import matplotlib.pyplot as plt
import numpy as np
# Retina mode
%config InlineBackend.figure_format = 'retina'
Anscombe’s Quartet
ML
Tutorial
Adapted from https://matplotlib.org/stable/gallery/specialty_plots/anscombe.html
from latexify import latexify, format_axes
=2) latexify(columns
= [10, 8, 13, 9, 11, 14, 6, 4, 12, 7, 5]
x = [8.04, 6.95, 7.58, 8.81, 8.33, 9.96, 7.24, 4.26, 10.84, 4.82, 5.68]
y1 = [9.14, 8.14, 8.74, 8.77, 9.26, 8.10, 6.13, 3.10, 9.13, 7.26, 4.74]
y2 = [7.46, 6.77, 12.74, 7.11, 7.81, 8.84, 6.08, 5.39, 8.15, 6.42, 5.73]
y3 = [8, 8, 8, 8, 8, 8, 8, 19, 8, 8, 8]
x4 = [6.58, 5.76, 7.71, 8.84, 8.47, 7.04, 5.25, 12.50, 5.56, 7.91, 6.89]
y4
= {
datasets 'I': (x, y1),
'II': (x, y2),
'III': (x, y3),
'IV': (x4, y4)
}
= plt.subplots(2, 2, sharex=True, sharey=True,
fig, axs ={'wspace': 0.08, 'hspace': 0.08})
gridspec_kw0, 0].set(xlim=(0, 20), ylim=(2, 14))
axs[0, 0].set(xticks=(0, 10, 20), yticks=(4, 8, 12))
axs[
for ax, (label, (x, y)) in zip(axs.flat, datasets.items()):
0.1, 0.9, label, fontsize=20, transform=ax.transAxes, va='top')
ax.text(='in', top=True, right=True)
ax.tick_params(direction'o')
ax.plot(x, y,
# linear regression
= np.polyfit(x, y, deg=1) # slope, intercept
p1, p0 =(0, p0), slope=p1, color='r', lw=2)
ax.axline(xy1
# add text box for the statistics
= (f'$\\mu$ = {np.mean(y):.2f}\n'
stats f'$\\sigma$ = {np.std(y):.2f}\n'
f'$r$ = {np.corrcoef(x, y)[0][1]:.2f}')
= dict(boxstyle='round', fc='blanchedalmond', ec='orange', alpha=0.5)
bbox 0.95, 0.07, stats, fontsize=9, bbox=bbox,
ax.text(=ax.transAxes, horizontalalignment='right')
transform#format_axes(ax)
"../figures/anscombe.pdf") plt.savefig(