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Category: Performance Tuning

Explaining Cost in Oracle

Published 2025-05-29 by Kevin Feasel

Kellyn Gorman knows the cost:

When you first begin your journey into Oracle performance tuning, you quickly discover that you’re not just working with databases, you’re deciphering a complex system of rules, statistics, and estimations.  I was reminded by Connor McDonald in a post he made on LinkedIn about one of the most influential turning points in my career as a database professional came when I encountered Wolfgang Breitling’s 2003 paper – A Look Under the Hood of the CBO: the 10053 Event. At a time when I was focused on tuning queries for speed, Breitling’s work redefined how I thought about cost, and more importantly, how Oracle thinks about cost.

Click through for more information. Although SQL Server’s cost estimation process is different, the underlying reasoning and many of the mechanisms involved are the same.

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Last Page Insert Contention

Published 2025-05-15 by Kevin Feasel

Haripriya Naidu is trying to slam a lot of transactions through the same door:

When operations wait to acquire a latch on a page, you’ll see a wait type called PAGELATCH. A latch is a lightweight lock. PAGELATCH waits typically occur in TempDB on pages like PFS, GAM, SGAM, or system object pages.

Normally, you won’t see PAGELATCH waits in user databases because user objects don’t usually experience the same level of concurrent inserts/updates/deletes as temp tables do.

But, there is one case where this can happen:
When many concurrent transactions try to insert into the last page of a table, they all compete for a latch on that page. This results in last page insert contention.

Read on to see when this happens, as well as a demonstration of it. Haripriya then uses a bit of functionality that is available in recent versions of SQL Server to resolve the issue.

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Troubleshooting resmgr:cpu quantum in Oracle

Published 2025-05-13 by Kevin Feasel

Kellyn Gorman continues a series on performance tuning in Oracle:

Let’s break it down:

  • RESMGR = Oracle Resource Manager
  • CPU Quantum = The time slice a session is allowed to consume CPU

This wait event indicates that a session is throttled by Oracle Resource Manager because it’s trying to use more CPU than its current consumer group allows. This is intentional: Resource Manager is designed to prevent a single user or group from monopolizing system resources.

Read on to learn more about this wait type and what you can do if you experience it.

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Checking SQL Server for tempdb Performance Issues

Published 2025-05-09 by Kevin Feasel

Jeff Iannucci announces a new stored procedure:

Most database folks might know the tempdb database in SQL Server is used for temporary tables, but many folks don’t realize all the other things that use this critical system database.

It’s also used by table variables, cursors, aggregations, joins, and sorts. And by memory spills when you don’t have enough memory. And by integrity checks that you run regularly to check for corruption. And more.

Optimal performance of tempdb is vital, as it is involved constantly with all your database queries. So…is your tempdb configured and running optimally? And if it isn’t, can you tell why?

Click through to see how it works and where you can get a free copy.

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SQL Server Performance Office Hours Episode 10

Published 2025-05-06 by Kevin Feasel

Erik Darling has some doozies today:

Many of our Tables have 15 plus guid s from other tables, but not declared as Foreign Key. Plus Foreigne Keys. When I add a Index on for every Foreign Key plus Indexes for declared foreign keys we end up with tables with 30 plus indexes for fks only. We don’t have write performance issues. would you index every fk for every possible join?

Click through for the answer to this and four other questions.

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SQL Server Performance Office Hours

Published 2025-04-29 by Kevin Feasel

Erik Darling is answering questions again:

My company (using SQL Server 2019 Standard) has an algorithm that keys addresses into a varchar(40) has a cross-reference database that assigns an identity property to each new value, allowing us to post the numeric in our datasets. Production has to search their generated string keys in this database’s table to get the integer key in return. We have ensured proper string data typing on lookups and have unique compressed indexes on the string values. What would your next tuning step be if this was not getting the performance you needed?

There’s a good set of questions this time, so click through for Erik’s answers.

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Expression Reordering in PostgreSQL

Published 2025-04-23 by Kevin Feasel

Andrei Lepikhov speeds up a query:

Occasionally, you may come across queries featuring complex filters similar to the following:

SELECT * FROM table
WHERE
  date > min_date AND
  date < now() - interval '1 day' AND
  value IN Subplan AND
  id = 42';

And in practice, it happens that a simple rearrangement of the order of conditions in such an expression allows for speeding up (sometimes quite notably) the query execution time. Why?

Read on for the answer. In a perfect world, SQL is a 4th generation language and the order of operations should make zero difference for query performance. In practice, as Andrei shows, this is a challenge for the developers of the relational databases we use.

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Comparing Varieties of Statistics in SQL Server

Published 2025-04-15 by Kevin Feasel

Kendra Little gets the smorgasbord:

Statistics in SQL Server are simple in theory: they help the optimizer estimate how many rows a query might return.

In practice? Things get weird fast. Especially when you start filtering on multiple columns, or wondering why the optimizer thinks millions of rows are coming back when you know it’s more like a few hundred thousand.

In this post, I’ll walk through examples using single-column, multi-column, and filtered statistics—and show where estimates go off the rails, when they get back on track, and why that doesn’t always mean you need to update everything with FULLSCAN.

Read on for a review of the three types of statistics. Admittedly, I’ve never had much luck with filtered statistics improving the performance of queries. If I were to speculate, I’d say that they’re good for a very specific type of problem that maybe I just don’t run into that often.

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