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So for some research work, I need to analyze a ton of raw movement data (currently almost a gig of data, and growing) and spit out quantitative information and plots.

I wrote most of it using Groovy (with JFreeChart for charting) and when performance became an issue, I rewrote the core parts in Java.

The problem is that analysis and plotting takes about a minute, whereas loading all of the data takes about 5-10 minutes. As you can imagine, this gets really annoying when I want to make small changes to plots and see the output.

I have a couple ideas on fixing this:

1) Load all of the data into a SQLite database. Pros: It'll be fast. I'll be able to run SQL to get aggregate data if I need to.

Cons: I have to write all that code. Also, for some of the plots, I need access to each point of data, so loading a couple hundred thousand files, some parts may still be slow.

2) Java RMI to return the object. All the data gets loaded into one root object, which, when serialized, is about 200 megs. I'm not sure how long it would take to transfer a 200meg object through RMI. (same client).

I'd have to run the server and load all the data but that's not a big deal.

Major pro: this should take the least amount of time to write

3) Run a server that loads the data and executes a groovy script on command within the server vm. Overall, this seems like the best idea (for implementation time vs performance as well as other long term benefits)

What I'd like to know is have other people tackled this problem?

Post-analysis (3/29/2011): A couple months after writing this question, I ended up having to learn R to run some statistics. Using R was far, far easier and faster for data analysis and aggregation than what I was doing.

Eventually, I ended up using Java do run preliminary aggregation, and then ran everything else in R. R was also much easier to make beautiful charts than using JFreeChart.

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6 Answers 6

up vote 5 down vote accepted

Databases are very scalable, if you are going to have massive amounts of data. In MS SQL we currently group/sum/filter about 30GB of data in 4 minutes (somewhere around 17 million records I think).

If the data is not going to grow very much, then I'd try out approach #2. You can make a simple test application that creates a 200-400mb object with random data and test the performance of transferring it before deciding if you want to go that route.

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I know databases are overall the best bet and the most scalable and what not. If I was writing an actual application, it would be no question. I think you're right though, if #2 can be accomplished with a minimal performance hit (since it can be implemented in about 5 lines of code), that may be my best bet. –  Reverend Gonzo Nov 4 '09 at 2:35
    
@Rev - not "the most scalable". Technologies like Hadoop are more scalable. –  Stephen C Nov 4 '09 at 4:37

Before you make a decision its probably worth understanding what is going on with your JVM as well as your physical system resources.

There are several factors that could be at play here:

  • jvm heap size
  • garbage collection algorithms
  • how much physical memory you have
  • how you load the data - is it from a file that is fragmented all over the disk?
  • do you even need to load all of the data at once - can it be done it batches
  • if you are doing it in batches you can vary the batch size and see what happens
  • if your system has multiple cores perhaps you could look at using more than one thread at a time to process/load data
  • if using multiple cores already and disk I/O is the bottleneck, perhaps you could try loading from different disks at the same time

You should also look at http://java.sun.com/javase/technologies/hotspot/vmoptions.jsp if you aren't familiar with the settings for the VM.

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If your data have a relational properties, there are nothing more natural than storing it at some SQL database. There you can solve your biggest problem -- performance, costing "just" to write your appropriate SQL code.

Seems very plain to me.

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I'd look into analysis using R. It's a statistical language with graphing capabilities. It could put you ahead, especially if that's the kind of analysis you intend to do. Why write all that code?

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That's a good idea, but not exactly feasible right now or for this project. While I've heard of R, I can't rewrite all my data analysis in a different language, while learning it. –  Reverend Gonzo Nov 4 '09 at 2:31
    
Coming back about a year a half later. I ended up learning R when I had to run some statistics that I couldn't easily do in Java. Once having learned R, I wish I just used that from the start. Everything, and I mean everything, was worlds easier. –  Reverend Gonzo Mar 30 '11 at 1:12

I would recommend running a profiler to see what part of the loading process is taking the most time and if there's a possible quick win optimization. You can download an evaluation license of JProfiler or YourKit.

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Ah, yes: large data structures in Java. Good luck with that, surviving "death by garbage collection" and all. What java seems to do best is wrapping a UI around some other processing engine, although it does free developers from most memory management tasks -- for a price. If it were me, I would most likely do the heavy crunching in Perl (having had to recode several chunks of a batch system in perl instead of java in a past job for performance reasons), then spit the results back to your existing graphing code.

However, given your suggested choices, you probably want to go with the SQL DB route. Just make sure that it really is faster for a few sample queries, watch the query-plan data and all that (assuming your system will log or interactively show such details)

Edit,(to Jim Ferrans) re: java big-N faster than perl (comment below): the benchmarks you referenced are primarily little "arithmetic" loops, rather than something that does a few hundred MB of IO and stores it in a Map / %hash / Dictionary / associative-array for later revisiting. Java I/O might have gotten better, but I suspect all the abstractness still makes it comparitively slow, and I know the GC is a killer. I haven't checked this lately, I don't process multi-GB data files on a daily basis at my current job, like I used to.

Feeding the trolls (12/21): I measured Perl to be faster than Java for doing a bunch of sequential string processing. In fact, depending on which machine I used, Perl was between 3 and 25 times faster than Java for this kind of work (batch + string). Of course, the particular thrash-test I put together did not involve any numeric work, which I suspect Java would have done a bit better, nor did it involve caching a lot of data in a Map/hash, which I suspect Perl would have done a bit better. Note that Java did much better at using large numbers of threads, though.

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Huh?? Perl is 30-100x slower than Java, see coderanch.com/t/201887/Performance/java/Java-vs-Perl-Speed or shootout.alioth.debian.org/u32/perl.php. –  Jim Ferrans Nov 4 '09 at 2:44
    
There are plenty of IO sins to commit in Java, but simply not doing it wrong can help a lot: java.sun.com/developer/technicalArticles/Programming/PerfTuning –  Carl Nov 4 '09 at 4:44
    
-1 - Skimmed your blog, and its mostly opinion (no verifiable facts) and a lot of factual inaccuracies. For instance no modern JVM uses a mark and sweep garbage collector. I suspect that a lot of your "poor results" with Java were actually caused by doing things the wrong way. But of course, there's no way of knowing without concrete examples. –  Stephen C Nov 4 '09 at 4:46
    
I shall have to correct the lack of sample programs and measured stats. The I/O & memory benchmarks I wrote were for a past employer several years ago under java 1.3 and an early perl 5.0. As to "doiing I/O wrong", I called readLine() on a BufferedReader vs $buf = <IN>, and some random access in some cases. However, the biggest problems I ran into involved saving a few thousand Map entries for reference lookups in memory. I realize that there are enhanced non-reference-counting GC algoriths, but they still conceptually require a fair amount of heap walking. –  Roboprog Nov 4 '09 at 15:17
    
This may have been true 8 years ago but Java has moved on even if your opinions of it haven't. –  Jared Nov 4 '09 at 18:30

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