A huge amount of data is produced daily by genome sequencing. It is kept in genome banks which contain also precious biological information that is mostly not discovered yet. Biologists in turn are keen to precisely explore these banks in order to discover effective patterns that have a real impact on the function and evolution of living Creatures. Therefore, it becomes very important to store this data professionally to explore it in a frequent manner. Many techniques have emerged to store genomes in the lowest possible space. Reference-based Compression algorithms (RbCs) efficiently compress the sequenced genomes by mainly storing their differences with respect to a reference genome. Therefore, RbCs give very high compression ratios compared to the traditional compression algorithms. However, in order to search a compressed genome for specific patterns, it has to be totally decompressed, wasting both time and storage. Therefore, it becomes very critical to professionally store this data in order to efficiently browse it in a frequent manner. This is done by a device called Raspberry-Pi. “Exploring the Genomes of Species on Raspberry-Pi Device” project is about manipulating different species' genomes to facilitate the process of sending/receiving multiple genomes and reduce the time needed to search/pick a certain sequence of data of a certain genome. This is done by compressing multiple targets (versions) genomes based on one reference (base) genome and then searching/browsing for a certain sequence by partially decompressing the compressed genomes. The second part of the algorithm shall enhance the previous one in order to work on more advanced species and thus reduce the time needed and space required to deal with such high chromosome count genomes. The overall program shall be tested and deployed on Raspberry-Pi device.