Difference between revisions of "LST1Analysis MVA"
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el resto de tablas en los ficheros son metadatos (info sobre cámara, óptica, calibración, etc) | el resto de tablas en los ficheros son metadatos (info sobre cámara, óptica, calibración, etc) | ||
− | == DATA Examples = | + | == DATA Examples == |
Revision as of 10:19, 11 October 2021
Contents
Location of LST1 data at PIC
- Raw data http://data.lstcam.pic.es/tape/
- DL1 data
Directory: /pnfs/pic.es/data/cta/LST/DL1
Web: http://data.lstcam.pic.es/DL1/ - DL2 data
Directory: /pnfs/pic.es/data/cta/LST/DL2
Web: http://data.lstcam.pic.es/DL2/
Use CTA observatory LDAP account (monica.vazquez)
Location of LST1 at La Palma
- Directory: /fefs/onsite/data
Use cp01/cp02 to copy out data, never the login machine
Run summary info/data-check
- Run-summary web in GAE
LST1 account
Analysis of LST1 data
Donwload LST analysis software cta-lstchain (wrapper that uses centrally supported ctapipe routines)
git clone https://github.com/cta-observatory/cta-lstchain.git cd cta-lstchain LSTCHAIN_VER=0.7.2 wget https://raw.githubusercontent.com/cta-observatory/cta-lstchain/v$LSTCHAIN_VER/environment.yml conda env create -n lst -f environment.yml conda activate lst pip install lstchain==$LSTCHAIN_VER rm environment.yml In case of problems with conda env try mamba: conda install -c conda-forge -n base mamba mamba env create -f environment.yml
Files needed to analyze golden Run 442 (20190527):
- Pedestal run: pedestal_file_run446_0000.fits
- Low level DRS4 calibration: calibration.hdf5
Run directly jupyter notebook
cd cta-lstchain/notebooks jupyter notebook -> select Analyze_real_muon_data.ipynb
Convert example jupyter notebook to python
cd cta-lstchain/notebooks jupyter nbconvert --to python Analyze_real_muon_data.ipynb
Fix path of data, pedestal and calibration and run!
Lines to fix: source = event_source(input_url="../data/LST-1.4.Run00442.0001.fits.fz",max_events=None) pedestal_path="../pedestal/pedestal_file_run446_0000.fits", with HDF5TableReader('../calibration/calibration.hdf5') as h5_table: python Analyze_real_muon_data.py
LST1 data formats
El contenido de los ficheros se puede ver con:
from lstchain.io import get_dataset_keys from lstchain.io.io import dl1_params_lstcam_key, dl2_params_lstcam_key, dl1_images_lstcam_key file = "/fefs/aswg/data/real/DL2/20210903/v0.7.3/tailcut84/dl2_LST-1.Run05998.0000.h5" import pandas as pd get_dataset_keys(file) Out[]: ['configuration/instrument/subarray/layout', 'configuration/instrument/subarray/layout.__table_column_meta__', 'configuration/instrument/telescope/camera/geometry_LSTCam', 'configuration/instrument/telescope/camera/geometry_LSTCam.__table_column_meta__', 'configuration/instrument/telescope/camera/readout_LSTCam', 'configuration/instrument/telescope/camera/readout_LSTCam.__table_column_meta__', 'configuration/instrument/telescope/optics', 'configuration/instrument/telescope/optics.__table_column_meta__', 'dl1/event/telescope/monitoring/calibration', 'dl1/event/telescope/monitoring/flatfield', 'dl1/event/telescope/monitoring/pedestal', 'dl2/event/telescope/parameters/LST_LSTCam'] dl1_file = "/fefs/aswg/data/real/DL1/20210903/v0.7.3/tailcut84/dl1_LST-1.Run05998.0000.h5" get_dataset_keys(dl1_file) Out[]: ['configuration/instrument/subarray/layout', 'configuration/instrument/subarray/layout.__table_column_meta__', 'configuration/instrument/telescope/camera/geometry_LSTCam', 'configuration/instrument/telescope/camera/geometry_LSTCam.__table_column_meta__', 'configuration/instrument/telescope/camera/readout_LSTCam', 'configuration/instrument/telescope/camera/readout_LSTCam.__table_column_meta__', 'configuration/instrument/telescope/optics', 'configuration/instrument/telescope/optics.__table_column_meta__', 'dl1/event/telescope/image/LST_LSTCam', 'dl1/event/telescope/monitoring/calibration', 'dl1/event/telescope/monitoring/flatfield', 'dl1/event/telescope/monitoring/pedestal', 'dl1/event/telescope/parameters/LST_LSTCam']
De ahí, los datos como tal están en las tablas 'dl1/event/telescope/image/LST_LSTCam' (imágenes calibradas de la cámara) y 'dl1/event/telescope/parameters/LST_LSTCam' (parámetros de Hillas, timestamps, pointing, etc) En el caso de dl2 solamente se tiene la tabla de parámetros 'dl2/event/telescope/parameters/LST_LSTCam' , que es una copia de la tabla dl1 con los parámetros reconstruidos añadidos.
Para acceder a la tabla de parámetros tanto en dl1 como en dl2:
dl2_dataframe = pd.read_hdf(file, key=dl2_params_lstcam_key) dl2_dataframe Out[]: obs_id event_id intensity log_intensity x y r phi length ... reco_energy reco_disp_dx reco_disp_dy reco_src_x reco_src_y reco_alt reco_az reco_type gammaness 0 5998 1 5529.521235 3.742688 -0.032178 -0.020007 0.037890 -2.585328 1.168153 ... 12.028581 -1.395368 -0.322723 -1.427546 -0.342730 1.084904 0.228667 101 0.025000 1 5998 4 61.694788 1.790248 0.093973 0.365420 0.377309 1.319085 0.045765 ... 0.021868 0.033724 0.019880 0.127698 0.385300 1.140388 0.287830 101 0.056333 2 5998 5 131.579536 2.119188 0.242024 0.147060 0.283200 0.546006 0.123974 ... 0.114741 0.246228 -0.281001 0.488253 -0.133941 1.153445 0.243046 101 0.188333 3 5998 6 37.598133 1.575166 0.405366 -0.546641 0.680542 -0.932721 0.072361 ... 0.062491 0.011559 -0.049816 0.416924 -0.596457 1.150419 0.202634 101 0.290833 4 5998 7 75.891508 1.880193 -0.129859 -0.524562 0.540397 -1.813474 0.078325 ... 0.033458 0.010284 0.027173 -0.119575 -0.497389 1.131426 0.213075 101 0.165000 ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... 28271 5998 52989 89.536526 1.952000 -0.775412 0.466715 0.905034 2.599783 0.061538 ... 0.043203 -0.004094 0.009934 -0.779506 0.476649 1.108024 0.292202 101 0.165000 28272 5998 52990 113.433699 2.054742 -0.015224 -0.558476 0.558683 -1.598049 0.072026 ... 0.034507 -0.150657 0.088593 -0.165881 -0.469883 1.129934 0.214743 101 0.091000 28273 5998 52991 3053.237697 3.484761 0.621141 0.404424 0.741198 0.577148 0.319016 ... 0.218918 0.064154 -0.829353 0.685294 -0.424929 1.160371 0.216046 101 0.010000 28274 5998 52992 132592.328588 5.122518 0.000555 0.000571 0.000796 0.799391 1.163453 ... 30.287504 -0.286239 0.399654 -0.285684 0.400225 1.125740 0.287283 101 0.178036 28275 5998 52997 74.290200 1.870932 -0.595926 0.781502 0.982788 2.222275 0.097937 ... 0.292780 0.711934 0.310702 0.116007 1.092203 1.138651 0.347324 101 0.442667 [28276 rows x 51 columns]
Acceder a las imágenes es algo más complicado y requiere el módulo tables
from astropy.table import Table images = Table.read(dl1_file, path=dl1_images_lstcam_key)['image'] images Out[]: <Column name='image' dtype='float32' shape=(1855,) length=53000> 8.701056 .. 7.1084614 3.7857776 .. 1.2068052 3.8285189 .. 0.9846253 4.5408783 .. 5.1921587 4.754586 .. 1.026284 0.7226335 .. 0.09590531 3.4738295 .. 2.0677526 2.8597107 .. -0.43177217 -0.20343336 .. 3.8313065 1.3372487 .. 1.5678478 3.2301373 .. 2.428795 3.4438455 .. 4.2895527 3.871757 .. 1.4984165 -0.5311186 .. 1.8316865 2.717239 .. 4.3192797 1.3362556 .. 0.48472026 0.52366954 .. 0.26254028 1.7769248 .. -0.06901258 2.6032615 .. 3.2203112 1.7484305 .. 1.8331614 4.7545853 .. 1.7067102 2.2185874 .. 1.2590411 -0.43089166 .. 0.29031274 2.7479038 .. 1.5956203 ...
para cada uno de los 53000 eventos, se tiene una imagen calibrada de la cámara (array de 1855 pixels)
el resto de tablas en los ficheros son metadatos (info sobre cámara, óptica, calibración, etc)
DATA Examples
Gammapy
FIX UBUNTU conda create -n gammapyenv python=3.7 conda activate gammapyenv conda install gammapy=0.18.2 sherpa=4.12.0 conda install jupyter ipython jupyterlab pandas healpy iminuit naima emcee corner parfice gammapy info
curl -O https://gammapy.org/download/install/gammapy-0.18.2-environment.yml conda env create -f gammapy-0.18.2-environment.yml conda activate gammapy-0.18.2 gammapy info
Ctools
Installation MAC
conda config --append channels conda-forge conda config --append channels cta-observatory conda create -n ctathai python=3.8 conda activate ctathai conda install ctools conda install matplotlib conda install jupyterlab export CALDB=/path/where/you/installed/IRF/caldb export HESSDATA=/path/where/you/installed/HESS/data
Installation UBUNTU
conda create -n ctathai python=3.7 conda activate ctathai conda install -c cta-observatory ctools=1.7.4 conda install matplotlib conda install jupyterlab export CALDB=/path/where/you/installed/IRF/caldb export HESSDATA=/path/where/you/installed/HESS/data
Commands:
ctobssim edisp=yes fv events.fits ctskymap ds9 skymap.fits ctbin fv cntcube.fits ctexpcube ctpsfcube ctbkgcube ctlike csresmap csresspec components=yes $CTOOLS/share/examples/python/show_residuals.py resspec.fits
Fermipy
conda config --append channels fermi conda create -n fermiset -c conda-forge -c fermi fermitools=2.0.8 python=3.7 clhep=2.4.4.1 conda activate fermiset conda install fermipy
CTApipe
git clone https://github.com/cta-observatory/ctapipe.git cd ctapipe CTAPIPE_VER=0.10.5 wget https://raw.githubusercontent.com/cta-observatory/ctapipe/v$CTAPIPE_VER/environment.yml conda env create -n cta -f environment.yml conda activate cta conda install -c conda-forge ctapipe=$CTAPIPE_VER
Ubuntu 20.04 issues
- Mars/root does not work so gcc needs to be downgrade to version 5: gcc downgrade
- System Program Problem Detected at reboot:
sudo gedit /etc/default/apport enabled=0
- Problem installing ctools with conda, modify ~/.condarc
channel_priority: flexible