Learning from code - larger TBB example

Learning from code - larger TBB example

During my fledgling days of learning GW-BASIC, it was source codes of
games like Nibbles written in GW-BASIC that helped me build my
skills as a programmer and induced a love for programming in me. Making games on my own resulted in badly structured logic, until I saw those source codes and I was like "Aha! so that's how they do it!!". T'was ice-cream for my mind as a child :)
learn from existing code.

There are plenty of tiny pieces of TBB code lying around in the internet. But is there a website or do
any one of you have source code where either a small (complete)
application is programmed in TBB or a game like PacMan is programmed
in TBB?

Seeing such a program is important to me as a
programmer, because it helps in better visualizing, planning and
understanding how I can make use of TBB.

I've seen this site, but I get a server error everytime I try to download. The Intel website has TBB code for Visual C++. I don't have Visual C++, and need something that I can compile with GCC on Linux.

Anyone who could help?

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Hi,somewhere on this forum I saw Dmitry Vyukov posting a link to Google's Code Search with "task_scheduler_init" as a search string and Code Search reported about 280 pieces of code that used TBB and I remembered that some of those did look reasonable and informative. So maybe Code Searchcan help.
Another thing I'd definitely take a look at is examples distributed as a part of TBB package. These are there not only to demonstrate TBB functionality, but also to teach which algorithm should be used in each case and how to use them to ensure optimal scalability and performance. Examples come not only with VS solution files, but with makefiles as well, so you can easily build those on Linux and give them a try.

You're showing me how fish, instead of giving me the fish! Your reply about code search has been very very helpful!

Yes, I've also been through the examples that came with TBB, but was looking for something broader. The examples demonstrate specific functionalities. Was looking for code which would demonstrate how to piece these functionalities together. While a game program would be the best to help in visualising the problem, I guess it's just a matter of practice that aids in visualization.
Will be trying out code on my own, and the request for help is still open... :)

Have a look at the "Smoke - Game
Technology Demo
" on ISN. It should use TBB under the hood (wrapped into scheduler interface of their own). In particular procedural fire uses deeply (triply to be more precise) nested parallelism there.

Thanks Andrey. Had a look at the video, and I know that I do not have the resources to actually try the example, but I was intrigued at how TBB has been used in the context.

From what I could understand, the AI, Rendering, Audio etc are independent modules, and TBB is like an external layer which supplies threads to these modules. Is that how it works? Coz if it is, then (as an example) you wouldn't need to go into any of the AI code and parallelise it right?

So would the logic be like:
Start program
while ! end of game
spawn a task with x threads for AI
spawn a task with x threads for Rendering
spawn a task with x threads for Audio
end of while
end program

or does the logic go like:

Start program
spawn x threads
while ! end of game
do the AI where more threads/tasks are spawned internally
do the Rendering where more threads/tasks are spawned internally

end of while
end program

Forgive me for the immaturity of the logic. I'm just not able to get how TBB is used in a larger context.

"a task with x threads"
TBB is all about having many finite tasks executed by a global worker pool of threads, so that couldn't possibly be it.

Best Reply

Smoke is constituted by several subsytems: Geometry, Physics, Rendering, AI, Procedural Fire, Procedural Trees, Audio, etc. Each subsytem consists of a bunch of objects. Objects can issue notifications about their state change, and can subscribe for notifications from other objects. These relations are established at the game initialization stage.

The main loop of the game looks like follows:

Start program
Read config, create subsystems and their objects
Subscribe objects to notifications from other objects and sybsytems
initialize TBB // common thread pool is created here
while ! end of game
end of while
End program

ProcesFrame spawns a task for each subsystem. Some of these tasks (most computentionally intensive ones) use nested parallelism (mainly in the form of tbb::parallel_for) to achive good load balancing.

Rendering task renders the state of the objects calculated at the previous iteration. At the same time most of the other subsytems calculate the new state of the objects concurerntly.

Change notifications are accumulated in the thread local manner, and after ProcessFrame is finished are distributed concurrently (using tbb::parallel_for again) to subscribers.

Achieving good scalability also requires careful containers structure design to minimaize memory allocations/deallocations and synchronization.

You may also have a look at the "Parallelization of
SMOKE Gaming Demo via Intel Threading Building Blocks
" whitepaper.

:) I guess it's time for me to say "Aha! So that's how you do it!" :)
Your reply solves my doubts.
Thank you so much!!! :)

Thank you Dmitriy :)

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