plot : # Plot parameters put_title : False # Add a title to plot # Maps ntick : 6 # Number of ticks for maps # Overlays vel_red : 40 # Take point each vel_red for velocities tight_layout : False # Wheter to apply tight_layout time_fmt : "{:.3g} {}" # Time format string, 1st field is time and 2nd is unit rcParams: # Anything there will be passed to matplotlib's rcParams {} # remove and replace by rcParams keys disk: # Disk speficic parameters enable : False # Enable specific disk analysis center : [0.5, 0.5, 0.5] # Position of the center of the disk (in fraction of lbox) binning : "log" # Kind of binning (lin : linear, log : logarithmic) mass_star : 1. # Mass of the central star nb_bin : 100 # Number of bins for averaged quantities bin_in : 1e-3 # Outer radius of the inner bin bin_out : 0.25 # Inner radius of the outer bin rmin_pdf : 0.075 # Inner radius for PDF computation rmax_pdf : 0.3 # Outer radius for PDF computation pdf: # parameters for probability density functions nb_bin : 100 # Number of bins for the PDF range : [-1.5, 2.5] # Range of the PDF (log of fluctuation) xmin_fit : 0.3 # Lower boundary of the fit (log of fluctuation) xmax_fit : 1.5 # Upper boundary of the fit (log of fluctuation) fit_cut : 1e-4 # Exclude value that are < fit_cut * maximum filaments: # parameters for FilFinder datamap : "fluct_coldens" verbose : False rmin : 0.15 # In fraction of the box (zoom to be taken into account) rmax : 0.45 # In fraction of the box (idem) size_thresh : 400 # in pixels**2 skel_thresh : 50 # in pixels branch_thresh : 50 # in pixels glob_thresh : 1.5 # in datamap unit pymses: # Parameters for Pymses reader # Source settings variables : ["rho","vel","Br","Bl","P", "g", "phi"] # Read these grid variables part_variables : ["vel","mass","id","level","epoch"] # Read these particles variables order : '<' # Bit order # Processing options levelmax : 20 # Maximal AMR level visited when looking levels fft : False # Quick and dirty rendering using FFT verbose : False # Let pymses write on standart output multiprocessing : True # Whether to use multiprocessing # Camera settings center : [0.5, 0.5, 0.5] # Center of the image zoom : 1. # Zoom of the image map_size : 1024 # Size of the computed maps in pixel # Filter parameters filter : False # Enable filtering min_coords : [0.35, 0.35, 0.45] max_coords : [0.65, 0.65, 0.55] input: # Parameters on how to look for input files (= output from Ramses) log_prefix : "run.log" # Prefix of the log file label_filename : "label.txt" # Name of the label file nml_filename : "run.nml" # name of the namelist file ramses_ism : True # If ramses-ism is used out: # Parameters for post processing copy_info : True # Copy logs, nml and info files to the outdir tag : "" # Tag for the image interactive : False # Interactive mode (keep figures open) save : True # Save the plots on the disk ext : '.jpeg' # extension for plots ext_subfolder : True # Separate production by extension in subfolders fmt : "" # Format of the output filename for plots # The following keys are accepted # {out} : The output directory (where hdf5 files are also stored) # {run} : Name of the relevant run # {num} : Name of the input file (from Ramses) # {ext} : Extension defined above (with the dot) # {name} : Name of the rule # {subfolder} : replaced by /{ext[1:]}/ if ext_subfolder is true # {tag} : Tag defined above # {nml[nml_key]} : The value of nml_key in the namelist (ex: {nml[amr_params/levelmin]}) process: # General setting of the post-processor module verbose : True # Give more infos on what is going on num_process : 1 # Number of forks mpi : False # If available, use mpi4py allow_error : False # Catch all errors in rules involving the disk save_cells : True # Save cells structure on disk save_parts : True # Save particles on disk unload_cells : True # Save memory usage rules: # Specific rules parameters turb_energy_threshold : -1 # Remove invalid data (<0 = no threshold) astrophysix: # Parameters for astrophysix and galactica generate : False # Whether to generate astrophysix objects simu_fmt : "{tag}_{run}" # Format of the name of simulation descr_fmt : "{tag}_{run}" # Format of the default description # The following keys are accepted # {run} : Name of the relevant run # {tag} : Tag defined above # {nml[nml_key]} : The value of nml_key in the namelist (ex: {nml[amr_params/levelmin]})