I am having issues with a CoreData-based iOS app when it tries to build the initial DB from data sent from the server. Basically, the server sends down 1MB chunks of objects (about 3,000 per chunk), and the iOS client deserializes them and writes them into disk.
What I'm seeing is that everything is going pretty well for about the first 8 chunks (out of 44), then performance drops off dramatically and each chunk starts taking longer and longer, as in the image below. Pretty much all the time is consumed in
[NSManagedObjectContext save] as you can see in the Instruments profiling data, but also it appears that the app is no longer running at 100% of CPU for some reason, like it's waiting on disk I/O or something.
A few important facts about how I'm doing this:
Each chunk is processed in its own
NSManagedObjectContextwith its own
NSAutoreleasePool, so there is no object build-up in a non-flushed context between processing of chunks.
There is no
NSUndoManagerset on any of the contexts.
There is no
mergeChangesFromContextDidSaveNotification:going on (i.e. the chunk contexts aren't pushing their changes into a "master" context)
I'm using a SQLite-based datastore on iOS 4.3.
The records being written do have indexes on them.
The entire sync job is processed on a single GCD background thread (i.e.
I have no idea why the performance suddenly drops off like that or what can be done to address it. I have poked around and read the following, but nothing has jumped out at me yet:
Any ideas or pointers for making this app scale up to 100,000 records in the database would be much appreciated.
Edit - extra stats
This Instruments graph shows the same simulation as above (on iPad2), but includes the disk activity stats and you can see pretty plainly that all of the "not running at 100% CPU" time seems to be taken up with writing to disk.
I also ran same sync attempt running on the iOS simulator. Overall memory usage is more or less constant for each chunk except for a dictionary that contains object IDs that grows slightly over time (but these are not CoreData objects or anything that would affect saves, they are just NSNumbers). This dict is a small amount of memory compared to the total heap and so the problem is not running out of memory.
What is interesting about this test is that the CoreData Save instrument reports that the successive saves take roughly the same amount of time, which obviously conflicts with the CPU profiling information from the first set of results. It seems like CoreData thinks it is taking the same amount of time to push changes to the DB, but the DB itself (i.e. SQLite) suddenly takes a lot longer to actually stream those changes to disk.