# Interquartile Range - Lower, Upper and Median

I'm trying to work out the interquartile range based on an array of numbers which can be any length e.g.

``````1,  1,  5,  6,  7,  8,  2,  4,  7,  9,  9,  9,  9
``````

The values that I need to work out from this interquartile range are:

• Upper Quartile
• Median
• Lower Quartile

If I dump the above array of numbers into Microsoft Excel (columns A:M), then I can use the following formulas:

• `=QUARTILE.INC(A1:M1,1)`
• `=QUARTILE.INC(A1:M1,2)`
• `=QUARTILE.INC(A1:M1,3)`

• 4
• 7
• 9

I now need to work out these 3 values in either SQL Server or VB.NET. I can get the array values in any format or object in either of these languages, but I can't find any functions that exist like the `QUARTILE.INC` function that Excel has.

Does anyone know how this could be achieved in either SQL Server or VB.NET?

• Do you know how to calculate it mathematically? You could always do that in whatever you wanted. Commented Apr 29, 2015 at 13:54
• I don't know how to do it exactly yet, but I have seen it explained here: classroom.synonym.com/calculate-interquartile-range-2744.html so that is a potential option! Thanks Commented Apr 29, 2015 at 13:57
• you should be careful when doing this, as the accepted answer does only take the nearest rank method into account. often a weighted method is much more reasonable (specially when working with few values) en.wikipedia.org/wiki/Percentile Commented Apr 29, 2015 at 14:42
• Thank you Staeff, I'm hoping that isn't a problem for my scenario (as it at least matches the results I get from Excel which is what is currently being used) but it's an interesting read and worth knowing. Commented Apr 29, 2015 at 14:50
• Excel also uses and weighted method, you will only experience a different result when the quartile falls between two numbers. So you should not rely on this. Add one more 9 to your example and Excel will give you a different result. Commented Apr 29, 2015 at 14:51

There might be an easier way, but to get Quartiles, you can use NTILE (Transact-SQL)

Distributes the rows in an ordered partition into a specified number of groups. The groups are numbered, starting at one. For each row, NTILE returns the number of the group to which the row belongs.

``````SELECT  1 Val
INTO    #temp
UNION ALL
SELECT  1
UNION ALL
SELECT  5
UNION ALL
SELECT  6
UNION ALL
SELECT  7
UNION ALL
SELECT  8
UNION ALL
SELECT  2
UNION ALL
SELECT  4
UNION ALL
SELECT  7
UNION ALL
SELECT  9
UNION ALL
SELECT  9
UNION ALL
SELECT  9
UNION ALL
SELECT  9

-- NTILE(4) specifies you require 4 partitions (quartiles)
SELECT  NTILE(4) OVER ( ORDER BY Val ) AS Quartile ,
Val
INTO #tempQuartiles
FROM    #temp

SELECT *
FROM #tempQuartiles

DROP TABLE #temp
DROP TABLE #tempQuartiles
``````

This would produce:

``````Quartile    Val
1           1
1           1
1           2
1           4
2           5
2           6
2           7
3           7
3           8
3           9
4           9
4           9
4           9
``````

From this you can work out what you're after.

So modifying the `SELECT` you can do this:

``````SELECT Quartile, MAX(Val) MaxVal
FROM #tempQuartiles
WHERE Quartile <= 3
GROUP BY Quartile
``````

To produce:

``````Quartile    MaxVal
1           4
2           7
3           9
``````
• This seems perfect for my scenario, I wasn't aware of NTILE but from the testing I've done on your example it matches the results I get from Excel. Thank you! Commented Apr 29, 2015 at 14:34
• This is basically an implementation of the nearest rank method, be aware that excel uses a weighted ranking method. Commented Apr 29, 2015 at 14:44
• If I have 6 values, NTILE(4) puts the first 2 in the first quartile, the 3rd and fourth in the SECOND quartile, the 5th in the 3rd quartile and the sixth in the last quartile. In this way, the first two quartiles do NOT have half of the values. Am I doing something wrong? Commented Nov 26, 2017 at 14:11

We have created a User-Defined-Type to use it as a function parameter and afterwards used it this way.

Our implementation uses the same calculations as the Excel Percentile function.

``````CREATE TYPE [dbo].[floatListType] AS TABLE (
[value] FLOAT NOT NULL
);

GO

CREATE FUNCTION [dbo].[getPercentile]
(
@percentile float
)
RETURNS float
AS
BEGIN
declare @values table
(
value float,
idx   int
);

insert into @values
select value, ROW_NUMBER() OVER (order by value) - 1 as idx
from @data;

declare @cnt int = (select count(*) from @values)
, @n float = (@cnt - 1) * @percentile + 1
, @k int = FLOOR(@n)
, @d float = @n - @k;

if (@k = 0)
return (select value from @values where idx = 0)
if (@k = @cnt)
return (select value from @values where idx = @cnt - 1)
if (@k > 0 AND @k < @cnt)
return (select value from @values where idx = @k - 1)
+ @d * ((select value from @values where idx = @k)
- (select value from @values where idx = @k - 1))

return null;
END
``````

You can use it like this to get the median and the quartiles (as Q1 is simply a 0.25 percentile) for example:

``````declare @values floatListType;

insert into @values
select value from #mytable

select getPercentile(@values, 0.25) as Q1,
getPercentile(@values, 0.5) as median,
getPercentile(@values, 0.75) as Q3
``````
• I get an error with this code though, you would need additional DECLARE clauses for each of those integer and float variables. When you need to reference a variable the sequence needs to be executed already so you cannot have them in one execution.
– MJ33
Commented Dec 19, 2016 at 12:18
• Since I'm not on this project anymore I'm not that familiar with the code right now, but I'm pretty sure it worked without errors for us Commented Dec 19, 2016 at 15:01

Apologies if I misunderstood you, but this could be done using `NTILE()` and later on `ROW_NUMBER()`

SQL Code:

``````;WITH FirstStep (NT, N)
AS (
SELECT NTILE(3) OVER (ORDER BY T.column1), T.column1
FROM dbo.GetTableFromList_Int('1,  1,  5,  6,  7,  8,  2,  4,  7,  9,  9,  9,  9', ',') AS T
),
SecondStep (RN, NT, N)
AS (
SELECT ROW_NUMBER() OVER (PARTITION BY T.NT ORDER BY T.N DESC), NT, T.N
FROM FirstStep AS T
)
SELECT N
FROM SecondStep
WHERE RN = 1
``````

Explanation:

• dbo.GetTableFromList_Int() TVF splits my string into rows (DISTINCT ones)
• We use `NTILE(3)` to split this into three categories, ordered by your list (IIRC you need to order your list to get correct values)
• Then use `ROW_NUMBER()` to get correct value in each of the group.

In your scenario it returns expected results.

If this is not what you needed, then it can be modified to get correct output.

• NTILE was definitely the function I was looking for in SQL Server. I've already accepted an answer from Tanner as their example didn't depend on the additional split function which I didn't have, but I suspect your answer does exactly the same as theirs so thank you! Commented Apr 29, 2015 at 14:36

If you want a SQL Server solution, a couple of years ago I posted an Interquartile Range procedure on my blog. It's based on dynamic SQL, so you can plug any columns you have access to into it. It's not well-tested, I was still learning the ropes back then and the code is a little old now, but it could meet your needs out-of-the-box, or at least provide a starting point to code your own solution. Here's the gist of the code - follow the link to my blog for an in-depth discussion.

``````CREATE PROCEDURE [Calculations].[InterquartileRangeSP]
@DatabaseName as nvarchar(128) = NULL, @SchemaName as nvarchar(128), @TableName as nvarchar(128),@ColumnName AS nvarchar(128), @PrimaryKeyName as nvarchar(400), @OrderByCode as tinyint = 1, @DecimalPrecision AS nvarchar(50)
AS
SET @DatabaseName = @DatabaseName + ‘.’
DECLARE @SchemaAndTableName nvarchar(400)
SET @SchemaAndTableName = ISNull(@DatabaseName, ”) + @SchemaName + ‘.’ + @TableName
DECLARE @SQLString nvarchar(max)

SET @SQLString = ‘DECLARE @OrderByCode tinyint,
@Count bigint,
@LowerPoint bigint,
@UpperPoint bigint,
@LowerRemainder decimal(38,37), — use the maximum precision and scale for these two variables to make the
procedure flexible enough to handle large datasets; I suppose I could use a float
@UpperRemainder decimal(38,37),
@LowerQuartile decimal(‘ + @DecimalPrecision + ‘),
@UpperQuartile decimal(‘ + @DecimalPrecision + ‘),
@InterquartileRange decimal(‘ + @DecimalPrecision + ‘),
@LowerInnerFence decimal(‘ + @DecimalPrecision + ‘),
@UpperInnerFence decimal(‘ + @DecimalPrecision + ‘),
@LowerOuterFence decimal(‘ + @DecimalPrecision + ‘),
@UpperOuterFence decimal(‘ + @DecimalPrecision + ‘)

SET @OrderByCode = ‘ + CAST(@OrderByCode AS nvarchar(50)) + ‘ SELECT @Count=Count(‘ + @ColumnName + ‘)
FROM ‘ + @SchemaAndTableName +
‘ WHERE ‘ + @ColumnName + ‘ IS NOT NULL

SELECT @LowerPoint = (@Count + 1) / 4, @LowerRemainder =  ((CAST(@Count AS decimal(‘ + @DecimalPrecision + ‘)) + 1) % 4) /4,
@UpperPoint = ((@Count + 1) *3) / 4, @UpperRemainder =  (((CAST(@Count AS decimal(‘ + @DecimalPrecision + ‘)) + 1) *3) % 4) / 4; –multiply by 3 for the left s’ + @PrimaryKeyName + ‘e on the upper point to get 75 percent

WITH TempCTE
(‘ + @PrimaryKeyName + ‘, RN, ‘ + @ColumnName + ‘)
AS (SELECT ‘ + @PrimaryKeyName + ‘, ROW_NUMBER() OVER (PARTITION BY 1 ORDER BY ‘ + @ColumnName + ‘ ASC) AS RN, ‘ + @ColumnName + ‘
FROM ‘ + @SchemaAndTableName + ‘
WHERE ‘ + @ColumnName + ‘ IS NOT NULL),
TempCTE2 (QuartileValue)
AS (SELECT TOP 1 ‘ + @ColumnName + ‘ + ((Lead(‘ + @ColumnName + ‘, 1) OVER (ORDER BY ‘ + @ColumnName + ‘) – ‘ + @ColumnName + ‘) * @LowerRemainder) AS QuartileValue
FROM TempCTE
WHERE RN BETWEEN @LowerPoint AND @LowerPoint + 1

UNION

SELECT TOP 1 ‘ + @ColumnName + ‘ + ((Lead(‘ + @ColumnName + ‘, 1) OVER (ORDER BY ‘ + @ColumnName + ‘) – ‘ + @ColumnName + ‘) * @UpperRemainder) AS QuartileValue
FROM TempCTE
WHERE RN BETWEEN @UpperPoint AND @UpperPoint + 1)

SELECT @LowerQuartile = (SELECT TOP 1 QuartileValue
FROM TempCTE2 ORDER BY QuartileValue ASC), @UpperQuartile = (SELECT TOP 1 QuartileValue
FROM TempCTE2 ORDER BY QuartileValue DESC)

SELECT @InterquartileRange = @UpperQuartile – @LowerQuartile
SELECT @LowerInnerFence = @LowerQuartile – (1.5 * @InterquartileRange), @UpperInnerFence = @UpperQuartile + (1.5 * @InterquartileRange), @LowerOuterFence = @LowerQuartile – (3 * @InterquartileRange), @UpperOuterFence = @UpperQuartile + (3 * @InterquartileRange)

–SELECT @LowerPoint AS LowerPoint, @LowerRemainder AS LowerRemainder, @UpperPoint AS UpperPoint, @UpperRemainder AS UpperRemainder
— uncomment this line to debug the inner calculations

SELECT @LowerQuartile AS LowerQuartile, @UpperQuartile AS UpperQuartile, @InterquartileRange AS InterQuartileRange,@LowerInnerFence AS LowerInnerFence, @UpperInnerFence AS UpperInnerFence,@LowerOuterFence AS LowerOuterFence, @UpperOuterFence AS UpperOuterFence

SELECT ‘ + @PrimaryKeyName + ‘, ‘ + @ColumnName + ‘, OutlierDegree
FROM  (SELECT ‘ + @PrimaryKeyName + ‘, ‘ + @ColumnName + ‘,
”OutlierDegree” =  CASE WHEN (‘ + @ColumnName + ‘ < @LowerInnerFence AND ‘ + @ColumnName + ‘ >= @LowerOuterFence) OR (‘ +
@ColumnName + ‘ > @UpperInnerFence
AND ‘ + @ColumnName + ‘ <= @UpperOuterFence) THEN 1
WHEN ‘ + @ColumnName + ‘ < @LowerOuterFence OR ‘ + @ColumnName + ‘ > @UpperOuterFence THEN 2
ELSE 0 END
FROM ‘ + @SchemaAndTableName + ‘
WHERE ‘ + @ColumnName + ‘ IS NOT NULL) AS T1
ORDER BY CASE WHEN @OrderByCode = 1 THEN ‘ + @PrimaryKeyName + ‘ END ASC,
CASE WHEN @OrderByCode = 2 THEN ‘ + @PrimaryKeyName + ‘ END DESC,
CASE WHEN @OrderByCode = 3 THEN ‘ + @ColumnName + ‘ END ASC,
CASE WHEN @OrderByCode = 4 THEN ‘ + @ColumnName + ‘ END DESC,
CASE WHEN @OrderByCode = 5 THEN OutlierDegree END ASC,
CASE WHEN @OrderByCode = 6 THEN OutlierDegree END DESC‘

–SELECT @SQLString — uncomment this to debug string errors
EXEC (@SQLString)
``````
• These days I would use floats instead of the @DecimalPrecision parameter, but I'll leave it as is since it's trivial to change. Commented May 10, 2017 at 2:52