Unfortunately, PostgreSQL does not have any easy to adjust parameter. I think it should have have one tunable
max_memory_usage = 80% where you can adjust the percentage and everything is automatically scaled to offer best performance for given resources.
However, as that's not available, the next best thing seems to be:
Actual max RAM =
shared_buffers + (
As a rough guide,
shared_buffers should be set to 40% of the memory you are willing to use for PostgreSQL,
max_connections to maximum number of parallel connections you want to have and
work_mem so that you don't go over your RAM budget. If you don't use temporary tables, setting
temp_buffers to pretty low (default is 8 MB) will allow setting
work_mem a bit higher. The
work_mem is mostly used for sorting rows so you'll need lot if you handle queries dealing with high row count as intermediate or final result. PostgreSQL will work with very low settings if needed but many queries will then need to create temporary files on the server instead of keeping things in RAM which obviously results in sub-par performance.
Note that if you set
shared_buffers to higher than a couple of gigabytes, you should enable "huge pages" feature for your OS. Otherwise quite a big hunk of the RAM will be lost to OS page tables and you'll get lower performance with default 4KB pages, too. Unfortunately, configuring huge pages is pretty complex task on any OS. (This is not a bug in PostgreSQL but a shortcoming of virtual memory handling on 32 and 64 bit x86 processors and huge tables setup is the best workaround for the issue. Again, everything will work without doing the huge tables dance but performance will not be as good as it could be.) In case of recent enough Linux kernel, you can usually just add something like
vm.nr_overcommit_hugepages=25000 to the end of
/etc/sysctl.conf, though. Be warned that huge pages cannot be swapped and if you run out of RAM with hugepages, OOM Killer may be activated even before swap is full.)
In addition, some internal limits are scaled according to
max_connections (e.g. predicate locks) so in some cases you need to set
max_connections way higher than your actual connection count is - especially if you do long transactions with SERIALIZABLE or REPEATED READ isolation levels. For larger installations, you also want to put
pgpool between the client and PostgreSQL to avoid having so many parallel connections that performance is going to suffer. The best would be to limit actual max connections to CPU count x 1.5 or so, and use transaction pooling instead of connection pooling to get maximum performance. Depending on your use case this may not be possible if clients need to do longer transactions than a couple of queries, or your clients are not compatible with transaction pooling because they use connection specific settings or features.