**old account** on Nostr: Our predecessor, the Merkle DAG, is depicted by the white graph while the dark-mode ...
Our predecessor, the Merkle DAG, is depicted by the white graph while the dark-mode graph showcases the new Scionic Merkle Tree.
In Merkle DAGs, each DAG leaf folder houses a list of children (Child1, Child2, etc). However, Scionic Merkle Trees transform this list into a classic Merkle tree. By doing so, a tiny classic Merkle tree is created inside every DAG leaf folder.
Users can now use a classic Merkle branch to acquire a file from the DAG without downloading the hash of every other file within the same folder as the requested file, making the process quicker and less costly.
In Merkle DAGs, each DAG leaf folder houses a list of children (Child1, Child2, etc). However, Scionic Merkle Trees transform this list into a classic Merkle tree. By doing so, a tiny classic Merkle tree is created inside every DAG leaf folder.
Users can now use a classic Merkle branch to acquire a file from the DAG without downloading the hash of every other file within the same folder as the requested file, making the process quicker and less costly.
quoting note14vd…hxa3The storage infrastructure for Decentralized GitHub is now in beta. Though the project took longer than initially planned, we've achieved a crucial milestone.
The advancements we've made in the evolution of merkle trees represent a significant accomplishment in itself. Explore the Statistics section in the GitHub link above to see the gains our thin Merkle branches provide.
We'll keep developing open-source style on GitHub and will continue to release progress updates on #nostr jack (npub1sg6…f63m) #bitcoin 🐝