This is machine translation

Translated by Microsoft
Mouseover text to see original. Click the button below to return to the English verison of the page.

Note: This page has been translated by MathWorks. Please click here
To view all translated materals including this page, select Japan from the country navigator on the bottom of this page.


Internal rate of return


Return = irr(CashFlow)
[Return, AllRates] = irr(CashFlow)


Return = irr(CashFlow) calculates the internal rate of return for a series of periodic cash flows.

[Return, AllRates] = irr(CashFlow) calculates the internal rate of return and a vector of all internal rates for a series of periodic cash flows.

irr uses the following conventions:

  • If one or more internal rates of returns (warning if multiple) are strictly positive rates, Return sets to the minimum.

  • If there is no strictly positive rate of returns, but one or multiple (warning if multiple) returns are nonpositive rates, Return sets to the maximum.

  • If no real-valued rates exist, Return sets to NaN (no warnings).

Input Arguments


A vector containing a stream of periodic cash flows. The first entry in CashFlow is the initial investment. If CashFlow is a matrix, irr handles each column of CashFlow as a separate cash-flow stream.

Output Arguments


An internal rate of return associated to CashFlow. If CashFlow is a matrix, then Return is a vector whose entry j is an internal rate of return for column j in CashFlow.


A vector containing all the internal rates of return associated with CashFlow. If CashFlow is a matrix, then AllRates is also a matrix, with the same number of columns as CashFlow and one less row. Also, column j in AllRates contains all the rates of return associated to column j in CashFlow (including complex-valued rates).


Find the internal rate of return for a simple investment with a unique positive rate of return. The initial investment is $100,000 and the following cash flows represent the yearly income from the investment.

  • Year 1 — $10,000

  • Year 2 — $20,000

  • Year 3 — $30,000

  • Year 4 — $40,000

  • Year 5 — $50,000

Calculate the internal rate of return on the investment:

Return = irr([-100000 10000 20000 30000 40000 50000])

This returns:

Return =


If the cash flow payments were monthly, then the resulting rate of return is multiplied by 12 for the annual rate of return.

Find the internal rate of return for multiple rates of return. The project has the following cash flows and a market rate of 10%.

 CashFlow = [-1000 6000 -10900 5800]

Use irr with a single output argument:

Return = irr(CashFlow)

A warning appears and irr returns a 100% rate of return. The 100% rate on the project looks attractive:

Warning: Multiple rates of return
> In irr at 166

Return =


Use irr with two output arguments:

[Return, AllRates] = irr(CashFlow)

This returns:

>> [Return, AllRates] = irr(CashFlow)

Return =


AllRates =


The rates of return in AllRates are -4.88%, 100%, and 204.88%. Though some rates are lower and some higher than the market rate, based on the work of Hazen, any rate gives a consistent recommendation on the project. However, you can use a present value analysis in these kinds of situations. To check the present value of the project, use pvvar:

PV = pvvar(CashFlow,0.10)

This returns:

PV =


The second argument is the 10% market rate. The present value is -196.0932, negative, so the project is undesirable.


Brealey and Myers. Principles of Corporate Finance. McGraw-Hill Higher Education, Chapter 5, 2003.

Hazen G. “A New Perspective on Multiple Internal Rates of Return.” The Engineering Economist. Vol. 48-1, 2003, pp. 31–51.

Introduced before R2006a

Was this topic helpful?