I have a couple hundred Sparkfun LED pixels (similar to https://www.sparkfun.com/products/11020) connected to an Arduino Uno and want to control the pixels from a PC using the built-in Serial-over-USB connection of the Arduino.
The pixels are individually adressable, each has 24 bits for the color (RGB). Since I want to be able to change the color of each pixel very quickly, the transmission of the data from the pc to the Arduino has to be very efficient (the further transmission of data from the Arduino to the pixels is very fast already).
I've tried simply sending the desired RGB-Values directly as is to the Arduino but this leads to a visible delay, when I want to for example turn on all LEDs at the same time. My straightforward idea to minimize the amount of data is to reduce the available colors from 24-bit to 8-bit, which is more than enough for my application.
If I do this, I have to expand the 8-bit values from the PC to 24-bit values on the Arduino to set the actual color on the pixels. The obvious solution here would be a palette that holds all available 8-bit values and the corresponding 24-bit colors. I would like to have a solution without a palette though, mostly for memory space reasons.
What is an efficient way to expand a 8-bit color to a 24-bit one, preferrably one that preserves the color information accurately? Are there standard algorithms for this task?
I was considering a format with 2 bits for each R and B and 3 bits for G. These values would be packed into a single byte that would be transmitted to the Arduino and then be unpacked using bit-shifting and interpolated using the map() function (http://arduino.cc/en/Reference/Map).
Any thoughts on that solution? What would be a better way to do this?