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Cartesi
Blockchain Infrastructure

Cartesi

Blockchain Infrastructure

Cartesi is building an operating system for dApps. The project enables complex and intensive computations run in a Linux environment, outside the blockchain, without compromising decentralization. Cartesi aims to make dApps significantly more powerful, cost-effective, easier to develop, and portable.

Sale ended 22 April 2020
14 Apr 2020 - 22 Apr 2020
IEO Details
Hardcap:
1,500,000 USD
Token Price:
0.015 USD
Min/Max cap:
Lottery
Total Supply:
1,000,000,000
IEO Supply:
100,000,000 (10%)
Accepting:
BNB
Whitelist/KYC:
KYC
Country:
Singapore
Token Details
Token Platform:
Ethereum
Coin Details
Ticker:
CTSI
Share This Page
To The Moon 🚀🌕
ROI Price Market Cap Sale Supply Fully Diluted Market Cap
x1 $0.015 $1,500,000 $15,000,000
x2 $0.03 $3,000,000 $30,000,000
x3 $0.045 $4,500,000 $45,000,000
x4 $0.06 $6,000,000 $60,000,000
x5 $0.075 $7,500,000 $75,000,000
x6 $0.09 $9,000,000 $90,000,000
x7 $0.105 $10,500,000 $105,000,000
x8 $0.12 $12,000,000 $120,000,000
x9 $0.135 $13,500,000 $135,000,000
x10 $0.15 $15,000,000 $150,000,000
x15 $0.225 $22,500,000 $225,000,000
x20 $0.3 $30,000,000 $300,000,000
x25 $0.375 $37,500,000 $375,000,000
x50 $0.75 $75,000,000 $750,000,000
x100 $1.50 $150,000,000 $1,500,000,000
x1000 $15.00 $1,500,000,000 $15,000,000,000

Cartesi provides a Linux runtime environment for scalable blockchain Dapps. Complex and intensive computations run off-chain, while retaining the security guarantees of the blockchain. With Cartesi, developers can continue to use the mature software infrastructure they are already proficient with, supported by Linux. Cartesi will also make DApps portable across the most relevant blockchains, so developers don't have to worry about the longevity of specific blockchain projects.


A Linux Infrastructure for Scalable Dapps

  • Scalable
    Intensive computations performed off-chain while retaining the security guarantees of the blockchain
  • Expressive
    DApp logic built with a real OS and the option of thousands of open-source software components available for Linux
  • Adoptable
    Barriers of adoption removed. Developers use familiar software stacks and popular standards to code DApps
  • Fully-Decentralized
    Consensus securely reached on-chain. No reputation protocol, no TEE, or central servers on the cloud
  • Portable
    Cartesi will make DApps portable across most important public blockchains that support smart contracts
  • Private
    DApp state can be kept private among application participants


Use Cases

  • DeFi
    Cartesi applications will be able to read and do complex calculations involving data from multiple sources. This will help interoperability between blockchains and services such as future and insurance markets.
  • Gaming
    Cartesi will unleash vast new possibilities for blockchain games. Developers will be able to use traditional tools and libraries that can be compiled for Linux. Additionally, game state processing will be free from the computational limits and high fees of blockchains without the need to sacrifice decentralization.
  • Machine Learning
    A trustless marketplace for AI and computational tasks. With the power of Cartesi’s decentralized automated verification, developers will be able to create services that allow new DApps to outsource and distribute work. This opens new possibilities for lower cost AI, developed by outsourced experts and bots.
  • The Future of Automation
    “With the power of Cartesi’s decentralized verification, applications will be able to outsource and distribute verifiable work. This opens new possibilities for trustless marketplaces and autonomous systems involving humans and machines, propelling IoT, data science and AI through new business models
  • Logistics & Optimization
    With Cartesi, professionals in fields such as logistics will be able to offer their services and be hired by enterprises internationally and without the need for intermediaries.
  • Research
    Outsourced computation will allow for millions of users to lend their idle computing power. This will benefit scientific research, 3d rendering, video transcoding and many other computationally intensive tasks in a trustless way, without reputation systems.


CTSI Token

Cartesi aims to bring mainstream scalability and power to decentralized applications through a network of nodes. The CTSI token has been designed to incentivize Cartesi Node operators to engage with the system honestly and in an efficient way. It comprises the following use cases:

  • Cartesi Core
    The Cartesi Core relies on an arbitration mechanism that uses CTSI as collateral to enforce honest behavior
  • Cartesi Side Chain
    Users of the Cartesi Side Chain pay for temporary data storage for Cartesi dApps with CTSI. Block generators receive CTSI block rewards and the fees paid by users adding data to the Side Chain
  • Consensus System
    CTSI is used to participate in the Side Chain's Proof-of-Stake consensus system. Miners with the highest stakes have a higher probability of being selected to generate the next block
  • Data Availability Protocol
    CTSI will also power a data availability protocol to aid with the transfer of large data blobs used for machine snapshots.
Erick de Moura
CEO
Involved in 1 project
Augusto Teixeira
CSO
Involved in 1 project
Diego Nehab
CTO
Involved in 1 project
Colin Steil
COO
Involved in 1 project
Danilo Tuler
Head of Engineering
Involved in 1 project
Felipe Argento
Blockchain Engineer
Involved in 1 project
Carlo Fragni
Software Engineer
Involved in 1 project
Victor Fusco
Senior Software Engineer
Involved in 1 project
Stephen Chen
Software Engineer
Involved in 1 project
Fabiana Cecin
Software Engineer
Involved in 1 project
Advisors
Serguei Popov
Involved in 2 projects
Stas Oskin
Involved in 3 projects
Luiz Henrique de Figueiredo
Involved in 1 project
William Bao Bean
Involved in 1 project
Boris Povod
Involved in 1 project
Byung Sun Hwang
Involved in 1 project
Tarek Hamed
Involved in 1 project
  • Q3 2017

    Research Started

  • Q3 2018

    Cartesi Core's Whitepaper

  • Q4 2018

    Computation Reproducibility

    Cartesi Core Testing

    Finalized the first minimum viable product

  • Q2 2019

    Achieved Computation Verifiability

  • Q3 2019

    Cartesi Core Open-sourced

  • Q4 2019

    Built the decentralized tournament infrastructure

  • Q1 2020

    Launch of Creepts

    Launch of Creepts Bounty Program

    Release of read-only centralized server for Creepts

  • Q2 2020

    Release of SDK documentation v1

    Release of read-write centralized server for Creepts 

    Release of staking contract

    Release of Host-Target Interface ("HTIF") Linux Driver for Roll-ups

  • Q3 2020

    Release of Proof-of-Stake prototype

    Release of tournament API documentation

    Release of high-level Google Remote Procedure Call ("GRPC") for Roll-ups Infrastructure re-evaluation

    Launch mining on Testnet

  • Q4 2020

    Redesigning of testing infrastructure

    Launch mining on Mainnet Release of P2P Service GRPC

    Release of Roll-ups contracts

  • Q1 2021

    Release of Cartesi Roll-ups

    Infrastructure re-implementation

    Conducting Cartesi Side Chain testing and auditing

  • Q2 2021

    Launch of Cartesi Side Chain on Testnet

    Conducting new infrastructure migration

    Conducting Cartesi Side Chain real usage testing

  • Q3 2021

    Launch of Cartesi Side Chain on Mainnet

    Conducting Cartesi Side Chain bug bounty

Source
Rating
3.4 / 5
3.7 / 5
Average
3.7 / 5
Ratings has been aggregated in date 14 April 2020
Loading...
 

Blockchain Infrastructure

Cartesi

Cartesi is building an operating system for dApps. The project enables complex and intensive computations run in a Linux environment, outside the blockchain, without compromising decentralization. Cartesi aims to make dApps significantly more powerful, cost-effective, easier to develop, and portable.

Sale ended 22 April 2020
14 Apr 2020 - 22 Apr 2020
To The Moon 🚀🌕
ROI Price Market Cap Sale Supply Fully Diluted Market Cap
x1 $0.015 $1,500,000 $15,000,000
x2 $0.03 $3,000,000 $30,000,000
x3 $0.045 $4,500,000 $45,000,000
x4 $0.06 $6,000,000 $60,000,000
x5 $0.075 $7,500,000 $75,000,000
x6 $0.09 $9,000,000 $90,000,000
x7 $0.105 $10,500,000 $105,000,000
x8 $0.12 $12,000,000 $120,000,000
x9 $0.135 $13,500,000 $135,000,000
x10 $0.15 $15,000,000 $150,000,000
x15 $0.225 $22,500,000 $225,000,000
x20 $0.3 $30,000,000 $300,000,000
x25 $0.375 $37,500,000 $375,000,000
x50 $0.75 $75,000,000 $750,000,000
x100 $1.50 $150,000,000 $1,500,000,000
x1000 $15.00 $1,500,000,000 $15,000,000,000
IEO Details
Hardcap:
1,500,000 USD
Token Price:
0.015 USD
Min/Max cap:
Lottery
Total Supply:
1,000,000,000
IEO Supply:
100,000,000 (10%)
Accepting:
BNB
Whitelist/KYC:
KYC
Country:
Singapore
Token Details
Token Platform:
Ethereum
Coin Details
Ticker:
CTSI

Cartesi provides a Linux runtime environment for scalable blockchain Dapps. Complex and intensive computations run off-chain, while retaining the security guarantees of the blockchain. With Cartesi, developers can continue to use the mature software infrastructure they are already proficient with, supported by Linux. Cartesi will also make DApps portable across the most relevant blockchains, so developers don't have to worry about the longevity of specific blockchain projects.


A Linux Infrastructure for Scalable Dapps

  • Scalable
    Intensive computations performed off-chain while retaining the security guarantees of the blockchain
  • Expressive
    DApp logic built with a real OS and the option of thousands of open-source software components available for Linux
  • Adoptable
    Barriers of adoption removed. Developers use familiar software stacks and popular standards to code DApps
  • Fully-Decentralized
    Consensus securely reached on-chain. No reputation protocol, no TEE, or central servers on the cloud
  • Portable
    Cartesi will make DApps portable across most important public blockchains that support smart contracts
  • Private
    DApp state can be kept private among application participants


Use Cases

  • DeFi
    Cartesi applications will be able to read and do complex calculations involving data from multiple sources. This will help interoperability between blockchains and services such as future and insurance markets.
  • Gaming
    Cartesi will unleash vast new possibilities for blockchain games. Developers will be able to use traditional tools and libraries that can be compiled for Linux. Additionally, game state processing will be free from the computational limits and high fees of blockchains without the need to sacrifice decentralization.
  • Machine Learning
    A trustless marketplace for AI and computational tasks. With the power of Cartesi’s decentralized automated verification, developers will be able to create services that allow new DApps to outsource and distribute work. This opens new possibilities for lower cost AI, developed by outsourced experts and bots.
  • The Future of Automation
    “With the power of Cartesi’s decentralized verification, applications will be able to outsource and distribute verifiable work. This opens new possibilities for trustless marketplaces and autonomous systems involving humans and machines, propelling IoT, data science and AI through new business models
  • Logistics & Optimization
    With Cartesi, professionals in fields such as logistics will be able to offer their services and be hired by enterprises internationally and without the need for intermediaries.
  • Research
    Outsourced computation will allow for millions of users to lend their idle computing power. This will benefit scientific research, 3d rendering, video transcoding and many other computationally intensive tasks in a trustless way, without reputation systems.


CTSI Token

Cartesi aims to bring mainstream scalability and power to decentralized applications through a network of nodes. The CTSI token has been designed to incentivize Cartesi Node operators to engage with the system honestly and in an efficient way. It comprises the following use cases:

  • Cartesi Core
    The Cartesi Core relies on an arbitration mechanism that uses CTSI as collateral to enforce honest behavior
  • Cartesi Side Chain
    Users of the Cartesi Side Chain pay for temporary data storage for Cartesi dApps with CTSI. Block generators receive CTSI block rewards and the fees paid by users adding data to the Side Chain
  • Consensus System
    CTSI is used to participate in the Side Chain's Proof-of-Stake consensus system. Miners with the highest stakes have a higher probability of being selected to generate the next block
  • Data Availability Protocol
    CTSI will also power a data availability protocol to aid with the transfer of large data blobs used for machine snapshots.
Share This Page
Erick de Moura
CEO
Involved in 1 project
Augusto Teixeira
CSO
Involved in 1 project
Diego Nehab
CTO
Involved in 1 project
Colin Steil
COO
Involved in 1 project
Danilo Tuler
Head of Engineering
Involved in 1 project
Felipe Argento
Blockchain Engineer
Involved in 1 project
Carlo Fragni
Software Engineer
Involved in 1 project
Victor Fusco
Senior Software Engineer
Involved in 1 project
Stephen Chen
Software Engineer
Involved in 1 project
Fabiana Cecin
Software Engineer
Involved in 1 project
Advisors
Serguei Popov
Involved in 2 projects
Stas Oskin
Involved in 3 projects
Luiz Henrique de Figueiredo
Involved in 1 project
William Bao Bean
Involved in 1 project
Boris Povod
Involved in 1 project
Byung Sun Hwang
Involved in 1 project
Tarek Hamed
Involved in 1 project
  • Q3 2017

    Research Started

  • Q3 2018

    Cartesi Core's Whitepaper

  • Q4 2018

    Computation Reproducibility

    Cartesi Core Testing

    Finalized the first minimum viable product

  • Q2 2019

    Achieved Computation Verifiability

  • Q3 2019

    Cartesi Core Open-sourced

  • Q4 2019

    Built the decentralized tournament infrastructure

  • Q1 2020

    Launch of Creepts

    Launch of Creepts Bounty Program

    Release of read-only centralized server for Creepts

  • Q2 2020

    Release of SDK documentation v1

    Release of read-write centralized server for Creepts 

    Release of staking contract

    Release of Host-Target Interface ("HTIF") Linux Driver for Roll-ups

  • Q3 2020

    Release of Proof-of-Stake prototype

    Release of tournament API documentation

    Release of high-level Google Remote Procedure Call ("GRPC") for Roll-ups Infrastructure re-evaluation

    Launch mining on Testnet

  • Q4 2020

    Redesigning of testing infrastructure

    Launch mining on Mainnet Release of P2P Service GRPC

    Release of Roll-ups contracts

  • Q1 2021

    Release of Cartesi Roll-ups

    Infrastructure re-implementation

    Conducting Cartesi Side Chain testing and auditing

  • Q2 2021

    Launch of Cartesi Side Chain on Testnet

    Conducting new infrastructure migration

    Conducting Cartesi Side Chain real usage testing

  • Q3 2021

    Launch of Cartesi Side Chain on Mainnet

    Conducting Cartesi Side Chain bug bounty

 Select Source
Source
Rating
3.4 / 5
3.7 / 5
Average
3.7 / 5
Ratings aggregated in date 14 April 2020
Loading...

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