GNUS.AI
  • 🧠About GNUS.AI
    • GNUS.AI
    • Introduction
    • Features and Benefits
      • Scale and cost-efficiency
      • GNUS.ai Network vs. Centralized xAI 100k Cluster
        • 1. Executive Summary
        • 2. Introduction
        • 3. Understanding the GNUS.ai Decentralized Network
        • 4. The Centralized xAI 100k Cluster Explained
        • 5. Comparing CAPEX and OPEX
        • 6. Payout Structure and Profitability
        • 7. The Deflationary Token Mechanism
        • 8. Projected Token Price Appreciation
        • 9. Summary Comparison Tables
        • 10. Conclusion and Next Steps
        • Final Thoughts
      • Tokenomics
    • Public Roadmap
    • Whitepaper
    • Meet the Team
    • Why GNUS.AI
      • Works Everywhere
      • Customizable
      • Fast
      • Secure
        • Secure 2FA with TOTP and zk-SNARKs
    • How Does It Work?
      • Idle Central Processing (GPU)
      • Distributed Computation
      • Dynamically Adjusted Resource Allocation
  • 🖥️Technical Information
    • Super Genius Blockchain Technical Details
      • SuperGenius DB Layout
      • AI Data Blocks
      • Slicing Data for Macro MicroJobs
      • Verification and Hash Results from Processing
      • Diagram of the internal blockchain, blocks and processing functionality
      • IPFS Pub Sub
      • SG Consensus Algorithm Implementation
      • Account creation with ECSDA and El Gamal
      • Key Derivation Function
      • El Gamal encryption
      • Prover specification
      • C++ Coding Standards
      • SuperGenius processing component information
        • Processing worker app workflow
        • Job Processing Flow
      • Super Genius DAG Blockchain
      • Minimal MMR Proof System with UTXOs
      • Cross-chain Bridging through SuperGenius
        • Overview of Technical Details for Cross-Chain Bridging Flow
        • Message Creation and Leader Election
        • Leader Ownership and Verification Channel Creation
        • Node Verification and Voting
        • Signature Collection and Aggregation
        • Destination Chain Submission and Validation
    • Hybrid Smart Contract
      • GNUS.ai Ecosystem: A Unified Network of Intelligence
      • Structure
        • Structure Details
      • Encoded IDs
    • Our Smart Contract Testing Philosophy
    • AI Systems
      • Overview
      • Query Workflow
      • Data Storage
      • Pub/Sub Communication
      • Retraining Mechanism
    • Zero Knowledge Proofs
      • Proof schemes and Elliptical Curves
  • Resources
    • Contact Us
    • Contracts
    • FAQS
    • Multisig Wallets
    • Glossary
    • Official Links
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  1. Resources

Glossary

Artificial Intelligence (A.I.)

Creating computer systems capable of human-like tasks, such as learning, problem-solving, and understanding language, aiming to mimic cognitive functions.

Blockchain

A decentralized ledger recording transactions transparently.

Cloud Computing

Getting computing services (storage, processing) over the internet for flexibility and cost-effectiveness.

Decentralized Application (DApp)

An app running on a decentralized network (blockchain). It uses smart contracts for secure operations.

Directed Acyclic Graph (DAG)

A data structure without loops. In blockchains, it's an alternative to the traditional chain structure.

Fog Computing

A decentralized computing setup extending cloud capabilities to the network's edge, closer to data sources.

Hybrid Cryptocurrency/Crypto-Token System

A mix of cryptocurrencies and tokens for fast transactions.

Initial Token Offering (ITO)

A way to fundraise for new crypto projects. It involves offering a percentage of tokens in exchange for currencies.

Machine Learning (M.L.)

A subset of A.I. focused on developing algorithms that enable computers to learn from data, improving their performance over time without explicit programming.

Proof of Work (PoW)

A way to secure blockchains where participants solve problems to add new transactions.

Smart Contracts

Self-executing contracts written in code. They run automatically when specific conditions are met.

Zero Knowledge (ZK) Encryption

A method that allows one party (the prover) to prove to another party (the verifier) that they possess a certain piece of information or knowledge without revealing the actual content of that information.

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Last updated 1 year ago