# How do I change the size of figures drawn with Matplotlib?

How do I change the size of figure drawn with Matplotlib?

`figure` tells you the call signature:

``````from matplotlib.pyplot import figure

figure(figsize=(8, 6), dpi=80)
``````

`figure(figsize=(1,1))` would create an inch-by-inch image, which would be 80-by-80 pixels unless you also give a different dpi argument.

• If you've already got the figure created, say it's 'figure 1' (that's the default one when you're using pyplot), you can use figure(num=1, figsize=(8, 6), ...) to change it's size etc. If you're using pyplot/pylab and `show()` to create a popup window, you need to call `figure(num=1,...)` before you plot anything - pyplot/pylab creates a figure as soon as you draw something, and the size of the popup appears to be fixed at this point. Jul 2, 2013 at 23:31
• Does this mean if you set DPI to 1, then figsize becomes a pixel unit instead of an inch unit? This would be more useful when using matplotlib on web and GUI interfaces. Jul 17, 2017 at 10:48
• with figsize(1,1) you will have a ratio in the image as 1:1? because all my pie charts are show oval, and the only way I found to make them round was by using plot.axis("equals"). they would have the same effect or they behave diferently? Nov 9, 2017 at 17:43
• @BrenoBaiardi This question is about the figure size. The axes on top of the figure may still have an unequal aspect ratio even if the figure as a whole is 1:1, and even if the axes box is 1:1, the data may be scaled differently in the x and y directions. So, no, that command will not guarantee an equal aspect ratio. Nov 13, 2017 at 14:43
• Note that if you set a too large number in `figsize`, the figure will only maximize to until the edges of the screen. This opens the possibility for a horizontal maximization and a vertical maximization. Apr 17, 2019 at 16:13

If you've already got the figure created, you can use `figure.set_size_inches` to adjust the figure size:

``````fig = matplotlib.pyplot.gcf()
fig.set_size_inches(18.5, 10.5)
fig.savefig('test2png.png', dpi=100)
``````

To propagate the size change to an existing GUI window, add `forward=True`:

``````fig.set_size_inches(18.5, 10.5, forward=True)
``````

Additionally as Erik Shilts mentioned in the comments you can also use `figure.set_dpi` to "[s]et the resolution of the figure in dots-per-inch"

``````fig.set_dpi(100)
``````
• Solved me a problem with `imshow`, now I'm using this code just after eliminating the space around the plotting area with `plt.subplots_adjust(left=0.0, right=1.0, bottom=0.0, top=1.0)`. Nov 26, 2012 at 14:21
• Similarly, you can run `fig.set_dpi(100)`. Mar 27, 2015 at 19:07
• I'm using this on OS X under ipython 3.7, matplotlib 3.0.3. I am able to adjust the figure size, but the window does not resize (the figure canvas adjusts, but the window does not grow or shrink to accommodate the canvas). The forward=True keyword argument does not appear to have the intended effect on this platform. Jan 7, 2020 at 20:12
• Window resize wasn't working for me. It looked like forward=True was key, but it didn't fix it. Turns out it did fix it, I just to be careful about the order that set_size_inches was called. It needed to be called after the call to tight_layout(). I had this issue with an axes.bar plot, I didn't have it with regular plots. Jan 21 at 17:56
• should be called before .show() Jul 6 at 9:18

### Using plt.rcParams

There is also this workaround in case you want to change the size without using the figure environment. So in case you are using `plt.plot()` for example, you can set a tuple with width and height.

``````import matplotlib.pyplot as plt
plt.rcParams["figure.figsize"] = (20,3)
``````

This is very useful when you plot inline (e.g., with IPython Notebook). As asmaier noticed, it is preferable to not put this statement in the same cell of the imports statements.

To reset the global figure size back to default for subsequent plots:

``````plt.rcParams["figure.figsize"] = plt.rcParamsDefault["figure.figsize"]
``````

### Conversion to cm

The `figsize` tuple accepts inches, so if you want to set it in centimetres you have to divide them by 2.54. Have a look at this question.

• Excellent! Also useful for setting it once and plotting multiple times. Oct 18, 2017 at 22:44
• For some reason, it seems to this no longer works in Jupyter notebook (but used to).
– Ray
Dec 13, 2017 at 14:01
• @Ray Can you write the version of your Jupyter notebook and the behaviour for me it works
– G M
Dec 13, 2017 at 16:41
• To make it work I need to call `plt.rcParams["figure.figsize"] = (20,3)` in an extra cell. When I call it in the same cell as the import statement, it gets ignored. May 11, 2018 at 7:33
• To reset the global figure size for subsequent plots back to default use `plt.rcParams['figure.figsize'] = plt.rcParamsDefault['figure.figsize']` May 11, 2021 at 21:46

Please try a simple code as following:

``````from matplotlib import pyplot as plt
plt.figure(figsize=(1,1))
x = [1,2,3]
plt.plot(x, x)
plt.show()
``````

You need to set the figure size before you plot.

• This answer tells me that that it is m`atplotlib.pyplot.figure`, which the others do not say as clearly. I keep trying things like `matplotlib.figure` and `matplotlib.figure.Figure` Dec 24, 2014 at 5:29
• "_tkinter.TclError: not enough free memory for image buffer" Mar 30, 2017 at 0:16
• `plt.figure(figsize=(1,1))` is the crux move. Thank you. Nov 15, 2017 at 16:24
• In jupyter notebook, this worked for me : plt.figure(figsize=(20,10)) May 25, 2019 at 12:38
• For those using jupyter notebook, please make sure you are using plt.figure(figsize=(15, 10)) before other plt commands. Nov 19, 2019 at 8:43

Deprecation note:
As per the official Matplotlib guide, usage of the `pylab` module is no longer recommended. Please consider using the `matplotlib.pyplot` module instead, as described by this other answer.

The following seems to work:

``````from pylab import rcParams
rcParams['figure.figsize'] = 5, 10
``````

This makes the figure's width 5 inches, and its height 10 inches.

The Figure class then uses this as the default value for one of its arguments.

• This also works nicely at the top of a iPython notebook, which (given --pylab=inline) has rcParams already imported at the top level. Dec 10, 2013 at 20:57
• This did not work on my Windows machine with OO interface to pyplot and Qt backend. `fig.set_size_inches(18.5, 10.5, forward=True)` worked. Feb 6, 2016 at 19:18
• This answer is currently discussed on Meta Jul 10, 2017 at 14:17
• For Python version: 3.6.4, matplotlib: 2.2.3 I think you need to pass a list or tuple e.g. rcParams['figure.figsize'] = (5, 10) Dec 13, 2018 at 3:08
• Anyone knows why this does not work at the first time running the cell? Sep 27, 2019 at 6:44

In case you're looking for a way to change the figure size in Pandas, you could do:

``````df['some_column'].plot(figsize=(10, 5))
``````

where `df` is a Pandas dataframe. Or, to use an existing figure or axes:

``````fig, ax = plt.subplots(figsize=(10, 5))
df['some_column'].plot(ax=ax)
``````

If you want to change the default settings, you could do the following:

``````import matplotlib

matplotlib.rc('figure', figsize=(10, 5))
``````

For more details, check out the docs: `pd.DataFrame.plot`.

``````import matplotlib.pyplot as plt
plt.figure(figsize=(20,10))
plt.plot(x,y) ## This is your plot
plt.show()
``````

You can also use:

``````fig, ax = plt.subplots(figsize=(20, 10))
``````
• What are these units? Aug 30 at 2:08

The first link in Google for `'matplotlib figure size'` is AdjustingImageSize (Google cache of the page).

Here's a test script from the above page. It creates `test[1-3].png` files of different sizes of the same image:

``````#!/usr/bin/env python
"""
This is a small demo file that helps teach how to adjust figure sizes
for matplotlib

"""

import matplotlib
print "using MPL version:", matplotlib.__version__
matplotlib.use("WXAgg") # do this before pylab so you don'tget the default back end.

import pylab
import numpy as np

# Generate and plot some simple data:
x = np.arange(0, 2*np.pi, 0.1)
y = np.sin(x)

pylab.plot(x,y)
F = pylab.gcf()

# Now check everything with the defaults:
DPI = F.get_dpi()
print "DPI:", DPI
DefaultSize = F.get_size_inches()
print "Default size in Inches", DefaultSize
print "Which should result in a %i x %i Image"%(DPI*DefaultSize, DPI*DefaultSize)
# the default is 100dpi for savefig:
F.savefig("test1.png")
# this gives me a 797 x 566 pixel image, which is about 100 DPI

# Now make the image twice as big, while keeping the fonts and all the
# same size
F.set_size_inches( (DefaultSize*2, DefaultSize*2) )
Size = F.get_size_inches()
print "Size in Inches", Size
F.savefig("test2.png")
# this results in a 1595x1132 image

# Now make the image twice as big, making all the fonts and lines
# bigger too.

F.set_size_inches( DefaultSize )# resetthe size
Size = F.get_size_inches()
print "Size in Inches", Size
F.savefig("test3.png", dpi = (200)) # change the dpi
# this also results in a 1595x1132 image, but the fonts are larger.
``````

Output:

``````using MPL version: 0.98.1
DPI: 80
Default size in Inches [ 8.  6.]
Which should result in a 640 x 480 Image
Size in Inches [ 16.  12.]
Size in Inches [ 16.  12.]
``````

Two notes:

1. The module comments and the actual output differ.

2. This answer allows easily to combine all three images in one image file to see the difference in sizes.

• Every time I am trying to recall how to do it I end up in this post. So, this is the code i am normally looking for: `fig = plt.figure() default_size = fig.get_size_inches() fig.set_size_inches( (default_size*2, default_size*2) )` Oct 12, 2016 at 11:58

You can simply use (from matplotlib.figure.Figure):

``````fig.set_size_inches(width,height)
``````

As of Matplotlib 2.0.0, changes to your canvas will be visible immediately, as the `forward` keyword defaults to `True`.

If you want to just change the width or height instead of both, you can use

`fig.set_figwidth(val)` or `fig.set_figheight(val)`

These will also immediately update your canvas, but only in Matplotlib 2.2.0 and newer.

### For Older Versions

You need to specify `forward=True` explicitly in order to live-update your canvas in versions older than what is specified above. Note that the `set_figwidth` and `set_figheight` functions don’t support the `forward` parameter in versions older than Matplotlib 1.5.0.

Try commenting out the `fig = ...` line

``````%matplotlib inline
import numpy as np
import matplotlib.pyplot as plt

N = 50
x = np.random.rand(N)
y = np.random.rand(N)
area = np.pi * (15 * np.random.rand(N))**2

fig = plt.figure(figsize=(18, 18))
plt.scatter(x, y, s=area, alpha=0.5)
plt.show()
``````

This works well for me:

``````from matplotlib import pyplot as plt

F = plt.gcf()
Size = F.get_size_inches()
F.set_size_inches(Size*2, Size*2, forward=True) # Set forward to True to resize window along with plot in figure.
plt.show() # Or plt.imshow(z_array) if using an animation, where z_array is a matrix or NumPy array
``````

This forum post might also help: Resizing figure windows

• Window resize wasn't working for me. It looked like forward=True was key, but it didn't fix it. Turns out it did fix it, I just to be careful about the order that set_size_inches was called. It needed to be called after the call to tight_layout(). I had this issue with an axes.bar plot, I didn't have it with regular plots. Jan 21 at 17:56

Comparison of different approaches to set exact image sizes in pixels

This answer will focus on:

• `savefig`: how to save to a file, not just show on screen
• setting the size in pixels

Here is a quick comparison of some of the approaches I've tried with images showing what the give.

Summary of current status: things are messy, not sure if it is a fundamental limitation, or if the use case just didn't get enough attention from devs, I couldn't easily find an upstream discussion about this.

Baseline example without trying to set the image dimensions

Just to have a comparison point:

base.py

``````#!/usr/bin/env python3

import sys

import numpy as np
import matplotlib.pyplot as plt
import matplotlib as mpl

fig, ax = plt.subplots()
print('fig.dpi = {}'.format(fig.dpi))
print('fig.get_size_inches() = ' + str(fig.get_size_inches())
t = np.arange(-10., 10., 1.)
plt.plot(t, t, '.')
plt.plot(t, t**2, '.')
ax.text(0., 60., 'Hello', fontdict=dict(size=25))
plt.savefig('base.png', format='png')
``````

run:

``````./base.py
identify base.png
``````

outputs:

``````fig.dpi = 100.0
fig.get_size_inches() = [6.4 4.8]
base.png PNG 640x480 640x480+0+0 8-bit sRGB 13064B 0.000u 0:00.000
`````` My best approach so far: `plt.savefig(dpi=h/fig.get_size_inches()` height-only control

I think this is what I'll go with most of the time, as it is simple and scales:

get_size.py

``````#!/usr/bin/env python3

import sys

import numpy as np
import matplotlib.pyplot as plt
import matplotlib as mpl

height = int(sys.argv)
fig, ax = plt.subplots()
t = np.arange(-10., 10., 1.)
plt.plot(t, t, '.')
plt.plot(t, t**2, '.')
ax.text(0., 60., 'Hello', fontdict=dict(size=25))
plt.savefig(
'get_size.png',
format='png',
dpi=height/fig.get_size_inches()
)
``````

run:

``````./get_size.py 431
``````

outputs:

``````get_size.png PNG 574x431 574x431+0+0 8-bit sRGB 10058B 0.000u 0:00.000
`````` and

``````./get_size.py 1293
``````

outputs:

``````main.png PNG 1724x1293 1724x1293+0+0 8-bit sRGB 46709B 0.000u 0:00.000
`````` I tend to set just the height because I'm usually most concerned about how much vertical space the image is going to take up in the middle of my text.

`plt.savefig(bbox_inches='tight'` changes image size

I always feel that there is too much white space around images, and tended to add `bbox_inches='tight'` from: Removing white space around a saved image

However, that works by cropping the image, and you won't get the desired sizes with it.

Instead, this other approach proposed in the same question seems to work well:

``````plt.tight_layout(pad=1)
plt.savefig(...
``````

which gives the exact desired height for height equals 431: Fixed height, `set_aspect`, automatically sized width and small margins

Ermmm, `set_aspect` messes things up again and prevents `plt.tight_layout` from actually removing the margins... this is an important use case that I don't have a great solution for yet.

`plt.savefig(dpi=h/fig.get_size_inches()` + width control

If you really need a specific width in addition to height, this seems to work OK:

width.py

``````#!/usr/bin/env python3

import sys

import numpy as np
import matplotlib.pyplot as plt
import matplotlib as mpl

h = int(sys.argv)
w = int(sys.argv)
fig, ax = plt.subplots()
wi, hi = fig.get_size_inches()
fig.set_size_inches(hi*(w/h), hi)
t = np.arange(-10., 10., 1.)
plt.plot(t, t, '.')
plt.plot(t, t**2, '.')
ax.text(0., 60., 'Hello', fontdict=dict(size=25))
plt.savefig(
'width.png',
format='png',
dpi=h/hi
)
``````

run:

``````./width.py 431 869
``````

output:

``````width.png PNG 869x431 869x431+0+0 8-bit sRGB 10965B 0.000u 0:00.000
`````` and for a small width:

``````./width.py 431 869
``````

output:

``````width.png PNG 211x431 211x431+0+0 8-bit sRGB 6949B 0.000u 0:00.000
`````` So it does seem that fonts are scaling correctly, we just get some trouble for very small widths with labels getting cut off, e.g. the `100` on the top left.

I managed to work around those with Removing white space around a saved image

``````plt.tight_layout(pad=1)
``````

which gives:

``````width.png PNG 211x431 211x431+0+0 8-bit sRGB 7134B 0.000u 0:00.000
`````` From this, we also see that `tight_layout` removes a lot of the empty space at the top of the image, so I just generally always use it.

Fixed magic base height, `dpi` on `fig.set_size_inches` and `plt.savefig(dpi=` scaling

I believe that this is equivalent to the approach mentioned at: https://stackoverflow.com/a/13714720/895245

magic.py

``````#!/usr/bin/env python3

import sys

import numpy as np
import matplotlib.pyplot as plt
import matplotlib as mpl

magic_height = 300
w = int(sys.argv)
h = int(sys.argv)
dpi = 80
fig, ax = plt.subplots(dpi=dpi)
fig.set_size_inches(magic_height*w/(h*dpi), magic_height/dpi)
t = np.arange(-10., 10., 1.)
plt.plot(t, t, '.')
plt.plot(t, t**2, '.')
ax.text(0., 60., 'Hello', fontdict=dict(size=25))
plt.savefig(
'magic.png',
format='png',
dpi=h/magic_height*dpi,
)
``````

run:

``````./magic.py 431 231
``````

outputs:

``````magic.png PNG 431x231 431x231+0+0 8-bit sRGB 7923B 0.000u 0:00.000
`````` And to see if it scales nicely:

``````./magic.py 1291 693
``````

outputs:

``````magic.png PNG 1291x693 1291x693+0+0 8-bit sRGB 25013B 0.000u 0:00.000
`````` So we see that this approach also does work well. The only problem I have with it is that you have to set that `magic_height` parameter or equivalent.

Fixed DPI + `set_size_inches`

This approach gave a slightly wrong pixel size, and it makes it is hard to scale everything seamlessly.

set_size_inches.py

``````#!/usr/bin/env python3

import sys

import numpy as np
import matplotlib.pyplot as plt
import matplotlib as mpl

w = int(sys.argv)
h = int(sys.argv)
fig, ax = plt.subplots()
fig.set_size_inches(w/fig.dpi, h/fig.dpi)
t = np.arange(-10., 10., 1.)
plt.plot(t, t, '.')
plt.plot(t, t**2, '.')
ax.text(
0,
60.,
'Hello',
# Keep font size fixed independently of DPI.
# https://stackoverflow.com/questions/39395616/matplotlib-change-figsize-but-keep-fontsize-constant
fontdict=dict(size=10*h/fig.dpi),
)
plt.savefig(
'set_size_inches.png',
format='png',
)
``````

run:

``````./set_size_inches.py 431 231
``````

outputs:

``````set_size_inches.png PNG 430x231 430x231+0+0 8-bit sRGB 8078B 0.000u 0:00.000
``````

so the height is slightly off, and the image: The pixel sizes are also correct if I make it 3 times larger:

``````./set_size_inches.py 1291 693
``````

outputs:

``````set_size_inches.png PNG 1291x693 1291x693+0+0 8-bit sRGB 19798B 0.000u 0:00.000
`````` We understand from this however that for this approach to scale nicely, you need to make every DPI-dependant setting proportional to the size in inches.

In the previous example, we only made the "Hello" text proportional, and it did retain its height between 60 and 80 as we'd expect. But everything for which we didn't do that, looks tiny, including:

• line width of axes
• tick labels
• point markers

SVG

I could not find how to set it for SVG images, my approaches only worked for PNG e.g.:

get_size_svg.py

``````#!/usr/bin/env python3

import sys

import numpy as np
import matplotlib.pyplot as plt
import matplotlib as mpl

height = int(sys.argv)
fig, ax = plt.subplots()
t = np.arange(-10., 10., 1.)
plt.plot(t, t, '.')
plt.plot(t, t**2, '.')
ax.text(0., 60., 'Hello', fontdict=dict(size=25))
plt.savefig(
'get_size_svg.svg',
format='svg',
dpi=height/fig.get_size_inches()
)
``````

run:

``````./get_size_svg.py 431
``````

and the generated output contains:

``````<svg height="345.6pt" version="1.1" viewBox="0 0 460.8 345.6" width="460.8pt"
``````

and identify says:

``````get_size_svg.svg SVG 614x461 614x461+0+0 8-bit sRGB 17094B 0.000u 0:00.000
``````

and if I open it in Chromium 86 the browser debug tools mouse image hover confirm that height as 460.79.

But of course, since SVG is a vector format, everything should in theory scale, so you can just convert to any fixed sized format without loss of resolution, e.g.:

``````inkscape -h 431 get_size_svg.svg -b FFF -e get_size_svg.png
``````

gives the exact height: I use Inkscape instead of Imagemagick's `convert` here because you need to mess with `-density` as well to get sharp SVG resizes with ImageMagick:

And setting `<img height=""` on the HTML should also just work for the browser.

Tested on matplotlib==3.2.2.

To increase the size of your figure N times, you need to insert this just before your pl.show():

``````N = 2
params = pl.gcf()
plSize = params.get_size_inches()
params.set_size_inches((plSize*N, plSize*N))
``````

It also works well with an IPython notebook.

The following will surely work, but make sure you add the line `plt.figure(figsize=(20,10))` above `plt.plot(x,y)`, `plt.pie()`, etc.

``````import matplotlib.pyplot as plt
plt.figure(figsize=(20,10))
plt.plot(x,y) ## This is your plot
plt.show()
``````

The code is copied from amalik2205.

Generalizing and simplifying psihodelia's answer:

If you want to change the current size of the figure by a factor `sizefactor`:

``````import matplotlib.pyplot as plt

# Here goes your code

fig_size = plt.gcf().get_size_inches() # Get current size
sizefactor = 0.8 # Set a zoom factor
# Modify the current size by the factor
plt.gcf().set_size_inches(sizefactor * fig_size)
``````

After changing the current size, it might occur that you have to fine tune the subplot layout. You can do that in the figure window GUI, or by means of the command subplots_adjust

For example,

``````plt.subplots_adjust(left=0.16, bottom=0.19, top=0.82)
``````

Since Matplotlib isn't able to use the metric system natively, if you want to specify the size of your figure in a reasonable unit of length such as centimeters, you can do the following (code from gns-ank):

``````def cm2inch(*tupl):
inch = 2.54
if isinstance(tupl, tuple):
return tuple(i/inch for i in tupl)
else:
return tuple(i/inch for i in tupl)
``````

Then you can use:

``````plt.figure(figsize=cm2inch(21, 29.7))
``````

Use this:

``````plt.figure(figsize=(width,height))
``````

The `width` and `height` are in inches. If not provided, it defaults to `rcParams["figure.figsize"] = [6.4, 4.8]`. See more here.

This resizes the figure immediately even after the figure has been drawn (at least using Qt4Agg/TkAgg - but not Mac OS X - with Matplotlib 1.4.0):

``````matplotlib.pyplot.get_current_fig_manager().resize(width_px, height_px)
``````

Another option is to use the rc() function in Matplotlib (the unit is inch):

``````import matplotlib
matplotlib.rc('figure', figsize=[10,5])
``````
• This is very useful as it assigns the size globally. That way you don't need to specify it for each plot. However, it might be more common to do `import matplotlib.pyplot as plt` and then do `plt.rc('figure', figsize=(10,5))`. Jan 27, 2021 at 18:51

This is How I printed my Custom Graph with Custom Size

``````import matplotlib.pyplot as plt
from matplotlib.pyplot import figure

figure(figsize=(16, 8), dpi=80)
plt.plot(x_test, color = 'red', label = 'Predicted Price')
plt.plot(y_test, color = 'blue', label = 'Actual Price')
plt.title('Dollar to PKR Prediction')
plt.xlabel('Predicted Price')
plt.ylabel('Actual Dollar Price')
plt.legend()
plt.show()

``````

When creating a new figure, you can specify the size (in inches) with the `figsize` argument:

``````import matplotlib.pyplot as plt
fig = plt.figure(figsize=(w,h))
``````

If you want to modify an existing figure, use the `set_size_inches()` method:

``````fig.set_size_inches(w,h)
``````

If you want to change the default figure size (6.4" x 4.8"), use "run commands" `rc`:

``````plt.rc('figure', figsize=(w,h))
``````

You could also try to initialize this:

``````import matplotlib as mpl
import matplotlib.pyplot as plt
mpl.rcParams['figure.figsize'] = (8, 6)
mpl.rcParams['axes.grid'] = False
``````
``````import random
import math
import matplotlib.pyplot as plt
start=-20
end=20
x=[v for v in range(start,end)]
#sigmoid function
def sigmoid(x):
return 1/(1+math.exp(x))
plt.figure(figsize=(8,5))#setting the figure size
plt.scatter([abs(v) for v in x],[sigmoid(v) for v in x])
plt.scatter(x,[sigmoid(sigmoid(v)) for v in x])
`````` Here is an example from my own.

Below I've given you your answer, and I've expanded for you to experiment with.

Also note fig size values are measured in inches

``````import matplotlib.pyplot as plt

data = [2,5,8,10,15] # Random data, can use existing data frame column

fig, axs = plt.subplots(figsize = (20,6)) # This is your answer to resize the figure

# The below will help you expand on your question and resize individual elements within your figure. Experiement with the below parameters.
axs.set_title("Data", fontsize = 17.5)
axs.tick_params(axis = 'x', labelsize = 14)
axs.set_xlabel('X Label Here', size = 15)
axs.tick_params(axis = 'y', labelsize =14)
axs.set_ylabel('Y Label Here', size = 15)

plt.plot(data)
``````

I always use the following pattern:

``````x_inches = 150*(1/25.4)     # [mm]*constant
y_inches = x_inches*(0.8)
dpi = 96

fig = plt.figure(1, figsize = (x_inches,y_inches), dpi = dpi, constrained_layout = True)
``````

With this example you are able to set figure dimensions in inches or in millimetres. When setting `constrained_layout` to `True`, plots fill your figure without borders.