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I'm developing a 2D application for the iPhone that renders lots of textures. Most of them are loaded from PNG files with alpha transparency at the moment. As a test I've been playing around with PVR-testures as well to see if there is any performance difference.

The PNG-textures are loaded with the Texture2D class that came with the crash landing example. The PVR-testures are loaded with the PVRTexture class from the PVRTextureLoader example. I create the PVR textures using Apple's texturetool.

As a test I render a background (512*512) and on top of that 36 90*64 pixel sprites (from a 512*512 texture) with transparency. PVR textures renders at around 58 fps and the PNG at 47 fps. Is this what I can expect or should the difference be bigger? Also, the textures generated by texturetool looks really bad, is the PVRTexTool better?

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2 Answers 2

up vote 36 down vote accepted


  • High precision color representation, not lossy
  • Slow decompression from disk.
  • Slow uploading to graphics hardware, internal pixel reordering is performed by drivers.
  • Slower rendering because of limited memory bandwidth. Actual amount of slowdown depends on usage scenario. This problem is mostly noticeable with lower than 1x magnification ratio and no MIP-mapping.
  • Take more RAM/VRAM space.
  • Editable, can be filtered/blended/resized/converted by your software before upload.
  • Mip-maps can be generated automatically during texture upload
  • Disk space usage varies with content, very small for simple images, almost uncompressed for photorealistic ones.
  • Can be exported from any image-editing software directly and quickly.


  • Low precision lossy compression (2 levels ), blocky, no sharp edges and smooth gradients. Image quality varies with content. 2-bit and 4-bit compression methods are available, 3 or 4 color channels.
  • Fast loading from disk, no software decompression needed.
  • Almost instant texture upload, because it's an internal hardware format, will go through drivers unchanged.
  • fast rendering because of smaller memory bandwidth usage. Pixel rendering speed is mostly limited by other factors when PVR textures are used.
  • Take a little RAM/VRAM space.
  • Mip-maps must be pre-generated.
  • You can't generate or edit PVRs inside of your software AFAIK. Or it will very slow.
  • Disk space usage is directly proportional to image size. Can be further compressed by other methods.
  • Size limitations. Powers of 2, square only.
  • Additional conversion tool is required, process can be automated, but will slow down build times considerably.
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I used PVR as a container that holds PNG image inside. This way I can break square only limitation. If I don't use PVR as a selected format of image, but just a container, do I get the benefit of PVR after all? –  haxpor Apr 6 '13 at 16:46
To be clear (because it seems surprising, and it's not entirely clear above): PVR's take less memory on the GPU, as well as on the CPU. Using PVR compression not only gets you better startup time and better render performance - it also allows you to load more textures of larger size simultaneously. –  Adam Aug 24 '13 at 12:37

Performance should be better with the PVRTC textures, as they are compressed (lossy). The decompression is done in the graphics hardware itself. Less texture data is being transferred around, so you get more bandwidth. The price you pay for the RAM and bandwidth saving is the loss of quality.

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