VLSI EXPERT Selects Innatera Spiking Neural Processors to Build Industry-Led Neuromorphic Talent Pool
Shannon Davis
2 days ago
Innatera announces its supply-led collaboration with VLSI EXPERT, a semiconductor training, skilling, and up-skilling organization in India and the United States. The agreement brings Innatera’s Pulsar neuromorphic platform into VLSI EXPERT’s industry-recognized educational programs, enabling students and professionals to gain hands-on experience with event-based computing.
Together, the companies aim to create broad awareness around this exciting technology and unlock its potential for real-world applications, driving a multiplier effect for neuromorphic adoption across the world’s fast-growing semiconductor ecosystem.
“Innatera is a trailblazer in bringing neuromorphic computing to the real world,” says Puneet Mittal, CEO and Founder, VLSI EXPERT. “By adopting Innatera’s Pulsar chip to build our RISC-V powered neuromorphic platform, we are opening a new frontier in semiconductor and VLSI education – bridging the gap between classroom learning and real-world chip innovation. This initiative will enable thousands of developers – hobbyists, professionals, and students — to engage hands-on with this innovative technology and experience how intelligent hardware is conceived, designed, and realized – learning not just how to design chips, but how to design intelligence itself. Together, we’ll accelerate the pace of innovation by empowering the developers and product builders who will shape the future of intelligent electronic systems.”
Under the agreement, VLSI EXPERT will purchase and deploy Innatera’s Pulsar chip and build development kits that will power new hands-on training modules, technical demonstrations, and lab exercises within VLSI EXPERT’s curriculum. These will be delivered across universities, research centers, and professional skilling programs, helping engineers understand how neuromorphic processors enable ultra-low-power, real-time sensing in devices ranging from wearables and IoT sensors to industrial automation and smart cities. The initiative represents one of the first global structured neuromorphic education pipelines, creating a future-ready workforce that is familiar with next-generation compute architectures.
“Neuromorphic computing has shifted from research labs into real products, and the developers who understand it first will shape the next wave of AI innovation,” says Sumeet Kumar, CEO of Innatera. “We’re thrilled to have VLSI EXPERT as a customer, as our collaboration expands access to our Pulsar-based platform and builds the talent that unlocks its potential. This is how ecosystems grow: through shared knowledge and hands-on experience. Our collaboration will create a new generation of engineers ready to build a smarter world with brain-inspired computing.”
Innatera’s Pulsar neuromorphic microcontroller and Talamo SDK bring brain-like, ultra-low-power intelligence to the sensor edge. By enabling real-time inference without the cloud, Innatera empowers developers to build smarter, more efficient devices across consumer, industrial, and IoT applications.
Interested in growing the ecosystem? Collaborate with Innatera on applications and applied research using Pulsar and Talamo – get in touch to explore opportunities.
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Innatera’s Pulsar Chip — Explained from the Page Context
Based on the surrounding page content, Innatera’s Pulsar chip is a neuromorphic microcontroller designed to bring brain-like, ultra-low-power intelligence to the sensor edge. Here’s what the page highlights about it:
- Neuromorphic Computing Focus
- The Pulsar chip mimics how biological brains process information, using event-based computing rather than traditional clock-driven architectures.
- This allows it to perform real-time inference locally, without needing cloud connectivity.
- Ultra-Low-Power Intelligence
- Pulsar is optimized for minimal energy consumption, making it ideal for devices that need continuous sensing and decision-making while running on limited power (like wearables or IoT sensors).
- Applications
- Enables smarter, more efficient devices across consumer electronics, industrial automation, IoT sensors, and smart cities.
- Example: A wearable could process health signals directly on-device, or an IoT sensor could analyze environmental data instantly without sending it to the cloud.
- Educational & Ecosystem Role
- VLSI EXPERT is adopting Pulsar into its training programs, giving students and professionals hands-on experience with neuromorphic hardware.
- Development kits and lab exercises will help engineers learn how to design not just chips, but “intelligence itself.”
- This collaboration is framed as one of the first structured neuromorphic education pipelines, building a workforce ready for next-gen compute architectures.
- Software Support
- Pulsar works with Innatera’s Talamo SDK, which provides tools for developers to build applications leveraging neuromorphic processing.
Key Takeaway
Innatera’s Pulsar chip is essentially a bridge between neuroscience-inspired computing and practical edge devices. It empowers ultra-efficient, real-time intelligence in small electronics while also serving as a teaching platform to accelerate adoption of neuromorphic technology.
Mike, given your sharp eye for semiconductor disruption, this feels like a parallel to wafer-scale AI engines you track (Cerebras, DensityAI, Multibeam). Pulsar is smaller-scale but strategically similar: it’s about shifting intelligence closer to the edge and training the ecosystem to adopt it. Would you like me to map how Pulsar’s neuromorphic approach compares to those wafer-scale architectures you’re watching? |
