➀ Researchers at the Fraunhofer Institute for Photonic Microsystems (IPMS) have developed a new LCOS microdisplay with a high-speed CMOS backplane; ➁ The display achieves data transfer speeds of up to 576Gbit/s and is designed for applications in AR/VR, optogenetics, and quantum computing; ➂ The technology is set to launch commercially in 2026.

➀ Fraunhofer IPMS offers photonic systems with spatial light modulators for precise control and high image quality; ➁ The systems enable new applications in various industries and sectors; ➂ The institute develops custom spatial light modulators with millions of micro-mirrors on a semiconductor chip, controlling their movement with an ASIC.

➀ The Fraunhofer Institute for Photonic Microsystems (IPMS) has developed a Universal Display Data Converter (UDDC) for seamless image data transfer to microdisplays. ➁ The UDDC converts various video interfaces to a standard for driving microdisplays and facilitates development in AR and VR. ➂ The system uses an FPGA and supports industry-standard video protocols, including MIPI D-PHY+DSI and SMPTE SDI.

➀ Fraunhofer IPMS, in collaboration with 24 German institutions and companies, is developing an integrated German quantum computer using superconducting quantum chips with improved error rates. ➁ The project aims to create a system with low error rates and high-quality qubits, leveraging advanced CMOS semiconductor manufacturing. ➂ A prototype with 10 qubits, integrated software, and cloud access is set to operate at Forschungszentrum Jülich, supported by the German Federal Ministry of Education and Research.

➀ The Fraunhofer Institute for Photonic Microsystems (IPMS) is collaborating with 24 German research institutions and companies to develop a fully German quantum computer using superconducting quantum chips with reduced error rates. ➁ A first demonstrator, halfway through the project, is now operational, featuring advanced CMOS semiconductor manufacturing expertise. ➂ The project, supported by the German Federal Ministry of Education and Research, aims to develop a system with next-generation superconducting circuits and very low error rates, positioning it as a global leader in quantum computing technology.

➀ Fraunhofer Institute for Photonic Microsystems (IPMS) is expanding its collaboration with GlobalFoundries, focusing on innovative integrated memory concepts. ➁ The research projects aim to optimize magnetic, ferroelectric, and resistive embedded data storage, targeting scalable and energy-efficient solutions for IoT and automotive sectors. ➂ The projects are part of the 'Important Project of Common European Interest' (IPCEI) funded by Saxony and the federal government.

➀ Fraunhofer IPMS is expanding its long-term collaboration with GlobalFoundries to launch several research projects on innovative integrated storage concepts. ➁ The Center Nanoelectronic Technologies (CNT) at Fraunhofer IPMS is researching new processes and concepts for storage modules in GlobalFoundries' chip technologies. ➂ The projects are part of the Important Project of Common European Interest (IPCEI) funded by Saxony and the Federal Government, aiming to develop scalable and energy-efficient storage solutions beneficial for IoT and automotive sectors.

➀ Researchers at Fraunhofer IPMS have significantly increased the transparency of OLED microdisplays, achieving a 45% transparency rate. ➁ The improved technology utilizes a silicon backplane and a monolithic organic frontplane integrated on the top metalization layer. ➂ The advancements are showcased at the IMID 2024 conference, highlighting applications in AR and complex optical systems.

➀ Researchers at Fraunhofer IPMS have developed OLED microdisplays with 45% transparency, a significant improvement. ➁ The technology uses a silicon backplane and a semi-transparent top electrode to achieve this level of transparency. ➂ The advancements are showcased at IMID 2024, highlighting applications in augmented reality and image overlay systems.