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Is there a very fast compression library for Java? The standard gzip library is slower than I would like. I'm looking for something similar to that's native Java code that provides fast compression and decompression. Thanks!

A few other fast compression libraries for future reference:

QuickLZ - C/C#/Java - GPL or commercial

libLZF - C - BSD style license

FastLZ - C - MIT style license

LZO C - GPL or commercial

zlib - C / Java (GZIP and deflate) - Commercial friendly license

Hadoop-LZO integration (JNI):

Snappy-Java (JNI):

Benchmarks from the QuickLZ folks:

share|improve this question
Do you need general purpose lossless compression for arbitrary data, or are there special features of your data that you can exploit? – mikera Oct 12 '10 at 19:21
Lossless compression only, please. – Joshua Martell Oct 12 '10 at 19:24
Of what? HTML for display? Random data to stream? A source .wav file? A source bitmap? What is going on with the data, and how many people will see the same thing (i.e. same data for everyone, or are these unique streams for each user). – bwawok Oct 13 '10 at 2:00
@bwawok, I'm storing lots of short bits, 5k or so, of binary encoded data that will need to be retrieved at random. I don't anticipate many requests for the same data. Data is compressing about 2x using GZIP. – Joshua Martell Oct 13 '10 at 2:44
Check out -- it tests Java versions (native for now, JNI-accessible ones in future) over arbitrary test files. JDK gzip is not, btw, slow, if used appropraite; however there are even faster ones (and slower like bzip2, but with higher compression) – StaxMan Mar 26 '11 at 6:33
up vote 31 down vote accepted

You could use the DeflatorOutputStream and InflatorInputStream. These both use LZW compression. You could just use the library they provide.

EDIT: Real time performance is usually measured in terms of latency, however you quote numbers in terms of throughtput. Could you clarify what you mean by real-time.

For latency, using the BEST_SPEED, each call took 220 ns + 13 ns/byte on average.

Note: in low latency situations you often get many times the latency you might expect when the CPU is running "hot". You have perform the timing in a realistic situation.

EDIT: This is the compression rates I got with Java 6 update 21;

Raw OutputStream.write() - 2485 MB/sec

Deflator.NO_COMPRESSION - 99 MB/s

Deflator.BEST_SPEED - 85 MB/s.

Deflator.FILTERED - 77 MB/s

Deflator.HUFFMAN_ONLY - 79 MB/s



Note: I am not sure why the default setting is faster than the "best speed" setting. I can only assume the former has been optimised.

The output buffer size was 4KB, you might find a different size is best for you.

EDIT: The following code prints for a large CSV file. The latency is for a 5KB block.

Average latency 48532 ns. Bandwidth 91.0 MB/s.
Average latency 52560 ns. Bandwidth 83.0 MB/s.
Average latency 47602 ns. Bandwidth 93.0 MB/s.
Average latency 51099 ns. Bandwidth 86.0 MB/s.
Average latency 47695 ns. Bandwidth 93.0 MB/s.


public class Main {
    public static void main(String... args) throws IOException {
        final String filename = args[0];
        final File file = new File(filename);
        DataInputStream dis = new DataInputStream(new FileInputStream(file));
        byte[] bytes = new byte[(int) file.length()];
        test(bytes, false);
        for (int i = 0; i < 5; i++)
            test(bytes, true);

    private static void test(byte[] bytes, boolean print) throws IOException {
        OutputStream out = new ByteOutputStream(bytes.length);
        Deflater def = new Deflater(Deflator.BEST_SPEED);
        DeflaterOutputStream dos = new DeflaterOutputStream(out, def, 4 * 1024);
        long start = System.nanoTime();
        int count = 0;
        int size = 5 * 1024;
        for (int i = 0; i < bytes.length - size; i += size, count++) {
            dos.write(bytes, i, size);
        long time = System.nanoTime() - start;
        long latency = time / count;
        // 1 byte per ns = 1000 MB/s.
        long bandwidth = (count * size * 1000L) / time;
        if (print)
            System.out.println("Average latency " + latency + " ns. Bandwidth " + bandwidth + " MB/s.");    
share|improve this answer
DeflatorOutputStream is the basis for the GZIPOutputStream which compresses at about the same speed: 10 MB/s. – Joshua Martell Oct 12 '10 at 22:41
The LZO compression claims 5+ MB/sec. If you are saying this isn't fast enough perhaps you should indicate what your requirement is. Given you haven't given much detail, you cannot expect a more specific answer. – Peter Lawrey Oct 13 '10 at 6:06
Perhaps you could also answer the question about what type of data you are trying to compress. What medium are you writing to? e.g. network or disk. What is the underlying speed? – Peter Lawrey Oct 13 '10 at 6:08
If you are only getting 10 MB/s, what hardware are you using? Is this a mobile device? – Peter Lawrey Oct 13 '10 at 7:54
There is an error in your code above. The Deflater constructor takes a level, not a strategy (both values are ints which is error-prone). Bottom line is that it's incorrect to write new Deflater(Deflater.DEFAULT_STRATEGY). That's the same as new Deflater(Deflater.NO_COMPRESSION) as DEFAULT_STRATEGY == 0 and NO_COMPRESSION == 0. That's why you get faster results with Deflater.DEFAULT_STRATEGY than with Deflater.BEST_SPEED. – ebruchez Jan 27 '11 at 19:32

More the merrier: there is a fast pure Java version of Snappy at github. It is currently the fastest pure java codec, and possibly the fastest codec from Java even including C codecs (as it is close in speed to native Snappy codec accessed via JNI).

So there are 3 fast Java decompressors: Snappy, LZF and LZ4 (see for details

EDIT (aug 2013): LZ4 is currently the fastest codec; Snappy and LZF share the 2nd slot. All have progressed nicely over past year or so, and are significantly faster than GZIP.

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One more; a very efficient (Java optimized, benchmarked) LZF implementation at Faster for decompression than deflate (gzip), 2x or so; and MUCH faster for compression (3x - 5x). Compression rate lower, since it's just the first part of deflate (Lempel-Ziv), without second part (huffman encoding); this explains most of speed difference.

Numbers as per JVM compressor benchmark:

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The fastest pure Java implementations of LZ4 and Snappy are here: There is a page comparing the performance of different java implementations here: LZ4 is faster and has a better compression ratio (typically) by a slim margin.

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I found that decompression time using LZ4 ( net.jpountz.lz4's lz4-1.2.0.jar) is up to 60 times faster than decompression time using GZIPInputStream. But compressed sizes are close (lz's compressed size is about 6% larger).

Here are decompression times for various versions, averaged over multiple reps. Each rep decompressed a compressed byte array 1000 times.

> 0.01 milliseconds for lz4 (native instance),
> 0.03 milliseconds for lz4 (safe instance)
> 0.05 milliseconds for lz4 (unsafe instance)
> 0.05 milliseconds for lz4 ("fastest" instance)
> 0.05 milliseconds for lz4 ("fastest Java" instance)
> 0.74 milliseconds for gzip (GZIPInputStream)
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