The question does not define *matrix* very well: "matrix of values", "matrix of data". I assume that you mean a *distance matrix*. In other words, element D_ij in the symmetric nonnegative N-by-N *distance matrix* D denotes the distance between two feature vectors, x_i and x_j. Is that correct?

If so, then try this (edited June 13, 2010, to reflect two different dendrograms).

**Tested in **`python 3.10`

and `matplotlib 3.5.1`

```
import numpy as np
import matplotlib.pyplot as plt
import scipy.cluster.hierarchy as sch
from scipy.spatial.distance import squareform
# Generate random features and distance matrix.
np.random.seed(200) # for reproducible data
x = np.random.rand(40)
D = np.zeros([40, 40])
for i in range(40):
for j in range(40):
D[i,j] = abs(x[i] - x[j])
condensedD = squareform(D)
# Compute and plot first dendrogram.
fig = plt.figure(figsize=(8, 8))
ax1 = fig.add_axes([0.09, 0.1, 0.2, 0.6])
Y = sch.linkage(condensedD, method='centroid')
Z1 = sch.dendrogram(Y, orientation='left')
ax1.set_xticks([])
ax1.set_yticks([])
# Compute and plot second dendrogram.
ax2 = fig.add_axes([0.3, 0.71, 0.6, 0.2])
Y = sch.linkage(condensedD, method='single')
Z2 = sch.dendrogram(Y)
ax2.set_xticks([])
ax2.set_yticks([])
# Plot distance matrix.
axmatrix = fig.add_axes([0.3, 0.1, 0.6, 0.6])
idx1 = Z1['leaves']
idx2 = Z2['leaves']
D = D[idx1,:]
D = D[:,idx2]
im = axmatrix.matshow(D, aspect='auto', origin='lower', cmap=plt.cm.YlGnBu)
axmatrix.set_xticks([]) # remove axis labels
axmatrix.set_yticks([]) # remove axis labels
# Plot colorbar.
axcolor = fig.add_axes([0.91, 0.1, 0.02, 0.6])
plt.colorbar(im, cax=axcolor)
plt.show()
fig.savefig('dendrogram.png')
```

Edit: For different colors, adjust the `cmap`

attribute in `imshow`

. See the scipy/matplotlib docs for examples. That page also describes how to create your own colormap. For convenience, I recommend using a preexisting colormap. In my example, I used `YlGnBu`

.

Edit: `add_axes`

(see documentation here) accepts a list or tuple: `(left, bottom, width, height)`

. For example, `(0.5,0,0.5,1)`

adds an `Axes`

on the right half of the figure. `(0,0.5,1,0.5)`

adds an `Axes`

on the top half of the figure.

Most people probably use `add_subplot`

for its convenience. I like `add_axes`

for its control.

To remove the border, use `add_axes([left,bottom,width,height], frame_on=False)`

. See example here.