An all-platform-supported native-application-compatible smart contract execution platform, development framework and collaborating ecosystem.

Project stage

Only a whitepaper

Detailed description

The IAS Machine, born in the 1950s, represents a new height of human intelligence. Its Von Neumann Architecture has also become the cornerstone of contemporary information technology. With the past 60 years’ rapid advancement, especially with the breakthroughs in Cloud Computing, Big Data, IoTs, and AI technologies in last 10 years, IAS will be evolving to its new form: Intelligent Autonomous Systems. The new IAS machine will become an indispensable infrastructure for human society, especially when they are carrying our daily life. Consequently, the crisis in lacking trust to them will seriously affect our society’s stability. Trusting machines will become a new fundamental need for humanity in the near future. Building the Trustworthy and Reliable IAS (TRIAS) will be the ultimate goal of project Trias.

TRIAS aims to create a new-generation public chain, which will support the execution of general-purpose native-applications on all platforms. Main vision is to root trust in machines by creating the Trustworthy and Reliable Intelligent Autonomous Systems.


Critical challenges should be considered:

  • Inefficient Consensus. Reaching consensus is a high-cost task. PoW requires substantial computing powers, which is consumed by inconsequent workloads.

  • Heavy Redundancy. Blockchain platform implements undeniable smart contracts operations by enforcing high redundancy. It will result in serious computation waste and network congestion, hence seriously limiting the number of programs to run in parallel.

  • Restrictive Interface. Though many smart-contracts are Turing-complete, the functional library is far from enough. It will be extremely complex to implement the native applications’ service logic with the existing smart-contract APIs.

  • Reconstruction and Migration. As a brand-new programming paradigm, it would be extremely complex to migrate existing native applications to the smart contract platform. Re-implementing all the existing software on this new platform is laborious, if even possible, given the restrictive interface stated above.

  • Trustworthy Data Collection. The trustworthiness of the data collection procedure is critical to a blockchain-based system, as it would be meaningless to protect the integrity of tampered data. Human factors should be avoided as much as possible, but untrusted data collection application is also destructive.

  • Data Privacy Preservation. Blockchain is not designed to preserve privacy. In contrary, it ensures integrity by a high-degree of openness. Therefore, enforcing privacy preserving computation on blockchains is a particular challenging task.


Trias’s vision is to build a trustworthy and reliable general-purpose computation infrastructure, where any system and software implement only expected behaviours. With Trias, we can root trust into machines with a firm assurance that the machines will deterministically “do what they are told to do”. Trias builds an all-platform-supported native-application-compatible smart contract execution platform, development framework and collaborating ecosystem. It has three subsystems:

  • Leviatom, a network of Trusted Execution Environments (TEEs) to achieve correct executions of general-purpose software
  • Prometh, a traceable development framework to achieve decentralised functional and security properties definitions for general-purpose software
  • MagCarta, a consensus-oriented programming paradigm to achieve embed and self-defined consensus strategy for high-order enterprise DApps


Leviatom: a Global Trusted Computing Platform
Leviatom combines Heterogeneous TEE technologies and Graph algorithms to implement an efficient, robust, highly-extensible consensus algorithm, and further supports the trustworthy execution of native applications.

Prometh: a Traceable-Software Development Framework 
Prometh combines formal verification and DevSecOps framework to achieve traceable and verifiable general-purpose application development, implementing smart-contract-level trustworthy assurance for native applications.

MagCarta: an All-platform Smart Contract and Token Ecosystem
MagCarta contract achieves the uniform scheduling of general-purpose traceable applications on global trusted computing platforms. It further employs both incentive and insurance mechanisms to drive the community with rewards and compensations.

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  • Token details

    • Token symbol ? Token symbol — a shorten token name. It is used during an ICO and after the coin listing at the cryptocurrency exchanges. : TRY
    • Fundrasing target ? Fundraising target — the maximum amount of funds to be raised during an ICO. When it is reached, the developers stop selling the tokens because they do not need to raise more money for the project development. : 13,000,000 USD
    • Token type ? Token type — a platform for a startup launch that influences the stability of blockchain operation, the speed of transactions and the fees. :Own blockchain ()
    • Soft cap ? Soft cap — the minimum amount of funds to be raised for the project development. Sometimes when the soft cap has not been reached, the money is returned to the participants. : NA
    • Role of token ? Role of Token — type of token depending on the opportunities it offers to its owner. Utility tokens give their owners a right to use the project services, security tokens are aimed at bringing profit, and currency tokens are a money substitute. :Utility token
    • Total supply ? Total supply — a total amount of tokens that will be released by the developers. :NA
    • Escrow agent ? Escrow agent — a qualified agent who has the right of signature in a multisig wallet. An escrow agent participates in an ICO, monitors the financial operations of the developers and confirms their fairness. :No
    • Tokens for sale ? Tokens for sale — the number of tokens offered to the participants of an ICO. :NA
    • Whitelist ? Whitelist — a list of participants, who get an opportunity to buy tokens. To be whitelisted, you need to register on time because the number of participants and the registration period are usually limited. :Whitelist N/A
    • Additional emission ? Additional emission — an additional release of tokens. It can be done once after the crowd sale or on an ongoing basis. In the projects with a limited emission there is no additional emission. :No
    • Exchange listing ? Exchange listing — an assumed date when the token will be listed at a cryptocurrency exchange. The developers usually indicate it in a roadmap and a white paper. :NA
    • Accepting currencies ? Accepting currencies — cryptocurrencies and fiat currencies that can be used for buying the project tokens. :NA
    • Can't participate ? Can't participate — the countries where it is prohibited to buy tokens. These can be countries where ICOs are prohibited altogether, or countries that have the requirements that a particular project does not meet. :No
    • Know Your Customer (KYC) ? Know Your Customer — a verification procedure for ICO participants, during which the developers can ask for personal data, a photo and a scanned copy of a passport of a potential investor. :No
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  • Token and Funds Distribution

    Token distribution date


    Unsold tokens


Sale schedule

Round Token Price Bonus Min / Max Purchase Soft Cap Hard Cap
Private sale — Soon
Start Soon
NA No - Uncapped Uncapped
  • Team

    • Anbang Ruan photo
      Anbang Ruan
    • Ming Wei photo
      Ming Wei
    • Jiahao Sun photo
      Jiahao Sun
    • Shuang Hao photo
      Shuang Hao
    • Jian Chen photo
      Jian Chen
      Chinese Market Development
    • Junqing Wang photo
      Junqing Wang
      Prometh Core Developer
    • Zhaoming Yin photo
      Zhaoming Yin
      Leviatom Core Developer
    • Jiashuai Wang photo
      Jiashuai Wang
      Leviatom Core Developer
    • Kai Chen photo
      Kai Chen
      Leviatom Core Developer
    • Lin Guo photo
      Lin Guo
      Prometh Core Developer
    • Fei Li photo
      Fei Li
      Prometh Core Developer
  • Advisors


  • Q2 2017

    At Cloud Computing and Big Data Security Forum of the Guiyang Big Data Expo 2017, Dr Anbang Ruan presented for the first time the heterogeneous consensus protocol, which integrates trusted computing, graph algorithm, and blockchain

  • Q3 2017

    The joint innovative laboratory of Octa Innovations and Peking University was established. The design concept and technical route of the Heterogeneous Consensus Graph were firstly proposed

  • Q4 2017

    Octa innovations launched its DASO framework, which implement the DevSecOps procedures on a private blockchain

  • Q1 2018
    • Based on Prometh+Leviatom private chain, the development and maintenance system of enterprise data center security was launched in securities and governments
    • Feasibility analysis and planning for Trias
  • Q2 2018

    Project Startup and Team Buildup

  • Q3 2018

    Publishing Technical white paper. Finishing the major parts programming of Leviatom, including the of HCGraph protocol stack, Trusted Computing libraries, account management, wallets, block chain browser, etc

  • Q4 2018

    Testnet launches

  • Q1 2019

    Test & Iteration

  • Q2 2019

    Mainnet v1.0 launches