But it does have to be said that there’s little excuse for not doing it anymore for heavy applications, especially games. The tools/frameworks/engines have vastly improved, and people know (at least roughly) ahead of time what work is going to slog the CPU, especially in the case of a AAA studio.
Note: I’m only referring to relatively modern games here - anything that’s older than when multithread really took off gets an automatic pass - it’s not reasonable to expect someone to cater for a situation that doesn’t exist yet.
there’s little excuse for not doing it anymore for heavy applications, especially games
… Wut. You chose one of the best examples of where multi-threaded workloads are extremely difficult and often impractical as your example of where it should definitely be used…? 🤦
Games are where it’s the most difficult, nevermind enterprise workloads that can be multi-threaded on paper, while games can often not even make that work in theory. Game workloads are incredibly, almost insurmountably, difficult to multi-threaded for most teams and studios.
Not just from a technical standpoint but from a practical standpoint as well as you are significantly increasing the surface area for software defects, full of pitfalls and gotchas. Sure you can multi-thread your workload but now it actually runs slower than it would have if you never did this at all due to increased resource usage as a result of synchronization…etc
Games like factorio are rarities, where the developers had both a small game and scope, and all the time and resources they needed to produce multi-threaded solutions to their workloads. Engines like unity have ECS, which has limitations of use and comes with extra asterisks. But outside that and a few other examples actual multi-threading is a massive undertakings that may actually mean your Game cannot be delivered.
Multithreading in games is much more difficult because you not only have to make sure, everything is synchronized, but also that everything finishes in time. It’s a bit like a RTOS in that regard. Using a known and fixed amount of threads can be a sane choice.
Not much of a game developer myself- but, yea, I understand the challenges of multithreading, especially around the main loop.
If you want to learn something interesting, check out a few videos on the PS2 architecture, and the challenges around optimizing games for it. Its, very interesting.
Programming with threads is much harder than using a single thread.
First your workload has to be split up in such a way that it can be distributed. That’s not always possible.
The you gotta insert “synchronisation” to avoid a whole class of concurrency issues.
Hence programmers always default to a single thread unless really needed.
Of course - I get that. I’m a programmer myself.
But it does have to be said that there’s little excuse for not doing it anymore for heavy applications, especially games. The tools/frameworks/engines have vastly improved, and people know (at least roughly) ahead of time what work is going to slog the CPU, especially in the case of a AAA studio.
Note: I’m only referring to relatively modern games here - anything that’s older than when multithread really took off gets an automatic pass - it’s not reasonable to expect someone to cater for a situation that doesn’t exist yet.
Tend to agree that these massive studios should have the resources.
… Wut. You chose one of the best examples of where multi-threaded workloads are extremely difficult and often impractical as your example of where it should definitely be used…? 🤦
Games are where it’s the most difficult, nevermind enterprise workloads that can be multi-threaded on paper, while games can often not even make that work in theory. Game workloads are incredibly, almost insurmountably, difficult to multi-threaded for most teams and studios.
Not just from a technical standpoint but from a practical standpoint as well as you are significantly increasing the surface area for software defects, full of pitfalls and gotchas. Sure you can multi-thread your workload but now it actually runs slower than it would have if you never did this at all due to increased resource usage as a result of synchronization…etc
Games like factorio are rarities, where the developers had both a small game and scope, and all the time and resources they needed to produce multi-threaded solutions to their workloads. Engines like unity have ECS, which has limitations of use and comes with extra asterisks. But outside that and a few other examples actual multi-threading is a massive undertakings that may actually mean your Game cannot be delivered.
Programmers mostly don’t know how to make multithread programs.
I’m programmer myself and I understand that it’s not simple even though you can use blocking or protected collections.
I’m referring to a situation where the programmer made a function multithreaded but hard coded creating only 4 threads “to fully utilize a 4 core cpu”
Multithreading in games is much more difficult because you not only have to make sure, everything is synchronized, but also that everything finishes in time. It’s a bit like a RTOS in that regard. Using a known and fixed amount of threads can be a sane choice.
Yup, glad someone else understands that one.
Not much of a game developer myself- but, yea, I understand the challenges of multithreading, especially around the main loop.
If you want to learn something interesting, check out a few videos on the PS2 architecture, and the challenges around optimizing games for it. Its, very interesting.
https://www.youtube.com/watch?v=IRv_xKS4q7o
Oh, and the PS3 wasn’t any better. (Worse in ways…)
https://www.youtube.com/watch?v=zW3XawAsaeU
Here is an alternative Piped link(s): https://piped.video/watch?v=IRv_xKS4q7o
Piped is a privacy-respecting open-source alternative frontend to YouTube.
I’m open-source, check me out at GitHub.
Not always true. Not for all games. And multiplayer games already have multithreading in some way.