I have a continuous integration server set up in a VM that mimics my production environment; by running automated builds, I know a LOT sooner when I've done something to screw up the code, and can make moves to fix it.
In a project with multiple people, especially larger projects, there are no guarantees that every user is running the tests and doing a full build. The longer you go without a full build, the greater the chances that some bug will sneak its way into the system while each dev is plugging away at his branch. Automated builds negate this issue by making sure the whole team knows, within the day or so, when something went wrong, and who was responsible.
For more backup, especially when tired, you might send over this article from our own Jeff Atwood, or this one from Joel Spolsky. From this last:
Here are some of the many benefits of
When a bug is fixed, testers get the
new version quickly and can retest to
see if the bug was really fixed.
Developers can feel more secure that a
change they made isn't going to break
any of the 1024 versions of the system
that get produced, without actually
having an OS/2 box on their desk to
Developers who check in their
changes right before the scheduled
daily build know that they aren't
going to hose everybody else by
checking in something which "breaks
the build" -- that is, something that
causes nobody to be able to compile.
This is the equivalent of the Blue
Screen of Death for an entire
programming team, and happens a lot
when a programmer forgets to add a new
file they created to the repository.
The build runs fine on their machines,
but when anyone else checks out, they
get linker errors and are stopped cold
from doing any work.
like marketing, beta customer sites,
and so forth who need to use the
immature product can pick a build that
is known to be fairly stable and keep
using it for a while.
an archive of all daily builds, when
you discover a really strange, new bug
and you have no idea what's causing
it, you can use binary search on the
historical archive to pinpoint when
the bug first appeared in the code.
Combined with good source control, you
can probably track down which check-in
caused the problem.
When a tester
reports a problem that the programmer
thinks is fixed, the tester can say
which build they saw the problem in.
Then the programmer looks at when he
checked in the fix and figure out
whether it's really fixed.