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docs/internet_reinvented/_category_.json

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+{
+    "label": "Internet Re-Invented",
+    "position": 3,
+    "link": {
+      "type": "generated-index",
+    }
+  }

docs/internet_reinvented/architecture.md

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+---
+sidebar_position: 2
+---
+
+# Architecture
+
+![](img/architecture_high_level.png)
+
+Decentralized, geo-aware, and sovereign internet infrastructure. 
+
+### **Core Components:**
+
+1. **Geo-Aware Private AI Agents (3AI):**
+   - Personal AI agents that are private, secure, and sovereign.
+   - These agents can deploy applications in a self-healing, consensus-driven context.
+   - Geo-awareness ensures that the AI operates within defined physical and legal boundaries, providing compliance and data privacy.
+
+2. **3CORE (Ledger):**
+   - A geo-fenced ledger that supports identity management, digital assets, and smart contracts.
+   - It integrates seamlessly with external blockchains and digital currencies, functioning as a Layer 2 solution for blockchain interoperability.
+   - Optimized for consensus-driven code, it extends beyond basic smart contracts to enable advanced decentralized applications.
+
+3. **Decentralized Infrastructure Layers:**
+   - **Unbreakable Network Layer**: Provides robust connectivity with resilience to failures and attacks.
+   - **Unbreakable Storage Layer**: Offers decentralized, reliable, and secure data storage.
+   - Together, these layers form an "Unbreakable Cloud Engine," ensuring continuity and reliability.
+
+4. **Sovereign Quantum Compute:**
+   - A computational layer designed for sovereignty, allowing nations or organizations to maintain control over their infrastructure and data.
+   - Quantum-compute-ready, future-proofing the system for advanced workloads.
+
+5. **Geo-Fenced and Aware AI:**
+   - Integrates AI functionalities that are tied to geographical and jurisdictional contexts, ensuring secure and compliant operations across borders.
+
+6. **Interconnected 3Nodes:**
+   - The foundation of the infrastructure, combining compute, storage, and networking capabilities.
+   - These nodes create a resilient, scalable, and distributed ecosystem for internet services.
+
+---
+
+### **Key Features:**
+- **Seamless Blockchain Integration:** Allows integration with any public blockchain and supports digital currencies.
+- **Sovereignty and Security:** Ensures that data and AI remain under the control of users or local entities, promoting decentralization.
+- **Resilience and Efficiency:** The interconnected infrastructure reduces dependency on centralized systems, creating a highly reliable and efficient network.
+
+This system embodies the principles of **Web 0**, focusing on decentralization, sovereignty, and geo-awareness, offering a future-ready alternative to the centralized internet paradigm.
+
+

docs/internet_reinvented/infrastructure.md

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+---
+sidebar_position: 3
+---
+
+
+# Infrastructure
+
+![](img/architecture_low_level.png)
+
+
+## Unbreakable Network Layer
+
+**Shortest Path Optimization**:  
+- The network layer utilizes advanced routing algorithms to dynamically calculate the most efficient path for data to travel. It adapts in real time, considering factors like network congestion, node availability, and latency. This ensures that data always takes the shortest and fastest route, reducing delays and improving performance.  
+- Built-in **Naming and Content Delivery Network (CDN)** systems further enhance efficiency by storing and delivering frequently accessed content from the nearest available node.  
+
+**Survival During Internet Failures**:  
+
+- The network operates on a decentralized infrastructure. If the broader internet or certain nodes experience a failure (due to disasters, attacks, or other disruptions), the system self-heals and reroutes traffic through available paths. Local nodes maintain communication within their region, ensuring that even in disconnected environments, services remain operational. This makes the system resilient and disaster-proof.
+- There are agents for desktop and mobile phones which guarantee seamless integration.
+
+---
+
+## Unbreakable Storage Layer
+- **Data Integrity and Durability**:  
+   The storage layer is designed to ensure that data can never be lost or corrupted. This is achieved through:
+   - **Unbreakable Geo Aware Data Storage**: Data is fragmented and distributed across multiple nodes in the network. Even if some nodes fail, the remaining fragments are sufficient to reconstruct the original data. 
+   - **Ultra Efficient**: This system is ultra efficient, upto 10x less harddisks needed.
+   - **Geo Aware**: The user has full control over where the data is and only his/her application or AI agent can get access to this data.
+   - **Self-Healing Mechanism**: If a storage fragment becomes unavailable or damaged, the system automatically regenerates the broken data.
+   - **Immutable Storage**: The architecture prevents unauthorized modifications, maintaining data integrity, data can never be lost.
+
+- **Scalability to Zetabytes**:  
+   The decentralized storage system scales effortlessly by adding new nodes. Unlike traditional centralized systems with physical constraints, this network expands horizontally, leveraging unused storage capacity globally. This approach has been proven to handle zetabytes of data efficiently, with previous iterations widely adopted by organizations requiring massive-scale storage solutions.
+
+---
+
+## Sovereign Quantum Compute & AI Layer
+- **Solving the World’s Serious Issues**:  
+   The quantum compute layer introduces unparalleled computational power, capable of tackling complex problems that classical systems struggle with, such as:
+   - **Climate Modeling**: Simulating intricate environmental systems to predict and mitigate climate change.
+   - **Medical Research**: Accelerating drug discovery and personalized medicine development.
+   - **Optimization Problems**: Enhancing logistics, energy usage, and resource allocation for global efficiency.
+
+- **Integration with AI**:  
+   The quantum layer works seamlessly with geo-aware AI agents. AI leverages quantum capabilities to process vast datasets, derive insights, and make informed decisions faster and more accurately. Together, they:
+   - Model scenarios and test solutions at unprecedented speed.
+   - Provide personalized, context-aware outputs based on geographical and jurisdictional needs.
+   - Drive collaborative decision-making by balancing global and local priorities.
+
+---
+
+### **How it All Works Together**
+The system's core components—network, storage, and compute layers—are deeply interconnected, forming an **Unbreakable Cloud Engine**:
+- The **network layer** ensures seamless communication and data transmission across nodes, even under adverse conditions.
+- The **storage layer** safeguards data, enabling ultra-reliable access and scalability to support global demands.
+- The **compute layer**, powered by quantum technology, works in harmony with AI to deliver groundbreaking solutions for real-world challenges.
+
+This integrated approach ensures that services are not only resilient and scalable but also future-proof, sustainable, and capable of empowering users globally. It’s a holistic solution redefining the Internet for the modern world.

docs/internet_reinvented/internet_reinvented.md

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+---
+title: Internet Re-Invented
+sidebar_position: 2
+---
+
+#  The Internet’s Natural Progression
+
+The Internet was always meant to be a peer-to-peer infrastructure.   
+
+As large companies became profit and data centric, centralization quickly became the norm.
+
+***We have a vision of the Internet which is much more close to how the Internet was intended to be.***
+
+
+## Usable by Everyone
+
+![](img/usable_by_all.png)
+
+## A Different Approach
+
+![](img/unique.png)
+

docs/internet_reinvented/inventions.md

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+---
+sidebar_position: 4
+title: 'Inventions'
+---
+
+## Infrastructure Level
+
+![](img/inventions.png)
+
+## 3AI 
+
+- Ledger
+- Autonomous Self Healing deployments.
+
+

docs/internet_reinvented/requirements.md

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+---
+title: Requirements
+sidebar_position: 1
+---
+
+# Requirements for a New Internet
+
+![alt text](../img/requirements.png)
+
+- Compute, Storage, Network need to be
+  - Local
+  - Sovereign
+  - Private
+  - More Secure
+- Storage needs to be
+  - More reliable with less overhead (only 20% overhead needed)
+  - Capable to be global and be used as CDN (Content Delivery Network)
+  - Fast enough for the Use Case at hand
+  - Data can never get lost nor corrupted.
+  - Storage can scale to Zetabytes as Easily as Petabytes
+- Network needs to be
+  - Working no matter what happens with existing network, route around issues.
+  - Local sensitive (chose shortest path)
+  - End2End Encrypted
+  - Capable to really know where information goes to or comes from (authenticity)
+- The full system needs to be
+  - Autonomous & self Healing
+  - It should be possible to operate without human Intervention
+- Green
+  - We believe Internet / Cloud can be delivered using at least 10x less energy.
+

docs/internet_reinvented/trust.md

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+---
+title: Trust
+sidebar_position: 6
+---
+
+
+![](../img/farming_pools.jpg)
+
+# Trust is everything.
+
+
+While affordability is a factor, the primary appeal of AI & Internet services lies in their reliability, scalability, and performance. 
+
+This parallels the concept of insurance, where customers are willing to pay a premium for the assurance of superior service and uptime. 
+
+In the decentralized infrastructure (DePIN) space, establishing trust and reliability is super important, but not enough available in current offerings.
+
+## Cost vs. Quality
+
+### Reliability and Uptime
+
+Customers often prefer to pay a higher price for cloud, AI, Internet services that guarantee better uptime and reliability. 
+
+For example, paying $10 per terabyte for a service with stellar uptime and customer support is more appealing than a $5 per terabyte service with frequent downtimes and minimal support. The value proposition lies in uninterrupted access to data and services, which is critical for business operations.
+
+### Service Level Agreements (SLAs)
+
+Service Level Agreements (SLAs) play a crucial role in this decision-making process.
+
+ SLAs provide a clear, contractual guarantee of the service levels customers can expect. Companies offering robust SLAs with high uptime guarantees, fast response times, and comprehensive support are more attractive, even at a higher cost.
+
+## Decentralized Infrastructure (DePIN) and Trust
+
+### Challenges in DePIN
+
+One of the significant challenges in DePIN is ensuring that customers can trust decentralized hosters. 
+
+Unlike traditional centralized providers, decentralized hosters need to establish credibility and reliability in a market that is inherently less controlled.
+
+### Farming Pools and Legal Decentralization
+
+#### Formation of Farming Pools
+
+Hosters can group together in farming pools, creating a collaborative environment where resources and responsibilities are shared. These pools can offer combined storage and computational power, enhancing overall performance and reliability.
+
+#### Security Token Offerings (STOs)
+
+To fund these farming pools, we can utilize Security Token Offerings (STOs). Investors can buy tokens, representing shares in these pools, thus promoting legal decentralization. This model not only democratizes investment but also ensures that the operations of these pools are transparent and regulated.
+
+### Transparency and Legal Assurance
+
+#### Open SLAs
+
+Each farming pool must be explicit about the SLAs they can deliver. Transparency in service commitments ensures that customers know what performance and reliability to expect. This openness is critical in building trust in a decentralized environment.
+
+#### Legal Blockchain Contracts
+
+Blockchain contracts must be legally binding in the real world. These contracts should clearly define the terms of service, dispute resolution mechanisms, and compliance with relevant regulations. Legal enforceability ensures that customers can trust the decentralized hosters to honor their commitments.
+