def test_week1_exercise_Q1(): # Lecture: Quick-Union Improvements 1:22 """seed = 254585 """ # estimate b: 7:58 # N seconds # ------------------- strData = """ 16384 0.000 32768 0.001 65536 0.001 131072 0.004 262144 0.009 524288 0.023 1048576 0.059 2097152 0.152 4194304 0.389 8388608 0.996 16777216 2.553 33554432 6.540 67108864 16.756 134217728 42.927 268435456 109.962 536870912 281.688 """ data = getData(strData) b = est_b(data) a = solve_a(data, b) do_plot(data, a, b)
def test_week1_exercise_Q1(): # Lecture: Quick-Union Improvements 1:22 """seed = 254585 """ # estimate b: 7:58 # N seconds # ------------------- strData = """ 16384 0.000 32768 0.001 65536 0.001 131072 0.004 262144 0.009 524288 0.023 1048576 0.059 2097152 0.152 4194304 0.389 8388608 0.996 16777216 2.553 33554432 6.540 67108864 16.756 134217728 42.927 268435456 109.962 536870912 281.688 """ data = getData(strData) b = est_b(data) a = solve_a(data, b) do_plot(data, a, b)
def test_week1_exerciseA_Q2(): """seed = 331534 """ # N seconds # ------------------- strData = """ 2 7.000 4 31.000 8 127.000 16 511.000 32 2047.000 64 8191.000 128 32767.000 """ data = getData(strData) b = est_b(data) solve_a(data, b)
def test_week1_exerciseA_Q2(): """seed = 331534 """ # N seconds # ------------------- strData = """ 2 7.000 4 31.000 8 127.000 16 511.000 32 2047.000 64 8191.000 128 32767.000 """ data = getData(strData) b = est_b(data) solve_a(data, b)
def test_week1_exerciseA_Q1(): """seed = 331534 """ # N seconds # ------------------- strData = """ 64 0.001 128 0.008 256 0.062 512 0.564 1024 5.092 2048 48.765 4096 439.291 8192 3998.962 """ data = getData(strData) b = est_b(data) solve_a(data, b)
def test_week1_exercise_Q1b(): # Lecture: Quick-Union Improvements 1:22 """seed = 686658 """ # N seconds # ------------------- strData = """ 64 0.001 128 0.006 256 0.072 512 0.713 1024 6.837 2048 68.530 4096 666.576 8192 6594.977 """ data = getData(strData) b = est_b(data) solve_a(data, b)
def test_week1_exercise_Q1b(): # Lecture: Quick-Union Improvements 1:22 """seed = 686658 """ # N seconds # ------------------- strData = """ 64 0.001 128 0.006 256 0.072 512 0.713 1024 6.837 2048 68.530 4096 666.576 8192 6594.977 """ data = getData(strData) b = est_b(data) solve_a(data, b)
def test_week1_exerciseA_Q1(): """seed = 331534 """ # N seconds # ------------------- strData = """ 64 0.001 128 0.008 256 0.062 512 0.564 1024 5.092 2048 48.765 4096 439.291 8192 3998.962 """ data = getData(strData) b = est_b(data) solve_a(data, b)
def test_week1_ex_Q1_398112(): # Lecture: Quick-Union Improvements 1:22 """seed = 398112 """ # estimate b: 7:58 # N seconds # ------------------- strData = """ 128 0.000 256 0.001 512 0.006 1024 0.029 2048 0.158 4096 0.852 8192 4.561 16384 24.586 32768 129.467 65536 697.828 131072 3730.438 """ data = getData(strData) est_b(data)
def test_week1_exercise_Q1d(): # Lecture: Quick-Union Improvements 1:22 """seed = 262435 """ # N seconds # ------------------- strData = """ 256 0.000 512 0.001 1024 0.005 2048 0.028 4096 0.146 8192 0.812 16384 4.448 32768 24.280 65536 134.049 131072 728.101 262144 3978.674 """ data = getData(strData) b = est_b(data) solve_a(data, b)
def test_week1_exercise_Q1d(): # Lecture: Quick-Union Improvements 1:22 """seed = 262435 """ # N seconds # ------------------- strData = """ 256 0.000 512 0.001 1024 0.005 2048 0.028 4096 0.146 8192 0.812 16384 4.448 32768 24.280 65536 134.049 131072 728.101 262144 3978.674 """ data = getData(strData) b = est_b(data) solve_a(data, b)
def test_week1_ex_Q1_398112(): # Lecture: Quick-Union Improvements 1:22 """seed = 398112 """ # estimate b: 7:58 # N seconds # ------------------- strData = """ 128 0.000 256 0.001 512 0.006 1024 0.029 2048 0.158 4096 0.852 8192 4.561 16384 24.586 32768 129.467 65536 697.828 131072 3730.438 """ data = getData(strData) est_b(data)
def test_week1_ex_Q1_130450(): # Lecture: Quick-Union Improvements 1:22 """seed = 130450 """ # estimate b: 7:58 # N seconds # ------------------- strData = """ 1024 0.000 2048 0.001 4096 0.003 8192 0.013 16384 0.053 32768 0.227 65536 0.953 131072 3.998 262144 16.756 524288 70.385 1048576 295.766 2097152 1243.879 """ data = getData(strData) est_b(data)
def test_week1_ex_Q1_990354(): # Lecture: Quick-Union Improvements 1:22 """seed = 990354 """ # estimate b: 7:58 # N seconds # ------------------- strData = """ 256 0.000 512 0.001 1024 0.005 2048 0.022 4096 0.099 8192 0.467 16384 2.133 32768 9.998 65536 46.309 131072 214.246 262144 998.222 524288 4622.897 """ data = getData(strData) est_b(data)
def test_week1_ex_Q1_130450(): # Lecture: Quick-Union Improvements 1:22 """seed = 130450 """ # estimate b: 7:58 # N seconds # ------------------- strData = """ 1024 0.000 2048 0.001 4096 0.003 8192 0.013 16384 0.053 32768 0.227 65536 0.953 131072 3.998 262144 16.756 524288 70.385 1048576 295.766 2097152 1243.879 """ data = getData(strData) est_b(data)
def test_week1_ex_Q1_990354(): # Lecture: Quick-Union Improvements 1:22 """seed = 990354 """ # estimate b: 7:58 # N seconds # ------------------- strData = """ 256 0.000 512 0.001 1024 0.005 2048 0.022 4096 0.099 8192 0.467 16384 2.133 32768 9.998 65536 46.309 131072 214.246 262144 998.222 524288 4622.897 """ data = getData(strData) est_b(data)
def test_Lecture_Observations_Question(): """Question from the end of the Week 1 Lecture, Observations. EXPLANATION: We assume T(N) = aN^b for some constants a and b. As we double the size of the input N, the running time approximately quadruples, indicating a algorithm or b=2. Plugging in T(64,000) = 20.5 and solving for a, we obtain a = 20.5/64,000^2 ~ 5.0 x 10-9 """ strData = """ 1000 0.0 2000 0.0 4000 0.1 8000 0.3 16000 1.3 32000 5.1 64000 20.5 """ data = getData(strData) b = est_b(data) a = solve_a(data, b) do_plot(data, a, b)
def test_Lecture_Observations_Question(): """Question from the end of the Week 1 Lecture, Observations. EXPLANATION: We assume T(N) = aN^b for some constants a and b. As we double the size of the input N, the running time approximately quadruples, indicating a algorithm or b=2. Plugging in T(64,000) = 20.5 and solving for a, we obtain a = 20.5/64,000^2 ~ 5.0 x 10-9 """ strData = """ 1000 0.0 2000 0.0 4000 0.1 8000 0.3 16000 1.3 32000 5.1 64000 20.5 """ data = getData(strData) b = est_b(data) a = solve_a(data, b) do_plot(data, a, b)
def test_week1_exercise_Q1c(): # Lecture: Quick-Union Improvements 1:22 """seed = 410426 """ # N seconds # ------------------- strData = """ 32768 0.000 65536 0.000 131072 0.001 262144 0.003 524288 0.008 1048576 0.022 2097152 0.057 4194304 0.148 8388608 0.386 16777216 1.008 33554432 2.632 67108864 6.872 134217728 17.944 268435456 46.850 536870912 122.325 """ data = getData(strData) b = est_b(data) solve_a(data, b)
def test_week1_exercise_Q1c(): # Lecture: Quick-Union Improvements 1:22 """seed = 410426 """ # N seconds # ------------------- strData = """ 32768 0.000 65536 0.000 131072 0.001 262144 0.003 524288 0.008 1048576 0.022 2097152 0.057 4194304 0.148 8388608 0.386 16777216 1.008 33554432 2.632 67108864 6.872 134217728 17.944 268435456 46.850 536870912 122.325 """ data = getData(strData) b = est_b(data) solve_a(data, b)