Nervos Network
Nonprofit foundation developing cryptocurrency
 Logo of Nervos Network | |
| Denominations | |
|---|---|
| Plural | CKBytes, CKBs |
| Code | CKB |
| Development | |
| Original author(s) | Jan Xie Terry Tai Kevin Wang Daniel Lv Cipher Wang |
| White paper | Positioning whitepaper Cryptoeconomics whitepaper |
| Initial release | 19 November 2019; 4 years ago (2019-11-19) (mainnet) |
| Code repository | https://github.com/nervosnetwork |
| Development status | Active |
| Written in | Rust |
| Developer(s) | Nervos Foundation |
| Source model | decentralized open-source |
| License | https://github.com/nervosnetwork/docs-new/blob/develop/LICENSE |
| Ledger | |
| Timestamping scheme | Proof-of-work |
| Block time | approx. 10 seconds |
| Block explorer | https://explorer.nervos.org/ |
| Circulating supply | 43,549,596,169 CKB (as of 16 February 2024) |
| Website | |
| Website | https://www.nervos.org/ |
Nervos Network is a proof-of-work blockchain platform[1][2] which consists of multiple blockchain layers that are designed for different functions.[3] The native cryptocurrency of this layer is called CKB. Smart contracts and decentralized applications can be deployed on the Nervos blockchain. The Nervos Network was founded in 2018.
History
According to the organization's website, Nervos Network was founded in 2018 by Jan Xie, Terry Tai, Kevin Wang, Daniel Lv, and Cipher Wang.[4]
Architecture
Nervos Network utilizes multiple blockchain layers to for different functions.[3] The base layer prioritizes security and decentralization, and is optimized to verify transactions. It can settle transactions submitted from upper layers and resolves disputes. Layer 2 and above are designed for smart contract and decentralized applications.[5][6]
NC MAX
Layer 1 achieves cryptographic consensus through proof of work, using a modified version of Bitcoin's Nakamoto consensus algorithm: NC-MAX. This algorithm changes the original in three ways: a two-step transaction process (propose, commit) which aims to improve block propagation; dynamic adjustment to block interval based on network performance to keep orphan blocks low and improve transaction throughput; and accounting for all blocks (including orphans) during the difficulty adjustment calculation to resist "selfish mining attacks," whereby one group of miners can increase their own profits at the expense of other miners on the network. NC-MAX was presented at the Internet Society's Network and Distributed System Security (NDSS) Symposium in 2022.[7] The consensus process uses a novel hash function called "Eaglesong."[8][9]
References
- ^ "China's CMB International and Nervos Foundation launch $50m blockchain fund". CityAM. 20 May 2021. Retrieved 2022-09-28.
- ^ "Public blockchain Nervos Network raises $72 million in token sale". Reuters. 6 November 2019. Retrieved 2022-09-28.
- ^ a b "Crypto Startup Raises $28 Million To Combine Public And Private Blockchains For Enterprises". Forbes. Retrieved 2022-09-29.
- ^ "Team". Nervos Network. Retrieved 2023-11-29.
- ^ "Better Than Bitcoin? This Man Has a New Plan to Disrupt the Finance Industry". Newsweek. 2 October 2019. Retrieved 2022-09-28.
- ^ Zhong, Lin; Wu, Qianhong; Xie, Jan; Li, Jin; Qin, Bo (2019-04-01). "A secure versatile light payment system based on blockchain". Future Generation Computer Systems. 93: 327–337. doi:10.1016/j.future.2018.10.012. ISSN 0167-739X. S2CID 67791755.
- ^ Zhang, Ren; Zhang, Dingwei; Wang, Quake; Wu, Sichen; Xie, Jan; Preneel, Bart (2019-04-01). "NC-Max: Breaking the Security-Performance Tradeoff in Nakamoto Consensus" (PDF). Network and Distributed Systems Security (NDSS) Symposium 2022. ISBN 978-1-891562-74-7.
- ^ Network, Nervos (2019-08-03). "The Proof-of-Work Function of Nervos CKB". Nervos Network. Retrieved 2022-08-17.
- ^ Szepieniec, Alan; Ashur, Tomer (2020). "Eaglesong: An ARX hash with fast diffusion" (PDF). Proceedings of the Romanian Academy, Series A. 21 (1): 69–76. Retrieved 2022-10-05.
Further reading
- Sun, Meng; Lu, Yuteng; Feng, Yichun; Zhang, Qi; Liu, Shaoying (November 2021). "Modeling and Verifying the CKB Blockchain Consensus Protocol". Mathematics. 9 (22): 2954. doi:10.3390/math9222954. ISSN 2227-7390.
- Bu, Hao; Sun, Meng (March 2020). "Towards Modeling and Verification of the CKB Block Synchronization Protocol in Coq". Formal Methods and Software Engineering: 22nd International Conference on Formal Engineering Methods, ICFEM 2020, Singapore. Lecture Notes in Computer Science. Vol. 12531. pp. 287–296. doi:10.1007/978-3-030-63406-3_17. ISBN 978-3-030-63405-6.
External links
- Official website
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