It would be more helpful if you posed a more complete working (or in this case non-working) example.

I tried the following:

```
import numpy as np
import matplotlib.pyplot as plt
x = np.random.randn(1000)
fig = plt.figure()
ax = fig.add_subplot(111)
n, bins, rectangles = ax.hist(x, 50, density=True)
fig.canvas.draw()
plt.show()
```

This will indeed produce a bar-chart histogram with a y-axis that goes from `[0,1]`

.

Further, as per the `hist`

documentation (i.e. `ax.hist?`

from `ipython`

), I think the sum is fine too:

```
*normed*:
If *True*, the first element of the return tuple will
be the counts normalized to form a probability density, i.e.,
``n/(len(x)*dbin)``. In a probability density, the integral of
the histogram should be 1; you can verify that with a
trapezoidal integration of the probability density function::
pdf, bins, patches = ax.hist(...)
print np.sum(pdf * np.diff(bins))
```

Giving this a try after the commands above:

```
np.sum(n * np.diff(bins))
```

I get a return value of `1.0`

as expected. Remember that `normed=True`

doesn't mean that the sum of the value at each bar will be unity, but rather than the integral over the bars is unity. In my case `np.sum(n)`

returned approx `7.2767`

.