Commit 0d39af1c authored by Dmitry Romanov's avatar Dmitry Romanov
Browse files

Singularity update

parent 8a55777d
X11 on linux:
.. code::bash
docker run -e DISPLAY=$DISPLAY -v /tmp/.X11-unix:/tmp/.X11-unix --rm -it --volume="$HOME/.Xauthority:/root/.Xauthority:rw" --net=host eicweb/jug_xl:nightly bash
This needs some explanation. In general ``-v /tmp/.X11-unix:/tmp/.X11-unix`` and setting ``DISPLAY`` variable is all what is needed for linux,
but jug_xl has root user with id=0 which is probably different from yours. So we need ``--volume="$HOME/.Xauthority:/root/.Xauthority:rw"``.
But the later requires ``--net=host``.
......@@ -43,7 +43,7 @@ Using npsim (wrapper around ddsim) command line:
npsim --compactFile=athena.xml --runType=run -G -N=2 --outputFile=test_gun.root --gun.position "0.0 0.0 1.0*cm" --gun.direction "1.0 0.0 1.0" --gun.energy 100*GeV --part.userParticleHandler=''
# uniform spread inside an angle:
npsim --compactFile=athena.xml --random.seed 1 --enableGun --gun.energy 2*GeV --gun.thetaMin 0*deg --gun.thetaMax 90*deg --gun.distribution uniform --outputFile test.root
npsim --compactFile=athena.xml -N=2 --random.seed 1 --enableGun --gun.energy 2*GeV --gun.thetaMin 0*deg --gun.thetaMax 90*deg --gun.distribution uniform --outputFile test.root
......@@ -57,6 +57,17 @@ There are many ways to see the geometry and tracks:
3. ddeve (root EVE based event display...)
4. dd_web_display (using browser and jsroot library)
Geant4 event display
~~~~~~~~~~~~~~~~~~~~
Example command:
.. code:: bash
# Assumed to run from the root of Athena detector repo
npsim --runType vis --compactFile athena.xml --macro macro/vis.mac --outputFile test.root --enableG4GPS --enableQtUI
Geometry conversion
-------------------
......
......@@ -4,141 +4,188 @@ Use singularity
Install singularity
-------------------
Eic image require singularity > 3.0
The `oficial installation instructions <https://sylabs.io/guides/3.0/user-guide/installation.html>`_ have many steps.
Please don't install NeuroDebian repo from the repo as it holds v2.6 and eic image require singularity > 3.0.
Instead. If you have ubuntu, there is a `debian repo with 3.5.2 version <https://packages.debian.org/source/sid/singularity-container>`_,
If you have ubuntu, there is a `debian repo with 3.5.2 version <https://packages.debian.org/source/sid/singularity-container>`_,
which works pretty nicely (You will have to install dependencies, it will print them...)
.. code::
.. code:: bash
sudo apt install containernetworking-plugins
wget http://ftp.fi.debian.org/debian/pool/main/s/singularity-container/singularity-container_3.5.2+ds1-1_amd64.deb
sudo dpkg -i singularity-container_3.5.2+ds1-1_amd64.deb
Please don't install NeuroDebian repo from the repo as it holds v2.6 and eic image require singularity > 3.0.
Install work environment
------------------------
The below command automatically creates the right working environment for detector development.
The below command automatically creates the right working environment for detector development and running the reconstruction.
It checks if there are CVMFS images available (which is true for JLab and BNL farms) and links them or downloads images (which is a scenario for users laptops).
It also creates eic_shell with the right environment setup, prepares the current dir to work with detector or etc.
.. code::
.. code:: bash
# Easy to remember link:
curl -L get.athena-eic.org | bash
# Which is an alias to:
curl https://eicweb.phy.anl.gov/containers/eic_container/-/raw/master/install.sh | bash
CVMFS
-----
**install.sh** checks if it is run on BNL or JLab farms, so existing CVMFS images are used and
installation is almost instant. On local systems singularity images will be downloaded.
For farms like at BNL or JLab the image is automatically replicated to CVMS:
.. code::
It might be handy to copy install.sh locally and control where singularity images are being copied,
disable CVMFS behaviour, and other parameters:
singularity run /cvmfs/singularity.opensciencegrid.org/eicweb/jug_xl:3.0-stable
.. code:: bash
curl -L get.athena-eic.org -o install.sh
chmod +x install.sh
./install.sh --help
Custom work environment
-----------------------
=============== =====
Flag Description
=============== =====
-p,--prefix Working directory to deploy the environment (D: /home/romanov/anl)
-t,--tmpdir Change tmp directory (D: /tmp)
-n,--no-cvmfs Disable check for local CVMFS (D: enabled)
-c,--container Container version (D: jug_xl)
-v,--version Version to install (D: nightly)
-h,--help Print this message
=============== =====
#. Clone the repository and go into the directory
Example of controlling the container version and image location:
.. code:: bash
.. code-block:: bash
# installs testing variant and stores image at /mnt/work/images
# (!) one has to create <prefix>/local/lib for images
mkdir -p /mnt/work/images/local/lib/
./install.sh -v testing -p /mnt/work/images
git clone https://eicweb.phy.anl.gov/containers/eic_container.git
cd eic_container
#. Run the install script ``install.py`` to install to your ``<PREFIX>`` of choice
(e.g. $HOME/local/opt/eic_container_1.0.4). By default the
modeuefile will be installed to ``$PREFIX/../../etc/modulefiles``.
You can use the ``-v`` flag to select the version you want to install, or omit the
flag if you want to install the master build. The recommended stable
release version is ``v2.6.1``.
.. code-block:: bash
Detector simulation
-------------------
After the installation you should have an executable script named **eic-shell** which basically
just runs singularity setting the proper environment (more information about the script is below)
./install.py -v 2.6.1 <PREFIX>
Available flags:
Precompiled detector
^^^^^^^^^^^^^^^^^^^^
.. code-block:: bash
The jug_xl container comes with precompiled detecor repository. It could be used out of the box
for simulations or even changing detector parameters that doesn't require recompilation.
-v VERSION, --version VERSION
(opt.) project version. Default: current version (in repo).
-b BIND_PATHS, --bind-path BIND_PATHS
(opt.) extra bind paths for singularity.
-m MODULE_PATH, --module-path MODULE_PATH
(opt.) Root module path where you want to install a
modulefile. D: <prefix>/../../etc/modulefiles
-l, --local Local install, will not install the modulefiles (you will have
to run the launcher scripts from their relative paths).
-f, --force Force-overwrite already downloaded container with the same name.
The precompiled detector is installed in **/opt/detector** directory. And can be used like this:
.. code:: bash
#. To use the container in installed mode, you can load the modulefile,
and then use the included apps as if they are native apps on your system!
# Setup the proper detector environemnt
source /opt/detector/setup.sh
.. code-block:: bash
# Run particle gun simulation
npsim -N2 --compactFile=$DETECTOR_PATH/athena.xml --random.seed 1 --enableGun --gun.energy 2*GeV --gun.thetaMin 0*deg --gun.thetaMax 90*deg --gun.distribution uniform --outputFile ~/test.root
module load eic_container
.. ::
#. To use the container in local mode, you can install the container with the ``-l`` flag,
and then use the runscripts (under ``$PREFIX/bin``\ ) manually.
To note:
1. After sourcing setup.sh the main xml file is ``$DETECTOR_PATH/athena.xml``
2. One must run npsim from a writable directory, as the fieldmap will be downloaded on the first run
.. code-block:: bash
./install.py $PREFIX -l
...
$PREFIX/bin/eic-shell
Clone detector from repository
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
#. (Advanced) If you need to add additional bind directives for the internal singularity container,
you can add them with the ``-b`` flag. Run ``./install.py -h`` to see a list of all
supported options.
.. code:: bash
git clone https://eicweb.phy.anl.gov/EIC/detectors/athena.git
git clone https://eicweb.phy.anl.gov/EIC/detectors/ip6.git
ln -s ../ip6/ip6 athena/ip6
# Build athena
mkdir athena/build && cd athena/build
cmake ../ -DCMAKE_INSTALL_PREFIX=$ATHENA_PREFIX
cmake --build ./ --target all -- -j 8
cmake --install ./
cd -
Modulefiles
^^^^^^^^^^^
# Build IP6
mkdir ip6/build && cd ip6/build
cmake ../ -DCMAKE_INSTALL_PREFIX=$ATHENA_PREFIX
cmake --build ./ --target all -- -j 8
cmake --install ./
cd -
Running the singularity development environment with modulefiles
# Test run geometry browser:
dd_web_display athena/athena.xml
# Test run particle gun:
npsim -N2 --compactFile=athena/athena.xml --random.seed 1 --enableGun --gun.energy 2*GeV --gun.thetaMin 0*deg --gun.thetaMax 90*deg --gun.distribution uniform --outputFile ~/test.root
#. Add the installed modulefile to your module path, e.g.,
.. ::
.. code-block:: bash
To note:
1. One might need to rebuild athena repository but only if C++ code is changed.
2. No rebuilds are needed when changing only xml files
module use <prefix>/../../etc/modulefiles
#. Load the eic container
Advanced information
--------------------
.. code-block:: bash
CVMFS
^^^^^
module load eic_container
For farms like at BNL or JLab the images are automatically replicated to CVMS:
#. To start a shell in the container environment, do
.. code:: bash
.. code-block:: bash
/cvmfs/singularity.opensciencegrid.org/eicweb/jug_xl*
eic-shell
# example to run
singularity run /cvmfs/singularity.opensciencegrid.org/eicweb/jug_xl:4.0-acadia-stable
Without modulefiles
eic-shell explained
^^^^^^^^^^^^^^^^^^^
Running the singularity development locally (without modulefiles)
There are actually two eic-shell scripts. One is created by the install scripts
and the other lives in the container.
The one outside the container just sets ATHENA_PREFIX and runs singularity like:
.. code:: bash
# $PREFIX here is where you installed everything (by default where install.sh executed)
export ATHENA_PREFIX=$PREFIX/local
export SINGULARITY_BINDPATH=/mnt
singularity exec $PREFIX/local/lib/jug_xl-nightly.sif eic-shell $@
1. This is assuming you installed with the ``-l`` flag to a prefix ``$PREFIX``\ :
The **eic-shell** inside the container loads the proper environemnt and SHELL look correctly
.. code-block:: bash
.. code:: bash
./install.py $PREFIX
## Properly setup environment
. /etc/eic-env.sh
2. To start a shell in the container environment, do
# What eic-env does in the end is
export LD_LIBRARY_PATH=$ATHENA_PREFIX/lib:$LD_LIBRARY_PATH
export PATH=$ATHENA_PREFIX/bin:$PATH
.. code-block:: bash
# Run bash shell
$PREFIX/bin/eic-shell
......@@ -9,42 +9,42 @@ All productions are relative to the following locations on S3 and XRootD:
Links point to the S3 location; the conversion to XRootD URIs should be trivial. Mirroring from S3 to XRootD may take up to one day.
In case of questions or problems with this data, please let the Software Working Group know in the `#software-helpdesk <https://eicip6.slack.com/archives/C02267ZDARF>`_ channel, or via email to `eic-ip6-software-l@lists.bnl.gov <mailto:eic-ip6-software-l@lists.bnl.gov>`_.
In case of questions or problems with this data, please let the Software Working Group know in the `#software-helpdesk <https://eicip6.slack.com/archives/C02267ZDARF>`__ channel, or via email to `eic-ip6-software-l@lists.bnl.gov <mailto:eic-ip6-software-l@lists.bnl.gov>`__.
Deep Inelastic Scattering
-------------------------
* geometry: `master` (1M each, last update: 2021-08-18)
* 5x41: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x41/minQ2=1/>`_, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x41/minQ2=10/>`_, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x41/minQ2=100/>`_, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x41/minQ2=1000/>`_
* 5x100: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x100/minQ2=1/>`_, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x100/minQ2=10/>`_, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x100/minQ2=100/>`_, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x100/minQ2=1000/>`_
* 10x100: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x100/minQ2=1/>`_, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x100/minQ2=10/>`_, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x100/minQ2=100/>`_, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x100/minQ2=1000/>`_
* 10x275: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x275/minQ2=1/>`_, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x275/minQ2=10/>`_, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x275/minQ2=100/>`_, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x275/minQ2=1000/>`_
* 18x275: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/18x275/minQ2=1/>`_, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/18x275/minQ2=10/>`_, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/18x275/minQ2=100/>`_, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/18x275/minQ2=1000/>`_
* 5x41: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x41/minQ2=1/>`__, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x41/minQ2=10/>`__, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x41/minQ2=100/>`__, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x41/minQ2=1000/>`__
* 5x100: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x100/minQ2=1/>`__, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x100/minQ2=10/>`__, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x100/minQ2=100/>`__, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/5x100/minQ2=1000/>`__
* 10x100: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x100/minQ2=1/>`__, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x100/minQ2=10/>`__, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x100/minQ2=100/>`__, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x100/minQ2=1000/>`__
* 10x275: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x275/minQ2=1/>`__, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x275/minQ2=10/>`__, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x275/minQ2=100/>`__, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/10x275/minQ2=1000/>`__
* 18x275: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/18x275/minQ2=1/>`__, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/18x275/minQ2=10/>`__, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/18x275/minQ2=100/>`__, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/master/DIS/NC/18x275/minQ2=1000/>`__
* geometry: `acadia-v1.0-alpha` (1M each, last update: 2021-08-19)
* 5x41: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x41/minQ2=1/>`_, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x41/minQ2=10/>`_, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x41/minQ2=100/>`_, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x41/minQ2=1000/>`_
* 5x100: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x100/minQ2=1/>`_, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x100/minQ2=10/>`_, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x100/minQ2=100/>`_, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x100/minQ2=1000/>`_
* 10x100: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x100/minQ2=1/>`_, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x100/minQ2=10/>`_, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x100/minQ2=100/>`_, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x100/minQ2=1000/>`_
* 10x275: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x275/minQ2=1/>`_, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x275/minQ2=10/>`_, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x275/minQ2=100/>`_, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x275/minQ2=1000/>`_
* 18x275: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/18x275/minQ2=1/>`_, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/18x275/minQ2=10/>`_, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/18x275/minQ2=100/>`_, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/18x275/minQ2=1000/>`_
* 5x41: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x41/minQ2=1/>`__, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x41/minQ2=10/>`__, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x41/minQ2=100/>`__, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x41/minQ2=1000/>`__
* 5x100: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x100/minQ2=1/>`__, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x100/minQ2=10/>`__, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x100/minQ2=100/>`__, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/5x100/minQ2=1000/>`__
* 10x100: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x100/minQ2=1/>`__, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x100/minQ2=10/>`__, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x100/minQ2=100/>`__, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x100/minQ2=1000/>`__
* 10x275: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x275/minQ2=1/>`__, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x275/minQ2=10/>`__, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x275/minQ2=100/>`__, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/10x275/minQ2=1000/>`__
* 18x275: `minQ2=1 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/18x275/minQ2=1/>`__, `minQ2=10 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/18x275/minQ2=10/>`__, `minQ2=100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/18x275/minQ2=100/>`__, `minQ2=1000 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DIS/NC/18x275/minQ2=1000/>`__
Deeply Virtual Compton Scattering
---------------------------------
* geometry: `acadia-v1.0-alpha` (last update: in progress)
* `18x275 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DVCS/18x275/>`_ (2M events)
* `10x100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DVCS/10x100/>`_ (2M events)
* `5x41 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DVCS/5x41/>`_ (1M events)
* `18x275 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DVCS/18x275/>`__ (2M events)
* `10x100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DVCS/10x100/>`__ (2M events)
* `5x41 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/DVCS/5x41/>`__ (1M events)
Timeline Compton Scattering
---------------------------
* geometry: `acadia-v1.0-alpha` (last update: in progress)
* `18x275 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/TCS/>`_
* `5x100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/TCS/>`_
* `5x41 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/TCS/>`_
* `18x275 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/TCS/>`__
* `5x100 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/TCS/>`__
* `5x41 <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/TCS/>`__
Spectroscopy
------------
* geometry: `acadia-v1.0-alpha` (last update: in progress)
* `10x100 psi2s, x, y <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/SPECTROSCOPY/>`_
* `10x100 psi2s, x, y <https://dtn01.sdcc.bnl.gov:9000/minio/eictest/ATHENA/RECO/acadia-v1.0-alpha/SPECTROSCOPY/>`__
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