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I followed a Youtube video by Chris Pettus called PostgreSQL Proficiency for Python People to edit some of my postgres.conf settings.

My server has 28 gigs of RAM and prior to making the changes, my system memory was averaging around 3GB. Now it hovers around 10GB.

max_connections = 100
shared_buffers = 7GB
work_mem = 64mb
maintenance_work_mem = 1GB
wal_buffers = 16mb

I am not having any issues right now, but I would like to understand the pros and cons of the changes I made. I assume that there must be some tangible benefits of tripling the average memory being used in my system (measured with Datadog).

My server is used to perform ETL (Airflow) and hosts the database. Airflow has a lot of connections but typically the files are pretty small (a few mb) which are processed with pandas, compared with the database to find new rows, and then loaded.

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Shared buffers are used for postgres memory cache (at a lower level closer to postgres as compared to OS cache). Setting it to 7gb means that pg will cache to 7gb of data. So if you are doing a lot of full table scans or (recursive) CTEs that may improve performance. Note that postgres master process will allocate this entire amount at database startup, which is why you are seeing your OS use 10GB of ram now.

work_mem is memory used for sorts and each concurrent sort allocates a bucket of this size. Therefore this is only bounded by max_connections * concurrent sorts, so effectively it is only bounded by the sort complexity of your queries, so increasing this poses the most risk to system stability. (That is, if you have a single query that the query planner executes with 8 merge sorts, you will use 8*work_mem every time the query is executed).

maintenance_work_mem is the memory used by VACUUM and friends (including ALTER TABLE ADD FOREIGN KEY! Increasing this may increase VACUUM speed.

wal_buffers has no benefit beyond 16MB, which is the largest WAL chunk the server will write at one time. This can help with slow write i/o.

See also: https://wiki.postgresql.org/wiki/Tuning_Your_PostgreSQL_Server

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    Note that your OS cache will also be crucial if you are dealing with a lot of TOAST-able (varlena) data types like text-containing rows that exceed 8K (the pg page size), since while the pointers to the TOASTed attribute values may be cached in shared_buffers, the actual value may be stored in a separate file. (see postgresql.org/docs/current/static/storage-toast.html) – cowbert Sep 6 '17 at 21:14

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