Research Areas
Advanced Hearing Protection and Communication System
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Developing custom integrated solutions using professional high quality state of the art communicating platforms with integrated intelligent sound. |
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Magnetic Based Graphene Sense Random Access Memory (MGRAM) www.MxRAM.com
Our novel approach to a growing need in the computing industry is based upon a long proven method of reliable storage. Our modernization of this technology will satisfy the present and future needs of the computer industry. This patented method employs a revolutionary material called Graphene, and promised to increase memory storage density by orders of magnitude while consuming less power than alternatives, resulting in enormous savings when deployed in server farms.
Our novel approach to a growing need in the computing industry is based upon a long proven method of reliable storage. Our modernization of this technology will satisfy the present and future needs of the computer industry. This patented method employs a revolutionary material called Graphene, and promised to increase memory storage density by orders of magnitude while consuming less power than alternatives, resulting in enormous savings when deployed in server farms.
Advanced Soldier Vision Systems
Novel approaches to advanced laser protection, and evolutionary steps towards a total information system for modern war-fighters. Advancements made with our approach will transcend commercial and private markets with OEM and personal applications.
Novel approaches to advanced laser protection, and evolutionary steps towards a total information system for modern war-fighters. Advancements made with our approach will transcend commercial and private markets with OEM and personal applications.
Mono-layer Coatings
Mono-layer coatings are exploding in the scientific community, in the ever-advancing world of miniaturization. Our method of deposition can be done in atmospheric conditions, enabling a myriad of process methods, substrates, and multi-layer capability. R2R conditions are easily met with our continuous, variable pressure packing system.
Mono-layer coatings are exploding in the scientific community, in the ever-advancing world of miniaturization. Our method of deposition can be done in atmospheric conditions, enabling a myriad of process methods, substrates, and multi-layer capability. R2R conditions are easily met with our continuous, variable pressure packing system.
Collaborators
National Laboratories:
Sandia National Labs
MIT Lincoln Labs
Commercial:
Indiana Integrated Circuits
Adroit R&D
Cardo
Sentinel Lighting Controls
Performance Lasers
University:
The University of Vermont, University of Notre Dame, MIT, University of Wisconsin Madison, Lehigh University, University of North Carolina, RPI, University of Quebec- INRS Verrennes QC, UC Boulder, University of Maryland, University of Cincinnati
Sandia National Labs
MIT Lincoln Labs
Commercial:
Indiana Integrated Circuits
Adroit R&D
Cardo
Sentinel Lighting Controls
Performance Lasers
University:
The University of Vermont, University of Notre Dame, MIT, University of Wisconsin Madison, Lehigh University, University of North Carolina, RPI, University of Quebec- INRS Verrennes QC, UC Boulder, University of Maryland, University of Cincinnati