39

I have my measurement data stored into the following structure:

CREATE TABLE measurements(
measured_at TIMESTAMPTZ,
val INTEGER
);

I already know that using

(a) date_trunc('hour',measured_at)

AND

(b) generate_series

I would be able to aggregate my data by:

microseconds,
milliseconds
.
.
.

But is it possible to aggregate the data by 5 minutes or let's say an arbitrary amount of seconds? Is it possible to aggregate measured data by an arbitrary multiple of seconds?

I need the data aggregated by different time resolutions to feed them into a FFT or an AR-Model in order to see possible seasonalities.

46

You can generate a table of "buckets" by adding intervals created by generate_series(). This SQL statement will generate a table of five-minute buckets for the first day (the value of min(measured_at)) in your data.

select 
  (select min(measured_at)::date from measurements) + ( n    || ' minutes')::interval start_time,
  (select min(measured_at)::date from measurements) + ((n+5) || ' minutes')::interval end_time
from generate_series(0, (24*60), 5) n

Wrap that statement in a common table expression, and you can join and group on it as if it were a base table.

with five_min_intervals as (
  select 
    (select min(measured_at)::date from measurements) + ( n    || ' minutes')::interval start_time,
    (select min(measured_at)::date from measurements) + ((n+5) || ' minutes')::interval end_time
  from generate_series(0, (24*60), 5) n
)
select f.start_time, f.end_time, avg(m.val) avg_val 
from measurements m
right join five_min_intervals f 
        on m.measured_at >= f.start_time and m.measured_at < f.end_time
group by f.start_time, f.end_time
order by f.start_time

Grouping by an arbitrary number of seconds is similar--use date_trunc().


A more general use of generate_series() lets you avoid guessing the upper limit for five-minute buckets. In practice, you'd probably build this as a view or a function. You might get better performance from a base table.

select 
  (select min(measured_at)::date from measurements) + ( n    || ' minutes')::interval start_time,
  (select min(measured_at)::date from measurements) + ((n+5) || ' minutes')::interval end_time
from generate_series(0, ((select max(measured_at)::date - min(measured_at)::date from measurements) + 1)*24*60, 5) n;
  • generate_series(timestamp, timestamp, interval) suits this case better, see Bill's answer below for why. – Alexander Gonchiy Nov 23 '16 at 14:38
  • @AlexanderGonchiy: We don't know whether generate_series(timestamp, timestamp, interval) was a better choice for this 4-year-old question. There's no version information in the question. Timestamp arguments were introduced in 8.4; earlier versions were still widely used in 2012. Even today, some derived products like GreenPlum and Amazon Redshift don't support timestamp arguments in generate_series. – Mike Sherrill 'Cat Recall' Nov 24 '16 at 0:00
12

Catcall has a great answer. My example of using it demonstrates having fixed buckets - in this case 30 minute intervals starting at midnight. It also shows that there can be one extra bucket generated in Catcall's first version and how to eliminate it. I wanted exactly 48 buckets in a day. In my problem, observations have separate date and time columns and I want to average the observations within a 30 minute period across the month for a number of different services.

with intervals as (
    select
        (n||' minutes')::interval as start_time, 
        ((n+30)|| ' minutes')::interval as end_time
    from generate_series(0, (23*60+30), 30) n
)
select i.start_time, o.service, avg(o.o)
from
observations o right join intervals i
on o.time >= i.start_time and o.time < i.end_time
where o.date between '2013-01-01' and '2013-01-31'
group by i.start_time, i.end_time, o.service
order by i.start_time
10

How about

SELECT MIN(val), 
EXTRACT(epoch FROM measured_at) / EXTRACT(epoch FROM INTERVAL '5 min') AS int 
FROM measurements 
GROUP BY int

where '5 min' can be any expression supported by INTERVAL

8

The following will give you buckets of any size, even if they don't aline well with a nice minute/hour/whatever boundary. The value "300" is for a 5 minute grouping, but any value can be substituted:

select measured_at, 
       val, 
       (date_trunc('seconds', (measured_at - timestamptz 'epoch') / 300) * 300 + timestamptz 'epoch') as aligned_measured_at
from measurements;

You can then use whatever aggregate you need around "val", and use "group by aligned_measured_at" as required.

6

This is based on Mike Sherrill's answer, except that it uses timestamp intervals instead of separate start/end columns.

with intervals as (
    select tstzrange(s, s + '5 minutes') das_interval
    from (select generate_series(min(lower(time_range)), max(upper(time_rage)), '5 minutes') s
          from your_table) x)
select das_interval, your_table.*
from   your_table
right join intervals on time_range && das_interval
order by das_interval;
5

I wanted to look at the past 24 hours of data and count things in hourly increments. I started Cat Recall's solution, which is pretty slick. It's bound to the data, though, rather than just what's happened in the past 24H. So I refactored and ended up with something pretty close to Julian's solution, but with more CTE. So it's sort of the marriage of the 2 answers.

WITH interval_query AS (
    SELECT (ts ||' hour')::INTERVAL AS hour_interval
    FROM generate_series(0,23) AS ts
), time_series AS (
    SELECT date_trunc('hour', now()) + INTERVAL '60 min' * ROUND(date_part('minute', now()) / 60.0) - interval_query.hour_interval AS start_time
    FROM interval_query
), time_intervals AS (
    SELECT start_time, start_time + '1 hour'::INTERVAL AS end_time
    FROM time_series ORDER BY start_time
), reading_counts AS (
    SELECT f.start_time, f.end_time, br.minor, count(br.id) readings
    FROM beacon_readings br
    RIGHT JOIN time_intervals f
                    ON br.reading_timestamp >= f.start_time AND br.reading_timestamp < f.end_time AND br.major = 4
    GROUP BY f.start_time, f.end_time, br.minor
    ORDER BY f.start_time, br.minor
)
SELECT * FROM reading_counts

Note that any additional limiting I wanted in the final query needed to be done in the RIGHT JOIN. I'm not suggesting this is necessarily the best (or even a good approach), but it is something I'm running with (at least at the moment) in a dashboard.

3

I've taken a synthesis of all the above to try and come up with something slightly easier to use;

create or replace function interval_generator(start_ts timestamp with TIME ZONE, end_ts timestamp with TIME ZONE, round_interval INTERVAL)
    returns TABLE(start_time timestamp with TIME ZONE, end_time timestamp with TIME ZONE) as $$
BEGIN
return query
        SELECT
            (n)       start_time,
            (n + round_interval) end_time
        FROM generate_series(date_trunc('minute', start_ts), end_ts, round_interval) n;
END
$$
    LANGUAGE 'plpgsql';

This function is a timestamp abstraction of Mikes answer, which (IMO) makes things a little cleaner, especially if you're generating queries on the client end.

Also using an inner join gets rid of the sea of NULLs that appeared previously.

with intervals as (select * from interval_generator(NOW() - INTERVAL '24 hours' , NOW(), '30 seconds'::INTERVAL))
select f.start_time, m.session_id, m.metric, min(m.value) min_val, avg(m.value) avg_val, max(m.value) max_val
from ts_combined as m
inner JOIN intervals f
    on m.time >= f.start_time and m.time < f.end_time
GROUP BY f.start_time, f.end_time, m.metric, m.session_id
ORDER BY f.start_time desc

(Also for my purposes I added in a few more aggregation fields)

1

Perhaps, you can extract(epoch from measured_at) and go from that?

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