  # Multiple on Invested Capital (MOIC)

Guide to Understanding Multiple on Invested Capital (MOIC) ## How to Calculate MOIC

The multiple on invested capital (MOIC) metric measures the value generated by an investment relative to the initial investment.

Calculating the MOIC on an investment is generally straightforward, as the formula is simply the net cash return (“cash inflows”) divided by the initial cash contribution (“cash outflows”).

MOIC is interchangeable with several other terms, such as the multiple on money (MoM) and the cash-on-cash return.

MOIC essentially represents the returns earned per dollar of initial investment contributed.

• High MOIC → Higher MOICs on investments are perceived positively because it is implied that the investments are profitable.
• Low MOIC → Lower MOICs are viewed negatively as it means that the investment is unprofitable (and investors are at risk of not receiving their target return, or even get back their initial capital).

## MOIC Formula

The multiple on invested capital (MOIC) is the ratio between the 1) initial capital investment and 2) the current market value of the risky asset, resulting in the gross return.

The formula for calculating an investment’s MOIC is as follows.

###### Multiple on Invested Capital (MOIC) Formula
• MOIC = Total Cash Inflows ÷ Total Cash Outflows
• Cash Inflows: In the context of an LBO, the cash inflows stem from events such as the completion of a dividend recapitalization and a liquidity event, e.g. sale to a strategic or initial public offering (IPO).
• Cash Outflows: The cash outflows consist of namely one major item: the initial equity contribution that had been required to complete the buyout. Often, the outflows component will be displayed as a negative number in Excel, so an additional negative sign must be placed in front for the formula to work, i.e. to convert to a positive figure.

For example, imagine that a private equity firm invested \$20 million to fund the purchase of an LBO target.

If the post-exit return at the end of the holding period, Year 5, is \$80 million, the MOIC on the investment is 4.0x.

• MOIC = \$80 million ÷ \$20 million = 4.0x

In other words, each \$1.00 of invested capital grew to \$4.00 over the five-year period.

## Fund MOIC Formula – Portfolio of Investments

When evaluating overall fund performance, i.e. multiple assets in a portfolio, the formula uses different inputs but the core concepts remain the same.

###### Fund Multiple on Invested Capital (MOIC) Formula
• MOIC = (Realized Value + Unrealized Value) ÷ Total Initial Investment

The classification of MOIC can be expressed on either an unrealized or realized basis.

• Unrealized MOIC → The return is inclusive of investments in the portfolio not yet sold, i.e. the expected profits post-sale are not certain (and still at risk of fluctuations).
• Realized MOIC → The return calculation is comprised only of “realized” investments in the portfolio, where the profits have been locked-in.

## MOIC vs. IRR – Private Equity Performance Metrics

A higher MOIC ratio implies a more profitable investment, whereas a lower MOIC indicates the investment is less profitable.

The multiple on invested capital (MOIC) and internal rate of return (IRR) are the two most common performance metrics used in the private equity industry.

• MOIC → The ratio between an investment’s ending (future) value to the initial investment size.
• IRR → The annualized rate of return earned on the investment.

MOIC measures the amount earned, whereas the IRR considers not only the total earnings from the investment, but also the time required.

One notable distinction between MOIC and IRR is the consideration of time, i.e. the holding period of the investment.

While MOIC may require less time and financial data to calculate, the metric simply focuses on the gross return earned on the date of the exit, regardless of when that exit occurred.

Using the example from the earlier section, the MOIC is 4.0x irrespective of the actual holding period.

The fact that the MOIC metric neglects the concept of time is the reason the internal rate of return (IRR) – i.e. a returns metric that considers the duration of the holding period – must be calculated as well to generate a complete picture of investment performance, inclusive of the passage of time.

In contrast, an investment’s IRR can vary substantially under different exit date assumptions, as longer holding periods tend to cause returns to decline (and short exits can misleadingly increase the IRR). The sensitivity of the IRR to the exit date is one drawback to the metric, which reflects again the importance of using more than one metric to understand the full picture.

Investors must therefore pay close attention to both the MOIC and IRR.

###### MOIC to IRR Approximations
• 2.0x MOIC in 3 Years → ~25% IRR
• 2.5x MOIC in 3 Years → ~35% IRR
• 3.0x MOIC in 3 Years → ~45% IRR
• 2.0x MOIC in 5 Years → ~15% IRR
• 2.5x MOIC in 5 Years → ~20% IRR
• 3.0x MOIC in 5 Years → ~25% IRR

## MOIC Calculator – Excel Template

We’ll now move to a modeling exercise, which you can access by filling out the form below.   Submitting ...

## MOIC Example Calculation

Suppose a company underwent an LBO acquisition on 12/31/21, marking the end of 2021.

In order to acquire the target company, the private equity firm (or financial sponsor) needed to contribute \$100 million in cash, i.e. the sponsor’s equity contribution.

Our LBO returns schedule must reflect the initial cash outlay of \$100 million in Year 0 – which for illustrative purposes, was formatted with red as the font color.

The MOIC metric has its limitations and must be used in conjunction with the IRR, so we’ll calculate the two return metrics side-by-side.

For the forecast period, the “Cash Inflow / (Outflow)” is determined by our “% Recovery of Initial Investment” assumption.

The recovery percentages are assumed to be 100% in Year 1, followed by an annual increase of 50% each year until Year 5, the end of the holding period.

Therefore, the net cash inflows (and outflows) are as follows.

• Year 0 = –\$100 million
• Year 1 = \$100 million
• Year 2 = \$150 million
• Year 3 = \$200 million
• Year 4 = \$250 million
• Year 5 = \$300 million

Except for Year 0 – the date of the LBO – all of the other years represent net positive values to the sponsor.

Hence, the IRR is 0% and MOIC is 1.0x in Year 0, which means the return was neutral and the full initial investment was recouped.

In reality, transactions such as LBOs can easily accumulate incremental fees for M&A advisory fees from investment banks and legal fees, so the 1.0x MOIC would most likely have been a net loss of capital for the firm after taking into consideration any expenses.

The process of calculating the IRR in Excel involves using the “XIRR” function, wherein the first array is a row of dates (Row 8) and the second array is the “Cash Inflows / (Outflows), net” (Row 5).

The MOIC is calculated by adding the cash values received during the holding period, starting from Year 1.

The next step is to divide the sum from above by the initial investment amount, with a negative sign placed in front of the initial investment value (to convert it to a positive value).

The completed returns schedule from our hypothetical LBO scenario is as follows.

Exit Year IRR MOIC
Year 1 Exit 0.0% 1.0x
Year 2 Exit 22.5% 1.5x
Year 3 Exit 26.0% 2.0x
Year 4 Exit 25.7% 2.5x
Year 5 Exit 24.6% 3.0x

Assuming the financial sponsor exited the investment in Year 5, the estimated IRR is 24.6% while the MOIC is 3.0x.

The implied returns reflect favorable results to the private equity firm in which its initial equity contribution tripled in value across the five-year time span.  Step-by-Step Online Course

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