For example, suppose you're looking for something within a given radius of a geographical point. The first tool in many programmers' toolbox is the great-circle (Haversine) formula for computing distance along the surface of a sphere. The problem with this technique is that the formula requires a lot of trigonometric operations, which are very CPU-intensive. Great-circle calculations tend to run slowly and make the machine's CPU utilization skyrocket.
Before applying the great-circle formula, pare down your records to a small subset of the total, and trim the resulting set to a precise circle. A square that contains the circle (precisely or imprecisely) is an easy way to do this. That way, the world outside the square never gets hit with all those costly trig functions.
MySQL performance tip No. 5: Know the two scalability death traps
Scalability is not as vague as you may believe. In fact, there are precise mathematical definitions of scalability that are expressed as equations. These equations highlight why systems don't scale as well as they should.
Take the Universal Scalability Law, a definition that is handy in expressing and quantifying a system's scalability characteristics. It explains scaling problems in terms of two fundamental costs: serialization and crosstalk.
Parallel processes that must halt for something serialized to take place are inherently limited in their scalability. Likewise, if the parallel processes need to chat with each other all the time to coordinate their work, they limit each other.
Avoid serialization and crosstalk, and your application will scale much better. What does this translate into inside of MySQL? It varies, but some examples would be avoiding exclusive locks on rows. Queues, point No. 3 above, tend to scale poorly for this reason.
MySQL performance tip No. 6: Don't focus too much on configuration
DBAs tend to spend a huge amount of time tweaking configurations. The result is usually not a big improvement and can sometimes even be very damaging. I've seen a lot of "optimized" servers that crashed constantly, ran out of memory, and performed poorly when the workload got a little more intense.
The defaults that ship with MySQL are one-size-fits-none and badly outdated, but you don't need to configure everything. It's better to get the fundamentals right and change other settings only if needed. In most cases, you can get 95 percent of the server's peak performance by setting about 10 options correctly. The few situations where this doesn't apply are going to be edge cases unique to your circumstances.
In most cases, server "tuning" tools aren't recommended because they tend to give guidelines that don't make sense for specific cases. Some even have dangerous, inaccurate advice coded into them -- such as cache hit ratios and memory consumption formulas. These were never right, and they've gotten even less correct as time has passed.
MySQL performance tip No. 7: Watch out for pagination queries
Applications that paginate tend to bring the server to its knees. In showing you a page of results, with a link to go to the next page, these applications typically group and sort in ways that can't use indexes, and they employ a
offset that causes the server to do a lot of work generating, then discarding rows.
Optimizations can often be found in the user interface itself. Instead of showing the exact number of pages in the results and links to each page individually, you can just show a link to the next page. You can also prevent people from going to pages too far from the first page.
On the query side, instead of using
offset, you can select one more row than you need, and when the user clicks the "next page" link, you can designate that final row as the starting point for the next set of results. For example, if the user viewed a page with rows 101 through 120, you would select row 121 as well; to render the next page, you'd query the server for rows greater than or equal to 121, limit 21.
MySQL performance tip No. 8: Save statistics eagerly, alert reluctantly
Monitoring and alerting are essential, but what happens to the typical monitoring system? It starts sending false positives, and system administrators set up email filtering rules to stop the noise. Soon your monitoring system is completely useless.
I like to think about monitoring in two ways: capturing metrics and alerting. It's very important to capture and save all the metrics you possibly can because you'll be glad to have them when you're trying to figure out what changed in the system. Someday, a strange problem will crop up, and you'll love the ability to point to a graph and show a change in the server's workload.