Basic Design of PROT

PROT is based on DASH’s X11 mining algorithm and aims at a new clustering Masternode that does not fork conventional technologies. The reward, voting and governance design will inherit the same structure and the schedule will be revealed on our road-map. The networks we have named as strategic clustering do not have the same ledgers in their clusters. The 30 clusters are again divided into three large blocks depending on their role. The role of each block is divided into read-only, full-block data storage, and up-to-date status information storage. The read-only block stores data from old transactions compressed by the LZ4HC-9 algorithm and does not support APPEND and WRITE.

Blocks with only the READ method as READ ONLY are used with limited INCOMING connections and store their own blocks lagging 129,600 blocks without external and consensus. The block that stores the entire block targets the high-availability machine and acts as a backup node at the same time as the role of the read-only block and the role of the latest state information storage block. The same high resource consumption as existing blockchain nodes requires high reliability scores and high network availability.

The latest state information store block deletes the lagged blocks exceeding 259,200 blocks every 1,440 block cycles and is the most heavily weighted block. Reliability scores are taken into account for network availability, transactions, on-time, and other factors. Data from nodes with high confidence scores are referenced in read-only blocks.

Each block is again divided into 10 clusters, with each cluster acting as an organic block, where then each block communicates with each other about physical locations, network availability, and storage availability.