Difference between revisions of "Celestia (TIA)"

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*Based in:
*Based in:
*Started in / Announced on:
*Started in / Announced on:
*[[Testnet]] release: had their Devnet release in [https://celestia.org/#roadmap H2 of 2021], testnet planned in 2022 (3-1-2022)
*[[Testnet]] release: had their Devnet release in [https://celestia.org/#roadmap H2 of 2021], [[TestNet|testnet]] planned in 2022 (3-1-2022)
*[[Mainnet]] release: [https://celestia.org/#roadmap Planned] (3-1-2022) in 2022
*[[Mainnet]] release: [https://celestia.org/#roadmap Planned] (3-1-2022) in 2022
*A pluggable [[consensus]] and data availability layer. Makes deploying a [[blockchain]] easy.
*A pluggable [[consensus]] and data availability layer. Makes deploying a [[blockchain]] easy.
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* From its [https://celestia.org/faq/ FAQ] (3-1-2022):
* From its [https://celestia.org/faq/ FAQ] (3-1-2022):


''"Celestia is able to scale as the number of users (light nodes) in the network increases. Celestia remains secure so long as there are enough nodes on the network to sample the entire block. This means that as more nodes join the network and sample, the [[block size]] can increase accordingly without sacrificing security or [[Decentralized|decentralization]]. Doing so on a traditional blockchain would sacrifice [[decentralization]] because a bigger block size would create a larger hardware requirement for nodes to download and verify data. Rollups also depend on data availability for their scalability, so better scaling potential for Celestia will also translate to better scaling potential for the rollups utilizing Celestia."''
''"Celestia is able to scale as the number of users (light nodes) in the network increases. Celestia remains secure so long as there are enough nodes on the network to sample the entire block. This means that as more nodes join the network and sample, the [[block size]] can increase accordingly without sacrificing security or [[Decentralized|decentralization]]. Doing so on a traditional blockchain would sacrifice [[decentralization]] because a bigger [[Block Size|block size]] would create a larger hardware requirement for nodes to download and verify data. Rollups also depend on data availability for their scalability, so better scaling potential for Celestia will also translate to better scaling potential for the rollups utilizing Celestia."''


===Interoperability===
===Interoperability===
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==Compliance==
==Compliance==
==Their Other Projects==
==Their Other Projects==
=== CEVmos ===
* [https://medium.com/citadel-one/evmos-overview-9adc1ad3f4 From] [[Citadel One]] (1-3-2022):
''"In December 2021, [[Evmos (EVMOS)|Evmos]] announced a partnership with Celestia to build CEvmos, Celestia-EVM on Cosmos. Celestia is a [[Layer One|layer 1]] built to handle data availability and settlement but not execution, allowing devs to utilize their own execution environment and using Celestia’s data availability and security.''
''CEVMos utilizes Celestia and EVMos to create a modular stack: EVMos for settlement, Celestia for data availability."''
==Roadmap==
==Roadmap==



Revision as of 07:44, 11 March 2022

Basics

History

Audits & Exploits

Bugs/Exploits

Governance

Admin Keys

DAO

Treasury

Token

Launch

Token Allocation

Utility

Other Details

  • From its FAQ (3-1-2022):

"Celestia will have a token that will be used to secure the network via Proof of Stake, and to pay for transaction fees on the network. We plan to implement a fee-burn mechanism similar to EIP-1559 in Ethereum so that burnt fees will offset new token issuance as Celestia gains adoption."

Stablecoin

Coin Distribution

Technology

  • Whitepaper or docs can be found [insert here].
  • Code can be viewed here.

Implementations

  • Built on: its own layer.
  • Programming language used:
  • From its website (3-1-2022):

"Celestia will support all flavors of rollups, but we are initially focused on the EVM and Cosmos SDK."

  • Acoording to this thread (3-1-2022): Smart contracts can choose execution environment.

Transaction Details

How it works

  • Acoording to this thread (3-1-2022):

Anyone is allowed to post anything on chain (even invalid transactions). Nodes will download the transactions compute state of chain locally. Here is where data availability proofs comes to play. It ensures coding and it will download a few random pieces that can confirm whether a transaction is valid. This happens irrespective of how high the block is.

"Celestia is a minimal blockchain that only orders and publishes transactions and does not execute them. By decoupling the consensus and application execution layers, Celestia modularizes the blockchain technology stack and unlocks new possibilities for decentralized application builders."

  • From Ansem's Q1 report (1-1-2022):

"They are building a blockchain dedicated to being the most efficient and decentralized data-availability layer and will be able to connect to other execution and settlement layers to complete the full modular stack. Since Celestia is only focused on data availability and ordering transactions, their methods for block verification can be simplified with data availability proofs. Essentially, each node in the network is required to sample a small piece of each block to confirm its’ validity and through this collective sampling the network comes to consensus. Because of this, as more nodes are added to the network, it actually increases the throughput of the entire system so the network benefits from being as decentralized as possible."

Fees

Upgrades

Mining

Staking

Validator Stats

Liquidity Mining

Scaling

"Because Celestia does not validate transactions, its throughput is not bottlenecked by state execution like traditional blockchains. Thanks to a property of data availability proofs, Celestia’s throughput scales with the number of users."

  • From its FAQ (3-1-2022):

"Celestia is able to scale as the number of users (light nodes) in the network increases. Celestia remains secure so long as there are enough nodes on the network to sample the entire block. This means that as more nodes join the network and sample, the block size can increase accordingly without sacrificing security or decentralization. Doing so on a traditional blockchain would sacrifice decentralization because a bigger block size would create a larger hardware requirement for nodes to download and verify data. Rollups also depend on data availability for their scalability, so better scaling potential for Celestia will also translate to better scaling potential for the rollups utilizing Celestia."

Interoperability

Other Details

Oracle Method

Privacy Method

Compliance

Their Other Projects

CEVmos

"In December 2021, Evmos announced a partnership with Celestia to build CEvmos, Celestia-EVM on Cosmos. Celestia is a layer 1 built to handle data availability and settlement but not execution, allowing devs to utilize their own execution environment and using Celestia’s data availability and security.

CEVMos utilizes Celestia and EVMos to create a modular stack: EVMos for settlement, Celestia for data availability."

Roadmap

  • Can be found here (3-1-2022).

Usage

Projects that use or built on it

Competition

  • Has similarities with Cosmos and Polkadot, however within Celestia, its chains do not inherit the security of the main chain.

Pros and Cons

Pros

Cons

Team, Funding and Partners

Team

  • Full team can be found [here].
  • Mustafa Al-Bassam, self-proclaimed co-founder of LulzSec
Advisors

Funding

===Partners===*From this thread (9-2-2022): "In mid‐Dec. 2021, EVMos announced partnership with Celestia to build modular tech stack for EVM dApps; it will be rollup centric at the execution layer ‐ Data availability: Celestia ‐ Settlement: EVMos EVM ‐ Execution: rollups (zk‐RU or optimistic RU)"

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