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I'm trying implementing k-NN with Mahalanobis's distance in python with numpy. However, the code below works very slowly when I use broadcasting. Please teach me how can I improve numpy speed or implement this better.

from __future__ import division
from sklearn.utils import shuffle
from sklearn.metrics import f1_score
from sklearn.datasets import fetch_mldata
from sklearn.cross_validation import train_test_split

import numpy as np
import matplotlib.pyplot as plt

mnist = fetch_mldata('MNIST original')
mnist_X, mnist_y = shuffle(mnist.data, mnist.target.astype('int32'))

mnist_X = mnist_X/255.0

train_X, test_X, train_y, test_y = train_test_split(mnist_X, mnist_y, test_size=0.2)

k = 2
def data_gen(n):
    return train_X[train_y == n]
train_X_num = [data_gen(i) for i in range(10)]
inv_cov = [np.linalg.inv(np.cov(train_X_num[i], rowvar=0)+np.eye(784)*0.00001) for i in range(10)]  # Making Inverse covariance matrices
for i in range(10):
    ivec = train_X_num[i]  # ivec size is (number of 'i' data, 784)
    ivec = ivec - test_X[:, np.newaxis, :]  # This code is too much slowly, and using huge memory
    iinv_cov = inv_cov[i]
    d[i] = np.add.reduce(np.dot(ivec, iinv_cov)*ivec, axis=2).sort(1)[:, :k+1]  # Calculate x.T inverse(sigma) x, and extract k-minimal distance
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  • That's not the comment syntax for python!
    – Eric
    May 1, 2016 at 2:24
  • What is test_X.shape?
    – Eric
    May 1, 2016 at 2:28
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    Give us a sample test case of the part you think is too slow, something we can copy and paste and experiment with, maybe even do our own time tests.
    – hpaulj
    May 1, 2016 at 7:19

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