I want to implement a machine learning algorithm in scikit learn, but I don't understand what this parameter
random_state does? Why should I use it?
I also could not understand what is a Pseudo-random number.
train_test_split splits arrays or matrices into random train and test subsets. That means that everytime you run it without specifying
random_state, you will get a different result, this is expected behavior. For example:
>>> a, b = np.arange(10).reshape((5, 2)), range(5) >>> train_test_split(a, b) [array([[6, 7], [8, 9], [4, 5]]), array([[2, 3], [0, 1]]), [3, 4, 2], [1, 0]]
>>> train_test_split(a, b) [array([[8, 9], [4, 5], [0, 1]]), array([[6, 7], [2, 3]]), [4, 2, 0], [3, 1]]
It changes. On the other hand if you use
random_state=some_number, then you can guarantee that the output of Run 1 will be equal to the output of Run 2, i.e. your split will be always the same.
It doesn't matter what the actual
random_state number is 42, 0, 21, ... The important thing is that everytime you use 42, you will always get the same output the first time you make the split.
This is useful if you want reproducible results, for example in the documentation, so that everybody can consistently see the same numbers when they run the examples.
In practice I would say, you should set the
random_state to some fixed number while you test stuff, but then remove it in production if you really need a random (and not a fixed) split.
Regarding your second question, a pseudo-random number generator is a number generator that generates almost truly random numbers. Why they are not truly random is out of the scope of this question and probably won't matter in your case, you can take a look here form more details.
If you don't specify the
random_state in your code, then every time you run(execute) your code a new random value is generated and the train and test datasets would have different values each time.
However, if a fixed value is assigned like
random_state = 42 then no matter how many times you execute your code the result would be the same .i.e, same values in train and test datasets.
If you don't mention the random_state in the code, then whenever you execute your code a new random value is generated and the train and test datasets would have different values each time.
However, if you use a particular value for random_state(random_state = 1 or any other value) everytime the result will be same,i.e, same values in train and test datasets. Refer below code:
import pandas as pd from sklearn.model_selection import train_test_split test_series = pd.Series(range(100)) size30split = train_test_split(test_series,random_state = 1,test_size = .3) size25split = train_test_split(test_series,random_state = 1,test_size = .25) common = [element for element in size25split if element in size30split] print(len(common))
Doesn't matter how many times you run the code, the output will be 70.
Try to remove the random_state and run the code.
import pandas as pd from sklearn.model_selection import train_test_split test_series = pd.Series(range(100)) size30split = train_test_split(test_series,test_size = .3) size25split = train_test_split(test_series,test_size = .25) common = [element for element in size25split if element in size30split] print(len(common))
Now here output will be different each time you execute the code.
random_state number splits the test and training datasets with a random manner. In addition to what is explained here, it is important to remember that random_state value can have significant effect on the quality of your model (by quality I essentially mean accuracy to predict). For instance, If you take a certain dataset and train a regression model with it, without specifying the random_state value, there is the potential that everytime, you will get a different accuracy result for your trained model on the test data. So it is important to find the best random_state value to provide you with the most accurate model. And then, that number will be used to reproduce your model in another occasion such as another research experiment. To do so, it is possible to split and train the model in a for-loop by assigning random numbers to random_state parameter:
`for j in range(1000):
X_train, X_test, y_train, y_test = train_test_split(X, y , random_state =j, test_size=0.35) lr = LarsCV().fit(X_train, y_train) tr_score.append(lr.score(X_train, y_train)) ts_score.append(lr.score(X_test, y_test)) J = ts_score.index(np.max(ts_score)) X_train, X_test, y_train, y_test = train_test_split(X, y , random_state =J, test_size=0.35) M = LarsCV().fit(X_train, y_train) y_pred = M.predict(X_test)`
Split arrays or matrices into random train and test subsets
Parameters: ... random_state : int, RandomState instance or None, optional (default=None)
If int, random_state is the seed used by the random number generator; If RandomState instance, random_state is the random number generator; If None, the random number generator is the RandomState instance used by np.random. source: http://scikit-learn.org/stable/modules/generated/sklearn.model_selection.train_test_split.html
'''Regarding the random state, it is used in many randomized algorithms in sklearn to determine the random seed passed to the pseudo-random number generator. Therefore, it does not govern any aspect of the algorithm's behavior. As a consequence, random state values which performed well in the validation set do not correspond to those which would perform well in a new, unseen test set. Indeed, depending on the algorithm, you might see completely different results by just changing the ordering of training samples.''' source: https://stats.stackexchange.com/questions/263999/is-random-state-a-parameter-to-tune