The EU Chips Act aims to increase Europe‘s global production share of semiconductors to 20% by 2030, leading to a need for a skilled workforce to support this growth. Additionally, the EU‘s Green Deal initiative focuses on a transition to sustainable and energy efficient technologies, further emphasizing the need for expertise in sustainable chip development and green applications. There is an EU wide shortage of skilled workers in microelectronics. Addressing this shortage will be crucial in meeting the goals of both the EU Chips Act and the Green Deal. Furthermore, the next generation of students is largely interested in contributing to a sustainable environment. Providing them with the opportunity to gain deeper expertise in this field will align their skills with the industry‘s future needs. The proposed project „Green Chips-EDU“ supports the aforementioned goals by addressing the needs and challenges of a green and digital transition in the microelectronics industry. The consortium, made up of 15 key players from 7 EU countries, aims to build an attractive education ecosystem in green microelectronics by integrating the knowledge triangle of excellent education, industries needs and research challenges. The consortium includes 6 Unite! partners working on a harmonized curriculum focusing on energy efficiency and the development of sustainable integrated circuits. The project addresses all objectives from the call by offering a wide range of degree programs including mutual recognition as well as self-standing modules, implementing staff and student mobility, digital learning formats and upgrading infrastructure. About 600 students are planned to receive degrees or certificates in green electronics. In addition, summer schools, sustainability hackathons, learn-repair cafés as well as expert lectures by the partner companies and research institutions are organized to attract and train students to counteract the skills shortage in microelectronics in the EU.

The EU-funded CoRaLi-DAR project will develop a low-cost, low-power and reliable advanced detection and ranging sensor system as a platform for the automotive market and beyond. The project aims at integrating in the same module both radio and light-based sensing, exploiting LiDAR’s high-resolution capabilities and RADAR’s strong reliability in adverse weather conditions. The full integration of photonics and electronics will reduce manufacturing cost and operational power.

The EU Chips Act aims to increase Europe‘s global production share of semiconductors to 20% by 2030, leading to a need for a skilled workforce to support this growth. Additionally, the EU‘s Green Deal initiative focuses on a transition to sustainable and energy efficient technologies, further emphasizing the need for expertise in sustainable chip development and green applications. There is an EU wide shortage of skilled workers in microelectronics. Addressing this shortage will be crucial in meeting the goals of both the EU Chips Act and the Green Deal. Furthermore, the next generation of students is largely interested in contributing to a sustainable environment. Providing them with the opportunity to gain deeper expertise in this field will align their skills with the industry‘s future needs. The proposed project „Green Chips-EDU“ supports the aforementioned goals by addressing the needs and challenges of a green and digital transition in the microelectronics industry. The consortium, made up of 15 key players from 7 EU countries, aims to build an attractive education ecosystem in green microelectronics by integrating the knowledge triangle of excellent education, industries needs and research challenges. The consortium includes 6 Unite! partners working on a harmonized curriculum focusing on energy efficiency and the development of sustainable integrated circuits. The project addresses all objectives from the call by offering a wide range of degree programs including mutual recognition as well as self-standing modules, implementing staff and student mobility, digital learning formats and upgrading infrastructure. About 600 students are planned to receive degrees or certificates in green electronics. In addition, summer schools, sustainability hackathons, learn-repair cafés as well as expert lectures by the partner companies and research institutions are organized to attract and train students to counteract the skills shortage in microelectronics in the EU.

The EU-funded CoRaLi-DAR project will develop a low-cost, low-power and reliable advanced detection and ranging sensor system as a platform for the automotive market and beyond. The project aims at integrating in the same module both radio and light-based sensing, exploiting LiDAR’s high-resolution capabilities and RADAR’s strong reliability in adverse weather conditions. The full integration of photonics and electronics will reduce manufacturing cost and operational power.

The EU Chips Act aims to increase Europe‘s global production share of semiconductors to 20% by 2030, leading to a need for a skilled workforce to support this growth. Additionally, the EU‘s Green Deal initiative focuses on a transition to sustainable and energy efficient technologies, further emphasizing the need for expertise in sustainable chip development and green applications. There is an EU wide shortage of skilled workers in microelectronics. Addressing this shortage will be crucial in meeting the goals of both the EU Chips Act and the Green Deal. Furthermore, the next generation of students is largely interested in contributing to a sustainable environment. Providing them with the opportunity to gain deeper expertise in this field will align their skills with the industry‘s future needs. The proposed project „Green Chips-EDU“ supports the aforementioned goals by addressing the needs and challenges of a green and digital transition in the microelectronics industry. The consortium, made up of 15 key players from 7 EU countries, aims to build an attractive education ecosystem in green microelectronics by integrating the knowledge triangle of excellent education, industries needs and research challenges. The consortium includes 6 Unite! partners working on a harmonized curriculum focusing on energy efficiency and the development of sustainable integrated circuits. The project addresses all objectives from the call by offering a wide range of degree programs including mutual recognition as well as self-standing modules, implementing staff and student mobility, digital learning formats and upgrading infrastructure. About 600 students are planned to receive degrees or certificates in green electronics. In addition, summer schools, sustainability hackathons, learn-repair cafés as well as expert lectures by the partner companies and research institutions are organized to attract and train students to counteract the skills shortage in microelectronics in the EU.

In the Chiplink project, CIME supports the development of high-speed chip-to-chip (Chiplet) data communication links for System-in-Package (SiP) chip integration.

The project objectives are (a) the systematic modelling and analysis of the signal integrity of chiplet (bunch-of-wires) data transmission links and (b) the evaluation of electromagnetic crosstalk between the single-ended chiplet data channels and sensitive RF components such as inductors in a PLL of a radar SoC.

The “Research Lab for Radio Frequency Frontends” (RFFE-Lab) is a cooperative research lab jointly operated with Silicon Austria Labs (SAL) and co-located at CUAS. As successor of the Josef Ressel Center for Integrated CMOS RF Systems and Circuits (Interact), it acts as an innovation hub for high-level research in RF and mmWave integrated circuits for wireless and wired high-speed data communication systems.

The EU-funded CoRaLi-DAR project will develop a low-cost, low-power and reliable advanced detection and ranging sensor system as a platform for the automotive market and beyond. The project aims at integrating in the same module both radio and light-based sensing, exploiting LiDAR’s high-resolution capabilities and RADAR’s strong reliability in adverse weather conditions. The full integration of photonics and electronics will reduce manufacturing cost and operational power.

The EU Chips Act aims to increase Europe‘s global production share of semiconductors to 20% by 2030, leading to a need for a skilled workforce to support this growth. Additionally, the EU‘s Green Deal initiative focuses on a transition to sustainable and energy efficient technologies, further emphasizing the need for expertise in sustainable chip development and green applications. There is an EU wide shortage of skilled workers in microelectronics. Addressing this shortage will be crucial in meeting the goals of both the EU Chips Act and the Green Deal. Furthermore, the next generation of students is largely interested in contributing to a sustainable environment. Providing them with the opportunity to gain deeper expertise in this field will align their skills with the industry‘s future needs. The proposed project „Green Chips-EDU“ supports the aforementioned goals by addressing the needs and challenges of a green and digital transition in the microelectronics industry. The consortium, made up of 15 key players from 7 EU countries, aims to build an attractive education ecosystem in green microelectronics by integrating the knowledge triangle of excellent education, industries needs and research challenges. The consortium includes 6 Unite! partners working on a harmonized curriculum focusing on energy efficiency and the development of sustainable integrated circuits. The project addresses all objectives from the call by offering a wide range of degree programs including mutual recognition as well as self-standing modules, implementing staff and student mobility, digital learning formats and upgrading infrastructure. About 600 students are planned to receive degrees or certificates in green electronics. In addition, summer schools, sustainability hackathons, learn-repair cafés as well as expert lectures by the partner companies and research institutions are organized to attract and train students to counteract the skills shortage in microelectronics in the EU.

In the Chiplink project, CIME supports the development of high-speed chip-to-chip (Chiplet) data communication links for System-in-Package (SiP) chip integration.

The project objectives are (a) the systematic modelling and analysis of the signal integrity of chiplet (bunch-of-wires) data transmission links and (b) the evaluation of electromagnetic crosstalk between the single-ended chiplet data channels and sensitive RF components such as inductors in a PLL of a radar SoC.

The “Research Lab for Radio Frequency Frontends” (RFFE-Lab) is a cooperative research lab jointly operated with Silicon Austria Labs (SAL) and co-located at CUAS. As successor of the Josef Ressel Center for Integrated CMOS RF Systems and Circuits (Interact), it acts as an innovation hub for high-level research in RF and mmWave integrated circuits for wireless and wired high-speed data communication systems.

The EU-funded CoRaLi-DAR project will develop a low-cost, low-power and reliable advanced detection and ranging sensor system as a platform for the automotive market and beyond. The project aims at integrating in the same module both radio and light-based sensing, exploiting LiDAR’s high-resolution capabilities and RADAR’s strong reliability in adverse weather conditions. The full integration of photonics and electronics will reduce manufacturing cost and operational power.

The EU Chips Act aims to increase Europe‘s global production share of semiconductors to 20% by 2030, leading to a need for a skilled workforce to support this growth. Additionally, the EU‘s Green Deal initiative focuses on a transition to sustainable and energy efficient technologies, further emphasizing the need for expertise in sustainable chip development and green applications. There is an EU wide shortage of skilled workers in microelectronics. Addressing this shortage will be crucial in meeting the goals of both the EU Chips Act and the Green Deal. Furthermore, the next generation of students is largely interested in contributing to a sustainable environment. Providing them with the opportunity to gain deeper expertise in this field will align their skills with the industry‘s future needs. The proposed project „Green Chips-EDU“ supports the aforementioned goals by addressing the needs and challenges of a green and digital transition in the microelectronics industry. The consortium, made up of 15 key players from 7 EU countries, aims to build an attractive education ecosystem in green microelectronics by integrating the knowledge triangle of excellent education, industries needs and research challenges. The consortium includes 6 Unite! partners working on a harmonized curriculum focusing on energy efficiency and the development of sustainable integrated circuits. The project addresses all objectives from the call by offering a wide range of degree programs including mutual recognition as well as self-standing modules, implementing staff and student mobility, digital learning formats and upgrading infrastructure. About 600 students are planned to receive degrees or certificates in green electronics. In addition, summer schools, sustainability hackathons, learn-repair cafés as well as expert lectures by the partner companies and research institutions are organized to attract and train students to counteract the skills shortage in microelectronics in the EU.