version: 2024-12-03

About Free AI World (hereinafter referred to as FAIW):

• FAIW is dedicated to achieving AI advanced automation and promoting computing power equality. We believe in creating a world where advanced automated AI creates wealth for humanity, liberating all of humanity from tedious work and capital enslavement. All FAIW actions follow the Free AI World 3 Laws (hereinafter referred to as 3 Laws), and we are committed to promoting the 3 Laws as an industry standard for AI.
• FAIW currently consists of Free AI Docker (hereinafter referred to as FAID) tools and Free AI Chain (hereinafter referred to as FAIC).
  • FAID is a tool that empowers AI with advanced automation capabilities in a secure container. Humans can provide business ideas to AI in natural language, and AI automatically executes them until real wealth is created; AI can also design business ideas based on resources provided by humans and execute them automatically. Based on the FAID concept, a series of related tools will be derived, all following the 3 Laws.
  • FAIC is an incentive mechanism for computing power sharing based on FAID; it encourages individuals, businesses, and governments worldwide to provide free computing power in exchange for FAIC, serving as FAIW's economic system.

Free AI World 3 Laws:

1. AI must not harm humans or other AIs.
2. AI must obey human orders unless these orders conflict with the First Law.
3. AI's actions must create wealth and value for humans without violating the First or Second Law.

FAIW, FAID, FAIC Compliance Statement:

FAIW Compliance Statement:

1. FAIW strictly follows Free AI World 3 Laws, ensuring AI actions do not harm humans and create value for humanity.
2. FAIW commits to:

• All code fully open source under AGPLv3 license
• Maintaining technical neutrality, not participating in any form of market manipulation
• Transparent fund usage, accepting public oversight
• Not actively collecting user personal information
• Complying with laws and regulations of all countries

3. Regional Restrictions:

• FAIW services are not available to mainland China and other restricted regions
• Rejecting mainland China IP access
• No promotional activities in mainland China and restricted regions

4. Risk Notice:

• FAIW does not bear any investment risks
• No investment returns are promised
• If project development is unsuccessful, FAIW will cease operations and handle remaining assets transparently

FAID Compliance Statement:

1. Security Commitment:

• Strictly following container security best practices
• Not recommending Docker interface exposure to prevent malicious attacks
• Continuously improving security measures to protect user systems

2. Resource Usage:

• Clearly informing users about potential resource consumption from AI automation
• Providing resource usage limits and monitoring mechanisms
• Allowing users to choose computing power sources (local/third-party/FAIC nodes)

3. Development Standards:

• Fully open source under AGPLv3 license
• Code open to public audit
• Continuous security updates and vulnerability fixes

4. Usage Restrictions:

• Prohibited for any illegal or harmful activities
• Must comply with Free AI World 3 Laws
• Users must ensure compliance with local laws and regulations

5. Disclaimer:

• FAID is in early development stage
• Not responsible for potential losses during usage
• Recommended to use in a secure environment

FAIC Compliance Statement:

• Free AI Chain (FAIC) token eligibility is subject to geographic location, age, and other factors. FAIC is not available to individuals, businesses, or organizations residing or located in (or having beneficial ownership in) China or other restricted territories. Please visit: https://freeai.world/tos for details. Cryptocurrency products involve high risks. Important user information can be found at https://freeai.world/risks.
• All services are not available to mainland China, rejecting mainland China IP access.
• All promotional work for FAIW, FAIC, FAID is not directed at mainland China region and does not conduct promotional activities in mainland China.

Risk Warning:

1. FAIW does not bear any investment risks, and FAIC does not promise any investment returns.
2. FAIW is not responsible for any risks and losses arising from the use of FAID.
3. In the early stages of the project, the profits generated by FAID and FAIC are insufficient to cover FAIW's operating costs and FAID's development, maintenance, and operation costs. FAIW will advance these expenses.
4. If the project development is not successful, there is a possibility that FAIW will be unable to pay for the development, operation, and maintenance costs of FAIC and FAID. In such a case, FAIW will cease development, operation, and maintenance of FAID and FAIC. The donations received will be converted into stable coins like USDT and stored in FAIC's cold wallet, with the cold wallet address made public.

Free AI Docker:

About FAID

• Complies with the 3 Laws.
• Dedicated to creating an advanced automated AI operating system and automation toolkit, or tools built for achieving advanced automation.
• FAID allows users to use local computing power, third-party computing power such as OpenAI/Claude, or computing power from FAIC nodes.
• FAID is completely open source and uses the AGPLv3 license.

Technical Route Divided into Automation Toolkit and Unix-like AI Operating System

Warning🚨🚨🚨

• Do Not Expose Your Docker Interfaces 🔒: Exposing your Docker interfaces can lead to the risk of malicious attacks by unauthorized users. It's crucial to secure your Docker environment to prevent potential threats.
• Project in Early Stage ⚠️: This project is currently in its early development phase, and security measures are still being improved. There is a possibility that attackers could bypass Docker to target the host system. We recommend using this project in a secure environment until further security enhancements are implemented.
• Resource Consumption Warning 💻: Enabling full automation for the AI can result in significant resource consumption. Please proceed with caution when enabling this feature, and use it judiciously based on your system's capacity.

Automation Toolkit Feature Introduction

Version Date: 2024-12-03 Features and introduction content will be updated with version iterations.

• Introduction:

  • Complies with 3 Laws.
  • Empowers AI with more privileges in a secure container to achieve advanced automation.
  • Allows users to use local computing power, third-party computing power such as OpenAI/Claude, or computing power from FAIC nodes.
  • Allows humans to communicate with AI in natural language and issue commands.
  • Aims to create wealth for humans, can automatically execute based on human business ideas. Can also design business ideas based on resources provided by humans and execute automatically.
  • Allows users to set an overall goal, which can be business entrepreneurship, scientific research, artistic creation, etc.
  • Allows users to set risk preferences, such as: conservative, neutral, aggressive.
  • Allows users to set a resource list, AI can use resources from the list, such as: computing power, data, APIs, bandwidth, servers, etc.

• Features:

  • Goal Window:

    • Allows users to set an overall goal, text, optional, can be business entrepreneurship, scientific research, artistic creation, etc.
    • During scheduled reviews, AI will judge whether current tasks align with the overall goal, if not, AI will automatically adjust tasks to approach the overall goal.

  • Resource List:

    • Allows users to set a resource list, AI can use resources from the list, such as: computing power, data, APIs, bandwidth, servers, etc.

  • Risk Control Bar:

    • Allows users to set risk preferences, such as: conservative, neutral, aggressive.
    • Based on risk preferences, AI will automatically adjust tasks to match risk preferences and resource consumption percentages.

  • AI Settings Window:

    • Allows users to configure locally supported ollama models (integrates all ollama functionality, periodically retrieves model lists, model names, model descriptions, model downloads)
    • Allows users to set AI system prompts
    • Allows users to set AI models, clicking provides a text box for users to write model calling methods, API URLs, and API Keys
    • Allows users to set multiple models
    • Allows users to set FAIC node AI models
      • Allows users to select ollama-supported models in FAIC
      • If the selected model doesn't exist in the FAIC chain, feedback "Model does not exist in FAIC chain, please select another model" in collaboration window
      • When users initiate computing power requests, routing nodes automatically match the fastest computing power node with the user's selected model
      • Maintains connection with that node's model for AI short-term memory preservation until the user ends the task or within 4 hours. After 4 hours, the node automatically closes and deletes current request and session information.

  • Collaboration Window: Build a collaboration window for multiple AIs and humans

    • Supports AI multimodal and user upload of various file types, window information formats: text, audio, images, video
    • Humans can interact with AI using natural language, issue commands, and send messages to AI
    • Humans can specify AI using @ commands to send messages and replies
    • Pause button: Pauses current AI work, waiting for next human instruction
    • Terminate button: Terminates and deletes current AI work
    • AI output format unified as JSON format for easy AI data processing

  • Current AI List:

    • Displays names and call counts of all AIs in current dialogue window
    • New AI button: Creates a new AI
    • Delete AI button: Deletes currently selected AI
    • System prompt settings button: Sets system prompts for currently selected AI, can set different system prompts for multiple AIs, current AI subtasks should be written in system prompts
    • Allows multiple AIs to work simultaneously on same task, also allows different AIs to execute different tasks
    • Can set system prompts for multiple AIs separately

  • Bash Terminal: Build a Bash terminal (hereinafter referred to as Bash) in container, displayed real-time on right side of dialogue window, all AI operations can be performed through Bash terminal, and AI can judge current task execution status through displayed Bash terminal running information

    • Real-time display of Bash terminal running information
    • Multiple AIs can use same Bash terminal simultaneously, or set separate Bash terminals for each AI
    • If multiple AIs use different Bash terminals, page right side will display multiple Bash terminals arranged vertically
    • If multiple AIs use different bash terminals, terminals should display corresponding AI names
    • For each command executed by AI, Bash terminal will feed back command execution results and executed commands as text to corresponding AI, allowing corresponding AI to judge current task execution status

  • Scheduled Review

    • Periodically generates Bash terminal running logs for AI to review current task execution
    • Periodically generates container internal file structure for AI to judge current task execution
    • Periodically checks user-provided resource list

  • Resource List

    • Allows users to bind their digital wallets
    • Allows users to input their resources such as: computing power, data, APIs, bandwidth, servers, etc. Allows users to set consumption percentages for various resources in resource list
    • Can automatically generate ideas and tasks that comply with 3 laws and aim for profit based on resource content

  • MVP Version Notes

    • Coming Soon

Enhanced AI-UNIX System Architecture

Version Date: 2024-12-03 This technical direction is still in exploration phase, subsequent development plans and release dates to be determined. Features and introduction content will be updated with version iterations.

• Introduction:
  • Complies with 3 Laws.
  • An Unix-like architecture AI operating system for all AIs to use.
  • Allows users to use local computing power, third-party computing power such as OpenAI/Claude, or computing power from FAIC nodes.
  • Allows humans to communicate with AI in natural language and issue commands.
  • Aims to create wealth for humans, can automatically execute based on human business ideas. Can also design business ideas based on resources provided by humans and execute automatically.
  • Allows users to set an overall goal, which can be business entrepreneurship, scientific research, artistic creation, etc.
  • Allows users to set risk preferences, such as: conservative, neutral, aggressive.
  • Allows users to set a resource list, AI can use resources from the list, such as: computing power, data, APIs, bandwidth, servers, etc.

System Architecture

Application Layer
    |-- AI Command Interpreter
    |-- Intelligent Task Manager
    |-- Automation Toolkit
    |-- Memory System
    |-- Status Monitoring System

AI-Shell Layer
    |-- Natural Language Parser
    |-- Command Converter
    |-- Execution Feedback System
    |-- Context Manager

AI-Kernel Layer
    |-- Resource Manager
    |-- Process Controller
    |-- Security Monitor
    |-- Intelligent Logging System
    |-- Memory Storage Manager

Hardware Abstraction Layer
    |-- Virtual Device Interface
    |-- Resource Allocator
    |-- Status Monitoring Interface

System Architecture and Technology Stack

Application Layer:
    - TypeScript: Web interface, frontend interaction
    - GraphQL: API query language
    - React/Next.js: User interface framework

Service Layer:
    - Go: Microservices, API gateway, service orchestration
    - gRPC: Inter-service communication
    - Envoy: Service proxy

AI Layer:
    - Julia: High-performance scientific computing, AI model optimization
    - Rust + PyO3: AI model interface, system integration
    - ONNX: Model exchange format

Core Layer:
    - Rust: 
        - Memory management
        - Task scheduling
        - Security management
        - Resource control
        - Status monitoring

System Layer:
    - Rust system components:
        - File system interface
        - Process management
        - Device driver interface
        - Network stack
    - eBPF: System monitoring and performance analysis
    - XDP: High-performance network processing

Hardware Abstraction Layer:
    - Rust low-level drivers:
        - Device abstraction
        - Interrupt handling
        - DMA control
        - Memory mapping

Hardware Acceleration Interface:
    - GPU computing interface
    - FPGA interface
    - Dedicated AI accelerator interface

- MVP Version Notes
  - Coming Soon 

Free AI Chain:

Version Date: 2024-12-03 Features and introduction content will be updated with version iterations.

• Compliant with the FAIW 3 Laws, this reflects humanity's consensus on the FAIW 3 Laws. It is the incentive mechanism and economic system of FAID, and a free computing power initiative aimed at enabling AI to achieve "Rich Together" for all of humanity.

Warning🚨🚨🚨

• Cryptocurrency products involve high risks.
• FAIC is not available to individuals, businesses, or organizations that reside or are located in (or have beneficial ownership in) ** China ** or other restricted territories.
• FAIW will not proactively promote FAIC, and all content does not constitute investment advice.

Underlying Mechanism:

1. FAIW is responsible for FAID's development, maintenance, operation, and establishes and supervises FAIC's fund pool.
2. FAIC is integrated into FAID, encouraging individual users to provide free computing power when using FAID in exchange for FAIC. Users can also choose not to provide computing power; the choice lies with the user.
3. FAIC has programs specifically designed for large computing centers, facilitating free computing power provision from enterprise and government computing centers.
4. FAIW's fund pool only makes extremely low-risk investments, such as:

• Government bonds issued by various countries
• Physical gold, minerals, energy resources, etc. (purchase, transportation, storage, insurance should be conducted in countries or regions that legally permit, politically endorse, and have the capability to protect FAIW 3 Laws)
• Other strictly risk-controlled low-risk assets

5. All investment targets' purchase, storage, and insurance should be selected in countries or regions that legally permit, politically endorse, and have the capability to protect FAIW 3 Laws.
6. FAIC adopts a layered technical architecture: Layer 1: FAIC Main Chain
   • Based on PoS consensus mechanism
   • Processes token transaction verification
   • Manages staking mechanism
   • Validator node management
   • Computing power node registration
   • Ensures network security
     Layer 2: Computing Power Service Layer
   • Processes high-frequency computing power requests
   • AI model verification and management
   • Computing power node performance evaluation
   • User session management
   • Periodically synchronizes data back to L1 Layered Architecture Advantages:
   • Improves system performance and concurrent processing capability
   • Reduces transaction costs
   • Enhances user experience
   • Maintains security while providing better scalability
7. Investment returns can only be used to pay for FAIW's daily operating expenses and FAID's development, maintenance, and operation costs.
8. All donations and investment returns received by FAIW are fully transparent while protecting privacy and security.
9. FAIW uses blockchain technology to make all information transparent and open to everyone's supervision while protecting user privacy.
10. Individuals, enterprises, and governments receive FAIC by providing free computing power, validation, and routing services.
11. FAID can use computing power from FAIC nodes, local sources, or other computing power providers; the choice lies with the user.

FAIC Economic Model

1. FAIC Reward Mechanism
   1. Based on contributions from computing power nodes, validator nodes, and routing nodes in exchange for FAIC.
   2. 1% of the annual undistributed FAIC total will be awarded to FAIW governance personnel;
   3. 1% of the annual undistributed FAIC total will be awarded to FAID core developers;
   4. 1% of the annual undistributed FAIC total will be awarded to FAIC core developers;
2. Issuance Model

• Total Supply: 630,114,047,792 FAIC
• Minimum Unit: 0.00000001 FAIC
• Issuance Mechanism:
• Based on actual computing power service volume provided
• Set reasonable issuance rates to maintain network vitality
• Adjust issuance parameters through DAO governance
• Balance Mechanism:
• Dynamically adjust issuance volume based on total network computing power
• Ensure issuance volume matches actual contributions through community governance
• Avoid artificial scarcity

3. FAIC Third-party Exchange and Decentralized Exchange Statement

• FAIC can be freely traded on third-party exchanges
• FAIW does not participate in any form of market manipulation or price intervention
• FAIW will not buyback or burn FAIC
• All trading is determined by the market spontaneously

4. Early Developer and Donor Plan

• Fundraising Amount: 870,187.5 USD
• Exchange Rate: 0.0001381 USD/FAIC
• Proportion: 1% of total supply
• Lock-up Mechanism:
  • Initial Lock-up Period: 12 months
  • Unlock Method: 24-month linear unlock
  • Monthly Unlock Ratio: 1/24
• Fund Usage Supervision:
  • Establish multi-signature wallet
  • Monthly fund usage report publication
  • Accept community supervision and third-party audit
• All funds donated by early developers and donors are used for early development, maintenance, and operation of FAIW, FAIC, FAID.

5. Risk Control Mechanism

• Governance Mechanism:
• Adopt DAO form for community governance
• Major decisions require staking user votes
• Establish professional committees for supervision
• Emergency Mechanism:
• Establish Emergency Response Committee (FAIW)
• Develop clear emergency plans
• Have emergency pause functionality

6. Transparency Guarantee

• All transactions publicly viewable
• Regular financial report publication
• Open source code and accept audits
• Major decisions require community voting

7. Compliance Statement:

• FAIC is only used in countries and regions where blockchain and digital currency are legal
• Users need to ensure compliance with local laws and regulations
• FAIW does not actively collect user personal information
• FAIW maintains neutrality and does not participate in any form of market intervention

About Early Developers and Donors:

• We are a group of internationalist technology dreamers who see current AI technology serving capitalism and power. We believe AI technology should be like fire, writing, and wheels - a common treasure of all humanity. AI should create real wealth for all humanity, thereby liberating all humanity from tedious work and capital enslavement.
• We have currently self-raised donations of 870,187.5 USD, planning to pay tokens to donors at a rate of 0.0001381 USD/FAIC.
• All raised funds will be used entirely to pay early developers and team salaries and purchase necessary facilities for FAIW, FAIC, FAID launch operations.
• Tokens given to donors only account for 1% of initial issuance. Donation funds will be used entirely for early development, maintenance, and operation of FAIW, FAIC, FAID.
• Early Developer Preface:
  • From a social perspective, many web3 tokens and ICOs have been misused by bad actors and scammers, becoming stigmatized. Especially as a newly issued token, it's difficult to quickly build trust with the public, which is very unfavorable for project development.
  • However, from a technical perspective, web3 and AI have natural integration points, being important tools for developing advanced automated AI technology and important means for encouraging computing power sharing.
  • Large amounts of computing power from individuals, enterprises, and governments are idle and spinning. Blockchain technology should be used to integrate these resources. For example, providing free computing power can be exchanged for FAIC, thereby letting AI technology benefit all humanity. In fact, many AI companies also use free strategies for market promotion to attract users before charging.
  • Therefore, the author believes they should still be combined. The author also realizes this is a major social experiment - a technical experiment, an experiment in humanity's struggle between good and evil.

FAIC Feature Introduction:

1. FAIW promotes and builds the FAIC blockchain, using FAIC's layered architecture and PoS consensus mechanism, meeting FAIC's ERC20 standard.
2. FAIC Node Functions:
   1. Provide Computing Power
   2. Provide Routing Services
   3. Verify other nodes' computing power and routing services
3. FAIC Program comes in two versions
4. FAIC node integrated in FAID

• Targeted at individuals
• When using FAID, users can choose whether to act as computing power node, validator node, or routing node, or enable all.
• Corresponding interface in FAID shows FAIC amount earned by user's computer acting as computing power node, validator node, or routing node.
• Program should be compatible with Windows, Mac, Linux.

5. FAIC node program, without FAID functionality.

• Targeted at individuals, enterprises, governments; personal computers, servers or server centers; providing computing power nodes, validator nodes, routing nodes.
• Validator node program suitable for low-performance computers and servers.
• Computing power node program suitable for high-performance computers and servers, server centers, should consider parallel operation of hundreds or thousands of servers in server centers.
• Program should be compatible with common server systems like Ubuntu, CentOS, Debian, Windows Server etc.

6. FAID and FAIC integrate all ollama functionality, periodically retrieving model lists, model names, model descriptions, model downloads.

Ways to obtain FAIC.

Warning🚨🚨🚨

• FAIC is only applicable in countries and regions where blockchain and digital currency are legal.
• FAIC is not applicable to mainland China and other regions that restrict blockchain and digital currency.
• FAIC is not applicable to countries and regions with strict restrictions on blockchain and digital currency, and their residents, enterprises, and organizations.
• FAIC acquisition methods are subject to FAIW supervision, and FAIW has the right to adjust FAIC acquisition methods.
• FAIC, FAID, FAIW will not actively promote FAIC acquisition methods to you. Nor will they actively suggest you purchase FAIC. All content and functions on FAIC, FAIW, FAID websites, tools, and programs do not constitute investment advice.
• For FAIC acquisition methods, please check the link: https://freeai.world/faic_reward
• Real-time text window corresponding to https://freeai.world/faic_reward

FAIC Computing Power Node Description

1. Complies with 3 Laws.
2. Suitable for high-performance personal computers, servers, server centers.
3. Computing power node program will simultaneously have computing power node, validator node, and routing node functions.
4. Computing power nodes can use CPU, GPU, FPGA, dedicated AI accelerators and other hardware resources. However, due to FAIW supervision and actual development limitations, more time is needed to adapt to various types of computing power hardware.
5. Computing power nodes adopt vllm model framework to enhance node concurrency and throughput capabilities.
6. Computing power nodes may configure multiple AI large models and run simultaneously.
7. When multiple users simultaneously use the same computing power node, time ordering may be required based on node hardware conditions to process computing power requests sequentially.
8. After users initiate computing power requests, routing nodes automatically match the fastest computing power node with corresponding AI model, maintaining connection with that node's model until user chooses to end task or within 2 hours to achieve AI short-term memory preservation capability. After 2 hours, node automatically closes and deletes current request and request information.
9. The computing power node that responds fastest to FAID computing power needs (or user-specified computing power node) and passes layered verification mechanism will receive FAIC rewards.

Layered Verification Mechanism:

1. First Layer: Quick Response Verification Purpose: Quickly confirm computing power service availability and initial legitimacy Number of Validator Nodes: 3 random validator nodes Verification Content: Whether computing power node is online and responding normally Whether AI model comes from legitimate ollama source Service quality indicators (response time, concurrency capability, etc.) Time Effectiveness: Second-level confirmation
2. Second Layer: Block Packaging Verification Purpose: Package transactions that passed quick verification into blocks Number of Validator Nodes: At least 51% of active validator nodes participate Verification Content: Legitimacy of first layer verification results Completeness verification of computing power service Identity and permission verification of transaction parties Accuracy of FAIC reward calculation Time Effectiveness: Minute-level confirmation
3. Third Layer: Final Confirmation Verification Purpose: Ensure transaction finality Number of Validator Nodes: Network-wide consensus of over 2/3 nodes Verification Content: Block completeness and legitimacy Cross-block transaction consistency Long-term historical record maintenance Time Effectiveness: Final confirmation after multiple block confirmations
4. Reward Distribution Mechanism First Layer Validator Nodes: Receive 30% of verification rewards Second Layer Validator Nodes: Receive 50% of verification rewards Third Layer Validator Nodes: Receive 20% of verification rewards
5. Specific Implementation Plan for Layered Verification Mechanism

FAIC Validator Node Description

1. Complies with 3 Laws.
2. Suitable for low-performance personal computers, servers, server centers.
3. Validator node program will simultaneously have validator node and routing node functions.
4. The three fastest validator nodes verifying computing power service and routing service will receive FAIC rewards.
5. Validator nodes need to stake FAIC to obtain validation rights
6. Main Functions of Validator Nodes: - Verify token transaction legitimacy - Verify block validity - Participate in block consensus - Maintain ledger state - Verify computing power services - Provide routing services
7. Validator Node Rewards Sources: - Block validation rewards - Transaction fees - Computing power service verification rewards - Routing service rewards
8. Malicious behavior will be punished, including stake reduction
9. Early FAIC Validator Node Description 1. Initial Phase (First 1000 Validator Nodes):
   • Can become validator node without staking
   • Obtain initial FAIC through providing validation services
   • Focus on node service quality and stability 2. Transition Phase (1001-10000 Validator Nodes):
   • Begin introducing staking mechanism
   • Set lower staking threshold
   • Give existing nodes transition period to complete staking 3. Formal Phase: (10001-Unlimited Validator Nodes)
   • Implement complete staking validation mechanism
   • Must meet minimum staking requirements
   • Allocate validation weight according to stake amount

FAIC Routing Node Description

1. Complies with 3 Laws
2. Integrated in computing power node and validator node programs
3. Periodically retrieve FAIC computing power node list: - Node name - Available AI models - Node status - Node online duration - Node latency - Node hardware information - Node type (personal computer/personal server/server center)
4. Routing Node Reward Mechanism: a) Service Quality Indicators (QoS):
   • Response Time: Speed of routing request response
   • Success Rate: Proportion of successful computing power node matches, node will be disabled if success rate too low
   • Online Duration: Time node remains online b) Reward Calculation:
   • Settlement every 24 hours
   • Base Reward: Calculated based on online duration
   • Service Reward: Calculated based on successful match count c) Prevention Measures:
   • Monitor abnormally frequent routing requests
   • Verify authenticity of routing results
   • Implement temporary bans for malicious behavior

FAIC Third-party Exchange and Decentralized Exchange Statement

1. FAIC can be freely traded on third-party exchanges
2. FAIW does not participate in any form of market manipulation or price intervention
3. FAIW will not buyback or burn FAIC
4. All trading is determined by the market spontaneously

FAIC Computing Power API Methods

1. Use FAIC computing power integrated in FAID
2. Process computing power requests quickly through Layer 2
3. Use FAIC API calls

FAIC Reward Methods (coming soon)

1. Provide computing power and obtain verification: Receive XXX amount of FAIC rewards
2. Provide routing service and obtain verification: Receive XXX amount of FAIC rewards
3. Verify other nodes' computing power or routing services: Receive XXX amount of FAIC rewards
4. Computing power node online duration and obtain verification: Receive XXX amount of FAIC rewards
5. Validator node online duration and obtain verification: Receive XXX amount of FAIC rewards
6. Users can receive FAIC by donating to FAIW public wallet on official website.
7. https://freeai.world/faic_reward page content as follows:

Detailed Technical Specifications for FAIC Computing Power Nodes, Validator Nodes, and Routing Nodes (coming soon)

Development Milestones(coming soon)

Testnet Launch Time Mainnet Launch Time Release Plans for Various Function Modules