STDDEV_POP
Returns the square root of the VAR_POP population variance for <number expression>, evaluated for each row remaining in the group.
When you use STDDEV_POP, be aware of the following:
When the input set has no non-null data,
STDDEV_POPreturnsNULL.If you don't use the
OVERclause,STDDEV_POPis calculated as an aggregate function. In this case, the aggregate query must contain a GROUP BY clause on a monotonic expression based onROWTIMEthat groups the stream into finite rows. Otherwise, the group is the infinite stream, and the query will never complete and no rows will be emitted. For more information, see Aggregate Functions.-
A windowed query that uses a
GROUP BYclause processes rows in a tumbling window. For more information, see Tumbling Windows (Aggregations Using GROUP BY). If you use the
OVERclause,STDDEV_POPis calculated as an analytic function. For more information, see Analytic Functions.-
A windowed query that uses an
OVERclause processes rows in a sliding window. For more information, see Sliding Windows
Syntax
STDDEV_POP ( [DISTINCT | ALL] number-expression )
Parameters
ALL
Includes duplicate values in the input set. ALL is the default.
DISTINCT
Excludes duplicate values in the input set.
Examples
Example Dataset
The examples following are based on the sample stock dataset that is part of the Getting Started Exercise in the Amazon Kinesis Analytics Developer Guide. To run each example, you need an Amazon Kinesis Analytics application that has the sample stock ticker input stream. To learn how to create an Analytics application and configure the sample stock ticker input stream, see Getting Started in the Amazon Kinesis Analytics Developer Guide.
The sample stock dataset has the schema following.
(ticker_symbol VARCHAR(4), sector VARCHAR(16), change REAL, price REAL)
Example 1: Determine the standard deviation of the population in a column in a tumbling window query
The following example demonstrates how to use the STDDEV_POP function to determine the standard deviation of the values in a tumbling window
of the PRICE column of the example dataset. DISTINCT is not specified, so duplicate values are included
in the calculation.
Using STEP (Recommended)
CREATE OR REPLACE STREAM "DESTINATION_SQL_STREAM" (ticker_symbol VARCHAR(4), stddev_pop_price REAL); CREATE OR REPLACE PUMP "STREAM_PUMP" AS INSERT INTO "DESTINATION_SQL_STREAM" SELECT STREAM ticker_symbol, STDDEV_POP(price) AS stddev_pop_price FROM "SOURCE_SQL_STREAM_001" GROUP BY ticker_symbol, STEP(("SOURCE_SQL_STREAM_001".ROWTIME) BY INTERVAL '60' SECOND);
Using FLOOR
CREATE OR REPLACE STREAM "DESTINATION_SQL_STREAM" (ticker_symbol VARCHAR(4), stddev_pop_price REAL); CREATE OR REPLACE PUMP "STREAM_PUMP" AS INSERT INTO "DESTINATION_SQL_STREAM" SELECT STREAM ticker_symbol, STDDEV_POP(price) AS stddev_pop_price FROM "SOURCE_SQL_STREAM_001" GROUP BY ticker_symbol, FLOOR(("SOURCE_SQL_STREAM_001".ROWTIME - TIMESTAMP '1970-01-01 00:00:00') SECOND / 10 TO SECOND);
Results
The preceding examples output a stream similar to the following:
Example 2: Determine the standard deviation of the population of the values in a column in a sliding window query
The following example demonstrates how to use the STDDEV_POP function to determine the standard deviation of the values in a
sliding window of the PRICE column of the example dataset. DISTINCT is not specified, so duplicate values are included
in the calculation.
CREATE OR REPLACE STREAM "DESTINATION_SQL_STREAM" (ticker_symbol VARCHAR(4), stddev_pop_price REAL); CREATE OR REPLACE PUMP "STREAM_PUMP" AS INSERT INTO "DESTINATION_SQL_STREAM" SELECT STREAM ticker_symbol, STDDEV_POP(price) OVER TEN_SECOND_SLIDING_WINDOW AS stddev_pop_price FROM "SOURCE_SQL_STREAM_001" WINDOW TEN_SECOND_SLIDING_WINDOW AS ( PARTITION BY ticker_symbol RANGE INTERVAL '10' SECOND PRECEDING);
The preceding example outputs a stream similar to the following:
See Also
Sample standard deviation: STDDEV_SAMP
Sample variance: VAR_SAMP
Population variance: VAR_POP
