tILe-C is ILC in tiles. It is both a library for CMB foregrounds and harmonic ILC as well as a set of pipeline scripts designed primarily for component separation of high-resolution ground-based CMB maps that might have inhomogenous, anisotropic and inhomogenously anisotropic noise. This code was used to make the products presented in Madhavacheril, Hill, Naess at. al. 2019 (MHN19, arxiv).
- Free software: BSD license
- Python>=3.6
- numpy, scipy, matplotlib
- orphics (can be git cloned and installed with
pip install -e . --user) - pixell, soapack
This code is maintained by Mathew Madhavacheril, Colin Hill and Sigurd Naess. Contributions are welcome and encouraged through pull requests.
The main non-trivial dependencies are pixell and soapack. The latter must be set up with a config file that points to relevant data directories for the input maps and beams. See the instructions in soapack README.
Following this, edit your ~/.soapack.yml to include a section named tilec that has keywords save_path and scratch_path that point to new directories where you would like to store tilec related files. The former is where the ILC products are stored and the latter is where temporary files are stored.
Once those are set up, clone this repository and install with symbolic links as follows so that changes you make to the code are immediately reflected.
pip install -e . --userThe first step is to generate an empirical covariance matrix. The pipeline script for this is bin/make_cov.py. The command line arguments and their descriptions can be obtained by running python bin/make_cov.py -h.
The following commands were run to produce the final versions of maps in MHN19:
python bin/make_cov.py v1.2.0 deep56 d56_01,d56_02,d56_03,d56_04,d56_05,d56_06,p01,p02,p03,p04,p05,p06,p07,p08 -o
python bin/make_cov.py v1.2.0 boss boss_01,boss_02,boss_03,boss_04,p01,p02,p03,p04,p05,p06,p07,p08 --oThis will make a directory in the default save location, use masks corresponding to deep56 and boss, generate the non-redundant parts of a TILe-C hybrid covariance matrix and save these to disk.
The second step is to derive ILC weights from the above covariance matrices and responses to desired components and use these to co-add the input arrays in 2D Fourier space. The pipeline script for this is bin/make_ilc.py. The command line arguments and their descriptions can be obtained by running python bin/make_ilc.py -h.
The following commands were run to produce the final versions of maps in MHN19:
python bin/make_ilc.py map_v1.2.0_joint v1.2.0 deep56 d56_01,d56_02,d56_03,d56_04,d56_05,d56_06,p01,p02,p03,p04,p05,p06,p07,p08 CMB,tSZ,CMB-tSZ,CMB-CIB,tSZ-CMB,tSZ-CIB 1.6,1.6,2.4,2.4,2.4,2.4
python bin/make_ilc.py map_v1.2.0_joint v1.2.0 boss boss_01,boss_02,boss_03,boss_04,p01,p02,p03,p04,p05,p06,p07,p08 CMB,tSZ,CMB-tSZ,tSZ-CMB,tSZ-CIB,CMB-CIB 1.6,1.6,2.4,2.4,2.4,2.4