Extract compressed file to a folder. Then: 1) cd to the folder containing the contents of the compressed file. 2) To produce the spectrograms: a) Run the following commands in a terminal (Windows/Unix): python AI/extraction/stft.py data/mirnov/raw/voltage 139317_V plots/KTF/ KTF 2 0 500 python AI/extraction/stft.py data/mirnov/raw/voltage 139317_V plots/TAE/ TAE 2 0 500 python overlay.py b) The images of interest are: plots/KTF/139317_V_KTF_t10.svg plots/TAE/139317_V_TAE_t1.svg plots/TAE/139317_V_TAE_t5.svg plots/TAE/139317_V_TAE_t11.svg plots/TAE/139317_V_TAE_t15.svg plots/overlay.svg 3) To produce the correlation plots: a) Run the following commands in a terminal (Windows/Unix): python AI/correlation/scatter.py TRANSP AI data plots/correl KTF python AI/correlation/scatter.py TRANSP AI data plots/correl TAE b) The images of interest are: plots/correl/correlKTF_AMM_ASM.svg plots/correl/correlKTF_AMM_ASM.svg plots/correl/correlKTF_ETA.svg plots/correl/correlKTF_VINJ_BTBE.svg plots/correl/correlKTF_VINJ_VTORA.svg plots/correl/correlTAE_AMM_ASM.svg plots/correl/correlTAE_AMM_ASM.svg plots/correl/correlTAE_ETA.svg plots/correl/correlTAE_VINJ_BTBE.svg plots/correl/correlTAE_VINJ_VTORA.svg 4) The D-alpha plots can be produced simply via histogram binning the data in dalpha/check_elms_nstx_fida.txt.