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My current project requires me to insert and or update a good proportion of the rows in a moderate sized table every day (sometimes more than once a day). The table is a fairly standard OLAP shape (kp = key part, m = measure, n from 10 to 50):

kp1, kp2, kp3, m1, m2, ..., mn

The table will, as shown, typically have a three part primary key and anywhere from about 10 to maybe 50 columns containing numeric measures. Not all columns will be filled for all rows, in fact that is quite rare. The table I'm currently working with contains a bit over 4 million rows but could easily be double that. The database is MySQL 5.5.20.

In an ideal world the client would supply me with only the data that has changed since the last update (which would typically be about 50,000 rows) but what they actually supply is all the historic data as well some of which may have had corrections applied to it.

This means that I'm supplied with an update file containing about 4 million rows of which most exist in the table but some of which don't. The vast majority of the supplied data is the same as in the database but some has changed and I can't predict which.

The update file is in XML but is essentially rows structured like this:


Note how rows have different measures that require updating and even different numbers of measures that need updating. If that wasn't enough here's the real problem, I can't just truncate the table and re-load the data from the update file because some of the measures are hand crafted and must be preserved.

What I'm currently doing is this:

  • Run through the update file (parsing with SAX) building a csv file containing all the keys
  • Use LOAD DATA INFILE with the IGNORE option to create any new rows that are needed. This processes at about 4700 rows/second on my machine (see note 1 below).
  • Run through the update file a second time issuing updates.

The insert step isn't as fast as I would like but I could live with it, the updates though are far to slow but I think I already have them optimized as far as possible. Currently I batch together updates that modify the same measures into groups of 1000 and submit them with a single prepared statement and single transaction using addBatch / executeBatch. The batches are passed to an Executor which is set to provide 30 threads which seems to be about the optimal number. This gives me a throughput of about 1700 rows/second on average.

I tried using INSERT ... ON DUPLICATE KEY UPDATE which would allow me to run through the update file just once but the performance wasn't a patch on running the inserts and updates separately.

Any ideas on how I could speed this up? I'd like to get the update rows/second up to the same as the insert speed at least. I have a feeling that disk IO may be the limiting factor as processor usage is fairly low but I'm not sure of the best way to prove that is the case.

Cheers for any help.

Note 1: My machine: Core i7, 8GB, 5400 rpm HD.

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I assume you are reading the table first so that you only update rows which have actually changed? A 5400 RPM drive is pretty slow. Even a cheap 7200 RPM would be faster. An SSD could be 10x faster or more. –  Peter Lawrey Sep 12 '12 at 14:57
I should say that this testing is on my development machine. The server this will eventually be deployed on has a (much) faster disk array. However I still need higher performance. Ideally I need to get the update down to about 10 minutes. I haven't tried to discover just those rows that have changed because that would require 4 million selects as well as a lot of updates. Strikes me that would be slower than just updating. –  wobblycogs Sep 12 '12 at 15:05
Reading from continuously from disk is much faster than committing to disk. If you have the memory, I would read the 4 million entires with one select and if you don't have the memory, I would get more. ;) From what you say, it sounds like you could cut the number of updates by a factor of 100 to 10,000. –  Peter Lawrey Sep 12 '12 at 15:08
It's tempting and it's possible that I could hold all 4 million rows in memory with the hardware I have but this table will grow much larger and I can't just keep adding memory (licences for a certain virtualization product become too expensive if nothing else). –  wobblycogs Sep 12 '12 at 15:16
I would expect increasing the memory proportionally to the table size might be easier than increasing the update speed in proportion to the table size. You can buy a server with 48 GB for $5000 these days. ;) –  Peter Lawrey Sep 12 '12 at 15:32

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