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The raw query is as follows

  FROM "YEAR" where "DATE"='2010-03-01' 
  and "SECURITY"='STW.AX' 
  AND "TIME" < '10:16:00' 

I have built three indices as follows


I do not index TYPE because it only takes one of two possible values

Explain analyze produces the following

"Limit  (cost=50291.28..50291.28 rows=3 width=16) (actual time=1794484.566..1794484.567 rows=3 loops=1)"
"  ->  Sort  (cost=50291.28..50291.29 rows=4 width=16) (actual time=1794484.562..1794484.563 rows=3 loops=1)"
"        Sort Key: "TIME""
"        Sort Method:  top-N heapsort  Memory: 25kB"
"        ->  Bitmap Heap Scan on "YEAR"  (cost=48569.54..50291.24 rows=4 width=16) (actual time=1794411.662..1794484.498 rows=20 loops=1)"
"              Recheck Cond: (("SECURITY" = 'STW.AX'::bpchar) AND ("DATE" = '2010-03-01'::date))"
"              Filter: (("TIME" < '10:16:00'::time without time zone) AND ("TYPE" = 'TRADE'::bpchar))"
"              ->  BitmapAnd  (cost=48569.54..48569.54 rows=430 width=0) (actual time=1794411.249..1794411.249 rows=0 loops=1)"
"                    ->  Bitmap Index Scan on security_desc  (cost=0.00..4722.94 rows=166029 width=0) (actual time=1793917.506..1793917.506 rows=1291933 loops=1)"
"                          Index Cond: ("SECURITY" = 'STW.AX'::bpchar)"
"                    ->  Bitmap Index Scan on date_desc  (cost=0.00..43846.35 rows=2368764 width=0) (actual time=378.698..378.698 rows=2317130 loops=1)"
"                          Index Cond: ("DATE" = '2010-03-01'::date)"
"Total runtime: 1794485.224 ms"

The database is about 1 billion rows running on Core2Quad with 8gig RAM on Ubuntu 64bit. Surely this query should not take half an hour

share|improve this question
Are those three independent indices or one with those columns? I would create one index with DATE and SECURITY in it. (I don't know Postgres enough to make this an answer.) – idstam May 30 '11 at 9:59
Independent indices – deltanovember May 30 '11 at 10:06
Can you add the table definition? – ypercubeᵀᴹ May 30 '11 at 10:37
@deltanovember: – Dave Jarvis May 30 '11 at 10:37
A single index on TIME will rarely be needed. You can safely drop it. Then drop the index on DATE too and add an index on (DATE, TIME) which is more probable to be useful in other queries, too. – ypercubeᵀᴹ May 30 '11 at 10:41
up vote 11 down vote accepted

The database is about 1 billion rows running on Core2Quad with 8gig RAM on Ubuntu 64bit. Surely this query should not take half an hour

It's taking half an hour because of the way you set up your indexes.

Your query has no multi-column indexes that it can use to head straight to the needed rows. It does the next best thing, which is a bitmap index scan on barely selective indexes, and top-3 sorting the resulting set.

The two indexes in question, on the security and on the date, yield 1.3M and 2.3M rows respectively. Combining them will be excruciatingly slow because you're randomly looking up over a million rows and filtering each one.

Adding insult to injury, your data structure is such that two highly correlated fields (date and time) are stored and manipulated separately. This confuses the query planner because Postgres does not collect correlation data. Your queries will thus almost always resort to filtering through enormous sets of data, and ordering the filtered set on a separate criteria.

I'd suggest the following changes:

  1. Alter the table and add a datetime column, of type timestamp with time zone. Combine your date and time columns into it.

  2. Drop the date and time fields accordingly, as well as the indexes on them. Also drop the index on security.

  3. Create an index on (security, datetime). (And don't mess around with nulls first/nulls last unless your ordering criteria contain those clauses too.)

  4. At your option, add a separate index on (datetime) or on (datetime, security), if you ever need to execute queries that do stats on all trades in a day or date range.

  5. vacuum analyze the whole mess once you're done with the above.

You'll then be able to rewrite your query like so:

  WHERE '2010-03-01 00:00:00' <= "DATETIME" AND "DATETIME" < '2010-03-01 10:16:00'

This will yield the most optimial plan: retrieving the top-3 rows from a filtered index scan on (security, datetime), which I'd expect (since you've a billion rows) will take 25ms at most.

share|improve this answer
Definite +1 for timestamp and corrected indexing. Your version should fly. (Might also partition into two tables on TYPE.) – Andrew Lazarus May 30 '11 at 17:22
Another non-intrusive option would be to create an IMMUTABLE pl/pgsql lookup FUNCTION that returns the concatenated DATE and TIME fields. Then, create an INDEX using your lookup FUNCTION. As it turns out, this works great in a pinch where you can't easily change the schema. Just be sure to write your query to use your lookup FUNCTION otherwise you won't see any benefits. – Sean May 30 '11 at 18:31
+1 Sean. That's a good alternative if the table cannot be altered. – Denis de Bernardy May 30 '11 at 20:05

I do not index TYPE because it only takes one of two possible values

You have to understand how indexes work, and why they work. Indexes duplicate the indexed data into lean, small index blocks that only contain the specified index data. From your X GB of raw data only X/20 (guesstimate) size remains. If you specify a query that uses data which is not indexed means that for each of the records that satisfy the other query criteria, the DBMS has to read the corresponding raw data block to the index block to determine whether it matches the query criteria.

The optimal case is that there is at least one index that contains every single requirement the query states so there is no need to do lookups into the data blocks.

Another hint: It is usually a good idea to list columns that take values that are usually queried as a range (in your case "TIME") last.

My suggestion: Drop all indexes. Create an index with the fields TIME(ASC),DATE,SECURITY,TYPE (in this order). Use the query

  WHERE "TIME" < '10:16:00'
  AND "DATE"='2010-03-01' 

And watch the incredible speed.

share|improve this answer
You say 'It is usually a good idea to list columns that take values that are usually queried as a range (in your case "TIME") last .' And then you put TIME first in the index. Which of the two is your advice? – ypercubeᵀᴹ May 30 '11 at 10:51
As you needed a sort by time, I added time first. Usually, you would need no special sort if the index satisfies your sort option (that's what I did here). This way, you do not need a special ORDER BY clause. – 0xCAFEBABE May 30 '11 at 11:00
You should still include the ORDER BY in that case to make it explicit that's what you want (SQL doesn't guarantee you'll always get it otherwise); in the case where it matches your index's sort you'll get it ‘for free’. But yes, it should be the rightmost (least-significant) column of the left-subset of the index which is used in the query. – bobince May 30 '11 at 11:13
OK. But I think your first advice is good and the query would benefit more from a SECURITY, TYPE, DATE, TIME index than a TIME, ... one. – ypercubeᵀᴹ May 30 '11 at 11:15
You can try it out. Create the index one way, use the ORDER BY explicitly and time it, then try the other way. I'd always prefer TIME to be the last index column. – 0xCAFEBABE May 30 '11 at 11:29

Add a composite index of many of the search terms together, eg ON YEAR (TYPE, SECURITY, DATE, TIME). Then the database can look up in a single index to match all of them, instead of having to search multiple indexes and collate all the results together (Bitmap Index Scan).

Exactly which columns (eg include TYPE or not?) and what order you include them in the index depends on data characteristics and what kind of other queries you're doing (since you get to re-use any left-subset of a composite index for free), so experiment a bit; but to encourage order optimisation keep the ORDER BY column as the last used index column/direction.

You may also want to ANALYZE to update stats for the query planner as some of the number-of-rows guesses seem to be a bit off.

share|improve this answer
The issue is each index is already ~30gb I actually don't have enough disk space to add more indices. The database has chewed up nearly my entire hard disk – deltanovember May 30 '11 at 10:15
More disks might be cheaper than your time. You can add a single, fast (10,000 rpm?) disk to start with ($300?), and put the new index in a tablespace on that disk. Later, when you have more money and time, you can reconfigure that to a RAID setup or move other indexes if it makes sense. (Caveat: I don't have any experience with billion row tables. My biggest is about 250 million.) – Mike Sherrill 'Cat Recall' May 30 '11 at 10:45

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