I have the following situation:

  1. Data = around 400 million (string1, string2, score) tuples

  2. Data size ~ 20gb, doesn't fit in memory.

  3. Data is stored in a file in csv format, and not sorted by any field.

  4. I need to efficiently retrieve all tuples with a particular string, e.g. all tuples s.t. string1 = 'google'.

How do I design a system such that I can do this efficiently ?

I have already tried postgresql with a B-tree index and GIN index, but they aren't fast enough (> 20-30 seconds) per query.

Ideally, I need a solution which sorts the tuples by string1, stores them in sorted fashion and then run binary search, followed by sequential scan for retrieval. But, I don't know which database or system implements such functionality.

UPDATE: Here's the postgres details:

I bulk-loaded data into postgres using COPY command. Then I created two indices on string1, one b-tree and one GIN. However, postgres is not using either of them.

Create tables:

  CREATE TABLE mytable(
 string1 varchar primary key, string2 varchar, source_id integer REFERENCES sources(id), score real);
  CREATE INDEX string1_gin_index ON mytable USING gin (string1 gin_trgm_ops);
  CREATE INDEX string1_index ON mytable(lower(string1)); 

Query plan:

     isa=# EXPLAIN ANALYZE VERBOSE select * from mytable where string1 ilike 'google';
                                                             QUERY PLAN                                                                 
 Bitmap Heap Scan on public.mytable  (cost=235.88..41872.81 rows=11340 width=29) (actual time=20234.765..25566.128 rows=30971 loops=1)
   Output: hyponym, string2, source_id, score
   Recheck Cond: ((mytable.string1)::text ~~* 'google'::text)
   Rows Removed by Index Recheck: 34573
    ->  Bitmap Index Scan on string1_gin_index  (cost=0.00..233.05 rows=11340 width=0) (actual time=20218.263..20218.263 rows=65544 loops=1)
     Index Cond: ((mytable.string1)::text ~~* 'google'::text)
   Total runtime: 25568.209 ms
   (7 rows)

 isa=# EXPLAIN ANALYZE VERBOSE select * from isa where string1 = 'google';
                                                    QUERY PLAN                                                         
  Seq Scan on public.mytable  (cost=0.00..2546373.30 rows=3425 width=29) (actual time=11692.606..139401.099 rows=30511 loops=1)
    Output: string1, string2, source_id, score
    Filter: ((mytable.string1)::text = 'google'::text)
    Rows Removed by Filter: 124417194
    Total runtime: 139403.950 ms
    (5 rows)
  • 1
    "a solution which sorts the tuples by string1, stores them in sorted fashion and then run binary search" which is exactly what a B-Tree index is doing. Please read postgresql-performance, the edit your question and add the missing information – a_horse_with_no_name Oct 19 '16 at 11:33
  • If the query parameter returns more than a few percent of the table then a sequential scan will be done regardless of the indexes. – Clodoaldo Neto Oct 19 '16 at 11:43
  • One way of speeding up string comparisons is to use collate "C" for the key if that doesn't contain any international characters. Another often used approach is to not index the strings, but a hashvalue of the strings to make the index smaller and thus lookups in the index faster – a_horse_with_no_name Oct 19 '16 at 11:43
  • Also there is query time and server -> client data transport time. – Clodoaldo Neto Oct 19 '16 at 11:45
  • 1
    If the table is stable (or close to) you can cluster it according to an index to make faster sequential scans in a range. – Clodoaldo Neto Oct 19 '16 at 11:57

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