I am creating a figure in Matplotlib like this:

from matplotlib import pyplot as plt

fig = plt.figure()
fig.suptitle('test title')

I want to specify font sizes for the figure title and the axis labels. I need all three to be different font sizes, so setting a global font size (mpl.rcParams['font.size']=x) is not what I want. How do I set font sizes for the figure title and the axis labels individually?

  • 1
    I was curious so I tried adding your mpl.rcParams['font.size'] = 20 and tried changing values to 10 and 14. First I found that I got errors unless I changed mpl to plt. That change cleared the error but then the line of code had no effect on my titles or labels. Sure this syntax is right? – TMWP Mar 30 '17 at 18:20
  • now I am thinking from the comments on the accepted answer that the problem might be my import statement though why it does not throw an error if I did not import the command is beyond me. Is there another import line you used when testing the mpl command? – TMWP Mar 30 '17 at 18:31
  • Here's a good resource for this question: showmecode.info/matplotlib/axes/change-font-size – luc Jun 25 '20 at 20:47

Functions dealing with text like label, title, etc. accept parameters same as matplotlib.text.Text. For the font size you can use size/fontsize:

from matplotlib import pyplot as plt    

fig = plt.figure()
fig.suptitle('test title', fontsize=20)
plt.xlabel('xlabel', fontsize=18)
plt.ylabel('ylabel', fontsize=16)

For globally setting title and label sizes, mpl.rcParams contains axes.titlesize and axes.labelsize. (From the page):

axes.titlesize      : large   # fontsize of the axes title
axes.labelsize      : medium  # fontsize of the x any y labels

(As far as I can see, there is no way to set x and y label sizes separately.)

And I see that axes.titlesize does not affect suptitle. I guess, you need to set that manually.

  • thanks! is there a way to set that globally but explicitly for (suptitle, xlabel, ylabel)? I am making a lot of charts and just want to specify it once... – vasek1 Sep 16 '12 at 6:12
  • @vasek1: I thought you didn't want global setting :). For that you need mpl.rcParams. I've edited my answer. – Avaris Sep 16 '12 at 6:23
  • 25
    To anyone else like myself looking for the solution to change the titlesize: plt.rcParams.update({'axes.titlesize': 'small'}) – tommy.carstensen Jun 5 '15 at 13:17
  • From the rcParams link, use figure.titlesize in addition to axes.titlesize. – Mad Physicist Dec 15 '15 at 19:05
  • 1
    @AlexanderMcFarlane. I ran python -c 'import matplotlib as mpl; print(mpl.__version__); print("figure.titlesize" in mpl.rcParams.keys())'. Result is 1.5.1, True. 1) What version of matplotlib are you using? What version of Python? 2) Could it be a bug where for some reason it accepts str but not unicode in Py2? – Mad Physicist May 30 '16 at 1:18

You can also do this globally via a rcParams dictionary:

import matplotlib.pylab as pylab
params = {'legend.fontsize': 'x-large',
          'figure.figsize': (15, 5),
         'axes.labelsize': 'x-large',
  • 7
    What are other sizes besides 'x-large'? – Martin Thoma Oct 11 '17 at 7:00
  • 20
    ‘xx-small’, ‘x-small’, ‘small’, ‘medium’, ‘large’, ‘x-large’, ‘xx-large’. See matplotlib.org/api/… – tsando Oct 11 '17 at 8:37
  • 1
    Use pylab.rcParams.keys() to see the full list of parameters. – Nirmal Oct 26 '18 at 5:34
  • Thanks. Is there a way to globally set explicit numeric sizes for the title and the axis-labels instead of always doing ax.set_title('some title', fontsize=15), ax.set_xlabel('some xlabel', fontsize=12)? It seems like rcParams only accepts strings. – timgeb Jan 20 '19 at 15:57
  • 6
    You can also use numbers... 'axes.labelsize': 32, – mimoralea Jun 12 '19 at 21:38

If you're more used to using ax objects to do your plotting, you might find the ax.xaxis.label.set_size() easier to remember, or at least easier to find using tab in an ipython terminal. It seems to need a redraw operation after to see the effect. For example:

import matplotlib.pyplot as plt

# set up a plot with dummy data
fig, ax = plt.subplots()
x = [0, 1, 2]
y = [0, 3, 9]

# title and labels, setting initial sizes
fig.suptitle('test title', fontsize=12)
ax.set_xlabel('xlabel', fontsize=10)
ax.set_ylabel('ylabel', fontsize='medium')   # relative to plt.rcParams['font.size']

# setting label sizes after creation

I don't know of a similar way to set the suptitle size after it's created.

  • 1
    fig.suptitle('test title', fontsize = 20) seems to work. ax.set_xlabel('xlabel', fontsize = 20)' also works, in which case we can do away with ax.xaxis.label.set_size(20)`. – T_T Jun 14 '18 at 4:03
  • 1
    @T_T That's true, and these forms are similar to Avaris' answer above. I'll add them for completeness. I still find a use for ax.xaxis.label.set_size() when I'm working interactively with an ipython plot and I want to do a quick visual assessment of a variety of font sizes. – spinup Jun 15 '18 at 18:12
  • Do you know if there's any (hidden) difference between using ax objects and figure objects, or are both perfectly equivalent? Why are there different interfaces for some of the features? (plt.xlabel() vs. ax.set_xlabel()) – normanius Nov 14 '18 at 14:33
  • 1
    @normanius, if you mean ax and fig in the above example, they are quite different objects -- fig is the overall figure, which may contain several axes. So fig and ax have different properties. In terms of the difference between the pyplot type calls and object calls (e.g. plt.xlabel() vs. ax.set_xlabel() as you say), they are equivalent, with the caveat that the plt.* functions work on the current axis/figure. So it you set up a figure with multiple axes, you'll probably want to use explicit calls like ax1.set_xlabel() to avoid confusion. – spinup Nov 14 '18 at 21:48

To only modify the title's font (and not the font of the axis) I used this:

import matplotlib.pyplot as plt
fig = plt.Figure()
ax = fig.add_subplot(111)
ax.set_title('My Title', fontdict={'fontsize': 8, 'fontweight': 'medium'})

The fontdict accepts all kwargs from matplotlib.text.Text.


Per the official guide, use of pylab is no longer recommended. matplotlib.pyplot should be used directly instead.

Globally setting font sizes via rcParams should be done with

import matplotlib.pyplot as plt
plt.rcParams['axes.labelsize'] = 16
plt.rcParams['axes.titlesize'] = 16

# or

params = {'axes.labelsize': 16,
          'axes.titlesize': 16}

# or

import matplotlib as mpl
mpl.rc('axes', labelsize=16, titlesize=16)

# or 

axes = {'labelsize': 16,
        'titlesize': 16}
mpl.rc('axes', **axes)

The defaults can be restored using


You can also do this by creating a style sheet in the stylelib directory under the matplotlib configuration directory (you can get your configuration directory from matplotlib.get_configdir()). The style sheet format is

axes.labelsize: 16
axes.titlesize: 16

If you have a style sheet at /path/to/mpl_configdir/stylelib/mystyle.mplstyle then you can use it via


# or, for a single section

with plt.style.context('mystyle'):
    # ...

You can also create (or modify) a matplotlibrc file which shares the format

axes.labelsize = 16
axes.titlesize = 16

Depending on which matplotlibrc file you modify these changes will be used for only the current working directory, for all working directories which do not have a matplotlibrc file, or for all working directories which do not have a matplotlibrc file and where no other matplotlibrc file has been specified. See this section of the customizing matplotlib page for more details.

A complete list of the rcParams keys can be retrieved via plt.rcParams.keys(), but for adjusting font sizes you have (italics quoted from here)

  • axes.labelsize - Fontsize of the x and y labels
  • axes.titlesize - Fontsize of the axes title
  • figure.titlesize - Size of the figure title (Figure.suptitle())
  • xtick.labelsize - Fontsize of the tick labels
  • ytick.labelsize - Fontsize of the tick labels
  • legend.fontsize - Fontsize for legends (plt.legend(), fig.legend())
  • legend.title_fontsize - Fontsize for legend titles, None sets to the same as the default axes. See this answer for usage example.

all of which accept string sizes {'xx-small', 'x-small', 'smaller', 'small', 'medium', 'large', 'larger', 'x-large', 'xxlarge'} or a float in pt. The string sizes are defined relative to the default font size which is specified by

  • font.size - the default font size for text, given in pts. 10 pt is the standard value

Additionally, the weight can be specified (though only for the default it appears) by

  • font.weight - The default weight of the font used by text.Text. Accepts {100, 200, 300, 400, 500, 600, 700, 800, 900} or 'normal' (400), 'bold' (700), 'lighter', and 'bolder' (relative with respect to current weight).

Others have provided answers for how to change the title size, but as for the axes tick label size, you can also use the set_tick_params method.

E.g., to make the x-axis tick label size small:


or, to make the y-axis tick label large:


You can also enter the labelsize as a float, or any of the following string options: 'xx-small', 'x-small', 'small', 'medium', 'large', 'x-large', or 'xx-large'.

  • This is for the tick label, not the axis label though. – irene Aug 18 '20 at 10:49
  • 1
    Yes, you are correct in regard to the OP. However, other answers also mentioned the tick label sizes, and I thought it would be useful to users to know about this method, as well. – etotheipi Aug 19 '20 at 19:44
  • I did upvote it for that same reason :) But I think since the answer specifies "axes label size", I think it should be corrected to "tick label size" – irene Aug 20 '20 at 8:10
  • Good point. I made the edits. And, thank you for the upvote. – etotheipi Aug 20 '20 at 20:15

An alternative solution to changing the font size is to change the padding. When Python saves your PNG, you can change the layout using the dialogue box that opens. The spacing between the axes, padding if you like can be altered at this stage.


Place right_ax before set_ylabel()

ax.right_ax.set_ylabel('AB scale')


7 (best solution)

 from numpy import*
 import matplotlib.pyplot as plt
 X = linspace(-pi, pi, 1000)

class Crtaj:

    def nacrtaj(self,x,y):
         return plt.plot (x,y,"om")

def oznaci(self):
    return plt.xlabel("x-os"), plt.ylabel("y-os"), plt.grid(b=True)

6 (slightly worse solution)

from numpy import*
M = array([[3,2,3],[1,2,6]])
class AriSred(object):
    def __init__(self,m):
def srednja(self):
    redovi = len(M)
    stupci = len (M[0])
    while a<stupci:
        for i in range (0,redovi):
            suma=suma+ M[i,a]
    return b

OBJ = AriSred(M)
sr = OBJ.srednja()
  • 3
    While this code may provide a solution to OP's problem, it is highly recommended that you provide additional context regarding why and/or how this code answers the question. Code only answers typically become useless in the long-run because future viewers experiencing similar problems cannot understand the reasoning behind the solution. – E. Zeytinci Jan 14 '20 at 7:45

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