I normally compress using tar zcvf and decompress using tar zxvf (using gzip due to habit).

I've recently gotten a quad core CPU with hyperthreading, so I have 8 logical cores, and I notice that many of the cores are unused during compression/decompression.

Is there any way I can utilize the unused cores to make it faster?

  • The solution proposed by Xiong Chiamiov above works beautifully. I had just backed up my laptop with .tar.bz2 and it took 132 minutes using only one cpu thread. Then I compiled and installed tar from source: gnu.org/software/tar I included the options mentioned in the configure step: ./configure --with-gzip=pigz --with-bzip2=lbzip2 --with-lzip=plzip I ran the backup again and it took only 32 minutes. That's better than 4X improvement! I watched the system monitor and it kept all 4 cpus (8 threads) flatlined at 100% the whole time. THAT is the best solution. Nov 13, 2017 at 4:37

8 Answers 8


You can also use the tar flag --use-compress-program= to tell tar what compression program to use.

For example use:

tar -c --use-compress-program=pigz -f tar.file dir_to_zip 
  • 36
    This is an awesome little nugget of knowledge and deserves more upvotes. I had no idea this option even existed and I've read the man page a few times over the years. Nov 13, 2013 at 10:01
  • 2
    @ValerioSchiavoni: Not here, I get full load on all 4 cores (Ubuntu 15.04 'Vivid').
    – bovender
    Sep 18, 2015 at 10:14
  • 11
    I prefer tar - dir_to_zip | pv | pigz > tar.file pv helps me estimate, you can skip it. But still it easier to write and remember.
    – Offenso
    Jan 11, 2017 at 17:26
  • @NathanS.Watson-Haigh Yes do you. Just enclose the program name and arguments in quotes. man tar says so, as does this.
    – Marc.2377
    Feb 1, 2020 at 0:25
  • 17
    In 2020, zstd is the fastest tool to do this. Noticeable speedup while compressing and decompressing. Use tar -cf --use-compress-program=zstdmt to do so with multi-threading.
    – jadelord
    Feb 5, 2020 at 12:42

You can use pigz instead of gzip, which does gzip compression on multiple cores. Instead of using the -z option, you would pipe it through pigz:

tar cf - paths-to-archive | pigz > archive.tar.gz

By default, pigz uses the number of available cores, or eight if it could not query that. You can ask for more with -p n, e.g. -p 32. pigz has the same options as gzip, so you can request better compression with -9. E.g.

tar cf - paths-to-archive | pigz -9 -p 32 > archive.tar.gz
  • 7
    How do you use pigz to decompress in the same fashion? Or does it only work for compression?
    – user788171
    Feb 20, 2013 at 12:43
  • 66
    pigz does use multiple cores for decompression, but only with limited improvement over a single core. The deflate format does not lend itself to parallel decompression. The decompression portion must be done serially. The other cores for pigz decompression are used for reading, writing, and calculating the CRC. When compressing on the other hand, pigz gets close to a factor of n improvement with n cores.
    – Mark Adler
    Feb 20, 2013 at 16:18
  • 10
    The hyphen here is stdout (see this page).
    – Garrett
    Mar 1, 2014 at 7:26
  • 4
    Yes. 100% compatible in both directions.
    – Mark Adler
    Jul 2, 2014 at 21:29
  • 8
    There is effectively no CPU time spent tarring, so it wouldn't help much. The tar format is just a copy of the input file with header blocks in between files.
    – Mark Adler
    Apr 23, 2015 at 5:23

Common approach

There is option for tar program:

-I, --use-compress-program PROG
      filter through PROG (must accept -d)

You can use multithread version of archiver or compressor utility.

Most popular multithread archivers are pigz (instead of gzip) and pbzip2 (instead of bzip2). For instance:

$ tar -I pbzip2 -cf OUTPUT_FILE.tar.bz2 paths_to_archive
$ tar --use-compress-program=pigz -cf OUTPUT_FILE.tar.gz paths_to_archive

Archiver must accept -d. If your replacement utility hasn't this parameter and/or you need specify additional parameters, then use pipes (add parameters if necessary):

$ tar cf - paths_to_archive | pbzip2 > OUTPUT_FILE.tar.gz
$ tar cf - paths_to_archive | pigz > OUTPUT_FILE.tar.gz

Input and output of singlethread and multithread are compatible. You can compress using multithread version and decompress using singlethread version and vice versa.


For p7zip for compression you need a small shell script like the following:

case $1 in
  -d) 7za -txz -si -so e;;
   *) 7za -txz -si -so a .;;
esac 2>/dev/null

Save it as 7zhelper.sh. Here the example of usage:

$ tar -I 7zhelper.sh -cf OUTPUT_FILE.tar.7z paths_to_archive
$ tar -I 7zhelper.sh -xf OUTPUT_FILE.tar.7z


Regarding multithreaded XZ support. If you are running version 5.2.0 or above of XZ Utils, you can utilize multiple cores for compression by setting -T or --threads to an appropriate value via the environmental variable XZ_DEFAULTS (e.g. XZ_DEFAULTS="-T 0").

This is a fragment of man for 5.1.0alpha version:

Multithreaded compression and decompression are not implemented yet, so this option has no effect for now.

However this will not work for decompression of files that haven't also been compressed with threading enabled. From man for version 5.2.2:

Threaded decompression hasn't been implemented yet. It will only work on files that contain multiple blocks with size information in block headers. All files compressed in multi-threaded mode meet this condition, but files compressed in single-threaded mode don't even if --block-size=size is used.

Recompiling with replacement

If you build tar from sources, then you can recompile with parameters


After recompiling tar with these options you can check the output of tar's help:

$ tar --help | grep "lbzip2\|plzip\|pigz"
  -j, --bzip2                filter the archive through lbzip2
      --lzip                 filter the archive through plzip
  -z, --gzip, --gunzip, --ungzip   filter the archive through pigz
  • 1
    This is indeed the best answer. I'll definitely rebuild my tar!
    – user1985657
    Apr 28, 2015 at 20:41
  • 1
    I just found pbzip2 and mpibzip2. mpibzip2 looks very promising for clusters or if you have a laptop and a multicore desktop computer for instance.
    – user1985657
    Apr 28, 2015 at 20:57
  • This is a great and elaborate answer. It may be good to mention that multithreaded compression (e.g. with pigz) is only enabled when it reads from the file. Processing STDIN may in fact be slower. Jun 10, 2015 at 17:39
  • 4
    Plus 1 for xz option. It the simplest, yet effective approach.
    – selurvedu
    May 26, 2016 at 22:13
  • 5
    export XZ_DEFAULTS="-T 0" before calling tar with option -J for xz compression works like a charm.
    – scai
    Dec 21, 2018 at 15:24

You can use the shortcut -I for tar's --use-compress-program switch, and invoke pbzip2 for bzip2 compression on multiple cores:

tar -I pbzip2 -cf OUTPUT_FILE.tar.bz2 DIRECTORY_TO_COMPRESS/
  • A nice TL;DR for @MaximSuslov's answer.
    – einpoklum
    Feb 11, 2017 at 15:59
  • This returns tar: home/cc/ziptest: Cannot stat: No such file or directory tar: Exiting with failure status due to previous errors `
    – Arash
    Mar 25, 2020 at 0:48

If you want to have more flexibility with filenames and compression options, you can use:

find /my/path/ -type f -name "*.sql" -o -name "*.log" -exec \
tar -P --transform='s@/my/path/@@g' -cf - {} + | \
pigz -9 -p 4 > myarchive.tar.gz

Step 1: find

find /my/path/ -type f -name "*.sql" -o -name "*.log" -exec

This command will look for the files you want to archive, in this case /my/path/*.sql and /my/path/*.log. Add as many -o -name "pattern" as you want.

-exec will execute the next command using the results of find: tar

Step 2: tar

tar -P --transform='s@/my/path/@@g' -cf - {} +

--transform is a simple string replacement parameter. It will strip the path of the files from the archive so the tarball's root becomes the current directory when extracting. Note that you can't use -C option to change directory as you'll lose benefits of find: all files of the directory would be included.

-P tells tar to use absolute paths, so it doesn't trigger the warning "Removing leading `/' from member names". Leading '/' with be removed by --transform anyway.

-cf - tells tar to use the tarball name we'll specify later

{} + uses everyfiles that find found previously

Step 3: pigz

pigz -9 -p 4

Use as many parameters as you want. In this case -9 is the compression level and -p 4 is the number of cores dedicated to compression. If you run this on a heavy loaded webserver, you probably don't want to use all available cores.

Step 4: archive name

> myarchive.tar.gz


  • If you have too many files, then the -exec tar create is called multiple times, therefore piping multiple archives to stdout. I don't think you will get a valid archive this way.
    – toaster
    Apr 9 at 11:09

A relatively newer (de)compression tool you might want to consider is zstandard. It does an excellent job of utilizing spare cores, and it has made some great trade-offs when it comes to compression ratio vs. (de)compression time. It is also highly tweak-able depending on your compression ratio needs.


You can speed up decompression by using a multi-threaded gzip decoder like rapidgzip. You can use it with tar like this:

python3 -m pip install --user rapidgzip
tar -x --use-compress-program=rapidgzip -f archive.tar

With a Ryzen 3900X 12-core processor, it can easily achieve a 12x speedup for simple gzip decompression, not accounting for GNU tar. These are the results for a 4 GiB large file (compressed size: 3.1 GiB):

Decoder Runtime / s Bandwidth / (MB/s)
rapidgzip -P 24 1.320 3254
rapidgzip -P 1 8.811 487
igzip -T 24 9.295 462
igzip 9.225 466
bgzip -@ 24 15.962 269
bgzip 16.202 265
pigz 13.391 321
gzip 22.218 193

igzip is a good alternative as well. It can be installed with: sudo apt install isal. Just as pigz, it cannot arbitrarily parallelize decompression but, just as bgzip and pigz, it can parallelize compression with the --threads option.

A second alternative would be bgzip, which can be installed with: sudo apt install tabix. Although bgzip cannot parallelize decompression of arbitrary gzip files, it can parallelize decompression for files compressed with bgzip, see e.g. these benchmarks for the same file as above but compressed with bgzip:

Decoder Runtime / s Bandwidth / (MB/s)
rapidgzip -P 24 1.125 3818
rapidgzip -P 1 7.520 571
igzip -T 24 7.377 582
igzip 7.321 587
bgzip -@ 24 1.949 2204
bgzip 10.621 404
pigz 18.466 233
gzip 21.346 201

The code for the benchmarks can be found here.

  • I tried to use rapidgzip for compression, but not work. Decompression works fine. Any reason why? Aug 28, 2023 at 10:09
  • @StayFoolish It wasn't intended for compression. Parallel compression of gzip is a solved problem. You can use pigz or bgzip for that. However, parallel decompression of any gzip file only works with rapidgzip. I understand the desire to use rapidgzip as a drop-in-replacement for gzip, so I might add compression in the future.
    – mxmlnkn
    Aug 28, 2023 at 12:48

Here is an example for tar with modern zstd compressor, as finding out good examples on this one was difficult:

  • Do recursive and directiores (zstd standalone cannot do this)
  • apt poem to install zstd and pv utilities for Ubuntu
  • Compress multiple files and folders (zstd command alone can only do single files)
  • Display progress using pv - shows the total bytes compressed and compression speed GB/sec real-time
  • Use all physical cores with -T0
  • Set compression level higher than the default with -8
  • Display the resulting wall clock and CPU time used after the operation is finished using time
apt install zstd pv

time (cd $DATA_DIR && tar -cf - * | pv  | zstd -T0 -8 -o $TARGET)

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