# Explanation to do with image bitrate(bpp) allocation

I would like someone to help me with an explanation of how bit allocation is done in the DCT image compression technique. I have tried to read a few papers but i haven't found one which clearly explains how the bit allocation is done, other than just stating that a given image has a certain bitrate,say 1.25bpp. I have also read where people say that bit per pixel is given by : Bpp = numbers of bits/number of pixels.

but the above equation does still not explain how the bit allocation, during the whole DCT compression process, is done. Any helpful links or explanations here are welcome. Thank you.

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First we have to agree on some basic things. Suppose for some given image the pixels are encoded such that each one of them uses 8 bits, then, for example the value 255 is represented as `11111111` in binary and 0 is `00000000`. That is what bits per pixel stands for, is that clear ? Now suppose we create a form of encoding where 255 is `00000001` in binary, and 0 is as earlier. With this scheme, we now only need 1 bit per pixel to represent our image. Is it clear why ? It is unlikely that papers will discuss the matter, maybe some introductory book/chapter on image encoding might discuss it. –  mmgp Feb 10 '13 at 3:52
Thank you for the fast response. So i get the 00000001 for 255 part, but then how would you represent ,say, 1.25 bits per pixel? And when does the bit allocation take place? is it during the quantization or during the coding(huffman/entropy)?? –  Muk Feb 10 '13 at 4:31
I don't know exactly which paper(s) you are referring too, but since you mention Huffman, it is quite possible that 1.25 bits per pixel is the average number of bits based on the Huffman coding. Supposing you have 8 values (pixels) to encode, and if in total it takes 10 bits to do so, then that means you need 1.25 bits per pixel. –  mmgp Feb 10 '13 at 4:48
Thank you very much. –  Muk Feb 10 '13 at 5:33