So what I need is simple: each time we perform our shader (meaning on each pixel) I need to calculate random matrix of `1`

s and `0`

s with `resolution == originalImageResolution`

. How to do such thing?

As for now I have created one for shadertoy random matrix resolution is set to 15 by 15 here because gpu makes chrome fall often when I try stuff like 200 by 200 while really I need full image resolution size

```
#ifdef GL_ES
precision highp float;
#endif
uniform vec2 resolution;
uniform float time;
uniform sampler2D tex0;
float rand(vec2 co){
return fract(sin(dot(co.xy ,vec2(12.9898,78.233))) * (43758.5453+ time));
}
vec3 getOne(){
vec2 p = gl_FragCoord.xy / resolution.xy;
vec3 one;
for(int i=0;i<15;i++){
for(int j=0;j<15;j++){
if(rand(p)<=0.5)
one = (one.xyz + texture2D(tex0,vec2(j,i)).xyz)/2.0;
}
}
return one;
}
void main(void)
{
gl_FragColor = vec4(getOne(),1.0);
}
```

And one for Adobe pixel bender:

```
<languageVersion: 1.0;>
kernel random
< namespace : "Random";
vendor : "Kabumbus";
version : 3;
description : "not as random as needed, not as fast as needed"; >
{
input image4 src;
output float4 outputColor;
float rand(float2 co, float2 co2){
return fract(sin(dot(co.xy ,float2(12.9898,78.233))) * (43758.5453 + (co2.x + co2.y )));
}
float4 getOne(){
float4 one;
float2 r = outCoord();
for(int i=0;i<200;i++){
for(int j=0;j<200;j++){
if(rand(r, float2(i,j))>=1.0)
one = (one + sampleLinear(src,float2(j,i)))/2.0;
}
}
return one;
}
void
evaluatePixel()
{
float4 oc = getOne();
outputColor = oc;
}
}
```

So my real problem is - my shaders make my GPU deiver fall. How to use GLSL for same purpose that I do now but with out failing and if possible faster?

* Update:*
What I want to create is called Single-Pixel Camera (google Compressive Imaging or Compressive Sensing), I want to create gpu based software implementation.

Idea is simple:

- we have an image -
`NxM`

. - for each pixel in image we want GPU to performe the next operations:
- to generate
`NxM`

matrix of random values -`0`

s and`1`

s. - compute arithmetic mean of all pixels on original image whose coordinates correspond to coordinates of
`1`

s in our random`NxM`

matrix - output result of arithmetic mean as pixel color.

- to generate

What I tried to implement in my shaders was simulate that wary process.

What is really stupid in trying to do this on gpu:

- Compressive Sensing does not tall us to compute
`NxM`

matrix of such arithmetic mean values, it meeds just a peace of it (for example`1/3`

). So I put some pressure I do not need to on GPU. However testing on more data is not always a bad idea.