Category: Indexing

Laurenz Albe shares some advice:

People often ask “How can I automatically rebuild by indexes regularly?” or “When should I rebuild my indexes in PostgreSQL?”. That always gives me the feeling that they want to solve a problem that isn’t there. But the REINDEX statement is certainly there for a reason, and sometimes it is perfectly reasonable to rebuild an index. In this article, I’ll explain when it makes sense to rebuild an index and how you can get the relevant data to make that decision.

Read on to learn more.

David Fitzjarrell is looking for a speedup:

There may be times when the DBA wants, or needs, to know:

• What indexes are created against a given table
• How those indexes are built

Such information is critical to performance tuning or discovering why, when an index exists, it isn’t used. Let’s dig into this and see what we find.

Click through for some sample queries.

Jon Russell shares some thoughts:

Most database administrators are comfortable with the daily tasks of backup, CHECKDB, index maintenance, and statistics updates. The available guidance for those topics is extensive. Much less has been written about caring for estates that contain hundreds of databases—or a single database large enough to strain conventional maintenance windows. This post will focus on options that help when individual tables or complete databases grow beyond the point where “standard” maintenance jobs finish in a reasonable time.

Click through for Jon’s advice. My big thing is to stop worrying and learn to love the bomb fragmentation. Index fragmentation was very important back in the days of spinning disk, where accessing pages took much longer if you needed to move the disk head. With NVMe storage, all-flash arrays, and even more prosaic solid state drives, random access is typically at least as fast as sequential access, so there’s no real benefit to having pages of data be contiguous.

Stephen Planck explains the value (and limitations) of filtered indexes:

When a table holds millions of rows yet most queries touch only a small, well-defined subset, a traditional non-clustered index feels like using a searchlight to find something sitting under a desk lamp: the index still stores an entry for every row even though the workload rarely needs most of them. SQL Server’s answer is the filtered index—introduced in SQL Server 2008 and still under-used today—allowing you to index just the rows that match a predicate you supply in a WHERE clause.

I always thought I would get more value out of filtered indexes. Instead, they’re very useful for specific circumstances, but not the all-purpose performance dynamos you’d want them to be, particularly because of the limitations.