Enterprise-grade software substrate engineered for the next generation of industrial automation, aerospace, and defense systems. Guarantees stability, security, and scalability for complex distributed systems.
Built for systems where failure is not an option
Hardware-enforced process isolation ensures a fault in one component cannot cascade to the rest of the system. Each module runs in its own protected memory space.
Deterministic, low-latency IPC bus engineered for high-throughput industrial data. Guarantees timely and ordered delivery of critical control signals.
Built-in security framework treats every component as a potential threat. Enforces strict, policy-based access control and communication channels.
Dynamic service discovery and routing enables self-healing systems. Components can be added, removed, or updated without downtime.
Solving real-world mission-critical challenges
Integrate and orchestrate control logic from multiple vendors and platforms. MATLAB/Simulink models, LabVIEW drivers, Python robotics libraries, and C++ algorithms all work together in a single, manageable system.
Create digital wrappers around existing PLCs, SCADA systems, and proprietary protocols. Bring modern capabilities like remote monitoring, data analytics, and secure networking to decades-old equipment.
Build complex digital twins for simulation and diagnostics. Real-world hardware interacts with simulated components in real-time, providing unparalleled environments for testing and validation.
Integrate automated test equipment, inspection systems, and production line controls into unified testing workflows. Real-time coordination between test fixtures, vision systems, and quality assurance databases.
Coordinate turbine control, pitch regulation, and grid integration across wind farms. Real-time monitoring of mechanical stress, power output, and environmental conditions for optimal energy capture.
Mission-critical avionics, weapons systems, and satellite ground control. Hard real-time performance with deterministic timing for flight control, radar processing, and secure communications.
Satellite constellation management, ground station operations, and payload control. High-reliability systems for telemetry, tracking, and command with fault-tolerant redundancy.
Semiconductor fabrication control, wafer testing, and clean room automation. Precision coordination of deposition, lithography, and inspection systems with nanometer accuracy.
Continuous reliability testing and stress analysis for extended periods. Automated data collection, anomaly detection, and remote monitoring of equipment operating under extreme conditions.
Multi-robot coordination, autonomous navigation, and adaptive control systems. Real-time sensor fusion, path planning, and collaborative manipulation for industrial and service robotics.
Native performance and universal compatibility
For maximum performance and tight integration, native modules run as first-class citizens within the Substrate. Direct SDK integration provides zero-copy message passing and the highest possible throughput.
.NET assemblies with native Nexus-1 references
Zero-copy IPC and native memory management
Ideal for high-performance, critical system components
Integrate existing systems and third-party applications through standard protocols. The lightweight Module Host bridges gRPC/TCP to native IPC with minimal overhead.
C++, Python, MATLAB, LabVIEW, and more
gRPC, TCP sockets, and HTTP/WebSocket support
Perfect for brownfield modernization projects
Schedule a personalized consultation with our solutions architects to explore how NEXUS-1 can transform your mission-critical systems.
Clear answers for systems architects
Hardware-enforced process isolation ensures each module runs in protected memory space. A fault in one component cannot cascade to others, providing fault tolerance impossible in monolithic architectures.
Low-latency message delivery under one millisecond for critical control loops. Optimized shared memory and zero-copy techniques guarantee bounded execution times for hard real-time applications.
Lightweight Module Host bridges gRPC/TCP to native IPC with minimal overhead. Provides near-native performance while allowing any language to integrate seamlessly into the ecosystem.
Digital wrapper approach creates isolated modules for existing PLCs and SCADA systems. Enables modern analytics and remote monitoring without disrupting operations.
Flexible deployment from embedded controllers to distributed multi-site installations. Runs on Windows, Linux, and real-time operating systems with automatic service discovery.
Everything you need to evaluate and implement NEXUS-1
Comprehensive technical overview covering architecture, performance benchmarks, and integration patterns.
API references, SDK guides, and integration examples for native and external module development.
Deep dive into system architecture, security model, and deployment best practices.