Key stretching functions like PBKDF2 allow you to control the time it takes to hash the password by adjusting the iteration count (or other equivalent parameters for other functions). You're correct in observing that there's a tradeoff here between making passwords hard to crack by brute force and avoiding DoS attacks. You'll need to choose an iteration count to balance these two considerations.
Do keep in mind that modern CPUs can calculate millions of hash iterations per second. Even if you use an iteration count of, say, only 1000, that still makes cracking the passwords 1000 times harder than not iterating the hash at all, even though hashing a single password with 1000 iterations only takes about a millisecond.
There are also other ways in which you can avoid or mitigate login DoS attacks. For example, you could implement IP-based throttling, so that each IP address can only make some limited number of login attempts per minute. Of course, distributed DoS attacks can get around that, but it's still a hurdle for any potential attacker to overcome.
Also, if you implement login anti-CSRF tokens (and you should), they'll also protect you against certain simple types of login DDoS attacks by requiring an extra round trip to fetch the token before any login attempt can be made. CAPTCHAs can be another useful way to deal with login DoS attempts. Finally, you may want to restrict all login requests to a separate set of servers and/or processes, with appropriate resource limits, so that even a successful DoS attack on the login form won't take down the rest of your site.