import functions as aux import statistics as st # import pandas as pd data_types = ['mni', 'cif'] model_types = ['fre', 'bay'] o_data_types = ['MNIST', 'CIFAR'] o_model_types = ['LeNet', 'BCNN'] gpu_ene_data = aux.load_pickle("energy_gpu.pkl") cpu_ene_data = aux.load_pickle("energy_cpu.pkl") gpu_exp_data = aux.load_pickle("result_gpu.pkl") for data in data_types: for model in model_types: for size in range(1, 8): gpu_ene_data[data][model][size] = \ list( aux.split(gpu_ene_data[data][model][size], 100) ) for data in data_types: for model in model_types: for size in range(1, 8): cpu_ene_data[data][model][size] = \ list( aux.split(cpu_ene_data[data][model][size], 100) ) spl_ene_data = dict(gpu_ene_data) for data in data_types: for model in model_types: for size in range(1, 8): for i in range(0, 100): spl_ene_data[data][model][size][i] = \ gpu_ene_data[data][model][size][i] +\ cpu_ene_data[data][model][size][i] for data in data_types: for model in model_types: for size in range(1, 8): for i in range(0, 100): spl_ene_data[data][model][size][i] = \ sum(spl_ene_data[data][model][size][i]) for data in data_types: for model in model_types: for size in range(1, 8): temp = [] for i in range(0, 100): temp.append( # st.mean(spl_ene_data[data][model][size][0:i+1]) sum(spl_ene_data[data][model][size][0:i+1]) ) spl_ene_data[data][model][size] = temp eff_data = dict(gpu_ene_data) for data in data_types: for model in model_types: for size in range(1, 8): for i in range(0, 100): eff_data[data][model][size][i] = \ (gpu_exp_data[data][model][size]['acc'][i] / spl_ene_data[data][model][size][i]) * 100 for data, o_data in zip(data_types, o_data_types): eff_data[o_data] = \ eff_data.pop(data) for o_data in o_data_types: for model, o_model in zip(model_types, o_model_types): eff_data[o_data][o_model] = \ eff_data[o_data].pop(model) # mul = pd.MultiIndex.from_product([[1, 2, 3, 4, 5, 6, 7], # ['bay', 'fre'], ['cif', 'mni']]) # eff_data = pd.DataFrame(eff_data) aux.save_pickle("efficiency_data.pkl", eff_data)