My timing shows that k-means consistently loses out on timing, compared to a mixture model, *initialized using k-means*.

What's the explanation for this? Is the GMM using a different k-means algorithm? Am I misunderstanding how it works? Does it use a differently sized dataset (smaller than I'm drawing from?).

```
import sklearn.cluster
import sklearn.mixture
import numpy as np
import time
import matplotlib.pyplot as plt
k = 3
N = 100
def clust():
m = sklearn.cluster.KMeans(n_clusters = k)
m.fit(X.reshape(-1, 1))
return m.cluster_centers_
def fit():
m = sklearn.mixture.GaussianMixture(n_components = k, init_params = "kmeans")
m.fit(X.reshape(-1, 1))
return m.means_
duration_clust = []
duration_fit = []
ctrs_clust = []
ctrs_fit = []
for i in range(N):
_1 = np.random.normal(0.25, 0.15, 50)
_2 = np.random.normal(0.50, 0.15, 50)
_3 = np.random.normal(0.75, 0.15, 50)
X = np.concatenate((_1, _2, _3)).reshape(-1, 1)
ts = time.time()
c = clust()
te = time.time()
time_clust = (te - ts) * 1e3
ts = time.time()
f = fit()
te = time.time()
time_fit = (te - ts) * 1e3
duration_clust.append(time_clust)
duration_fit.append(time_fit)
ctrs_clust.append(c)
ctrs_fit.append(f)
bins0 = np.arange(0, 20, 1)
bins1 = np.linspace(0,1,30)
fig, ax = plt.subplots(nrows = 2)
ax[0].hist(duration_clust, label = "Kmeans", bins = bins0, alpha = 0.5)
ax[0].hist(duration_fit, label = "GMM with Kmeans", bins = bins0, alpha = 0.5)
ax[0].set_xlabel("duration (ms)")
ax[0].legend(loc = "upper right")
ax[1].hist(np.ravel(ctrs_clust), label = "Kmeans centers", bins = bins1, alpha = 0.5)
ax[1].hist(np.ravel(ctrs_fit), label = "GMM centers", bins = bins1, alpha = 0.5)
ax[1].set_xlabel("Center location")
ax[1].axvline([0.25], label = "Truth", color = "black")
ax[1].axvline([0.50], color = "black")
ax[1].axvline([0.75], color = "black")
ax[1].legend(loc = "upper right")
plt.tight_layout()
plt.show()
```