Instructions for running the figures

 

Figure 1A2: python3 ins_Fig1A2.py

Figure 1B: python3 ins_Fig1B.py

Figure 3: python3 ins_Fig3.py

Figure 4B: python3 ins_Fig4B.py

Figure 5BC: python3 ins_Fig5BC.py

Figure 6: python3 ins_Fig6.py

Figure 7:

For running the simulations: python3 ins_run_sims_Fig7.py # (# here is the number of connectivity matrix, goes from 0 to 29). You will need to change the parameter “gsin” and “fsin” to the desired values

For creating the figure 7A: python3 ins_Fig7A.py

For creating the figure 7BC: python3 ins_Fig7BC.py

Figure 8:

For creating the figure 8A: python3 ins_Fig8A.py

For running the simulations for figure 8B: python3 ins_run_sims_Fig8B.py

For creating the figure 8B: Run in R the script plot_rose.R

For creating the figure 8C: python3 ins_Fig8C.py

Figure S1: python3 ins_FigS1.py

Figure S2: python3 ins_FigS2.py

Figure S3: python3 ins_FigS3.py

Figure S4:

For running the simulations: python3 ins_run_sims_FigS4.py # (# here is the number of connectivity matrix, goes from 0 to 29).

For creating the figure S4: python3 ins_FigS4.py

Figure S5:

For running the simulations: python3 ins_run_sims_FigS5.py # (# here is the number of connectivity matrix, goes from 0 to 29).

For creating the figure S5: python3 ins_FigS5.py