Descripción del proyecto
El grafeno abre el camino al procesamiento de datos de última generación
En un mundo dominado por el internet de las Cosas (IdC), así como las tecnologías 5G y 6G, ha aumentado el apetito por el procesamiento de datos de alto rendimiento y bajo consumo. Además, el aumento de los ciberataques subraya la necesidad de soluciones de seguridad resilientes. Sin embargo, las actuales limitaciones de potencia, latencia, costes operativos y ancho de banda dificultan la eficacia de las defensas. En este contexto, el equipo del proyecto GATEPOST, financiado con fondos europeos, pretende revolucionar la informática y la seguridad gracias a su innovador planteamiento basado en el grafeno. El grafeno y los materiales bidimensionales ofrecen capacidades sin precedentes para interacciones luminosas no lineales eficientes con tiempos de respuesta ultrarrápidos. En GATEPOST se pretende integrar estos materiales con semiconductores metal-óxido complementarios (SMOC) de nitruro de silicio. El principal objetivo del proyecto es unir el potencial del grafeno con los procesos SMOC estándar para lograr avances en computación y memoria.
Objetivo
The need for a next-generation computing platform becomes clear from IoT and 5G/6G and their high performance and low power requirements. Now, graphene and 2D materials (2DM) offer the unique ability to enable highly confined nonlinear interactions of light at low powers and at extremely low response times in the femtosecond range. However, it must be integrated with CMOS low-loss silicon nitride (SiN) platform that facilitates the possibility to create circuits for fast, low power, high bandwidth, general purpose computing and memory completely in the optical domain.
As the most important challenge comes from the maturity of the graphene processes with standard CMOS environments, the main goal of GATEPOST is to fabricate and demonstrate a radically new graphene-based all-optical data processing platform, integrated and tested in a real CMOS pilot line.
As a user case, we focus on a network security device for distributed denial of service (DDoS) detection and network packet inspection. Even though on average 170 cyber-attacks are performed per IoT device per day, there is still a huge lack of security due to the added power, latency, operating costs and bandwidth limitations involved. This is unacceptable, especially considering that the cybercrimes topped an estimated $318 billion in 2021 alone. With our graphene-based computing platform, we will show how low-power, low-latency and high bandwidth network security is ready for the IoT and 5G/6G future.
The full system showcases the unique expertise of each consortium member in all-optical digital logic, neuromorphic computing, memory and ultra-fast clock generation. These components are realized in the 2D-Experimental Pilot Line at IHP, allowing for scalable fabrication and strengthening the EU’s supply-chain in high-performance computing. In the future, the developed platform can be deployed for applications in AI, autonomous driving and more, paving the way for computing beyond von Neumann and Moore’s Law.
Ámbito científico
- engineering and technologyelectrical engineering, electronic engineering, information engineeringinformation engineeringtelecommunicationstelecommunications networksmobile network5G
- natural sciencescomputer and information sciencesinternetinternet of things
- engineering and technologynanotechnologynano-materialstwo-dimensional nanostructuresgraphene
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensorsoptical sensors
- natural sciencescomputer and information sciencescomputer securitynetwork security
Programa(s)
Convocatoria de propuestas
HORIZON-CL4-2022-DIGITAL-EMERGING-02
Consulte otros proyectos de esta convocatoriaRégimen de financiación
HORIZON-RIA - HORIZON Research and Innovation ActionsCoordinador
15236 Frankfurt Oder
Alemania