I have a simple table of events:
event_id | start_time | end_time
How do I query the maximum number of simultaneous events?
My answer is very similar to Harry's first answer. I would attempt to make a slightly different performance optimisation though... Skip to the end to avoid a rambling explanation of why...
Harry's first answer (Core logic)
The place that takes the most processing time is the join.
For every record in the table, you pick (t1.end time). You then search the table again for (t1.end_time >= start_time) and for all matching records you search for (t1.end_time <= t1.end_time)
Now, it is very easy for you to create an index on start_time. This makes the first check (t1.end_time >= start_time) much faster;
The last part though is key, because it means that... Even after using an index to do the first check (t1.end_time >= start_time) we can still be left with a lot of records to make the second check (t1.end_time <= t1.end_time)
[including the end_time in the index doesn't help here, and is discussed shortly]
Assuming a relatively smooth distribution of events, each record would (approximately and on average) match with half the table. This means you're doing (n*n/2) checks where n is the number of records in the table. Even at 100 records this gives 5000 checks. At 2000 records you're doing around 2million checks!
The natural inclination is to add the end_time field to the index. This doesn't help, however. The index for (start_time, end_time) creates a search tree down to each unique start_time, then under each unique start_time there is a separate search tree for end_times.
In my example above, every start_time is unique. This means that you still need to do all 68 end_time checks. Only the start_time checks benefited from the index.
What we need to do is try to use the single "start_time" index to do more than we currently are. We need to give the query engine more information.
An example is to use "maximum event duration". For example, we may find that no event lasts longer than 8 minutes. This would give us the following query...
Applying the example of 8 minute duration on the example I gave above, we reduce the 68 end_time checks down to 34.
Even if we did not know that events are never long than 8 minutes, we could have found it just by checking 10 records. MAX(end_time - start_time) over 10 records would still be faster than check (t1.end_time <= t1.end_time) over 34 combinations of records.
And as the size of the table increases, the benefit increases. In fact, where [max_event_duration] is significantly smaller than the whole time span covered by the table, you change the (n*n/2) square law into something much more like (n*x + n) which is linear.
Since your peak times will always end on an end_time, you can just check those times kind of like Sparr suggested. So do a query to join the same table twice and count the number of rows where an event overlaps at each end_time. Then take the max of that.
This will give you your answer but slowly:
Breaking it up into smaller groups (less to compare against), then getting the max of those smaller groups speeds it up significantly:
There is a slight drawback to this faster approach... if your events generally span more than an hour the events that end in the next hour, may still overlap but wont be counted. To fix this, simply group by a larger interval like a day or a week. Kind of hairy but it works great and quickly gives you the result it sounds like you're looking for.
I would do this in a number of passes, a very slow solution
Sort your events by start time. Loop through the events and find gaps in which there are no events, group events between these gaps. Loop through every time (at whatever resolution your times are recorded at) within each group and query the events that are ongoing at that time. Depending on the speed of your programming language vs the speed of DB queries, you may look at the overlapping events and skip forward to the first end_time of one of the overlapping events.
Depending on what you mean by simultaneous, as noted by other answers, this may be very similar to this question.
Unfortunately the solution I proposed (which was the accepted answer) would require you to redesign your table. However, it will let you trivially determine maximum number of simultaneous events by examining the "SessionCount" (or similarly named) column.
SELECT COUNT(event_id) AS total FROM table WHERE start_time='x' AND end_time='x'
you should ask more clearly next time.