What are the differences between OpenGL ES and OpenGL ?

12 Answers 12


Two of the more significant differences between OpenGL ES and OpenGL are the removal of the glBegin ... glEnd calling semantics for primitive rendering (in favor of vertex arrays) and the introduction of fixed-point data types for vertex coordinates and attributes to better support the computational abilities of embedded processors, which often lack an FPU

Have a look here: OpenGL_ES

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    Those got removed from recent versions of desktop/workstation OpenGL as well. – Ben Voigt Dec 23 '10 at 15:19
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    An interesting comparison is between OGL 3 and GLES 2. In OGL 3 immediate mode is deprecated (though still supported). Much (though not all) of the functionality in OGL 3 is available in GLES 2. – nullspace Jan 27 '12 at 11:27

OpenGL ES is the opengl api for embedded systems. It is simpler than the normal opengl in terms of the number of the api functions, but may be harder to use, since you will have to use vertex buffers and write more shaders.

When you use a normal opengl, you can use glBegin and glEnd to enclose the geometry primitives you need to draw, but when using Opengl ES, you will have to use vertex buffers. I guess this is for performance concerns.

Currently, there are two Opengl ES versions, the 1.1 version can only support the fixed rendering pipeline, while the 2.0 version supports glsl shader. However it has no fixed rendering pipeline. In other word, you will have to write your own shader for everything.

Opengl ES is mainly used on cell phones and web (webgl). According to the spec, your desktop opengl driver can support all opengl es apis.

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    You don't have to use vertex buffers, I don't think. You can use immediate-mode vertex arrays, too. Am I wrong? – Gravity Dec 19 '11 at 5:00
  • Yeah, you don't have to use vertex buffers – Stanislav Ageev Dec 1 '12 at 23:48
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    "When you use a normal opengl, you can use glBegin and glEnd to enclose the geometry primitives you need to draw,", not if you want your code to be forward compatible, and also not if you're using a Mac, which I am ;) – Jerfov2 Oct 14 '15 at 22:41

Just like to add that OpenGL 3.3 and OpenGL ES 2.0 are mostly interoperable, by using a subset of the features of OpenGL 3.3. My custom C++ engine uses the same API calls, with a few defines, for Android/IOS/Windows/OSX/Linux.

Among the key differences are:

  • lack of geometry shader support
  • no min/max blending (there may be an extension for this)
  • no Quad List primitive
  • more restricted texture formats (especially regarding floating point)
  • glGetTexImage is not available
  • there is no Transform Feedback, same for several other advanced features

There are also many other differences, but that covers several of the important ones.

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    I think we can slowly edit this post to include all missing function calls. And the versions to compare should still be 3.3 and ES 2.0 since they were released in the same year – GameDeveloper Jul 2 '14 at 21:37

OpenGL ES means Open Graphics Library for Embedded Systems (OpenGL ES or GLES) is a subset of the OpenGL computer graphics rendering application programming interface (API) for rendering 2D and 3D computer graphics such as those used by video games, typically hardware-accelerated using a graphics processing unit (GPU). It is designed for embedded systems like smartphones, computer tablets, video game consoles and PDAs.

The OpenGL|ES Official Website: http://www.opengl.org/

you also can get more information from wiki : http://en.wikipedia.org/wiki/OpenGL_ES


Review the OpenGL ES overview here: http://www.khronos.org/opengles/

In short, ES is a subset of Open GL for "embedded systems". Specific differences will depend on the versions and feature sets you're comparing.


The OpenGL ES registry contains detailed API differences between OpenGL ES and the corresponding version of OpenGL:

However, there isn't a document containing the differences for OpenGL ES 3.0.


I think you'll get a better answer if you ask "what are the differences between OpenGL and OpenGL ES ".

There are profound differences between OpenGL ES 1.1 and ES 2.0, OpenGL 1.5 and 2.0, and OpenGL 3.0 and 4.0.

As others have described ES was written for embedded systems. It also represents the first "house cleaning" of the GL specification since its inception. OpenGL had a) many ways to do the same thing (e.g. you could draw a quad/rect two different ways and blit a pixel image two different ways, etc). ES is simpler than OpenGL with fewer features as a general statement because it's designed for less sophisticated hardware.

I urge you not to look at OpenGL ES 1.1 as it is the past and does not represent the way OpenGL or OpenGL ES is moving architecturally in the future.


The terminology and versions are quite confusing (especially for newbies). For a more holistic view on OpenGL and OpenGL-ES (GLES), see OpenGL - Then and Now.

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    The link also contains a great tutorial with examples, well explained how the OpenGL rending pipeline works. – Jiu Oct 25 at 8:42
  • Here is the link for the tutorial. – ap-osd Nov 7 at 13:09

The main difference between the two is that OpenGL ES is made for embedded systems like smartphones, while OpenGL is the one on desktops. On the coding level, OpenGL ES does not support fixed-function functions like glBegin/glEnd etc... OpenGL can support fixed-function pipeline (using a compatibility profile).


The modern answer, for ES 3.0 compared to OpenGL 4.6, is way different than the accepted answer. Now, all of the fixed-pipeline stuff is gone.

ES, for EMBEDDED SYSTEMS, is far less robust.


simply telling, opengl is desktop version and opengl es is for embedded systems like cellphones where there are memory and performance constraints more than that of computers. opengl es would be harder to use.

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    Your answer is a common knowledge. Consider deleting it. :) – Nek Sep 18 '13 at 9:26

OpenGL is 2D and 3D graphics API bringing thousands of applications to a wide variety of computer platform.

OpenGL ES is well-defined subsets of desktop OpenGL.

OpenGL® ES is a royalty-free, cross-platform API for full-function 2D and 3D graphics on embedded systems - including consoles, phones, appliances and vehicles. It consists of well-defined subsets of desktop OpenGL, ...

See this link.


WebGL shares specification with OpenGL ES, i.e. if you have learned desktop OpenGL, it is simple to learn the others(OpenGL ES, WebGL).

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