# Efficient way to Reshape Data for Time Series Prediction Machine Learning (Numpy)

Lets say I have a data set (numpy array) X of N samples of time series each with T time steps of a D-dimensional vector so that:

``````X.shape == (N,T,D)
``````

Now I want to reshape it into x (data set) and y (labels) to apply a machine learning to predict the step in the times series.

I want to take every subseries of each sample of length n

``````x.shape==(N*(T-n),n,D) and y.shape==(N*(T-n)),D)
``````

with

``````X[k,j:j+n,:]
``````

being one of my samples in `x` and

``````X[k,j+n+1,:]
``````

it's label in `y`.

Is a for-loop the only way to do that?

So I have the following method, but it has a for loop, and I am not sure that I cannot do better:

``````    def reshape_data(self, X, n):
"""
Reshape a data set of N time series samples of T time steps each
Args:
data: Time series data of shape (N,T,D)
n: int, length of time window used to predict x[t+1]

Returns:

"""
N,T,D = X.shape

x = np.zeros((N*(T-n),n,D))
y = np.zeros((N*(T-n),D))

for i in range(T-n):
x[N*i:N*(i+1),:,:] = X[:,i:i+n,:]
y[N*i:N*(i+1),:] = X[:,i+n,:]

return x,y
``````

you are looking for `pandas data panel`. (http://pandas.pydata.org/pandas-docs/stable/generated/pandas.Panel.html). just put into the numpy array, transpose on the minor axis and get its numpy representation (`.as_matrix()` or simply `.values`). if you want to truly do it only in numpy alone, `numpy.transpose` just for (https://docs.scipy.org/doc/numpy/reference/generated/numpy.transpose.html)