Imagine a Linux-based project, prepared for WEB 3.0 and that can work together with other cryptos, such as Ethereum and Binance...
Cartesi (CTSI) is a blockchain platform designed to bring scalability, efficiency, and ease of development to the smart contract ecosystem. Cartesi’s main innovation is its use of a system called the “Decentralized Computing Layer” (DCL), which allows smart contracts to be developed using traditional programming languages and tools such as Python and C++, rather than blockchain-specific languages such as Solidity.
Main features of the Cartesi project:
1. Decentralization and Scalability
Cartesi processes complex computations off-chain using its Linux-based execution environment. This allows on-chain transactions to be lightweight and fast, while intensive computations occur off-chain in a secure and verifiable manner.
2. Decentralized Linux Environment
The system provides a complete Linux environment for developers to work in, allowing them to use existing software libraries and tools. This reduces barriers for developers who want to create decentralized applications (dApps).
3. Multiple Blockchain Support
Cartesi is blockchain-agnostic, which means it can be integrated with various blockchain networks such as Ethereum, Binance Smart Chain, Polygon, and others.
4. Use Cases and Applications
It is ideal for dApps that require intensive computations or need to process large volumes of data, such as blockchain games, machine learning, data analytics, and advanced financial systems.
5. Token CTSI
The platform's native token is CTSI, which plays several roles in the ecosystem:
Proof of Stake (PoS): It is used in the Descartes consensus system.
Transaction Fees: Used to pay fees on the network.
Incentives: Rewards validators and network participants.
6. Optimistic Rollups
Cartesi implements optimistic rollups, a layer 2 solution that improves scalability and reduces transaction costs while ensuring the security and integrity of computations.
Advantages of Cartesi
Simplified Development: Developers can work with conventional languages, reducing the learning curve.
Low Cost: Performing computations off-chain significantly reduces transaction fees.
Versatility: Suitable for a wide range of applications beyond the financial sector.
Real World Use
Projects using Cartesi have focused on blockchain gaming, data marketplaces and advanced computing tools, highlighting the potential to expand the functionality of dApps across a range of industries.
Cartesi is emerging as a promising solution to overcome the current limitations of blockchains, especially in terms of cost and accessibility for developers.
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