Distributed ledger

A distributed ledger (also called a shared ledger or distributed ledger technology or DLT) is a consensus of replicated, shared, and synchronized digital data geographically spread across multiple sites, countries, or institutions.[1] There is no central administrator or centralized data storage.[2]

A peer-to-peer network is required as well as consensus algorithms to ensure replication across nodes is undertaken.[2] One form of distributed ledger design is the blockchain system, which can be either public or private.

Characteristics

The distributed ledger database is spread across several nodes (devices) on a peer-to-peer network, where each replicates and saves an identical copy of the ledger and updates itself independently. The primary advantage is the lack of central authority. When a ledger update happens, each node constructs the new transaction, and then the nodes vote by consensus algorithm on which copy is correct. Once a consensus has been determined, all the other nodes update themselves with the new, correct copy of the ledger.[3][4] Security is accomplished through cryptographic keys and signatures.[5][6][7]

Applications

In 2016, some banks tested distributed ledgers for payments[8] to see if investing in distributed ledgers is supported by their usefulness.[2]

Types

Distributed ledgers may be permissioned or permissionless. This determines if anyone or only approved people can run a node to validate transactions.[9] They also vary between the consensus algorithm – proof of work, proof of stake, or voting systems. They may be mineable (one can claim ownership of new coins contributing with a node) or not (the creator of the cryptocurrency owns all at the beginning).

All blockchain is considered to be a form of DLT. There are also non-blockchain distributed ledger tables.

Non-blockchain DLTs can be in the form of a distributed cryptocurrency or they may be the architecture on which private or public data is stored or shared.

The main difference is that while blockchain requires global consensus across all nodes a DLT can achieve consensus without having to validate across the entire blockchain.

See also

References
  1. Distributed Ledger Technology: beyond block chain (PDF) (Report). Government Office for Science (UK). January 2016. Retrieved 29 August 2016.
  2. Scardovi, Claudio (2016). Restructuring and Innovation in Banking. Springer. p. 36. ISBN 978-331940204-8. Retrieved 21 November 2016.
  3. Maull, Roger; Godsiff, Phil; Mulligan, Catherine; Brown, Alan; Kewell, Beth (21 Sep 2017). "Distributed ledger technology: Applications and implications". FINRA. 26 (5): 481–89. doi:10.1002/jsc.2148.
  4. Ray, Shaan (2018-02-20). "The Difference Between Blockchains & Distributed Ledger Technology". Towards Data Science. Retrieved 25 September 2018.
  5. "Distributed Ledger Technology: beyond block chain" (Press release). Government Office for Science (UK). 19 January 2016. Retrieved 25 September 2018.
  6. Brakeville, Sloane; Perepa, Bhargav (18 Mar 2018). "Blockchain basics: Introduction to distributed ledgers". Developer works. IBM. Retrieved 25 Sep 2018.
  7. Rutland, Emily. "Blockchain Byte" (PDF). FINRA. R3 Research. p. 2. Retrieved 25 September 2018.
  8. "Central banks look to the future of money with blockchain technology trial". Australian Financial Review. Fairfax Media Publications. 21 November 2016. Retrieved 7 December 2016.
  9. "Blockchains & Distributed Ledger Technologies", Blockchain Hub
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.