“This question was about yield curve conversion. The complexity that most frequently caused problems was the concept of a simple interest basis for the zero coupon rate and the quarterly compounding of the quarterly forward rate.”
Examiner’s Report, Financial Maths & Modelling (FMM), October 2012
First of all, let’s clarify the following terms: yield curve; simple interest; zero coupon rate; and forward rate.
A yield curve describes today’s market rates per annum for fixed-rate funds with different maturities. For example:
Today’s quoted interest rate for 0-3 month funds is 4% per annum. The quoted rates for longer maturities are slightly higher.
The simple interest basis is a longstanding market convention. It was designed to make interest calculations quick and reliable, before the invention of modern calculators. Simple interest calculates actual interest and quotes rates, with no interest on interest incorporated into the quoted market rate per annum. The simple interest basis is the market convention for quoting interest rates for short-term periods. ‘Short term’ means up to, and including, one year.
Actual interest for a given period is then worked out from the simple interest quote by a straightforward multiplication of the quoted annual rate. To illustrate, let’s work in sterling and use whole months. To keep our numbers as easy as possible, let’s deposit exactly £1, for 0-3 months.
There are, of course, 12 months in a year (not three). So the actual interest payable for the three-month period (3/12 of a year) is not the quoted 4%, but rather:
(3/12 x 0.04) x £1 = £0.01.
This actual interest amount is also known as the ‘periodic interest’.
The total cash (principal + interest) we get back after three months is £1.01 (= (1 + (3/12 x 0.04)) x £1).
Similarly, the total interest for a 0-6 month deposit (6/12 of a year) at a quoted rate of 4.2% per annum (from Table 1) is:
(6/12 x 0.042) x £1 = £0.021.
And the total cash we get back after six months is (1 + (6/12 x 0.042)) x £1 = £1.021.
Your turn now.
Please calculate (i) the interest and (ii) the total cash returned, from a 0-9 month deposit of £1. The quoted rate per annum is 4.4%. The answers appear at the end of this article. [See Note 1]
All of the rates we’ve worked with so far have been zero coupon rates. They all apply to cash deposited or borrowed today (Time 0) and returned with all of the interest at the very end.
For example, our 0-6 month deposit above involves the following cash flows: (1) We pay £1 now and (2) We get back (1 + (6/12 x 0.042)) x £1 = £1.021 after six months.
Forward interest rates are slightly different. These are rates that we can lock into today, for fixed deposits or borrowings starting in the future.
For example, the rate for 3-6 months funds is 4.3564% per annum. This means we can lock ourselves in today, to deposit cash three months from now, to get back our cash with pre-agreed interest after a further three months. Interest will be calculated at the pre-agreed interest rate of 4.3564% per annum, applied for 3/12 of a year.
This 3/12 factor is needed because the forward period of 3-6 months is three months long. (See box The complexity, above.)
Assume cash available to deposit of £1.01. This also happens to be the amount available from our earlier maturing deposit for 0-3 months (= (1 + (3/12 x 0.04)) x £1). Locking ourselves in today, to deposit this £1.01 at Time 3 months will return:
(1 + (3/12 x 0.043564)) x £1.01 = £1.021 at Time 6 months.
This is exactly the same amount of cash as we received from our alternative zero coupon deposit for the entire period 0-6 months, which also gave us back £1.021 (see ‘Simple interest’ section earlier).
Our two calculations above are examples of the ‘no free lunch’ principle. Both alternative ways of structuring a 0-6 month deposit produce exactly the same six-month cash flow of £1.021.
If the two equivalent deals didn’t produce exactly the same final cash flow of £1.021, everyone in the market would prefer the better deal. Supply and demand in the market would then cause market prices to change, until the related cash flows came back into an exact balance, as before. [See Note 2]
This is known as the ‘no arbitrage’ market pricing principle. We can use ‘no arbitrage’ in our exam to calculate implied forward interest rates, converting from given zero coupon rates.
The forward market rate of interest (or return) links two related future cash flows in the market.
For example, the final cash flows from our two zero coupon deposits:
We can make a commitment today to deposit £1.01 in three months’ time, for a further three-month period. That deposit must return £1.021 at its maturity of Time 6 months. This is the ‘no arbitrage’ principle, illustrated above.
The related periodic rate of return is given by:
((Cash at end) ÷ (Cash at start)) – 1
In this case, periodic rate:
(£1.021 ÷ £1.01) – 1
= 1.0891% interest per three months.
As we’ve seen, short-term interest rates are quoted as simple rates per annum. Therefore, the (simple annual) quoted rates are multiplied by 3/12 to work out the actual interest for a three-month-long period. So to convert the periodic rate for three months (1.0891%) to a simple quoted annual rate, we need to make the opposite adjustment. That is, multiply by 12/3:
1.0891% x 12/3
= 4.3564% quoted forward rate per annum, for 3-6 months maturity.
4.3564% is indeed the figure that we saw before in Table 2 and that we have already validated in the section titled ‘Forward rate’ earlier. So our ‘no arbitrage’ conversion, to convert zero coupon rates to forward rates, produces the right answer.
It’s your turn again.
You calculated before that the final cash flow from a 0-9 month deposit of £1 quoted at 4.4% per annum is £1.033. Make sure that you’re still happy with this calculation. If you need to refresh yourself, see answer 1 at the end of this article.
Now use (1) the £1.033 at nine months and (2) the £1.021 at six months (from our 0-6 month zero coupon deposit) to work out the 6-9 month forward quote.
Clue: follow the pattern above of: ((£1.021 ÷ £1.01) – 1) x 12/3, but roll everything forward by three months. Answer at the end. [See Note 3]
Use the GBP market zero coupon rates quoted below to calculate the related forward rate quotes for the periods 3-6 months, 6-9 months and 9-12 months.
3 months: 4.205%
6 months: 4.300%
9 months: 4.450%
12 months: 4.600%
3-6 months quote:
((1 + (6/12 x 0.043) = 1.0215)
÷
(1 + (3/12 x 0.04205) = 1.0105125))
– 1
= 1.08732%
x 12/3
= 4.3493% 3-6 months quote per annum.
Finish the question off now, for 6-9 months [See Note 5] and 9-12 months [See Note 6]. If you’re not sure, follow the pattern of the similarly structured examples above.
Note 1: Interest £0.033 = (9/12 x 0.044) x £1. Total cash £1.033 (= (1 + (9/12 x 0.044)) x £1).
Note 2: In practice, these price adjustments are almost instantaneous, because of computer-driven trading.
Note 3: Periodic rate (3 months) = (1.033 ÷ 1.021) – 1 = 1.17532%. Quote per annum x 12/3 = 4.7013%.
Note 4: FMM October 2012, Q4.
Note 5: ((1 + (9/12 x 0.0445) = 1.033375) ÷ 1.0215) – 1 = 1.16251%: x 12/3 = 4.6500%.
Note 6: ((1 + (12/12 x 0.046) = 1.046) ÷ 1.033375) – 1 = 1.22172%: x 12/3 = 4.8869%.
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Doug Williamson FCT is an examiner, tutor and exam scrutineer for six ACT exam courses