The Akili Deployable
Hybrid Agentic AI Platform
Autonomous infrastructure development through distributed high-performance computing, real-time complex event processing, and intelligent humanoid robotics integration.
Hybrid AI Core
Deliberative and reactive engines with CAIBL blackboard architecture
HPX Runtime
High-performance distributed computing with futurized message passing
Autonomous Fleet
Humanoid robots, UAVs, and construction equipment coordination
System-of-Systems Architecture
A distributed, multi-layered architecture enabling autonomous infrastructure development through coordinated intelligent systems.
Strategic Layer
High-level planning and resource allocation decisions
Orchestration Layer
Coordination and workflow management across systems
Execution Layer
Real-time task execution and event processing
Physical Layer
Hardware systems and robotic fleet operations
Select a layer to explore its capabilities
Click on any architecture layer above to learn more about its role in the distributed system.
Hybrid AI Brain Architecture
Dual-engine cognitive system combining deliberative planning with reactive execution, orchestrated through CAIBL blackboard architecture.
Deliberative Engine
Strategic planning and reasoning
CAIBL Blackboard
Central coordination hub
Reactive Engine
Real-time response system
AI System Overview
Hover over any component to learn about its role in the hybrid cognitive architecture.
Autonomous Fleet Assets
Integrated robotic systems for comprehensive infrastructure development and maintenance operations.
🤖 Humanoid Robot
- • Precise manipulation capabilities
- • Advanced environment perception
- • Human-robot collaboration
- • Adaptive learning systems
🚁 FlyOx I UAV
- • Aerial surveying and mapping
- • Real-time monitoring systems
- • Autonomous flight planning
- • High-resolution data capture
🚜 ROBUST Grader
- • Precision earthwork operations
- • GPS-guided automation
- • Terrain analysis integration
- • Heavy-duty construction tasks
Operational Workflow
Four-phase autonomous construction process with real-time progress tracking and adaptive optimization.
Progress Overview
System Performance
Core Technologies
Cutting-edge distributed computing, AI, and security technologies powering autonomous infrastructure development.
HPX Runtime System
High-performance distributed computing with futurized computation and task priority control.
- • Distributed objects abstraction
- • Message passing optimization
- • Parallel execution frameworks
TRex/GTRex CEP
Real-time complex event processing engines for intelligent system coordination.
- • Real-time event correlation
- • Pattern recognition systems
- • Adaptive response mechanisms
Transaction Logic
Prolog-based guest runtime with transaction logic for robust decision making.
- • Logical reasoning engine
- • Transaction management
- • Knowledge representation
Security Framework
Multi-layered security architecture for distributed autonomous systems.
- • Encrypted communications
- • Access control systems
- • Intrusion detection
Hardware Acceleration
GPU and specialized hardware integration for compute-intensive operations.
- • CUDA acceleration
- • Parallel processing units
- • Optimized data pipelines
Multi-Paradigm Design
Distributed object/agent-based system with flexible architectural patterns.
- • Agent-based modeling
- • Object-oriented design
- • Service-oriented architecture