ThetaSigmaPhi
Registered Member
Hello I am Theta Sigma I have been enamored with computers and science, I have been exploring something. I am trying to create computers based on floating points in between 0 and 1 that are fracbits that work like analog I’m trying to
Here's an explanation of minibits and fracbits, along with their potential use in graphics representation. A minibit is a small unit of information, representing a single bit or a fraction of a bit. In the context of graphics, minibits can be used to represent subtle color variations or texture details. By using multiple minibits, you can achieve a higher color depth or texture resolution than traditional bit depths. A fracbit is a fractional bit, representing a value between 0 and 1. Fracbits can be used to represent fractional values in graphics
Potential use in graphics representation:
- Minibits and fracbits can be used to create a more detailed and nuanced representation of graphics data.
- This can lead to improved image quality, especially in areas like texture mapping, shading, and color gradients.
And:
- Imagine a pixel represented by 4 minibits (2^4 = 16 possible values).
- Each minibit represents a fractional value (fracbit) between 0 and 1.
- Combining these minibits, you can achieve 16 different shades of a color, with smooth transitions between them.
Here's an explanation of minibits and fracbits, along with their potential use in graphics representation. A minibit is a small unit of information, representing a single bit or a fraction of a bit. In the context of graphics, minibits can be used to represent subtle color variations or texture details. By using multiple minibits, you can achieve a higher color depth or texture resolution than traditional bit depths. A fracbit is a fractional bit, representing a value between 0 and 1. Fracbits can be used to represent fractional values in graphics
Potential use in graphics representation:
- Minibits and fracbits can be used to create a more detailed and nuanced representation of graphics data.
- This can lead to improved image quality, especially in areas like texture mapping, shading, and color gradients.
And:
- Imagine a pixel represented by 4 minibits (2^4 = 16 possible values).
- Each minibit represents a fractional value (fracbit) between 0 and 1.
- Combining these minibits, you can achieve 16 different shades of a color, with smooth transitions between them.