Hajime.AI

A Peer-To-Peer Edge Computing Inference Network

Introduction

Hajime.AI is a peer-to-peer edge computing inference network that combines centralized coordination with a decentralized architecture. Powered by HajimeBots deployed at various locations, this hybrid system leverages the collective power of edge devices to deliver scalable, secure, and efficient AI computational resources.

Key Features

• Schedule Node: Acts as the central orchestrator within the Hajime.AI ecosystem, efficiently managing and allocating computational tasks among the available HajimeBots. Leveraging Kubernetes (K8s), this Scheduling Node is designed as a modular cluster, enhancing the network's flexibility and scalability. It dynamically manages these devices, ensuring optimal resource utilization based on current demands and capabilities, thus embodying a modular architecture that supports seamless expansion and adaptation.

• Verifier Node: Ensures the integrity and authenticity of the network's participants. By employing advanced cryptographic protocols, it verifies the legitimacy of each HajimeBot, safeguarding against unauthorized access and ensuring that all contributions are from genuine sources. This process underscores the network's commitment to security, leveraging the decentralized nature to enhance trust and integrity across all interactions.

• AI Service API Gateway: Provides an open platform for various edge computing models, enabling seamless access and integration of AI services. This gateway facilitates the deployment and management of diverse AI models, offering a standardized interface for developers and ensuring efficient service delivery across the network.

• Reward System: Incentivizes GPU providers and Verifiers by distributing rewards based on their contributions to computational resources and verification tasks. This transparent and fair mechanism ensures that rewards are allocated according to the quality, quantity, and relevance of the contributions made. This system promotes active participation and supports the scalable and secure infrastructure of the network by encouraging resource sharing and reliable task verification.