XS Innovations is developing vascular access devices to avoid continuous high flow, dramatically reducing complications in patients.
Innatera is an innovative developer of ultra-low power neuromorphic processors designed to enhance the efficiency of sensor data processing. Established in 2018 as a spin-off from the Delft University of Technology, the company focuses on creating processors that replicate the brain's mechanisms for sensory perception. Utilizing a novel continuous-time analog-mixed signal processing architecture, Innatera's chips can process sensor data up to 100 times faster while consuming up to 500 times less energy compared to traditional processors. This technology enables businesses to access and analyze sensor data more effectively, positioning Innatera as a leader in the field of energy-efficient computing solutions.
Innatera is an innovative developer of ultra-low power neuromorphic processors designed to enhance the efficiency of sensor data processing. Established in 2018 as a spin-off from the Delft University of Technology, the company focuses on creating processors that replicate the brain's mechanisms for sensory perception. Utilizing a novel continuous-time analog-mixed signal processing architecture, Innatera's chips can process sensor data up to 100 times faster while consuming up to 500 times less energy compared to traditional processors. This technology enables businesses to access and analyze sensor data more effectively, positioning Innatera as a leader in the field of energy-efficient computing solutions.
QphoX develops a quantum modem device that facilitates the connection of quantum computers within a network. The company's technology includes a quantum transducer that utilizes a mechanical resonator to couple microwave and optical photons. This innovative approach enables the conversion of information between microwave and optical telecom frequencies, helping clients minimize loss and enhance the fidelity of quantum state transmission. By improving the connectivity of quantum systems, QphoX plays a crucial role in advancing quantum networking capabilities.
Villari specializes in wireless structural health monitoring technology, focusing on the detection of fatigue cracks. The company provides a platform that includes wireless crack monitoring sensor units designed for various applications, such as remote inspection, automated warning systems, and predictive maintenance. Their technology is particularly applicable to infrastructures like steel bridges, heavy lift cranes, and offshore structures. By utilizing Villari's solutions, clients can make informed, data-driven maintenance decisions, enhancing the safety and longevity of their assets.
Gilbert Technologies B.V. is a medical device company based in Naarden, the Netherlands, established in 2016. The company specializes in the development and commercialization of innovative inhaler devices aimed at treating lung diseases, managing pain, and facilitating vaccination. Its technology utilizes electrohydrodynamic atomization to create inhalation devices that enhance lung deposition characteristics for effective pulmonary medicine administration. Gilbert Technologies addresses various medical conditions, including cystic fibrosis, asthma, lung cancer, pulmonary arterial hypertension, chronic obstructive pulmonary disease, idiopathic pulmonary fibrosis, and non-CF bronchiectasis. Through its commitment to innovation, the company strives to improve the quality of life for patients by providing advanced therapeutic solutions in pulmonary medicine.
QphoX develops a quantum modem device that facilitates the connection of quantum computers within a network. The company's technology includes a quantum transducer that utilizes a mechanical resonator to couple microwave and optical photons. This innovative approach enables the conversion of information between microwave and optical telecom frequencies, helping clients minimize loss and enhance the fidelity of quantum state transmission. By improving the connectivity of quantum systems, QphoX plays a crucial role in advancing quantum networking capabilities.
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