Hyrise is a research in-memory database system that has been developed by HPI since 2009 and has been entirely rewritten in 2017. Our goal is to provide a clean and flexible platform for research in the area of in-memory data management. Its architecture allows us, our students, and other researchers to conduct experiments around new data management concepts. To enable realistic experiments, Hyrise features comprehensive SQL support and performs powerful query plan optimizations. Well-known benchmarks, such as TPC-H or TPC-DS, can be executed with a single command and without any preparation.
This readme file focuses on the technical aspects of the repository. For more background on our research and for a list of publications, please visit the Hyrise project page.
You can still find the (archived) previous version of Hyrise on Github.
When referencing this version of Hyrise, please use the following bibtex entry:
(click to expand)
@inproceedings{DBLP:conf/edbt/DreselerK0KUP19,
author = {Markus Dreseler and
Jan Kossmann and
Martin Boissier and
Stefan Klauck and
Matthias Uflacker and
Hasso Plattner},
editor = {Melanie Herschel and
Helena Galhardas and
Berthold Reinwald and
Irini Fundulaki and
Carsten Binnig and
Zoi Kaoudi},
title = {Hyrise Re-engineered: An Extensible Database System for Research in
Relational In-Memory Data Management},
booktitle = {Advances in Database Technology - 22nd International Conference on
Extending Database Technology, {EDBT} 2019, Lisbon, Portugal, March
26-29, 2019},
pages = {313--324},
publisher = {OpenProceedings.org},
year = {2019},
url = {https://doi.org/10.5441/002/edbt.2019.28},
doi = {10.5441/002/edbt.2019.28},
timestamp = {Mon, 18 Mar 2019 16:09:00 +0100},
biburl = {https://dblp.org/rec/conf/edbt/DreselerK0KUP19.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Hyrise is developed for Linux (preferrably the most current Ubuntu version) and optimized to run on server hardware. We support Mac to facilitate the local development of Hyrise, but do not recommend it for benchmarking.
We support a number of benchmarks out of the box. This makes it easy to generate performance numbers without having to set up the data generation, loading CSVs, and finding a query runner. You can run them using the ./hyriseBenchmark*
binaries.
Benchmark | Notes |
---|---|
TPC-DS | Query Plans |
TPC-H | Query Plans |
Join Order | Query Plans |
JCC-H | Call the hyriseBenchmarkTPCH binary with the -j flag. |
TPC-C | In development, no proper optimization done yet |
Have a look at our contributor guidelines.
You can find definitions of most of the terms and abbreviations used in the code in the glossary. If you cannot find something that you are looking for, feel free to open an issue.
The Step by Step Guide is a good starting point to get to know Hyrise.
You can install the dependencies on your own or use the install_dependencies.sh script (recommended) which installs all of the therein listed dependencies and submodules. The install script was tested under macOS Big Sur (10.16) and Ubuntu 20.10 (apt-get).
See dependencies for a detailed list of dependencies to use with brew install
or apt-get install
, depending on your platform. As compilers, we generally use the most recent version of clang and gcc (Linux only). Please make sure that the system compiler points to the most recent version or use cmake (see below) accordingly.
Older versions may work, but are neither tested nor supported.
Note about LLVM 13 and TBB 2021: Hyrise can currently not be built with LLVM 13. We hope to get LLVM 13 running soon. For TBB, please use a 2020*
version until uxlfoundation/oneTBB#378 is resolved. On MacOS with brew, LLVM 12 and TBB 2020 can be installed as follows: brew install tbb@2020 && brew install llvm@12
If you want to create a Docker-based development environment using CLion, head over to our dedicated tutorial.
Otherwise, to get all dependencies of Hyrise into a Docker image, run
docker build -t hyrise .
You can start the container via
docker run -it hyrise
Inside the container, you can then checkout Hyrise and run ./install_dependencies.sh
to download the required submodules.
It is highly recommended to perform out-of-source builds, i.e., creating a separate directory for the build.
Advisable names for this directory would be cmake-build-{debug,release}
, depending on the build type.
Within this directory call cmake ..
to configure the build.
By default, we use very strict compiler flags (beyond -Wextra
, including -Werror
). If you use one of the officially supported environments, this should not be an issue. If you simply want to test Hyrise on a different system and run into issues, you can call cmake -DHYRISE_RELAXED_BUILD=On ..
, which will disable these strict checks.
Subsequent calls to CMake, e.g., when adding files to the build will not be necessary, the generated Makefiles will take care of that.
CMake will default to your system's default compiler.
To use a different one, call cmake -DCMAKE_C_COMPILER=clang -DCMAKE_CXX_COMPILER=clang++ ..
in a clean build directory. See dependencies for supported compiler versions.
Starting with cmake 3.16, you can use -DCMAKE_UNITY_BUILD=On
to perform unity builds. For a complete (re-)build or when multiple files have to be rebuilt, these are usually faster, as the relative cost of starting a compiler process and loading the most common headers is reduced. However, this only makes sense for debug builds. See our blog post on reducing the compilation time for details.
For development, you may want to use ccache, which reduces the time needed for recompiles significantly. Especially when switching branches, this can reduce the time to recompile from several minutes to one or less. On the downside, we have seen random build failures on our CI server, which is why we do not recommend ccache anymore but merely list it as an option. To use ccache, add -DCMAKE_CXX_COMPILER_LAUNCHER=ccache
to your cmake call. You will need to adjust some ccache settings either in your environment variables or in your ccache config so that ccache can handle the precompiled headers. On our CI server, this worked for us: CCACHE_SLOPPINESS=file_macro,pch_defines,time_macros CCACHE_DEPEND=1
.
Simply call make -j*
, where *
denotes the number of threads to use.
Usually debug binaries are created.
To configure a build directory for a release build make sure it is empty and call CMake like cmake -DCMAKE_BUILD_TYPE=Release
./scripts/lint.sh
(Google's cpplint is used for the database code. In addition, we use flake8 for linting the Python scripts under /scripts.)
./scripts/format.sh
(clang-format is used for the database code. We use black for formatting the Python scripts under /scripts.)
Calling make hyriseTest
from the build directory builds all available tests.
The binary can be executed with ./<YourBuildDirectory>/hyriseTest
.
Subsets of all available tests can be selected via --gtest_filter=
.
./scripts/coverage.sh
will print a summary to the command line and create detailed html reports at ./coverage/index.html
Supports only clang on MacOS and only gcc on linux
cmake -DENABLE_ADDR_UB_SANITIZATION=ON
will generate Makefiles with AddressSanitizer and Undefined Behavior options.
Compile and run them as normal - if any issues are detected, they will be printed to the console.
It will fail on the first detected error and will print a summary.
To convert addresses to actual source code locations, make sure llvm-symbolizer is installed (included in the llvm package) and is available in $PATH
.
To specify a custom location for the symbolizer, set $ASAN_SYMBOLIZER_PATH
to the path of the executable.
This seems to work out of the box on macOS - If not, make sure to have llvm installed.
The binary can be executed with LSAN_OPTIONS=suppressions=asan-ignore.txt ./<YourBuildDirectory>/hyriseTest
.
cmake -DENABLE_THREAD_SANITIZATION=ON
will work as above but with the ThreadSanitizer. Some sanitizers are mutually exclusive, which is why we use two configurations for this.
When trying to optimize the time spent building the project, it is often helpful to have an idea how much time is spent where.
scripts/compile_time.sh
helps with that. Get usage instructions by running it without any arguments.
- Jan Kossmann
- Martin Boissier
- Stefan Halfpap
Contact: firstname.lastname@hpi.de
- Markus Dreseler
- Yannick Bäumer
- Lawrence Benson
- Timo Djürken
- Alexander Dubrawski
- Fabian Dumke
- Leonard Geier
- Richard Ebeling
- Fabian Engel
- Moritz Eyssen
- Martin Fischer
- Christian Flach
- Pedro Flemming
- Mathias Flüggen
- Johannes Frohnhofen
- Pascal Führlich
- Carl Gödecken
- Adrian Holfter
- Ben Hurdelhey
- Sven Ihde
- Ivan Illic
- Jonathan Janetzki
- Michael Janke
- Max Jendruk
- David Justen
- Youri Kaminsky
- Marvin Keller
- Mirko Krause
- Eva Krebs
- Sven Lehmann
- Till Lehmann
- Tom Lichtenstein
- Daniel Lindner
- Alexander Löser
- Jan Mattfeld
- Arne Mayer
- Dominik Meier
- Julian Menzler
- Torben Meyer
- Leander Neiß
- Hendrik Rätz
- Alexander Riese
- Johannes Schneider
- David Schumann
- Simon Siegert
- Arthur Silber
- Toni Stachewicz
- Daniel Stolpe
- Jonathan Striebel
- Nils Thamm
- Hendrik Tjabben
- Justin Trautmann
- Carsten Walther
- Marcel Weisgut
- Lukas Wenzel
- Fabian Wiebe
- Tim Zimmermann