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Should Particle systems be updated entirely in the geometry shader or should the geometry shader be passed updated data for positions and life ect. At the moment i update everything in the geometry but iam not sure if this is the best idea incase some of the data is needed in the C++.

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up vote 3 down vote accepted

It's possible to almost everything in shaders ( especially if you're going for SM4+ ). I don't recommend going for anything over SM3 if you want any sort of market penetration. I still regret we didn't provide a SM2 fallback for our latest game, because quite a few people still use old crappy SM2 cards.

More on to the question. You can use RTT and never to do a round trip back to the main memory ( this is slow as hell, minimize transfer from graphics memory to main memory ), but the down side is that you need to use some rather elaborate tricks to compute AABBs ( which you'll want on the CPU side of things ) if you go pure GPU.

Instead we do everything which requires changing the state of a particle on the CPU side. We then have a tight memory representation of that data which gets updated to GPU. The vertex shader is rather meaty ( but that's totally fine, do as much as you possibly can in the vertex shader! ), it extracts this compressed representation of a particle, transforms it, and passes the uncompressed data on to the pixel shader. An important observation here is that you can, and should, split per vertex & per particle data. This implies using instancing ( which is just a way of saying: use frequency dividers ). We represent particle rotation with a normal + rotation about that normal.

Another reason for doing the state changes of a particle CPU side is that it's a heck of a lot easier to composite behavior CPU side. Any at least half decent particle system needs quite a bit of knobs to turn to be able to create interesting particle effects.

EDIT: And if you have anything resembling Particle::Update that can't be inlined you've failed, minimize per particle function calls, especially virtual ones, and keep the memory representation of a particle tightly packed!

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Ahh brilliant reply, that makes alot of sense to me. my next task is to implement soft particles and this is why i needed to ask this question because it doesnt appear to me that you can do a depth sort very easyly if you are doing pure GPU. i can change my code now to mirror what you have said thankyou very much – RobBain85 Mar 6 '12 at 16:35

That depends on what kind of particle system you have. In most cases you have a software representation in C++ and a hardware representation for your shader. The geometry data for the shader is computed from the software representation and should be as little as possible. Because in most cases not the computational power is the limiting resource but the transfer rate to the graphics card.

If you can decrease transfers even further with your method, you can still keep a software representation in memory for further usage. Even if this implies computing data twice, it can be faster than the transfer process.

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my particle systems come in the forms of smoke , fire, dust, rain ect. at the moment i send random x y and z values over to the shader for position and velocity ect i also pass over the frame time and life time of the particle. My Shader then works out where the particle should be based on the values coming in. would you do these calculations in the software? – RobBain85 Mar 6 '12 at 16:28
Maybe I misunderstand you... But when you send random positions and velocities, your particles will flicker, won't they? Or are these values only calculated once and only the frame time gets updated? In that case only deterministic movements are possible. – Nico Schertler Mar 6 '12 at 16:34
sorry yeah they are applied when the particle is emmited not over and over again – RobBain85 Mar 6 '12 at 16:41

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