# did not find slope and intercept in multiple linear regression, nan value coming

I implement multiple linear regression from scratch but I did not find slope and intercept, gradient decent give me nan value.

Here is my code and I also give ipython notebook file.

``````import pandas as pd
import numpy as np
import matplotlib.pyplot as plt

x = np.array([[   1, 2104,    3],
[   1, 1600,    3],
[   1, 2400,    3],
[   1, 1416,    2],
[   1, 3000,    4],
[   1, 1985,    4]])

y = np.array([399900, 329900, 369000, 232000, 539900, 299900])

def gradient_runner(x, y, altha, b, theta1, theta2):
initial_m1 = 0
initial_m2 = 0
initial_b = 0
N = len(x)

for i in range(0, len(y)):
x0 = x[i, 0]
x1 = x[i, 1]
x2 = x[i, 2]
yi = y[i]

h_theta = (theta1 * x1 + theta2 * x2 + b)

initial_b += -(1/N) * x0 * (yi - h_theta)

initial_m1 += -(1/N) * x1 * (yi - h_theta)

initial_m2 += -(1/N) * x2 * (yi - h_theta)

new_b = b - (altha * initial_b)
new_m1 = theta1 - (altha * initial_m1)
new_m2 = theta2 - (altha * initial_m2)
return new_b, new_m1, new_m2

def fit(x, y, alpha, iteration, b, m1, m2):

for i in range(0, iteration):

b, m1, m2 = gradient_runner(x, y, alpha, b, m1, m2)
return b, m1, m2

fit(x,y, 0.001, 1500, 0,0,0)
``````
• Have you tried to step through the code with a debugger to see where the NaN values start to appear?
– MB-F
Jan 29, 2018 at 8:31
• If you need more help I suggest you include toy data in the code so people can copy/paste/run it.
– MB-F
Jan 29, 2018 at 8:33
• Please read and understand minimal reproducible example. Jan 29, 2018 at 8:34

This is not a programming issue, but an issue of your function. Numpy can use different data types. In your case it uses float64. You can check the largest number, you can represent with this data format:

``````>>>sys.float_info
>>>sys.float_info(max=1.7976931348623157e+308, max_exp=1024, max_10_exp=308,
min=2.2250738585072014e-308, min_exp=-1021, min_10_exp=-307, dig=15,
``````

Unfortunately, your iteration is not convergent for `b, m1, m2`, at least not with the provided data set. In iteration 83 the values become too large to be represented as a float, which are displayed as `inf` and `-inf` for infinity. When this is fed into the next iterative step, Python returns `NaN` for "not a number".
Though there are ways in Python to overcome limitations of float number representation in terms of precision, this is not a strategy you have to explore. The problem here is that your fit function is not convergent. Whether this is due to the function itself, its implementation by you or the chosen initial guesses, I can't decide. A common reason for non-convergent fit behaviour is also, that the data set doesn't represent the fit function.

``````def scale(x):
for j in range(x.shape[1]):
mean_x = 0
for i in range(len(x)):
mean_x += x[i,j]
mean_x = mean_x / len(x)
sum_of_sq = 0
for i in range(len(x)):
sum_of_sq += (x[i,j] - mean_x)**2
stdev = sum_of_sq / (x.shape[0] -1)
for i in range(len(x)):
x[i,j] = (x[i,j] - mean_x) / stdev
return x
``````

or you can use a pre defined standard scaler