Just collect your input outside of the loop (before you enter the loop). Do you really want the user to enter 1000 numbers? well maybe you do. but just include a loop at the top and collect the 1000 numbers at the start, and store them in an array.
then on the bottom half change your loop so it just does all the work. then if someone enters something no the keyboard, it doesn't really matter anymore.
something like this:
vars = 
for i in range(0,top):
anum = int(raw_input('%d) Please enter another number: ' % i))
top = len(numbers)
for number in numbers:
# do magic number stuff
print 'this was my raw number %s' % number
if __name__ == "__main__":
numbers = getvars(top=10)
presented in a different sort of way and less os dependent
There is another way to do it that should work. I don't have a windows box handy to test it out on but its a trick i used to use and its rather undocumented. Perhaps I'm giving away secrets... but its basically like this: trick the os into thinking your app is a screensaver by calling the api that turns on the screensaver function at the start of your magic calculations. at the end of your magic calculations or when you are ready to accept input again, call the api again and turn off the screensaver functionality.
That would work.
There is another way to do it as well. Since you are in windows this will work too. but its a fair amount of work but not really too much. In windows, the window that is foreground (at the top of the Z order) that window gets the 'raw input thread'. The raw input thread receives the mouse and keyboard input. So to capture all input all you need to do is create a function that stands up a transparent or (non transparent) window that sits at the top of the Z order setWindowPos would do the trick , have it cover the entire screen and perhaps display a message such as Even Geduld or Please wait
when you are ready to prompt the user for more input, you use showwindow() to hide the window, show the previous results, get the input and then reshow the window and capture the keys/mouse all over again.
Of course all these solutions tie you to a particular OS unless you implement some sort of try/except handling and/or wrapping of the low level windows SDK calls.