A bit of discussion of this issue on the ARM forums: http://forums.arm.com/index.php?/topic/16364-random-number-with-mali-400-mp/.
The problem is because of FP16 precision in fragment shaders on the Mali GPU. Basically, there are no fractional bits left by the time
fract is invoked (because the multipliers are so large), so you don't get any "noise" back at all. If you make the constants smaller, you'll start getting non-zero values back, but they won't be noisy. (I'm not entirely sure how the values were picked, and its not clear where this algorithm came from).
Technically this noise algorithm is relying on higher (medium? high?) precision floating point operations, which are optional in fragment shaders. According to this other post you can check the platform's supported precision in fragment shaders by checking for the "OES_fragment_precision_high" extension in
The webgl-noise project in Nicol's answer doesn't seem as susceptible to floating-point truncation issues (it seems to keep things in a tighter bound). However, it has a period of around 300, and it generates more "structured" noise than the "white" (or "pink") noise you currently get. Its an excellent library, though, so its worth working into your code even if its not a drop-in replacement.