Driving Innovation Together
At Innatera, we are committed to spearheading cutting edge innovation projects with a consortium of industry partners, academic organizations and research institutes using our neuromorphic AI technology.
Trusted by Industry Leaders
Your path to success starts here
The AI4CSM project vision is to build Europe’s intelligent electronic components and systems for ECAS 2030 vehicles supporting European mass market production, manufacturability and scalability based on the Green Deal principles.
The project missions is to develop the functional architectures for next generation ECAS vehicles based on ECS, embedded intelligence and functional virtualization for connected and shared mobility using trustworthy AI. Innatera deploys the Spiking Neural Processor technology for predictive maintenance and anomaly detection in electric vehicles.
The mission of the project is to unlock the potential of BVLOS drone operations, contribute to the increased and regulatory acceptance of drone use. The team also aims to strengthen the integration of the automotive and drone industries and reduce deployment costs with sensing technology from the automotive industry and COTS communication technologies and services.
Another goal is to embrace automotive-style efficient production of components and subsystems and integrate AI and data analytics into future air mobility. Within the ADACORSA project, Innatera deploys neuromorphic processors to do energy efficient on-board processing of sensor data in BVLOS drones.
The AI4CSM project vision is to build Europe’s intelligent electronic components and systems for ECAS 2030 vehicles supporting European mass market production, manufacturability and scalability based on the Green Deal principles.
The project missions is to develop the functional architectures for next generation ECAS vehicles based on ECS, embedded intelligence and functional virtualization for connected and shared mobility using trustworthy AI. Innatera deploys the Spiking Neural Processor technology for predictive maintenance and anomaly detection in electric vehicles.
At the sensor edge, SNP can deliver always-on pattern recognition functionalities in power & latency-sensitive applications via an innovative programmable architecture. It enables application-specific customers to implement immediately ready-to-use high-performance pattern recognition.
SNP delivers market-leading differentiation with faster time-to-market & reduced development effort. Within this project we research the technologies which form the next-generation of our Spiking Neural Processor product line.
What our customers says about us
Innatera’s Pulsar chip has the potential to redefine what’s possible at the edge. By using brain-inspired Spiking Neural Networks, it brings real-time processing to ultra-low-power devices without leaning on the cloud.
David Harold
senior analyst, Jon Peddie Research
Innatera is the first to bring neuromorphic microcontrollers to the mass market. We combine deep scientific heritage with proven industry collaborations, from radar sensing to smart safety systems.
Matthias Neumann
Senior Marketing Manager
Innatera is the first to bring neuromorphic microcontrollers to the mass market. We combine deep scientific heritage with proven industry collaborations, from radar sensing to smart safety systems.
John smith
safety systems.
Innatera is the first to bring neuromorphic microcontrollers to the mass market. We combine deep scientific heritage with proven industry collaborations, from radar sensing to smart safety systems.
John smith
safety systems.
Innatera is the first to bring neuromorphic microcontrollers to the mass market. We combine deep scientific heritage with proven industry collaborations, from radar sensing to smart safety systems.
John smith
safety systems.
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