How would you check if your postgresql DB instance needs more RAM memory to handle their current working data?
10No need to check, you always need more RAM. :)– Alex HowanskyJun 4, 2012 at 19:37
1Not a programming question, I'm voting to move it to ServerFault.– GManNickGJun 4, 2012 at 19:40
1I'm not a DBA, but I'd start by seeing of any common queries are on the edge of being hash joined instead of merge nested looped. There's some db config tuning you can do that might affect how much memory is available to any particular query as well [check the docs or email the mailing list is my suggestion]. It can also be useful to see if you have enough RAM to keep commonly used tables cached. But ultimately, unless your ENTIRE DB fits in RAM you could use more. :)– Mark RobertsJun 4, 2012 at 19:44
If all you are on Linux, your total physical RAM should be larger than your database size on disk in order to minimize I/O. Eventually it the entire database will be in the OS read cache and I/O will be limited to committing changes to disk. I prefer to find the DB size by running "du -shc $PGDATA/base"--that method aggregates all databases into a single number. As long as you are larger than that, it should be fine.
Additionally, you can look at the cache hit rate of heap and index block fetches. These measure the rate of hits into PostgreSQL's shared buffers. The numbers can be a little misleading--even though it may have been a miss in the shared buffers cache, it may still be a hit in the OS read cache. Still, hits in shared buffers are still less expensive than hits in the OS read cache (which are, in turn, less expensive by a couple of orders of magnitude than having to go back to disk).
In order to look at the shared buffers hit rate, I use this query:
SELECT relname, heap_blks_read, heap_blks_hit, round(heap_blks_hit::numeric/(heap_blks_hit + heap_blks_read),3) FROM pg_statio_user_tables WHERE heap_blks_read > 0 ORDER BY 4 LIMIT 25;
This gives you the top 25 worst offenders where the buffer cache is missed for all tables where at least one block had to be fetched from "disk" (again, which could be either the OS read cache or actual disk I/O). You can increase the value in the WHERE clause or add another condition for heap_blks_hit to filter out seldom-used tables.
The same basic query can be used to check the per-table total index hit rate by globally replacing the string "heap" with "idx". Take a look at pg_statio_user_indexes to get a per-index breakdown.
A quick note about shared buffers: a good rule of thumb for this in Linux is to set the configuration parameter shared_buffers to 1/4 of RAM, but no more than 8GB. This is not a hard-and-fast rule, but rather a good starting point for tuning a server. If your database is only 4GB and you have a 32GB server, 8GB of shared buffers is actually overkill and you should be able to set this to 5 or 6 GB and still have room for future growth.
I made this SQL to show the tables vs disk hits ratio:
-- perform a "select pg_stat_reset();" when you want to reset counter statistics with all_tables as ( SELECT * FROM ( SELECT 'all'::text as table_name, sum( (coalesce(heap_blks_read,0) + coalesce(idx_blks_read,0) + coalesce(toast_blks_read,0) + coalesce(tidx_blks_read,0)) ) as from_disk, sum( (coalesce(heap_blks_hit,0) + coalesce(idx_blks_hit,0) + coalesce(toast_blks_hit,0) + coalesce(tidx_blks_hit,0)) ) as from_cache FROM pg_statio_all_tables --> change to pg_statio_USER_tables if you want to check only user tables (excluding postgres's own tables) ) a WHERE (from_disk + from_cache) > 0 -- discard tables without hits ), tables as ( SELECT * FROM ( SELECT relname as table_name, ( (coalesce(heap_blks_read,0) + coalesce(idx_blks_read,0) + coalesce(toast_blks_read,0) + coalesce(tidx_blks_read,0)) ) as from_disk, ( (coalesce(heap_blks_hit,0) + coalesce(idx_blks_hit,0) + coalesce(toast_blks_hit,0) + coalesce(tidx_blks_hit,0)) ) as from_cache FROM pg_statio_all_tables --> change to pg_statio_USER_tables if you want to check only user tables (excluding postgres's own tables) ) a WHERE (from_disk + from_cache) > 0 -- discard tables without hits ) SELECT table_name as "table name", from_disk as "disk hits", round((from_disk::numeric / (from_disk + from_cache)::numeric)*100.0,2) as "% disk hits", round((from_cache::numeric / (from_disk + from_cache)::numeric)*100.0,2) as "% cache hits", (from_disk + from_cache) as "total hits" FROM (SELECT * FROM all_tables UNION ALL SELECT * FROM tables) a ORDER BY (case when table_name = 'all' then 0 else 1 end), from_disk desc
It also works, as said in Heroku doc:
SELECT 'cache hit rate' AS name, sum(heap_blks_hit) / (sum(heap_blks_hit) + sum(heap_blks_read)) AS ratio FROM pg_statio_user_tables;