In the rapidly approaching canonical article Fix your Timestep!, Glenn Fielder addresses numerous ways to handle this issue. While the article focuses primarily on physics, the key points are applicable to any system that represents a function of time, to wit, things dealing with moving things.
The executive summary of that article (which is well worth reading) is this:
You can make your physics deterministic (well, as much as can be achieved with imperfect input) by using discrete physics timesteps. It looks like this:
- Render as fast as possible
- Pass in a time delta that represents how long steps previous took this frame
- Process delta time modulo timestep number of physics steps
- Store the remainder of delta that you weren't able to process in an accumulator
That accumulator gets added to the next frame's time buffer. This requires some fine tuning such that temporary lag spikes due to e.g. a rapidly spinning player (which necessitates a lot of visibility determination over time) don't end up putting you in an inescapable time debt. If you wanted to intelligently guard against such an occurrence, you could have a sentry look for dangerous levels of accumulated time, which you could respond to by perhaps dropping a video frame.
Another advantage to using discrete timesteps is that they behave well in multiplayer games. If you have an authoritative server or node in a peer-to-peer configuration, the server can ensure that all clients' physics simulations are running at the same physics timeline. Discrete time blocks also simplifies things in rollback based multiplayer.
Disclaimer: I've never written software for real-time myself, only worked in a company that had!
In response to really-real real-life Real Time software, it's unlikely that anyone has made a game that could be qualified as this, at least in software. (I'm not sure how one would qualify games on ROMs or games that don't run under a host OS?) While your example would be an attempt at real-time software, most real-time software goes through a period of certification in which the maximum amount of time spent per instruction or on a logical block of operation is determined. Games might come close to this in a sense when, for example, platform licensors have requirements (as I believe XBLA does) regarding minimum 30fps or similar. However, these certifications are usually established through a period of testing rather than through mathematical proof.