Decile

What Is a Decile?

A decile is a quantitative method of splitting up a set of ranked data into 10 equally large subsections. This type of data ranking is performed as part of numerous academic and statistical studies in the finance and economics fields. The data might be ranked from largest to smallest values, or vice versa.

A decile, which has 10 categorical buckets might be contrasted with percentiles that have 100, quartiles that have four, or quintiles that have five.

Understanding a Decile

In descriptive statistics, a decile is used to categorize large data sets from the highest to lowest values, or vice versa. Like the quartile and the percentile, a decile is a form of a quantile that divides a set of observations into samples that are easier to analyze and measure.

While quartiles are three data points that divide an observation into four equal groups or quarters, a decile comprises of nine data points that divide a data set into 10 equal parts. When an analyst or analyst ranks data and afterward splits them into deciles, they do as such trying to discover the largest and smallest values by a given metric.

For example, by splitting the entire S&P 500 Index into deciles (50 firms in each decile) utilizing the P/E multiple, the analyst will discover the companies with the highest and lowest P/E valuations in the index.

A decile is normally used to assign decile ranks to a data set. A decile rank arranges the data all together from lowest to highest and is done on a scale of one to 10 where each successive number corresponds to an increase of 10 percentage points. In other words, there are nine decile points. The first decile, or D1, is the point that has 10% of the observations below it, D2 has 20% of the observations below it, D3 has 30% of the observations falling below it, etc.

Step by step instructions to Calculate a Decile

There is nobody approach to computing a decile; however, it is important that you are consistent with whatever formula you decide to use to calculate a decile. One simple calculation of a decile is:
$\begin &\text = \text \left [ \frac{ n + 1 }{ 10 } \right ] \text \ \end$

$\begin &\text = \text \left [ \frac{ 2 \times ( n + 1 ) }{ 10 } \right ] \text \ \end$

$\begin &\text = \text \left [ \frac{ 3 \times ( n + 1 ) }{ 10 } \right ] \text \ \end$

$\begin &\text = \text \left [ \frac{ 9 \times ( n + 1 ) }{ 10 } \right ] \text \ \end$
From this formula, it is given that the fifth decile is the median since 5 (n+1)/10 is the data point that represents the halfway point of the distribution.

Deciles in Finance and Economics

Deciles are used in the investment field to assess the performance of a portfolio or a group of mutual funds. The decile rank acts as a comparative number that measures the performance of an asset against comparable assets.

For example, say an analyst is evaluating the performance of a set of mutual funds over time, a mutual fund that is ranked five on a decile scale of one to 10 means it's in the top half. By splitting the mutual funds into deciles, the analyst can review the best and most obviously terrible performing mutual funds for a given time frame period, arranged from the smallest to highest average return on investment.

The government additionally uses deciles to determine the level of income inequality in the country, or at least, how income is distributed. For example, in the event that the top 20 wage earners of a country of 50,000 citizens fall in the 10th decile and earn more than half of the total income in the country, one can conclude that there is a very high degree of income inequality in that country. In this case, the government can introduce measures to decrease the wage gap, for example, increasing the income tax of the rich and creating estate taxes to limit how much wealth can be passed on to beneficiaries as an inheritance.

Example of a Decile

The table below shows the ungrouped scores (out of 100) for 30 exam takers:

• = Value of [(30 + 1)/10]th data
• = Value of 3.1st data, which is 0.1 of the way between scores 55 and 57
• = 55 + 2 (0.1) = 55.2 = D1
• D1 means that 10% of the data set falls below 55.2.

Let's calculate the third decile:

• D3 = Value of 3 (30 + 1)/10
• D3 = Value of 9.3rd position, which is 0.3 between the scores of 65 and 66
• Subsequently, D3 = 65 + 1 (0.3) = 65.3
• 30% of the 30 scores in the observation fall below 65.3.

What might we get if we somehow happened to calculate the fifth decile?

• D5 = Value of 5 (30 + 1)/10
• D5 = Value of 15.5th position, halfway between scores 76 and 78
• half of the scores fall below 77.

Additionally, notice how the fifth decile is likewise the median of the observation. Taking a gander at the data set in the table, the median, which is the middle data point of some random set of numbers, can be calculated as (76 + 78)/2 = 77 = median = D5. As of now, half of the scores lie above and below the distribution.

Highlights

• This type of data ranking is performed as part of numerous academic and statistical studies in the finance and economics fields.
• A decile is a quantitative method of splitting up a set of ranked data into 10 equally large subsections.
• A decile rank arranges the data all together from lowest to highest and is done on a scale of one to 10 where each successive number corresponds to an increase of 10 percentage points.