Please, read updates below for a complete view.
Let's compare both cases you've outlined:
- use just one column (which one —
float8
or numeric(21,8)
?) or
- keep both of them (
keep two
).
Some observations.
If both column are kept, we're speaking bout data duplication, which contradicts normalization and introduces ambiguities into the system, that requires special treatment. This makes it -1
to the keep two
case.
Size of the columns is:
SELECT 'float8'::coltyp, pg_column_size(random()::float8) UNION ALL
SELECT 'numeric(21,8)', pg_column_size(random()::numeric(21,8));
Keeping both column in this case will require nearly twice more space. So -1
to keep two
case and also +0.5
to the float8
variant, as it's slightly smaller in size.
Tests for speed shows the following:
SET work_mem TO '2000MB'; -- to avoid usage of temp files
EXPLAIN (analyze,buffers,verbose)
SELECT ((random()*1234567)::float8 / 2 + 3) * 5
FROM generate_series(1,(1e7)::int) s;
EXPLAIN (analyze,buffers,verbose)
SELECT ((random()*1234567)::numeric(21,8) / 2 + 3) * 5
FROM generate_series(1,(1e7)::int) s;
On my i7 2.3GHz MBP, I got (based on 5 runs):
- not more then
3135.238ms
for float8
and
- not more then
17325.514ms
for numeric(21,8)
.
So here we have a clear +1
for the float8
case. This is a memory-only test and querying a table (and a cold one) will require much more time.
It seems, that sticking with float8
is an obvious way to go (+1.5
vs -2
), given your performance requirements. And you can create a view on top of this table that will advertise both, original float8
and casted numeric(21,8)
to satisfy your queries with high accuracy requirements.
UPDATE: After a comment by a_horse_with_no_name
, I decided to retest, this time using real tables. I went for 9.4beta3, as 9.4 comes with the very nice pg_prewarm
module.
This is what I did:
export PGDATA=$HOME/9.4b3
initdb -k -E UTF8 -A peer
pg_ctl start
Then, I've changed some defaults using new ALTER SYSTEM
feature:
ALTER SYSTEM SET shared_buffers TO '1280MB';
ALTER SYSTEM SET checkpoint_segments TO '99';
ALTER SYSTEM SET checkpoint_completion_target TO '0.9';
Restarted the server via pg_ctl restart
and now the test:
SELECT id::int, 1::int AS const, (random()*1234567)::float8 as val
INTO f FROM generate_series(1,(1e7)::int) id;
SELECT id::int, 1::int AS const, (random()*1234567)::numeric(21,8) as val
INTO n FROM generate_series(1,(1e7)::int) id;
CREATE EXTENSION pg_prewarm;
VACUUM ANALYZE;
SELECT pg_prewarm('f');
SELECT pg_prewarm('n');
-- checking table size
SELECT relname,pg_size_pretty(pg_total_relation_size(oid))
FROM pg_class WHERE relname IN ('f','n');
-- checking sped
EXPLAIN (analyze, buffers, verbose) SELECT min(id), max(id), sum(val) FROM f;
EXPLAIN (analyze, buffers, verbose) SELECT min(id), max(id), sum(val) FROM n;
Results are quite different now:
- size is
422 MB
vs 498 MB
- average time for
float8
is 2272.833ms
- and for
numeric(21,8)
it is 3289.542ms
Now, this for sure doesn't reflects real situation, but in my view:
- using
numeric
will add something (for me it is 20%) to the size of relations;
- make queries slower to some degree (for me it is 44%).
I was quite surprised by this figures to be honest. Both tables are fully cached, so time was spent only to process tuples and do the math. I though it'd be a bigger difference.
Personally, I would go for numeric
type now, given not so big performance difference and data precision it offers.
numeric
first.numeric
is slower than adding millions ofdouble
s. That is a fact I believe. And performance is critical for some of those queries.float
I would still stick withnumeric
column until I hit a roadblock with the performance.