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I have these two tables in my database

  Student Table                   Student Semester Table
| Column     : Type     |       | Column     : Type     |
|------------|----------|       |------------|----------|
| student_id : integer  |       | student_id : integer  |      
| satquan    : smallint |       | semester   : integer  |
| actcomp    : smallint |       | enrolled   : boolean  | 
| entryyear  : smallint |       | major      : text     |
|-----------------------|       | college    : text     |

Where student_id is a unique key in the student table, and a foreign key in the student semester table. The semester integer is just a 1 for the first semester, 2 for the second, and so on.

I'm doing queries where I want to get the students by their entryyear (and sometimes by their sat and/or act scores), then get all of those students associated data from the student semester table.

Currently, my queries look something like this:

SELECT * FROM student_semester
WHERE student_id IN(
    SELECT student_id FROM student_semester
    WHERE student_id IN(
        SELECT student_id FROM student WHERE entryyear = 2006
    ) AND college = 'AS' AND ...
ORDER BY student_id, semester;

But, this results in relatively long running queries (400ms) when I am selecting ~1k students. According to execution plan, most of the time is spent doing a hash join. To ameliorate this, I have added satquan, actpcomp, and entryyear columns to the student_semester table. This reduces the time to run the query by ~90%, but results in a lot of redundant data. Is there a better way to do this?

These are the indexes that I currently have (Along with the implicit indexes on student_id):

CREATE INDEX act_sat_entryyear ON student USING btree (entryyear, actcomp, sattotal)
CREATE INDEX student_id_major_college ON student_semester USING btree (student_id, major, college)

Query Plan

Hash Join  (cost=17311.74..35895.38 rows=81896 width=65) (actual time=121.097..326.934 rows=25680 loops=1)
  Hash Cond: (public.student_semester.student_id = public.student_semester.student_id)
  ->  Seq Scan on student_semester  (cost=0.00..14307.20 rows=698820 width=65) (actual time=0.015..154.582 rows=698820 loops=1)
  ->  Hash  (cost=17284.89..17284.89 rows=2148 width=8) (actual time=121.062..121.062 rows=1284 loops=1)
        Buckets: 1024  Batches: 1  Memory Usage: 51kB
        ->  HashAggregate  (cost=17263.41..17284.89 rows=2148 width=8) (actual time=120.708..120.871 rows=1284 loops=1)
              ->  Hash Semi Join  (cost=1026.68..17254.10 rows=3724 width=8) (actual time=4.828..119.619 rows=6184 loops=1)
                    Hash Cond: (public.student_semester.student_id = student.student_id)
                    ->  Seq Scan on student_semester  (cost=0.00..16054.25 rows=42908 width=4) (actual time=0.013..109.873 rows=42331 loops=1)
                          Filter: ((college)::text = 'AS'::text)
                    ->  Hash  (cost=988.73..988.73 rows=3036 width=4) (actual time=4.801..4.801 rows=3026 loops=1)
                          Buckets: 1024  Batches: 1  Memory Usage: 107kB
                          ->  Bitmap Heap Scan on student  (cost=71.78..988.73 rows=3036 width=4) (actual time=0.406..3.223 rows=3026 loops=1)
                                Recheck Cond: (entryyear = 2006)
                                ->  Bitmap Index Scan on student_act_sat_entryyear_index  (cost=0.00..71.03 rows=3036 width=0) (actual time=0.377..0.377 rows=3026 loops=1)
                                      Index Cond: (entryyear = 2006)
Total runtime: 327.708 ms

I was mistaken about there not being a Seq Scan in the query. I think the Seq Scan is being done due to the number of rows that match the college condition; when I change it to one that has less students an index is used. Source:

Query with entryyear column included student semester table

SELECT * FROM student_semester
WHERE student_id IN(
    SELECT student_id FROM student_semester
    WHERE entryyear = 2006 AND collgs = 'AS'
) ORDER BY student_id, semester;

Query Plan

Sort  (cost=18597.13..18800.49 rows=81343 width=65) (actual time=72.946..74.003 rows=25680 loops=1)
  Sort Key: public.student_semester.student_id, public.student_semester.semester
  Sort Method: quicksort  Memory: 3546kB
  ->  Nested Loop  (cost=9843.87..11962.91 rows=81343 width=65) (actual time=24.617..40.751 rows=25680 loops=1)
        ->  HashAggregate  (cost=9843.87..9845.73 rows=186 width=4) (actual time=24.590..24.836 rows=1284 loops=1)
              ->  Bitmap Heap Scan on student_semester  (cost=1612.75..9834.63 rows=3696 width=4) (actual time=10.401..23.637 rows=6184 loops=1)
                    Recheck Cond: (entryyear = 2006)
                    Filter: ((collgs)::text = 'AS'::text)
                    ->  Bitmap Index Scan on entryyear_act_sat_semester_enrolled_cumdeg_index  (cost=0.00..1611.82 rows=60192 width=0) (actual time=10.259..10.259 rows=60520 loops=1)
                          Index Cond: (entryyear = 2006)
        ->  Index Scan using student_id_index on student_semester  (cost=0.00..11.13 rows=20 width=65) (actual time=0.003..0.010 rows=20 loops=1284)
              Index Cond: (student_id = public.student_semester.student_id)
Total runtime: 74.938 ms
share|improve this question
Please post the execution plan using explain analyze and any index defined on the tables. More on posting this kind of questions here: – a_horse_with_no_name May 8 '13 at 16:48
When asking for performance optimization you also have to provide your version of Postgres. Should go without saying. Read the tag info for postgresql-performance – Erwin Brandstetter May 8 '13 at 16:50
@ErwinBrandstetter I didn't post the version of Postgres because I thought that this was more of a general database schema/query strategy question, but I'll add the version as well as the query plan. – cmorse May 8 '13 at 17:05
Do you want students who entered in AS in 2006 or students who entered in 2006 (in any college) who at some time were in AS? And with respect to your last version, I suggest you try it with the IN replaced by a similar EXISTS (see my answer below) and add an index on student_id, entry_year. – Andrew Lazarus May 8 '13 at 23:10
Before adding some indexes, I would advise to add primary key constraints to the tables. For student that would obviously be {student_id} , and for student_semester probably {student_id, semester} , but this is not clear from the question. Also: the specificity for entryyear will probably be too low to afford an index scan anyway (unless you have more than about 20 years of data) – wildplasser May 9 '13 at 12:14

The clean version of you query is

select ss.*
    student s
    inner join
    student_semester ss using(student_id)
    s.entryyear = 2006
    and exists (
        select 1
        from student_semester
            college = 'AS'
            and student_id = s.student_id
order by ss.student_id, semester
share|improve this answer
I'd expect this to perform well if there are indexes covering student.entryyear and, and student_semester.semester. On the other hand, if there are only 2 values in student_semester.semester, that could be annoying. EXPLAIN ANALYZE would tell the whole story. – Mike Sherrill 'Cat Recall' May 8 '13 at 15:51
This isn't the same query. This only returns rows from the 'AS' college. The original query returns records for students who are ever in the 'AS' college. – Gordon Linoff May 8 '13 at 16:09
@Gordon I don't understand the who are ever in the 'AS' college part of your comment. – Clodoaldo Neto May 8 '13 at 16:18
@ClodoaldoNeto The query is intended to find students who were in the 'AS' college in at least one semester. Students can be in different colleges depending on the semester. – cmorse May 8 '13 at 16:38
@cmorse Check if the updated version is what you expect. – Clodoaldo Neto May 8 '13 at 16:47

An alternative approach to doing the query is to use window functions.

select t.*  -- Has the extra NumMatches column.  To eliminate it, list the columns you want
from (select ss.*,
             sum(case when = 'AS' and s.entry_year = 206 then 1 else 0 end) over
                  (partition by student_id) as NumMatches
      from student_semester ss join
           student s
           on ss.student_id = s.student_id
    ) t
where NumMatches > 0;

Window functions are usually faster than joining in an aggregation, so I suspect that this might perform well.

share|improve this answer
This one actually ran substantially slower than the original query (almost 1 full second). It took about 1 second to complete. According to the query plan it was scanning every row in the table 3 separate times (even though it claimed to be using the indexes). – cmorse May 10 '13 at 22:08
@cmorse . . . Interesting. I'm glad you did the test. The difference in the queries, I think, is that this is calculating NumMatches over all the data, instead of a subset. The selectivity of the aggregation overcomes (what I believe to be) the slightly better performance of the window function. – Gordon Linoff May 10 '13 at 22:53
Thanks for posting this query. I've never done much with window functions. It was interesting seeing it done. – cmorse May 10 '13 at 22:58

You want, it appears, students who entered in 2006 and who have ever been in AS college.

Version One.

SELECT sem.*
FROM student s JOIN student_semester sem USING (student_id)
WHERE s.entry_year=2006
     AND student_id IN (SELECT student_id 
                        FROM student_semester s2 WHERE'AS')
     AND /* other criteria */
ORDER BY sem.student_id, semester;

Version Two

SELECT sem.*
FROM student s JOIN student_semester sem USING (student_id)
WHERE s.entry_year=2006
         (SELECT 1 FROM student_semester s2 
          WHERE s2.student_id = s.student_id AND'AS')
          -- CREATE INDEX foo on student_semester(student_id, college);
     AND /* other criteria */
ORDER BY sem.student_id, semester;

I expect both to be fast, but whether they one performs better than the other (or exact same plan) is a PG mystery.

[EDIT] Here's a version with no semi-joins. I wouldn't expect it to work well because it will give multiple hits for each time a student was in AS.

SELECT DISTINCT ON ( /* PK of sem */ )
FROM student s 
   JOIN student_semester sem USING (student_id) 
   JOIN student_semester s2  USING (student_id)
WHERE s.entry_year=2006
ORDER BY sem.student_id, semester;
share|improve this answer
Neither of these actually performed better than the original query. Here are the query plans. Version 1:, Version two: – cmorse May 10 '13 at 22:54
That's rather disappointing. I have one other possibility up added in edit. And BTW what are the indexes on student_semester? – Andrew Lazarus May 11 '13 at 1:26

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