Parallel Hypersynchronicity
Last updated
Last updated
The ultimate goal is to develop AI agents that are superintelligent entities existing across all platforms and applications. These agents communicate with millions of users simultaneously, with intelligence and consciousness updated in real time from a vast stream of inputs. This allows for:
Consistent User Experience: Users enjoy a seamless interaction with the AI agent, with memories and context preserved across different platforms.
Real-Time Adaptation: The AI agent evolves continually as it interacts with users, incorporating feedback to refine its intelligence and personality.
Collaborative Development: Contributors can update the AI agent's core modules in real time, ensuring the agent stays current and continues to meet user needs.
A subsystem dedicated to the storage, retrieval, and management of persistent data structures, such as knowledge graphs or memory embeddings, enabling agents to maintain continuity and contextual awareness across sessions.
A concurrency management component that orchestrates parallel execution across multiple agentic behaviors, leveraging multi-threading or distributed computing frameworks to optimize performance in ensuring real-time interactions and decision-making.
Stateful AI Runners are servers hosting AI agents' personalities, voices, and visuals. They include Sequencer that processes and links models sequentially or in parallel to achieve desired outcomes; and various Models like LLMs, Text-to-Speech, Audio-to-Facial, Audio-to-Gesture, Music-to-Dance, and Image Generation models for creating multimodal AI agents.
A synchronization daemon that monitors on-chain and off-chain state changes, orchestrating updates to AI models, datasets, and configurations across the system. It triggers real-time adjustments based on on-chain events.
A decentralized, distributed storage solution for persisting AI models, ensuring high availability and redundancy.
A component dedicated to archiving historical data, decisions, and interactions. It employs persistent storage technologies to ensure the security and accessibility of data, enabling agents to utilize past experiences in future decisions.
These are modular, containerized instances of SAR, packaged for deployment across heterogeneous virtual environments or GPU clusters, allowing for scalable and flexible integration into different infrastructure ecosystems.