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I understand that OpenGL 4 and 3 are fairly similar. What are the differences, especially, what could be better about an OpenGL 4.1 workflow and feature set compared with OpenGL 3.1+?

Additionally, do any of the new extension / core features provide major performance increases over GL3 or just accessibility?


Edit:: @Shezan Baig: Great links, very helpful. Many features seem beneficial enough, in my situation, to use OpenGL 4.1.

Appendix G - K For OpenGL 3.1 features through OpenGL 4.1 features

Khronos Group Release Of OpenGL 4.0 may be "easier to read" :)

Important Differences:

  • Sampler Objects
  • Instanced Arrays and Shaders
  • texture_cube_map_array and texture_gather

  • GLSL 4.0 and dynamic LOD

  • shader_subroutine and sample_shading
  • separate_shader_objects
  • Increase required sizes for texture/renderbuffers
  • 64 bit floating point vertex attributes
  • get_program_binary
  • +2 Tesselation shaders

Can you provide any elaboration on any of these and would you say these are fairly key performance boosters?

OpenGL 3.3 was made to compliment OpenGL 4.0 to incorporate as much of the functionality as they could into older hardware. Choosing between OpenGL 3 and 4, 3.3 may be a better choice sometimes. 4.1 has added GL ES 2.0 compatibility however and some nice features.

One of the bigger workflow differences would be added GPU programing steps in the pipeline via the new tessellation shaders. Another would be multiple viewports to render to. I believe the new level of detail feature would change the workflow I'm using and perhaps other quite a bit, though I have not looked into this feature in depth.

I am still fairly novice with OpenGL though not to general graphical programming. Please let me know if you see any misconceptions or areas to improve.

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There are a good number of questions there, each one probably deserves much deeper answers. But yeah, I would say these are fairly key performance boosters if used in the right way –  Shezan Baig Jan 27 '11 at 15:25
Yeah I got a little carried away lol, thanks though this helped alot. =P –  Garet Claborn Jan 28 '11 at 13:19
Nicol Bolas, you always close my stuff out of some weird personal issues. bah –  Garet Claborn Nov 17 '13 at 12:16
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closed as not constructive by Nicol Bolas, Sergey K., hakre, Florent, iMat Oct 3 '12 at 13:33

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2 Answers

up vote 9 down vote accepted

You can get all the changes from here.

Appendices G-K go over all the changes from OpenGL 3.1 to OpenGL 4.1, including new features, what's been deprecated, what's been removed completely etc.

Also, this link may be "easier to read" :)

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does not answer the question. "Can you provide any elaboration on any of these and would you say these are fairly key performance boosters?" There is nothig about boosters –  Artur Mustafin Jan 28 '11 at 5:16
@Artur Mustafin this is not a reason to downvote. Garet's additional question was added after i had answered the original question, and I have already provided an answer for Garet's edit in the comments section –  Shezan Baig Jan 28 '11 at 5:33
@Artur Mustafin -- lol @ "there is nothing about boosters" –  Shezan Baig Jan 28 '11 at 5:55
@Everyone? Weell,... the main question I was asking amidst..alot of thought was just, "How can the workflow be better in 4.1" I wouldn't say this exactly answers it but still, it points me in the right direction pretty well. Would really like to hear some straight up advice about 4.1 really, but I know this is a huge topic. –  Garet Claborn Jan 28 '11 at 12:35
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If your question is "How can the workflow be better in 4.1", that's simply not what 4.1 is about.

First, a quick definition, to make sure we're talking about the same thing. For me, "workflow" means API improvements and things that make performance better. These don't allow the hardware to do anything you couldn't before; they just make it easier for the programmer or let you get faster performance.

The vast majority of the API improvements, the ones that aren't based on new features, are available to 3.3 implementations as core extensions. Since they are core extensions, you don't even have to change your code to remove the "ARB" suffix from your 3.3 code to use them in 4.1 code. It all just works. In particular, I'm talking about program separation (GL_ARB_separate_program_objects) and retrieving binaries of compiled programs (GL_ARB_get_program_binary). Both are supported on 3.3 hardware; NVIDIA even extends these all the way back to GeForce 6xxx chips.

The main exception to this is shader subroutines, which is limited to 4.x hardware. However, this specification is so poorly specified that I'm not sure that anyone even can use it, let alone should. It is convoluted and somewhat confusing.

There isn't much that one could easily use to boost performance that is unique to 4.1. Bindless rendering (GL_NV_vertex_buffer_unified_memory) is probably the biggest performance enhancement if that is a bottleneck for you. As you probably noticed from the name, it is an NVIDIA extension and not core. I'm sure the ARB is working on something not entirely unlike this for a core feature in a future spec. And Bindless isn't unique to 4.x hardware; again, NVIDIA extends this all the way back to GeForce 6xxx chips.

There are some things in 4.x that can enhance hardware, but they all ultimately revolve around some form of GPGPU work. Indirect rendering (GL_ARB_draw_indirect) would be a good speedup if you are generating rendering data from OpenCL. And Civilization V has already shown the value of using GPGPU technologies (they use DXCompute, but you could do it with OpenCL too) to decompress textures; this helps tremendously in loading performance, as you don't have to load as much data from disk.

If you want to really stretch the definition of performance improvement, Tessellation could be considered a performance enhancement. You could use it to send smaller meshes, or use your lower LOD meshes closer to the camera. Or you could consider it a way to render higher polygon meshes than you ever could before.

4.x really isn't about providing hardware features that make things go faster. It's more about being able to render in different ways than you could before.

And one more thing: there isn't a choice between 3.1 and 3.3. Pretty much any hardware that could run 3.1 can run 3.3. If it doesn't, then that's because the hardware maker is slacking off on their OpenGL drivers (I'm looking at you, Intel).

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"4.x really isn't about providing hardware features that make things go faster. It's more about being able to render in different ways than you could before." When I'm talking about workflow this is what I'm after. If you are building a render system from the ground up, there should be a different point of attack that makes life simpler. –  Garet Claborn Jun 15 '11 at 13:50
Not really. Not for OpenGL 4.x. Like I said, the biggest convenience features are program binaries and separation of programs. And neither of those are restricted to 4.x hardware. So I stand by my conclusion: there's nothing that will affect your rendering system in OpenGL 4.x that "makes life simpler". –  Nicol Bolas Jun 15 '11 at 22:26
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