I have a matplotlib figure which I am plotting data that is always referred to as nanoseconds (1e-9). On the y-axis, if I have data that is tens of nanoseconds, ie. 44e-9, the value on the axis shows as 4.4 with a +1e-8 as an offset. Is there anyway to force the axis to show 44 with a +1e-9 offset?

The same goes for my x-axis where the axis is showing +5.54478e4, where I would rather it show an offset of +55447 (whole number, no decimal - the value here is in days).

I've tried a couple things like this:

p = axes.plot(x,y)

for the x-axis, but this doesn't work, though I'm probably using it incorrectly or misinterpreting something from the docs, can someone point me in the correct direction?

Thanks, Jonathan

Problem illustration

I tried doing something with formatters but haven't found any solution yet...:

myyfmt = ScalarFormatter(useOffset=True)


myxfmt = ScalarFormatter(useOffset=True)

On a side note, I'm actually confused as to where the 'offset number' object actually resides...is it part of the major/minor ticks?

  • 1
    Have you tried set_units? matplotlib.sourceforge.net/api/… (I can't try it because I don't have matplotlib here.)
    – Katriel
    Sep 9, 2010 at 14:18
  • 1
    I checked out the set_units function and it seems way more complicated than necessary(have to write/add an additional module??-basic_units?). There has to be a way to just edit the format of the tick. The units / set_unit function seems like its more along the lines of unit conversion. Thanks for the tip though, its led me to some other solutions I'm looking in to now!
    – Jonathan
    Sep 9, 2010 at 18:08
  • 2
    please consider rcParams to turn if off by default: rcParams["axes.formatter.useoffset"] = False as here: stackoverflow.com/questions/24171064/… Dec 20, 2016 at 10:53

8 Answers 8


I had exactly the same problem, and these lines fixed the problem:

from matplotlib.ticker import ScalarFormatter

y_formatter = ScalarFormatter(useOffset=False)
  • 1
    This is the quick and easy answer. Thank you.
    – maxm
    Jul 10, 2013 at 15:37
  • 7
    A one-liner would be: ax.get_yaxis().get_major_formatter().set_useOffset(False)
    – Dataman
    Apr 6, 2016 at 12:48
  • 3
    for noobs like me dont forget the from matplotlib.ticker import ScalarFormatter for @Gonzalo 's code to work or simply use @Dataman 's solution above
    – champost
    Jun 24, 2016 at 11:25

A much easier solution is to simply customize the tick labels. Take this example:

from pylab import *

# Generate some random data...
x = linspace(55478, 55486, 100)
y = random(100) - 0.5
y = cumsum(y)
y -= y.min()
y *= 1e-8

# plot

# xticks
locs,labels = xticks()
xticks(locs, map(lambda x: "%g" % x, locs))

# ytikcs
locs,labels = yticks()
yticks(locs, map(lambda x: "%.1f" % x, locs*1e9))
ylabel('microseconds (1E-9)')


alt text

Notice how in the y-axis case, I multiplied the values by 1e9 then mentioned that constant in the y-label


Another option is to fake the exponent multiplier by manually adding its text to the top of the plot:

locs,labels = yticks()
yticks(locs, map(lambda x: "%.1f" % x, locs*1e9))
text(0.0, 1.01, '1e-9', fontsize=10, transform = gca().transAxes)


Also you can format the x-axis offset value in the same manner:

locs,labels = xticks()
xticks(locs, map(lambda x: "%g" % x, locs-min(locs)))
text(0.92, -0.07, "+%g" % min(locs), fontsize=10, transform = gca().transAxes)

alt text

  • That was exactly what I did, at first. Unfortunately, I couldn't find an easy way to set/show the axis multiplier (other than explicitly putting it in the y-axis label, as you did.). If you don't mind not having the axis multiplier label, this is the simpler way. Either way, +1 from me. Sep 9, 2010 at 21:32
  • 1
    @Joe Kington: you can add it manually as text... see the edit above :)
    – Amro
    Sep 9, 2010 at 21:46
  • Great! I'm going to try your approach with the labels for the x-axis. I'll take the floor of the first x value, then remove it from every x-value and add a "+minxval" as a label. I can't figure out how else to format the x-tick offset. I'm fine with the magnitude of the offset, I just need for it to display as a non-exponential value.
    – Jonathan
    Sep 10, 2010 at 13:34
  • Wow. Great job in showing how you can really take control of matplotlib and tweak it to your needs and really and some pizazz to your plots. Feb 18, 2011 at 8:28
  • How do you change the fontsize of 1e-9 in the figure? Aug 3, 2015 at 13:56

You have to subclass ScalarFormatter to do what you need... _set_offset just adds a constant, you want to set ScalarFormatter.orderOfMagnitude. Unfortunately, manually setting orderOfMagnitude won't do anything, as it's reset when the ScalarFormatter instance is called to format the axis tick labels. It shouldn't be this complicated, but I can't find an easier way to do exactly what you want... Here's an example:

import numpy as np
import matplotlib.pyplot as plt
from matplotlib.ticker import ScalarFormatter, FormatStrFormatter

class FixedOrderFormatter(ScalarFormatter):
    """Formats axis ticks using scientific notation with a constant order of 
    def __init__(self, order_of_mag=0, useOffset=True, useMathText=False):
        self._order_of_mag = order_of_mag
        ScalarFormatter.__init__(self, useOffset=useOffset, 
    def _set_orderOfMagnitude(self, range):
        """Over-riding this to avoid having orderOfMagnitude reset elsewhere"""
        self.orderOfMagnitude = self._order_of_mag

# Generate some random data...
x = np.linspace(55478, 55486, 100) 
y = np.random.random(100) - 0.5
y = np.cumsum(y)
y -= y.min()
y *= 1e-8

# Plot the data...
fig = plt.figure()
ax = fig.add_subplot(111)
ax.plot(x, y, 'b-')

# Force the y-axis ticks to use 1e-9 as a base exponent 

# Make the x-axis ticks formatted to 0 decimal places

Which yields something like: alt text

Whereas, the default formatting would look like: alt text

Hope that helps a bit!

Edit: For what it's worth, I don't know where the offset label resides either... It would be slightly easier to just manually set it, but I couldn't figure out how to do so... I get the feeling that there has to be an easier way than all of this. It works, though!

  • Thanks! Subclassing the ScalarFormatter works great! But I guess I didn't clearly state what I wanted for the x-axis. I would like to keep the offset for the x-axis, but format the value of the offset so it isn't shown as an exponent.
    – Jonathan
    Sep 10, 2010 at 13:30
  • This is the only method that worked for me! Thanks :) Jul 23, 2020 at 5:04

Similar to Amro's answer, you can use FuncFormatter

import numpy as np
import matplotlib.pyplot as plt
from matplotlib.ticker import FuncFormatter

# Generate some random data...
x = np.linspace(55478, 55486, 100) 
y = np.random.random(100) - 0.5
y = np.cumsum(y)
y -= y.min()
y *= 1e-8

# Plot the data...
fig = plt.figure()
ax = fig.add_subplot(111)
ax.plot(x, y, 'b-')

# Force the y-axis ticks to use 1e-9 as a base exponent 
ax.yaxis.set_major_formatter(FuncFormatter(lambda x, pos: ('%.1f')%(x*1e9)))
ax.set_ylabel('microseconds (1E-9)')

# Make the x-axis ticks formatted to 0 decimal places
ax.xaxis.set_major_formatter(FuncFormatter(lambda x, pos: '%.0f'%x))

Gonzalo's solution started working for me after having added set_scientific(False):


As has been pointed out in the comments and in this answer, the offset may be switched off globally, by doing the following:

matplotlib.rcParams['axes.formatter.useoffset'] = False

I think that a more elegant way is to use the ticker formatter. Here is an example for both xaxis and yaxis:

from pylab import *
from matplotlib.ticker import MultipleLocator, FormatStrFormatter

majorLocator   = MultipleLocator(20)
xFormatter = FormatStrFormatter('%d')
yFormatter = FormatStrFormatter('%.2f')
minorLocator   = MultipleLocator(5)

t = arange(0.0, 100.0, 0.1)
s = sin(0.1*pi*t)*exp(-t*0.01)

ax = subplot(111)


#for the minor ticks, use no labels; default NullFormatter
  • 1
    This does not answer the question, which is how to specify the offset and/or the factor used in scientific notation.
    – sodd
    Sep 7, 2013 at 19:42
  • @nordev Even if my answer does not specifically answer the question it still gives a hint. The message is that you can chose another formatter and get what you want instead of a date from my example. In the scientific world Julian day is the norm, or you can use date as in my example. What I was trying to suggest is that a different approach can be taken. Sometimes a question may be asked because the person doesn't have a better idea at the moment. Alternative solutions should not be discarded or treated with disrespect. All in all I did not deserve the -1 vote.
    – Bogdan
    Mar 21, 2014 at 0:58

For the second part, without manually resetting all the ticks again, this was my solution:

class CustomScalarFormatter(ScalarFormatter):
    def format_data(self, value):
        if self._useLocale:
            s = locale.format_string('%1.2g', (value,))
            s = '%1.2g' % value
        s = self._formatSciNotation(s)
        return self.fix_minus(s)
xmajorformatter = CustomScalarFormatter()  # default useOffset=True

obviously you can set the format string to whatever you want.

  • Unfortunately I haven't investigated how to set the multiplier as the first part of your question states. Jun 29, 2013 at 13:04

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