It depends what you need to do with the graph once you have it, Matplotlib allows you to interactively show the graph on the screen, save it in either vector, pdf or bitmap format, and more.

If you opt for this framework, `imshow`

will do what you need, here is an example:

```
# Just some data to test:
from random import gauss
a = [[gauss(0, 10) for i in xrange(0, 5)] for j in xrange(0,5)]
from pylab import * # or just launch "IPython -pylab" from the command line
# We create a custom colormap:
myblue = cm.colors.LinearSegmentedColormap("myblue", {
'red': [(0, 1, 1), (1, 0, 0)],
'green': [(0, 1, 1), (1, 0, 0)],
'blue': [(0, 1, 1), (1, 1, 1)]})
# Plotting the graph:
imshow(a, cmap=myblue)
```

For further details on the colormap check this link, and here is the link for imshow - or simply use `help(colors.LinearSegmentedColormap)`

and `help(imshow)`

.

(note that this is the result with the standard options, you can add a grid, change the filtering and so on).

**Edit**

however I'm looking to display the
numbers in the grid

To keep it simple:

```
for i in xrange(0,5):
for j in xrange(0,5):
text(i, j,
"{0:5.2f}".format(a[i][j]),
horizontalalignment="center",
verticalalignment="center")
```