How to use get_failures method in Slash

Best Python code snippet using slash

plot_lstm.py

Source:plot_lstm.py

...14import matplotlib.pyplot as plt15import numpy as np16N = 817M = 204818def get_failures(array, expected):19    failures = np.zeros((array.shape[0],16))20    for i in range(array.shape[0]):21        for j in range(16):22            if int(get_bit(array[i],j))!=expected:23                failures[i,j] = 124    return failures.reshape(-1)25def get_bit(uint16_word, index):26    word = np.uint16(uint16_word) # force just in case27    s = bin(word)[2:]28    if len(s)<16:29        s = "0"*(16-len(s))+s30    return s[index]31def get_masks(prefix,time="19710"):32    zeros = [[] for i in range(N)]33    for i in range(N):34       if (i==5 and "no" in prefix):35           f = open(prefix + str(i) + "_v2/" + time + "trace_10c_0.txt",'r')36       else:37           f = open(prefix + str(i) + "/" + time + "trace_10c_0.txt",'r')38       for j in range(N):39           f.readline() # skip the "physical chip #" print40           for k in range(M/16): #while True:41               row = f.readline()42               row = row.split(' ') # ',' for csv43               row = [int(x,16) for x in row]44               if ("no" in prefix): zeros[i].extend(row)  # phys chip 0 for NR45               elif (i==j): zeros[i].extend(row)  # wait for phys chip i for DE46           if "no" in prefix or i==j:47                f.close()48                break49    forced_zeros_memory = np.array(zeros, dtype=np.int16).view(dtype=np.uint16)50    ones = [[] for i in range(N)]51    for i in range(N):52       if (i==5 and "no" in prefix):53           f = open(prefix + str(i) + "_v2/" + time + "trace_10c_1.txt",'r')54       else:55           f = open(prefix + str(i) + "/" + time + "trace_10c_1.txt",'r')56       for j in range(N):57           f.readline() # skip the "physical chip #" print58           for k in range(M/16): #while True:59               row = f.readline()60               row = row.split(' ') # ',' for csv61               row = [int(x,16) for x in row]62               if ("no" in prefix): ones[i].extend(row)63               elif (i==j): ones[i].extend(row)64           if "no" in prefix or i==j:65                f.close()66                break67    forced_ones_memory = np.array(ones, dtype=np.int16).view(dtype=np.uint16)68    return forced_ones_memory, forced_zeros_memory69bit_failures = np.zeros((8,2048*16))70start_addr_tmp = 071data_length = M72fig, axs = plt.subplots(2,8,sharex=True,sharey=True,figsize=(14,10))73cmap = "gnuplot" #"brg"#"gnuplot"74start_addr_tmp = 10#0x30075data_length = 10 #1076mask_ones = np.zeros((8,2048*2),dtype=np.int16)77mask_zeros = np.zeros((8,2048*2),dtype=np.int16)78f = open("../c_models_test/c_lstm2/activation_mask_NR_TENYEAR.c","r")79for i in range(8):80    f.readline()81    mask_zeros[i,10:10+data_length] = eval("["+f.readline()[1:-3]+"]")82    f.readline()83    mask_ones[i,10:10+data_length] = eval("["+f.readline()[1:-3]+"]")84f.close() 85mask_ones = mask_ones.view(dtype=np.int16)86mask_zeros = mask_zeros.view(dtype=np.int16)87for i in range(8):88  set_failures = get_failures(mask_ones[i,start_addr_tmp:start_addr_tmp+data_length],1)89  reset_failures = get_failures(mask_zeros[i,start_addr_tmp:start_addr_tmp+data_length],0)90  bit_failures[i,100*16:100*16+16*data_length] = np.logical_or(set_failures,reset_failures)91  axs[0,i].imshow(1-bit_failures[i].reshape((128,16*16)),extent=(0,16*16,0,128),aspect="auto", cmap=cmap ,vmin=0,vmax=1)92start_addr_tmp = 093data_length = M94bit_failures = np.zeros((8,2048*16))95mask_ones,mask_zeros = get_masks("../data/processed/lstm_de_clean_c")96mask_ones0,mask_zeros0 = get_masks("../data/processed/lstm_de_clean_c","0")97for i in range(8):98  set_failures = get_failures(mask_ones[i,start_addr_tmp:start_addr_tmp+data_length],1)99  reset_failures = get_failures(mask_zeros[i,start_addr_tmp:start_addr_tmp+data_length],0)100  bit_failures[i,0:16*data_length] = np.logical_or(set_failures,reset_failures)101  set_failures = get_failures(mask_ones0[i,start_addr_tmp:start_addr_tmp+data_length],1)102  reset_failures = get_failures(mask_zeros0[i,start_addr_tmp:start_addr_tmp+data_length],0)103  bit_failures[i,0:16*data_length] -= np.logical_or(set_failures,reset_failures)104  axs[1,i].imshow(1-bit_failures[i].reshape((128,16*16)),extent=(0,16*16,0,128),aspect="auto", cmap=cmap,vmin=0,vmax=1)105for i in range(8):106    axs[1,i].set_xlabel("Chip " +str(i),fontsize=18)107    for j in range(2):108      axs[j,i].set_xticks(np.arange(0,16*16,4*16))109      #axs[j,i].set_xticklabels(np.arange(0,16*16,4*16))110      #axs[j,i].set_xlim((0,16))111axs[0,0].set_ylabel("Without any\nResiliency Technique",fontsize=18)112axs[1,0].set_ylabel("With\nDistributed ENDURER",fontsize=18)113fig.suptitle("Permanent Bit Failures - 10-Years: LSTM",fontsize=28)...

plot_svhn.py

Source:plot_svhn.py

...14import matplotlib.pyplot as plt15import numpy as np16N = 817M = 204818def get_failures(array, expected):19    failures = np.zeros((array.shape[0],16))20    for i in range(array.shape[0]):21        for j in range(16):22            if int(get_bit(array[i],j))!=expected:23                failures[i,j] = 124    return failures.reshape(-1)25def get_bit(uint16_word, index):26    word = np.uint16(uint16_word) # force just in case27    s = bin(word)[2:]28    if len(s)<16:29        s = "0"*(16-len(s))+s30    return s[index]31def get_masks(prefix,time="2010"):#19710"):32    zeros = [[] for i in range(N)]33    f = open(prefix + "/" + time + "trace_10c_0.txt",'r')34    for i in range(N):35       f.readline() # skip the "physical chip #" print36       for k in range(M/16): #while True:37           row = f.readline()38           row = row.split(' ') # ',' for csv39           row = [int(x,16) for x in row]40           zeros[i].extend(row)41    f.close()42    forced_zeros_memory = np.array(zeros, dtype=np.int16).view(dtype=np.uint16)43    ones = [[] for i in range(N)]44    f = open(prefix + "/" + time + "trace_10c_1.txt",'r')45    for i in range(N):46       f.readline() # skip the "physical chip #" print47       for k in range(M/16): #while True:48           row = f.readline()49           row = row.split(' ') # ',' for csv50           row = [int(x,16) for x in row]51           ones[i].extend(row)52    f.close()53    forced_ones_memory = np.array(ones, dtype=np.int16).view(dtype=np.uint16)54    return forced_ones_memory, forced_zeros_memory55bit_failures = np.zeros((8,2048*16))56start_addr_tmp = 057data_length = M58fig, axs = plt.subplots(2,8,sharex=True,sharey=True,figsize=(14,10))59cmap = "gnuplot" #"coolwarm_r"#"RdYlGn"60start_addr_tmp = 10#M-6461data_length = 6462mask_ones = np.zeros((8,2048*2),dtype=np.int8)63mask_zeros = np.zeros((8,2048*2),dtype=np.int8)64i=065f = open("../c_models_test/c_svhn/activation_mask_NR_TENYEAR.c","r")66data = f.readline()67full_data = ''68while ';' not in data:69    data = f.readline()70    full_data += data71mask_zeros[i,10:10+data_length*2] 72arr = eval("["+full_data[1:-3]+"]")73mask_zeros[i,10:10+data_length*2] = arr74data = f.readline()75full_data = ''76while ';' not in data:77    data = f.readline()78    full_data += data79arr = eval("["+full_data[1:-3]+"]")80mask_ones[i,10:10+data_length*2] = arr81f.close() 82start_addr_tmp = 1083for i in range(8):84  if (i==0):85      set_failures = get_failures(mask_ones[i,start_addr_tmp:start_addr_tmp+data_length],1)86      reset_failures = get_failures(mask_zeros[i,start_addr_tmp:start_addr_tmp+data_length],0)87      bit_failures[i,100*16:100*16+16*data_length] = np.logical_or(set_failures,reset_failures)88      #bit_failures[i,0:16*data_length] = np.logical_or(set_failures,reset_failures)89      #print(bit_failures.sum())90  axs[0,i].imshow(1-bit_failures[i].reshape((128,16*16)),extent=(0,16,0,128),aspect="auto", cmap=cmap ,vmin=0,vmax=1)91start_addr_tmp = 092data_length = M93bit_failures = np.zeros((8,2048*16))94mask_ones,mask_zeros = get_masks("../data/processed/svhn_de_clean")95mask_ones0,mask_zeros0 = get_masks("../data/processed/svhn_de_clean","0")96for i in range(8):97  set_failures = get_failures(mask_ones[i,start_addr_tmp:start_addr_tmp+data_length],1)98  reset_failures = get_failures(mask_zeros[i,start_addr_tmp:start_addr_tmp+data_length],0)99  bit_failures[i,0:16*data_length] = np.logical_or(set_failures,reset_failures)100  set_failures = get_failures(mask_ones0[i,start_addr_tmp:start_addr_tmp+data_length],1)101  reset_failures = get_failures(mask_zeros0[i,start_addr_tmp:start_addr_tmp+data_length],0)102  bit_failures[i,0:16*data_length] -= np.logical_or(set_failures,reset_failures)103  axs[1,i].imshow(1-bit_failures[i].reshape((128,16*16)),extent=(0,16,0,128),aspect="auto", cmap=cmap,vmin=0,vmax=1)104for i in range(8):105    axs[1,i].set_xlabel("Chip " +str(i),fontsize=18)106    for j in range(2):107      axs[j,i].set_xticks(np.arange(0,16,4))108      axs[j,i].set_xticklabels(np.arange(0,16*16,4*16))109      #axs[j,i].set_xlim((0,16))110axs[0,0].set_ylabel("Without any\nResiliency Technique",fontsize=18)111axs[1,0].set_ylabel("With\nDistributed ENDURER",fontsize=18)112fig.suptitle("Permanent Bit Failures - 10-Years: SVHN",fontsize=28)...

plot_d2nn.py

Source:plot_d2nn.py

...14import matplotlib.pyplot as plt15import numpy as np16N = 817M = 204818def get_failures(array, expected):19    failures = np.zeros((array.shape[0],16))20    for i in range(array.shape[0]):21        for j in range(16):22            if int(get_bit(array[i],j))!=expected:23                failures[i,j] = 124    return failures.reshape(-1)25def get_bit(uint16_word, index):26    word = np.uint16(uint16_word) # force just in case27    s = bin(word)[2:]28    if len(s)<16:29        s = "0"*(16-len(s))+s30    return s[index]31def get_masks(prefix,time="19710"):32    zeros = [[] for i in range(N)]33    f = open(prefix + "/" + time + "trace_10c_0.txt",'r')34    for i in range(N):35       f.readline() # skip the "physical chip #" print36       for k in range(M/16): #while True:37           row = f.readline()38           row = row.split(' ') # ',' for csv39           row = [int(x,16) for x in row]40           zeros[i].extend(row)41    f.close()42    forced_zeros_memory = np.array(zeros, dtype=np.int16).view(dtype=np.uint16)43    ones = [[] for i in range(N)]44    f = open(prefix + "/" + time + "trace_10c_1.txt",'r')45    for i in range(N):46       f.readline() # skip the "physical chip #" print47       for k in range(M/16): #while True:48           row = f.readline()49           row = row.split(' ') # ',' for csv50           row = [int(x,16) for x in row]51           ones[i].extend(row)52    f.close()53    forced_ones_memory = np.array(ones, dtype=np.int16).view(dtype=np.uint16)54    return forced_ones_memory, forced_zeros_memory55bit_failures = np.zeros((8,2048*16))56start_addr_tmp = 057data_length = M58fig, axs = plt.subplots(2,8,sharex=True,sharey=True,figsize=(14,10))59cmap = "gnuplot"60start_addr_tmp = M-102461data_length = 21662mask_ones,mask_zeros = get_masks("../data/processed/d2nn_no_resilience_clean","59130")63for i in range(8):64  if i==0:65      set_failures = get_failures(mask_ones[i,start_addr_tmp:start_addr_tmp+data_length],1)66      reset_failures = get_failures(mask_zeros[i,start_addr_tmp:start_addr_tmp+data_length],0)67      bit_failures[i,100*16:100*16+16*data_length] = np.logical_or(set_failures,reset_failures)68  axs[0,i].imshow(1-bit_failures[i].reshape((128,16*16)),extent=(0,16,0,128),aspect="auto", cmap=cmap ,vmin=0,vmax=1)69start_addr_tmp = 070data_length = M71bit_failures = np.zeros((8,2048*16))72mask_ones,mask_zeros = get_masks("../data/processed/d2nn_de_clean","59130")73mask_ones0,mask_zeros0 = get_masks("../data/processed/d2nn_de_clean","0")74for i in range(8):75  set_failures = get_failures(mask_ones[i,start_addr_tmp:start_addr_tmp+data_length],1)76  reset_failures = get_failures(mask_zeros[i,start_addr_tmp:start_addr_tmp+data_length],0)77  bit_failures[i,0:16*data_length] = np.logical_or(set_failures,reset_failures)78  set_failures = get_failures(mask_ones0[i,start_addr_tmp:start_addr_tmp+data_length],1)79  reset_failures = get_failures(mask_zeros0[i,start_addr_tmp:start_addr_tmp+data_length],0)80  bit_failures[i,0:16*data_length] -= np.logical_or(set_failures,reset_failures)81  axs[1,i].imshow(1-bit_failures[i].reshape((128,16*16)),extent=(0,16,0,128),aspect="auto", cmap=cmap,vmin=0,vmax=1)82for i in range(8):83    axs[1,i].set_xlabel("Chip " +str(i),fontsize=18)84    for j in range(2):85      axs[j,i].set_xticks(np.arange(0,16,4))86      axs[j,i].set_xticklabels(np.arange(0,16*16,4*16))87      #axs[j,i].set_xlim((0,16))88axs[0,0].set_ylabel("Without any\nResiliency Technique",fontsize=18)89axs[1,0].set_ylabel("With\nDistributed ENDURER",fontsize=18)90fig.suptitle("Permanent Bit Failures - 10-Years: D2NN",fontsize=28)...

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