I'm trying to do simple linear regression with 1 feature. It's a simple 'predict salary given years experience' problem. The NN trains on years experience (X) and a salary (Y). For some reason the loss is exploding and ultimately returns inf or nan

This is the code I have:

import torch
import torch.nn as nn
import pandas as pd
import numpy as np

dataset = pd.read_csv('./salaries.csv')

x_temp = dataset.iloc[:, :-1].values
y_temp = dataset.iloc[:, 1:].values

X_train = torch.FloatTensor(x_temp)
Y_train = torch.FloatTensor(y_temp)

class Model(torch.nn.Module): 
    def __init__(self):
        self.linear = torch.nn.Linear(1,1)

    def forward(self, x):
        y_pred = self.linear(x)
        return y_pred

model = Model()

loss_func = torch.nn.MSELoss(size_average=False)
optim = torch.optim.SGD(model.parameters(), lr=0.01)

for epoch in range(200):
    #calculate y_pred
    y_pred = model(X_train)

    #calculate loss
    loss = loss_func(y_pred, Y_train)
    print(epoch, "{:.2f}".format(loss.data))

    #backward pass + update weights

test_exp = torch.FloatTensor([[8.0]])
print("8 years experience --> ", model(test_exp).data[0][0].item())

As I mentioned, once it starts training the loss gets super big and ends up showing inf after like the 10th epoch.

I suspect it may have something to do with how i'm loading the data? This is what is in salaries.csv file:

Years Salary
1.1 39343
1.3 46205
1.5 37731
2   43525
2.2 39891
2.9 56642
3   60150
3.2 54445
3.2 64445
3.7 57189
3.9 63218
4   55794
4   56957
4.1 57081
4.5 61111
4.9 67938
5.1 66029
5.3 83088

Thank you for your help

  • do you have NaNs or infs in your dataset? – Paddy Jun 26 '18 at 9:51
  • Can you post the link to the salaries csv? – Ryan Jun 26 '18 at 11:18
  • I would start by getting the average loss, instead of a sum (why did not avoid averaging in the first place?). And/or decrease the learning rate. Finally, you would make the problem more sensible for MSE by downscaling the output values (I'd suggest a factor of 10 000, so the values stay readable). – dedObed Jun 27 '18 at 12:38

Once the loss becomes inf after a certain pass, your model gets corrupted after backpropagating. This probably happens because the values in "Salary" column are too big. try normalizing the salaries.

Alternatively, you could try to initialize the parameters by hand (rather than letting it be initialized randomly), letting the bias term be the average of salaries, and the slope of the line be 0 (for instance). That way the initial model would be close enough to the optimal solution, so that the loss does not blow up.


Here is an example how this all happens. You may try to run this program which basically represents r-deep layer network.

import torch
import math
import matplotlib.pyplot as plt
def stat(t, p=True):
    m = t.mean()
    s = t.std()
    if p==True:
        print(f"MEAN: {m}, STD: {s}")

_m = []
_s = []

c = 100
r = 50# repeat steps
x = torch.randn(c)
m = torch.randn(c,c)#/math.sqrt(n)

for _ in range (0,r):
    x = m@x    
    _1, _2 = stat(x, False)



enter image description here

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