QMI chip

Fraunhofer IPMS Advances High Density Chiplet Integration

Researchers develop a quasi-monolithic method to seamlessly fuse modular semiconductor components at the wafer level.

Microelectronics researchers have demonstrated a new manufacturing method that embeds separate chip components into silicon pockets to mimic the performance of a single, unified chip.

Developed by the Fraunhofer Institute for Photonic Microsystems IPMS as part of the European APECS pilot line, the quasi-monolithic integration (QMI) approach aims to bridge the gap between traditional chip packaging and advanced semiconductor fabrication. The process allows components like control electronics, sensors and microelectromechanical systems to be combined at the wafer level while maintaining a highly compact footprint.

To achieve this, researchers structured silicon wafers with precise recesses before inserting dummy chiplets into the pockets. The surface was then leveled with a passivation layer to prepare the system for subsequent back-end-of-line wiring.

"This creates a nearly monolithic system architecture that combines the highest integration density with modular scalability," said Dr. Lukas Lorenz, group leader at Fraunhofer IPMS.

By arranging the chiplets on a shared wafer substrate, the interconnects can be formed during the front-end fabrication process. This proximity achieves significantly higher connection densities than conventional packaging methods.

According to the research institute, the QMI architecture shortens signal paths to reduce latency and power losses. Eliminating traditional mechanical interfaces also improves system robustness, while the tight integration offers substantial space savings and cost-efficiencies for modular designs.

The integration method is primarily targeted for high-bandwidth smart transceivers and system-on-chip solutions utilized in artificial intelligence applications.

While the initial manufacturing run relied on dummy structures to prove the concept, the institute plans to transition the process chain to functional customer applications. Fraunhofer IPMS is currently seeking industrial partners to scale the technology into production-oriented manufacturing environments.

About the Author

Jesse Jacobs is assistant editor of SecurityToday.com.

Featured

New Products

  • Zenitel Cloud RMM

    Zenitel Cloud Remote Monitoring & Management (RMM)

    Enhance operational uptime and slash maintenance costs across multi-site environments with secure, centralized cloud-based system diagnostics and lifecycle management.

  • ResponderLink

    ResponderLink

    Shooter Detection Systems (SDS), an Alarm.com company and a global leader in gunshot detection solutions, has introduced ResponderLink, a groundbreaking new 911 notification service for gunshot events. ResponderLink completes the circle from detection to 911 notification to first responder awareness, giving law enforcement enhanced situational intelligence they urgently need to save lives. Integrating SDS’s proven gunshot detection system with Noonlight’s SendPolice platform, ResponderLink is the first solution to automatically deliver real-time gunshot detection data to 911 call centers and first responders. When shots are detected, the 911 dispatching center, also known as the Public Safety Answering Point or PSAP, is contacted based on the gunfire location, enabling faster initiation of life-saving emergency protocols.

  • NAPCO product image

    StarLink Fire Max2 Dual Cell/IP Communicator

    Streamline commercial fire compliance with dual-carrier cellular connectivity, a dedicated FACP data path, and dual-layer electronic inspection verification.