Basic Installation🔗
This page contains generic installation instructions for Nominatim and its prerequisites. There are also step-by-step instructions available for the following operating systems:
These OS-specific instructions can also be found in executable form
in the vagrant/
directory.
Users have created instructions for other frameworks. We haven't tested those and can't offer support.
Prerequisites🔗
Software🔗
Warning
For larger installations you must have PostgreSQL 11+ and PostGIS 3+ otherwise import and queries will be slow to the point of being unusable. Query performance has marked improvements with PostgreSQL 13+ and PostGIS 3.2+.
For running Nominatim:
- PostgreSQL (9.6+ will work, 11+ strongly recommended)
- PostGIS (2.2+ will work, 3.0+ strongly recommended)
- osm2pgsql (1.8+, optional when building with CMake)
- Python 3 (3.7+)
Furthermore the following Python libraries are required:
These will be installed automatically when using pip installation.
When using legacy CMake-based installation:
- cmake
- expat
- proj
- bzip2
- zlib
- ICU
- nlohmann/json
- Boost libraries, including system and file system
- PostgreSQL client libraries
- a recent C++ compiler (gcc 5+ or Clang 3.8+)
For running continuous updates:
For running the Python frontend:
- SQLAlchemy (1.4.31+ with greenlet support)
- asyncpg (0.8+, only when using SQLAlchemy < 2.0)
- one of the following web frameworks:
- uvicorn
For running the legacy PHP frontend (deprecated, will be removed in Nominatim 5.0):
- PHP (7.3+)
- PHP-pgsql
- PHP-intl (bundled with PHP)
For dependencies for running tests and building documentation, see the Development section.
Hardware🔗
A minimum of 2GB of RAM is required or installation will fail. For a full planet import 128GB of RAM or more are strongly recommended. Do not report out of memory problems if you have less than 64GB RAM.
For a full planet install you will need at least 1TB of hard disk space. Take into account that the OSM database is growing fast. Fast disks are essential. Using NVME disks is recommended.
Even on a well configured machine the import of a full planet takes around 2.5 days. When using traditional SSDs, 4-5 days are more realistic.
Tuning the PostgreSQL database🔗
You might want to tune your PostgreSQL installation so that the later steps
make best use of your hardware. You should tune the following parameters in
your postgresql.conf
file.
shared_buffers = 2GB
maintenance_work_mem = (10GB)
autovacuum_work_mem = 2GB
work_mem = (50MB)
synchronous_commit = off
max_wal_size = 1GB
checkpoint_timeout = 60min
checkpoint_completion_target = 0.9
random_page_cost = 1.0
wal_level = minimal
max_wal_senders = 0
The numbers in brackets behind some parameters seem to work fine for
128GB RAM machine. Adjust to your setup. A higher number for max_wal_size
means that PostgreSQL needs to run checkpoints less often but it does require
the additional space on your disk.
Autovacuum must not be switched off because it ensures that the tables are frequently analysed. If your machine has very little memory, you might consider setting:
autovacuum_max_workers = 1
and even reduce autovacuum_work_mem
further. This will reduce the amount
of memory that autovacuum takes away from the import process.
Installing the latest release🔗
The latest release can be simply installed via Pypi. Make sure you have osm2pgsql, PostgreSQL and libICU in its development version installed.
Then just run:
pip install nominatim-{db,api}
Downloading and building Nominatim🔗
The following instructions are only relevant, if you want to build and install Nominatim from source.
You can download the latest release from nominatim.org. The release contains all necessary files. Just unpack it.
If you want to install latest development version from github, make sure to also check out the osm2pgsql subproject:
git clone --recursive https://github.com/openstreetmap/Nominatim.git
The development version does not include the country grid. Download it separately:
wget -O Nominatim/data/country_osm_grid.sql.gz https://nominatim.org/data/country_grid.sql.gz
Building Nominatim🔗
Building the latest release version with pip🔗
Nominatim is easiest to run from its own virtual environment. To create one, run:
sudo apt-get install virtualenv
virtualenv /srv/nominatim-venv
To install the latest release of Nominatim into the virtual environment, run:
/srv/nominatim-venv/bin/pip install nominatim-db nominatim-api
Building in legacy CMake mode🔗
Warning
Installing Nominatim through CMake is now deprecated. The infrastructure will be removed in Nominatim 5.0. Please switch to pip installation.
To build Nominatim with CMake, you need to download and unpack the source code as described above. The code must be built in a separate directory. Create the directory and change into it.
mkdir build
cd build
Nominatim uses cmake and make for building. Assuming that you have created the build at the same level as the Nominatim source directory run:
cmake ../Nominatim
make
sudo make install
Warning
The default installation no longer compiles the PostgreSQL module that
is needed for the legacy tokenizer from older Nominatim versions. If you
are upgrading an older database or want to run the
legacy tokenizer for
some other reason, you need to enable the PostgreSQL module via
cmake: cmake -DBUILD_MODULE=on ../Nominatim
. To compile the module
you need to have the server development headers for PostgreSQL installed.
On Ubuntu/Debian run: sudo apt install postgresql-server-dev-<postgresql version>
The legacy tokenizer is deprecated and will be removed in Nominatim 5.0
Nominatim installs itself into /usr/local
per default. To choose a different
installation directory add -DCMAKE_INSTALL_PREFIX=<install root>
to the
cmake command. Make sure that the bin
directory is available in your path
in that case, e.g.
export PATH=<install root>/bin:$PATH
Now continue with importing the database.