IF you're sure that performance hit comes from I/O and you can't change both application there is really a little you can do.
First solution with zero changes to existing application code: use a RAM disk. If they're using that file as shared memory you can do it without any other change. If data is persistent you may need to perform a background copy to another media after each writing. Performance won't be as good as a true shared memory but at least you won't have to wait for slow I/O operations.
Second solution with changes only in the application that must read data: often the parsing of a XML file is pretty slow (specially if you're using
XmlDocument and the file isn't very little). In this case, using
XmlReader, you have to make your read code more complicated and to forget about XPath queries but its performance will be many times better than
XmlDocument and it won't slow down increasing the file size.
Small (or not so small) updates: if code of the second application (I guess the one that will read the file) can be changed you can do a little to improve its performance. First of all do not read the file each time. Check its timestamp, register a
FileSystemWatcher for that file or whatever else but do not read/parse file each time. When you did this you can go one step forward: read/parse the file only when it changes, prepare your
XmlDocument on background (another thread) and make it available for polling requests. If requests are spaced they may even see a very quick response time (but profile performance of
XmlDocument XPath query for your typical file).
EDIT: here you can find a RAM disk provided by Microsoft. It's pretty simple and naive but usually you/we don't need much more than that. Moreover it's an example on the DDK so you'll get source code too (in this case...just for fun).