I'm trying to make my x axis look like this:

enter image description here

so there is a "sub-title" for a group of ticks, and a separations that I can add. Is it possible doing it in matplotlib? if not, is there another tool?

The example was taken from Wu, Lisa, et al. "Q100: The architecture and design of a database processing unit." ACM SIGPLAN Notices 49.4 (2014): 255-268.

2 Answers 2


I took a stab at this, the trick is to create a transparent overlay axis that I can use to draw the vertical bars near the xaxis and the 3 cat labels. Hopefully somebody more clever than I comes up with a something more elegant!

import matplotlib.pyplot as plt
from matplotlib import lines

labels = ['LowPower Design', 'Pareto Design', 'HighPerf Design']
cats = ['q14', 'q19', 'q8', 'q6', 'q17', 'q7', 'q5', 'q15', 'q4', 'q1', 'q3',
    'q16', 'q18', 'q21', 'q2', 'q20', 'q10', 'q11']
fig = plt.figure(figsize=(10, 4))
ax = plt.axes([0.1, 0.2, 0.8, 0.7])
ax.set_xlim(0.5, len(cats) * 3 + 0.5)
ax.set_xticks(range(1, len(cats) * 3 + 1))
ax.set_xticklabels(cats * 3, rotation=90)

# new transparent axis
ax2 = plt.axes([0, 0, 1, 1], facecolor=(1, 1, 1, 0))

pos = ax.get_position()
deltax = pos.width / 3.
for i in range(4):
    xpos = pos.x0 + deltax * i
    line = lines.Line2D([xpos, xpos], [0.2, 0.05], lw=2., color='k')

    if i < 3:
        ax2.text(xpos + deltax / 2., 0.05, labels[i], ha='center')


example image


First of all, thanks daryl for your comment! I've tried your solution but it seemed a bit too complex. Also, I don't necessarily want to draw the lines symmetrically.

Anyhow, I thought of another way... I hid all the ticks and added additional ticks with large length. I positioned the new ticks between the regular ticks so I got the lines I wanted.

For the labels I've used xlabel aligned to the right and just used spaces to align the labels in the desired position. Not the best solution here, but it worked.

It looks something like this:

# Modify the ticks parameters
plt.tick_params('x', bottom='on', length=80, width=1, which='major', direction='out')

# Hide all ticks
xticks = ax.xaxis.get_major_ticks()
for tick in xticks:
    tick.tick1On = False

# Calculate additional tick marks positions
t_list = list(ax.get_xticks())
t1 = (t_list[5] + t_list[4])/2
t2 = (t_list[7] + t_list[6])/2
t3 = (t_list[13] + t_list[12])/2

# Add ticks
ax.set_xticks(list(ax.get_xticks()) + [t1, t2, t3])

# Make the ticks visible
xticks = ax.xaxis.get_major_ticks()
xticks[15].tick1On = True
xticks[16].tick1On = True
xticks[17].tick1On = True

# Position the labels
plt.xlabel('L1   L2   ', fontsize=14, labelpad=10, horizontalalignment='right', x=1.0)

Result: Result

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