The presence of all those zeros is illogical for an encryption key. Unless you want it to be weak intentionally. Also odd, the zeros are in repeating groups of 4.
This suggests data as 32 bit integers. When viewing little-endian? data in a hex editor it is shuffled around. Notice how the 3rd digit of each group of 8 is zero. Group from the end. In the order they are written each uint32 is 357 1065 1099 1181 3194 3577 4271 4702 5124 5992 These numbers are ascending….
6501 is a processor, is this a program?
Unicode characters are 16 bits and might sometimes be stored as 32 bits.
The presence of all those zeros is illogical for an encryption key. Unless you want it to be weak intentionally. Also odd, the zeros are in repeating groups of 4.
This suggests data as 32 bit integers. When viewing little-endian? data in a hex editor it is shuffled around. Notice how the 3rd digit of each group of 8 is zero. Group from the end. In the order they are written each uint32 is 357 1065 1099 1181 3194 3577 4271 4702 5124 5992 These numbers are ascending….
6501 is a processor, is this a program?
Unicode characters are 16 bits and might sometimes be stored as 32 bits.
Wow. This is the best one I have got so far. I was thinking it is the picture but you might be looking for a processor and a program.