In principle there is always the option to set custom labels via `plt.gca().yaxis.set_xticklabels()`

.

However, I'm not sure why there shouldn't be the possibility to use `matplotlib.ticker.FuncFormatter`

here. The `FuncFormatter`

is designed for exactly the purpose of providing custom ticklabels depending on the ticklabel's position and value.
There is actually a nice example in the matplotlib example collection.

In this case we can use the FuncFormatter as desired to provide unit prefixes as suffixes on the axes of a matplotlib plot. To this end, we iterate over the multiples of 1000 and check if the value to be formatted exceeds it. If the value is then a whole number, we can format it as integer with the respective unit symbol as suffix. On the other hand, if there is a remainder behind the decimal point, we check how many decimal places are needed to format this number.

Here is a complete example:

```
import numpy as np
import matplotlib.pyplot as plt
from matplotlib.ticker import FuncFormatter
def y_fmt(y, pos):
decades = [1e9, 1e6, 1e3, 1e0, 1e-3, 1e-6, 1e-9 ]
suffix = ["G", "M", "k", "" , "m" , "u", "n" ]
if y == 0:
return str(0)
for i, d in enumerate(decades):
if np.abs(y) >=d:
val = y/float(d)
signf = len(str(val).split(".")[1])
if signf == 0:
return '{val:d} {suffix}'.format(val=int(val), suffix=suffix[i])
else:
if signf == 1:
print val, signf
if str(val).split(".")[1] == "0":
return '{val:d} {suffix}'.format(val=int(round(val)), suffix=suffix[i])
tx = "{"+"val:.{signf}f".format(signf = signf) +"} {suffix}"
return tx.format(val=val, suffix=suffix[i])
#return y
return y
fig, ax = plt.subplots(ncols=3, figsize=(10,5))
x = np.linspace(0,349,num=350)
y = np.sinc((x-66.)/10.3)**2*1.5e6+np.sinc((x-164.)/8.7)**2*660000.+np.random.rand(len(x))*76000.
width = 1
ax[0].bar(x, y, width, align='center', linewidth=2, color='red', edgecolor='red')
ax[0].yaxis.set_major_formatter(FuncFormatter(y_fmt))
ax[1].bar(x[::-1], y*(-0.8e-9), width, align='center', linewidth=2, color='orange', edgecolor='orange')
ax[1].yaxis.set_major_formatter(FuncFormatter(y_fmt))
ax[2].fill_between(x, np.sin(x/100.)*1.7+100010, np.cos(x/100.)*1.7+100010, linewidth=2, color='#a80975', edgecolor='#a80975')
ax[2].yaxis.set_major_formatter(FuncFormatter(y_fmt))
for axes in ax:
axes.set_title("TTL Distribution")
axes.set_xlabel('TTL Value')
axes.set_ylabel('Number of Packets')
axes.set_xlim([x[0], x[-1]+1])
plt.show()
```

which provides the following plot: