## Short and sweet

```
GROUP BY DATEDIFF(MINUTE, '2000', date_column) / 10
```

With heavy acknowledgements to Derek's answer, which forms the core of this one.

## Practical usage

```
SELECT DATEADD(MINUTE, DATEDIFF(MINUTE, '2000', aa.[date]) / 10 * 10, '2000')
AS [date_truncated],
COUNT(*) AS [records_in_interval],
AVG(aa.[value]) AS [average_value]
FROM [friib].[dbo].[archive_analog] AS aa
-- WHERE aa.[date] > '1900-01-01'
GROUP BY DATEDIFF(MINUTE, '2000', aa.[date]) / 10
-- HAVING SUM(aa.[value]) > 1000
ORDER BY [date_truncated]
```

## Details and commentary

The `MINUTE`

and `10`

terms can be changed to **any **`DATEPART`

and integer,^{1} respectively, to group into different time intervals.

e.g. `10`

with `MINUTE`

is ten minute intervals; `6`

with `HOUR`

is
six hour intervals.

If you change the interval a lot, you might benefit from declaring it as a variable.

```
DECLARE @interval int = 10;
SELECT DATEADD(MINUTE, DATEDIFF(…) / @interval * @interval, '2000')
…
GROUP BY DATEDIFF(…) / @interval
```

Wrapping it with a `DATEADD`

invocation with a multiplier will **give you a **`DATETIME`

value, which means:

- Data sources over long time intervals are fine. Some other answers have collision between years.
- Including it in the
`SELECT`

statement will give your output a single column with the truncated timestamp.

In the `SELECT`

, the division (`/`

) operation after `DATEDIFF`

truncates values to integers (a `FLOOR`

shortcut), which yields the *beginning* of time intervals for each row.

If you want to label each row with the middle or end of its interval, you can tweak the division in the second term of `DATEADD`

with the bold part below:

- End of interval:
`…) / 10 * 10`

`+ 10`

`, '2000')`

, credit to Daniel Elkington.
- Middle of interval:
`…) / 10 * 10`

`+ (10 / 2.0)`

`, '2000')`

.

### Trivia

`'2000'`

is an "anchor date" around which SQL will perform the date math. Most sample code uses `0`

for the anchor, but JereonH discovered that you encounter an integer overflow when grouping more-recent dates by seconds or milliseconds.^{2}

If your data spans centuries,^{3} using a single anchor date in the `GROUP BY`

for seconds or milliseconds will still encounter the overflow. For those queries, you can ask each row to anchor the binning comparison to its own date's midnight:

Use `DATEADD(DAY, DATEDIFF(DAY, 0, aa.[date]), 0)`

instead of `'2000'`

wherever it appears above. Your query will be totally unreadable, but it will work.

An alternative might be `CONVERT(DATETIME, CONVERT(DATE, aa.[date]))`

as the replacement.

_{1 If you want all :00 timestamps to be eligible for binning, use an integer that your DATEPART's maximum can evenly divide into.4 As a counterexample, grouping results into 13-minute or 37-hour bins will skip some :00s, but it should still work fine.}

_{2 The math says 232 ≈ 4.29E+9. This means for a DATEPART of SECOND, you get 4.3 billion seconds on either side, which works out to "anchor date ± 136 years." Similarly, 232 milliseconds is ≈ 49.7 days.}

_{3 If your data actually spans centuries or millenia and is still accurate to the second or millisecond… congratulations! Whatever you're doing, keep doing it.}

_{4 If you ever wondered why our clocks have a 12 at the top, reflect on how 5 is the only integer from 6 (half of 12) or below that is not a factor of 12. Then note that 5 × 12 = 60. You have lots of choices for bin sizes with hours, minutes, and seconds.}