 99.25

The yield and IMM index act in an inverse or opposite relationship. If yields are falling, the IMM index is rising and as yields rise, the IMM index falls

IMM Date

IMM dates refer to when quarterly Eurodollar, FX, and MAC Swap futures contracts at CME Group expire.

These contracts stop trading the Monday preceding the third Wednesday of a March quarterly cycle. This means the third Wednesday of March, June, September, and December.

IMM dates have become significant in recent years beyond CME Group’s financial futures. Many OTC arranged interest rate swaps are now pegging their float rate payment dates to the IMM date calendar.

This is to more closely align them with other contracts, in an effort to ease trade offset and neutralize open positions.

If you have questions send us a message or schedule an online review .

Regards,
Peter Knight Advisor

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3 Month USD Deposit Rates Outside the U.S.

1) Contract information and specifications
2) The Exchange this contract is traded on
3) Contract volume and open interest for all deliveries 2016 to 2026
4) Quotes for all deliveries from 2016 through 2026

3 month rates or Eurodollar deposits, are time deposits denominated in U.S. dollars at banks outside the United States. (There is no connection with the euro currency or the Eurozone). The term was originally coined for U.S. dollars deposited in European banks, but its expanded over the years to its present definition—a U.S. dollar-denominated deposit in any non US bank for example Tokyo or Beijing would be deemed a Eurodollar deposit.

Each 0.01 move in this rate equals a $25 change in the contract’s value.
Example, a rate of 1.00% = a contract value of $2,500, at 1.10% the contract value would increase to $2,750.

Current chart

To capture the move you need to trade the underlying futures contract

To convert the contract price into the rate it represents
Take 100.0000 – the contract price = the rate, for example
100.0000 – a contract price of 99.7500 = a rate of 0.25%
100.0000 – a contract price of 99.5000 = a rate of 0.50%

To convert rate into contract value
Each 0.0100 change in price = $25,
1 full point 1.0000 = $2,500 for example
A rate of 0.25% X $2,500 = $625
A rate of 0.50% X $2,500 = $1,250

Trading this rate higher requires establishing a short position in the underlying futures contract, as the rate rises the futures contract falls in price to reflect the increase in rate/contract value, for example

99.7500 = a rate of 0.25%, contract value of $625
99.5000 = a rate of 0.50%, contract value of $1,250

Click here to enlarge the 1992-2014 monthly rate, price, valuation chart
Click here for a current chart

History of this rate

Gradually, after World War II, the quantity of U.S. dollars outside the United States increased enormously, as a result of both the Marshall Plan and imports into the U.S., which had become the largest consumer market after World War II.

As a result, enormous sums of U.S. dollars were in the custody of foreign banks outside the United States. Some foreign countries, including the Soviet Union, also had deposits in U.S. dollars in American banks, granted by certificates. Various history myths exist for the first Eurodollar creation, or booking, but most trace back to Communist governments keeping dollar deposits abroad.

In one version, the first booking traces back to Communist China, which, in 1949, managed to move almost all of its U.S. dollars to the Soviet-owned Banque Commerciale pour l’Europe du Nord in Paris before the United States froze the remaining assets during the Korean War.

In another version, the first booking traces back to the Soviet Union during the Cold War period, especially after the invasion of Hungary in 1956, as the Soviet Union feared that its deposits in North American banks would be frozen as a retaliation. It decided to move some of its holdings to the Moscow Narodny Bank, a Soviet-owned bank with a British charter. The British bank would then deposit that money in the US banks. There would be no chance of confiscating that money, because it belonged to the British bank and not directly to the Soviets. On 28 February 1957, the sum of $800,000 was transferred, creating the first eurodollars. Initially dubbed “Eurbank dollars” after the bank’s telex address, they eventually became known as “eurodollars” as such deposits were at first held mostly by European banks and financial institutions. A major role was played by City of London banks, as the Midland Bank, now HSBC, and their offshore holding companies.

In the mid-1950s, Eurodollar trading and its development into a dominant world currency began when the Soviet Union wanted better interest rates on their Eurodollars and convinced an Italian banking cartel to give them more interest than what could have been earned if the dollars were deposited in the U.S. The Italian bankers then had to find customers ready to borrow the Soviet dollars and pay above the U.S. legal interest-rate caps for their use, and were able to do so; thus, Eurodollars began to be used increasingly in global finance.

Eurodollars can have a higher interest rate attached to them because of the fact that they are out of reach from the Federal Reserve. U.S. banks hold an account at the Fed and can, ostensibly, receive unlimited liquidity from the Fed should any trouble arise. These required reserves and Fed backing make U.S. Dollar deposits in U.S. banks inherently less risky, and Eurodollar deposits slightly more risky, which requires a slightly higher interest rate.

By the end of 1970 385,000M eurodollars were booked offshore. These deposits were lent on as US dollar loans to businesses in other countries where interest rates on loans were perhaps much higher in the local currency, and where the businesses were exporting to the USA and being paid in dollars, thereby avoiding foreign exchange risk on their loans.

Several factors led Eurodollars to overtake certificates of deposit (CDs) issued by U.S. banks as the primary private short-term money market instruments by the 1980s, including:

The successive commercial deficits of the United States
The U.S. Federal Reserve’s ceiling on domestic deposits during the high inflation of the 1970s
Eurodollar deposits were a cheaper source of funds because they were free of reserve requirements and deposit insurance assessments

Market size

By December 1985 the Eurocurrency market was estimated by Morgan Guaranty bank to have a net size of 1,668B, of which 75% are likely eurodollars. However, since the markets are not responsible to any government agency its growth is hard to estimate. The Eurodollar market is by a wide margin the largest source of global finance. In 1997, nearly 90% of all international loans were made this way

Futures contracts

The Eurodollar futures contract refers to the financial futures contract based upon these deposits, traded at the Chicago Mercantile Exchange (CME). More specifically, EuroDollar futures contracts are derivatives on the interest rate paid on those deposits. Eurodollars are cash settled futures contract whose price moves in response to the interest rate offered on US Dollar denominated deposits held in European banks. Eurodollar futures are a way for companies and banks to lock in an interest rate today, for money it intends to borrow or lend in the future. Each CME Eurodollar futures contract has a notional or “face value” of $1,000,000, though the leverage used in futures allows one contract to be traded with a margin of about one thousand dollars.

CME Eurodollar futures prices are determined by the market’s forecast of the 3-month USD LIBOR interest rate expected to prevail on the settlement date. A price of 95.00 implies an interest rate of 100.00 – 95.00, or 5%. The settlement price of a contract is defined to be 100.00 minus the official British Bankers’ Association fixing of 3-month LIBOR on the day the contract is settled.

How the Eurodollar futures contract works

For example, if on a particular day an investor buys a single three-month contract at 95.00 (implied settlement LIBOR of 5.00%):

if at the close of business on that day, the contract price has risen to 95.01 (implying a LIBOR decrease to 4.99%), US$25 will be paid into the investor’s margin account; or
if at the close of business on that day, the contract price has fallen to 94.99 (implying a LIBOR increase to 5.01%), US$25 will be deducted from the investor’s margin account.

On the settlement date, the settlement price is determined by the actual LIBOR fixing for that day rather than a market-determined contract price.

Futures Contract History

The Eurodollar futures contract was launched in 1981, as the first cash-settled futures contract. People reportedly camped out the night before the contract’s open, flooding the pit when the CME opened the doors. That trading pit was the largest pit ever, nearly the size of a football field, and quickly became one of the most active on the trading floor, with over 1500 traders and clerks coming to work every day on what was then known as the CME’s upper trading floor. That floor is no longer, with the CME having moved over to the CBOT’s trading floor and 98% of Eurodollar trading now done electronically.

Eurodollar futures contract as synthetic loan

A single Eurodollar future is similar to a forward rate agreement to borrow or lend US$1,000,000 for three months starting on the contract settlement date. Buying the contract is equivalent to lending money, and selling the contract short is equivalent to borrowing money.

Consider an investor who agreed to lend US$1,000,000 on a particular date for three months at 5.00% per annum (months are calculated on a 30/360 basis). Interest received in 3 months’ time would be US$1,000,000 × 5.00% × 90 / 360 = US$12,500.

If the following day, the investor is able to lend money from the same start date at 5.01%, s/he would be able to earn US$1,000,000 × 5.01% × 90 / 360 = US$12,525 of interest. Since the investor only is earning US$12,500 of interest, s/he has lost US$25 as a result of interest rate moves.
On the other hand, if the following day, the investor is able to lend money from the same start date only at 4.99%, s/he would be able to earn only US$1,000,000 × 4.99% × 90 / 360 = US$12,475 of interest. Since the investor is in fact earning US$12,500 of interest, s/he has gained US$25 as a result of interest rate moves.

This demonstrates the similarity. However, the contract is also different from a loan in several important respects:

In an actual loan, the US$25 per basis point is earned or lost at the end of the three-month loan, not up front. That means that the profit or loss per 0.01% change in interest rate as of the start date of the loan (i.e., its present value) is less than US$25. Moreover, the present value change per 0.01% change in interest rate is higher in low interest rate environments and lower in high interest rate environments. This is to say that an actual loan has convexity. A Eurodollar future pays US$25 per 0.01% change in interest rate no matter what the interest rate environment, which means it does not have convexity. This is one reason that Eurodollar futures are not a perfect proxy for expected interest rates. This difference can be adjusted for by reference to the implied volatility of options on Eurodollar futures.
In an actual loan, the lender takes credit risk to a borrower. In Eurodollar futures, the principal of the loan is never disbursed, so the credit risk is only on the margin account balance. Moreover, even that risk is the risk of the clearinghouse, which is considerably lower than even unsecured single-A credit risk.

Other features of Eurodollar futures

40 quarterly expirations and 4 serial expirations are listed in the Eurodollar contract. This means that on 1 January 2011, the exchange will list 40 quarterly expirations (March, June, September, December for 2011 through 2020), the exchange will also list another four serial (monthly) expirations (January, February, April, May 2011). This extends tradeable contracts over ten years, which provides an excellent picture of the shape of the yield curve. The front month contracts are among the most liquid futures contracts in the world, with liquidity decreasing for the further out contracts. Total open interest for all contracts is typically over 10 million.

The CME Eurodollar futures contract is used to hedge interest rate swaps. There is an arbitrage relationship between the interest rate swap market, the forward rate agreement market and the Eurodollar contract. CME Eurodollar futures can be traded by implementing a spread strategy among multiple contracts to take advantage of movements in the forward curve for future pricing of interest rates.

In United States banking, Eurodollars are a popular option for what are known as “sweeps“. Until July 21, 2011, banks were not allowed to pay interest on corporate checking accounts. To accommodate larger businesses, banks may automatically transfer, or sweep, funds from a corporation’s checking account into an overnight investment option to effectively earn interest on those funds. Banks usually allow these funds to be swept either into money market mutual funds, or alternately they may be used for bank funding by transferring to an offshore branch of a bank.

If you have questions send us a message or schedule an online review .

Regards,
Peter Knight Advisor

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Margin

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Understanding Margin

Securities margin is the money you borrow as a partial down payment, up to 50% of the purchase price, to buy and own a stock, bond, or ETF. This practice is often referred to as buying on margin.

Futures margin is the amount of money that you must deposit and keep on hand with your broker when you open a futures position. It is not a down payment and you do not own the underlying commodity.

Futures margin generally represents a smaller percentage of the notional value of the contract, typically 3-12% per futures contract as opposed to up to 50% of the face value of securities purchased on margin.

Margins Move with the Markets

When markets are changing rapidly and daily price moves become more volatile, market conditions and the clearinghouses’ margin methodology may result in higher margin requirements to account for increased risk.

When market conditions and the margin methodology warrant, margin requirements may be reduced.

Types of Futures Margin

Initial margin is the amount of funds required by CME Clearing to initiate a futures position. While CME Clearing sets the margin amount, your broker may be required to collect additional funds for deposit.

Maintenance margin is the minimum amount that must be maintained at any given time in your account.

If the funds in your account drop below the maintenance margin level, a few things can happen:

You may receive a margin call where you will be required to add more funds immediately to bring the account back up to the initial margin level.

If you do not or can not meet the margin call, you may be able to reduce your position in accordance with the amount of funds remaining in your account.

Your position may be liquidated automatically once it drops below the maintenance margin level.

Summary

Futures margin is the amount of money that you must deposit and keep on hand with your broker when you open a futures position. It is not a down payment, and you do not own the underlying commodity.

The term margin is used across multiple financial markets. However, there is difference between securities margins and futures margins. Understanding these differences is essential, prior to trading futures contracts.

If you have questions send us a message or schedule an online review.

Regards,
Peter Knight Advisor

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Introduction to Fed Fund Futures

What are Fed Funds?

Federal Funds, Fed Funds for short, are generally a transaction of an unsecured loan of U.S. dollars to a borrower or purchaser that is a depository institution (DI) from a lender or seller that is a DI, foreign bank, government-sponsored enterprise or other eligible entity. These transactions are usually conducted on an overnight or next day (T + 1) basis.

The Federal Reserve Bank of New York (FRBNY) gathers transactional data on Fed Funds daily from participating banks and broker dealers. Using a volume-weighted average, the FRBNY calculates the Effective Fed Funds Rate (EFFR) and publishes this number on its website.

Fed Funds and Overnight Interest Swap (OIS) rates are highly correlated and therefore, many IRS discounting models will use either Fed funds, OIS or both when building a forward discounting curve. In addition, Fed Fund futures are also used for trading and other funding curve risk management strategies.

Fed Fund Futures – Contract Specifications

Fed Fund futures contracts are based on the EFFR rate as reported by the FRBNY. The contract unit size is $5 million per contract. Contracts are listed monthly, extending 36 months or three years out on yield curve.

Fed Fund futures are traded in IMM index terms, that is, as a price rather than a rate. The price is simply the implied rate subtracted from 100. For example, if the average monthly Fed Funds rate for September is 1.20% the futures price would be 100 – 1.20 = 98.800.

At final settlement, Fed Fund futures are cash-settled, there is no physical delivery involved. The final settlement calculation at expiry is the total of all the daily rates published by the FRBNY divided by the total number of days in that month.

Fed Funds Example

For this example, we will use the September 2017 Fed Funds contract. There are 30 days in the month of September. When we calculate the total of all the reported EFFR rates from FRBNY = 34.600.

You would then divide that by the number of days in the month 34.600 ÷ 30 = 1.153.

Take this number and subtract from 100 you get 100 – 1.153 = 98.847. Therefore, 98.847 was final settlement for the September 2017 Fed Funds futures contract.

Backward Looking Futures Contract

To determine the final value of a Fed Funds futures contract, one must wait until the end of the contract month to determine its price. In other words, this contract is backward looking. Since the Federal Open Market Committee (FOMC) sets the Fed Fund target rate, the months when there is an FOMC meeting can be very important to contract pricing. But since most FOMC meetings occur mid-month, the first Fed Fund futures contract to be fully affected by a rate change would be the next deferred contract month, rather than the contract in which the meeting takes place.

Summary

Understanding the pricing mechanics of a futures contract is essential to understanding its trading behavior. While the contract construction of Fed Funds futures is simple the market forces that go into its pricing like, FOMC meetings, inflation expectations and employment statistics are sometimes complex and uncertain.

If you have questions send us a message or schedule an online review.

Regards,
Peter Knight Advisor

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A Look at FX Exchange For Physical (EFP)

A Look at FX Exchange For Physical (EFP)

An FX Exchange For Physical (EFP), involves simultaneous transactions in the cash and futures markets. EFPs are one type of ex-pit transaction that is allowed to take place outside of the central limit order book under Rule 538.

FX EFP Trade Example

Assume a hedge fund is long a $125 million euro/U.S. dollar (EUR/USD) FX forward in the OTC FX market. He is concerned about counterparty A’s credit risk. One way to mitigate this risk is to utilize futures contracts that are centrally cleared and collateralized.

In this case the OTC FX EUR/USD position can easily be replicated using EUR/USD futures.

To initiate the transaction, the hedge fund contacts his broker to find another counterparty to execute an FX cash versus futures trade (EFP). The hedge fund wants to sell his EUR/USD FX forward position and buy an equivalent position in EUR/USD FX futures using the nearby futures contract. The broker confirms the agreement.

The hedge fund trader writes up his side of the transaction. This consists of two parts, the sell of the cash-side for $125 million EUR/USD FX forwards, and the buy-side of the futures is 1,000 EUR/USD FX contracts.

Why 1 thousand futures contracts?

One euro/U.S. dollar FX futures contract has an equivalent notional value of 125,000 euros.

By dividing the futures contract’s notional value into the existing risk position of 125 million OTC euro/U.S. dollar forward, the result is 1,000 equivalent futures contracts.

The broker writes up the counterparty side of the transaction which is buying $125 million EUR/USD FX OTC forward and selling 1,000 EUR/USD FX futures.

Both parties report their side of the transaction to their respective clearing firms which in turn submit each trade to the clearinghouse. Once the trades are submitted to the clearinghouse, the long futures positions reside in the books of the hedge fund and the short position on the broker’s customer account. The transaction is complete and these new futures positions are just like any other open futures positions. They are subject to margining and can be offset at any time.

The hedge fund now has the euro/U.S. dollar position exposure it wants, and has also mitigated counterparty credit risk by using centrally cleared EUR/USD FX futures.

Immediately Offsetting FX EFP Example

This time assume there is a Commodity Trading Advisor (CTA) who manages money for their customers.

The CTA sees depth and liquidity in the FX OTC market and decides to negotiate a $50 million AUS/USD OTC forward on behalf of his accounts under management.

Immediately thereafter the CTA decides to convert the OTC exposure to futures.

The CTA and the counterparty decide to negotiate and execute an EFP, whereby the quantity of the $50 million AUS/USD OTC forward, originally executed, would cancel out with the $50 million AUS/USD OTC forward of the EFP.

The accounts under management would be left with AUS/USD futures.

In this scenario, because it is an immediately offsetting FX EFP executed by a CTA, the initiating and offsetting cash legs are not required to be passed through to the customer who received the exchange contract as part of the EFP. However, in a circumstance where the futures leg of the transaction fails to clear, the underlying accounts under management must receive the profit or loss of the offsetting cash leg.

If you have questions send us a message or schedule an online review .

Regards,
Peter Knight Advisor

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