
IT Security and Quantum Research (www.computer-automation.de)
Fraunhofer IPMS Unveils Quantum Random Number Generator
Fraunhofer IPMS is introducing Q-Dice, a quantum random number generator that produces truly random numbers at a rate of 4.1 Gbit/s for cryptographic and security-critical applications.

High-speed Ethernet (www.industrial-production.de)
Fraunhofer IPMS develops new 10G TSN endpoint
The demands on Ethernet networks in automotive, industrial and safety-critical applications are increasing rapidly. The Fraunhofer Institute for Photonic Microsystems IPMS is responding to this with a new 10G TSN endpoint IP core that enables deterministic real-time communication with data rates of up to 10 Gbit/s.

High-Speed Ethernet (www.computer-automation.de)
Fraunhofer IPMS develops new 10G TSN Endpoint
The demands on Ethernet networks in automotive, industrial and safety-critical applications are increasing rapidly. The Fraunhofer Institute for Photonic Microsystems IPMS is responding to this with a new 10G TSN endpoint IP core that enables deterministic real-time communication with data rates of up to 10 Gbit/s.

Fraunhofer IPMS (www.computer-automation.de)
Taming the AI's Hunger for Data
Artificial intelligence works fast, but its hunger for energy is growing rapidly. A German-Taiwanese research team from Fraunhofer IPMS, Fraunhofer IMWS and the Taiwanese research institute TSRI is now developing a solution: new memories for the leading chip technologies smaller than 3 nm. These innovative nanosheet components enable computing operations directly in the memory and thus drastically reduce energy consumption.

TSN/A Conference 2025 | September 24, 12:00... (www.computer-automation.de)
Enhancing TSN Configuration: A Hybrid CORECONF-NETCONF Approach for Resource-Constrained Environments
With IT/OT convergence in industrial networks, Time-Sensitive Networking (TSN) ensures reliable operations, requiring configuration for routers, switches, and TSN-Endpoints. Our research explores TSN configuration for IoT devices with cost-effective hardware.

TSN/A Conference 2025 | September 24, 11:00... (www.computer-automation.de)
TSN for Automotive Radar Application
Modern vehicles need more bandwidth for data processing and communication, especially for autonomous driving functionalities. Our research aims to create a Time-Sensitive Networking (TSN) environment for zonal architecture car communication, integrating 10Gbps TSN Endpoints and Switches.

Fraunhofer IPMS and Dive (www.computer-automation.de)
Semiconductor Processes optimized
Together with Dive imaging systems, the Fraunhofer Institute for Photonic Microsystems IPMS has established a step towards resource-saving semiconductor production. The installation of an optical measuring device from Dive in the Fraunhofer IPMS clean room has significantly reduced the amount of inspection work required during wafer production.

Energy-efficient real-time data transmission (www.computer-automation.de)
Fraunhofer IPMS presents new testbed for TSN
Fraunhofer IPMS has presented a new testbed for Time-Sensitive Networking, or TSN for short. Particular attention is paid to the interaction of TSN with Li-Fi optical radio technology.

Fraunhofer IPMS (www.computer-automation.de)
Partnership to promote TSN technology in South Korea
Fraunhofer IPMS has signed a partnership agreement with the TSN Lab to promote the development and dissemination of Time Sensitive Networking (TSN) technology in South Korea.

Fraunhofer IPMS (www.computer-automation.de)
Energy-efficient AI with ferroelectric technology
As artificial intelligence is increasingly used in sectors such as healthcare, autonomous driving and smart cities, conventional computer architectures are reaching significant limits in terms of processing speed and energy efficiency. The 'Vitfox' project aims to advance AI through the development of energy-efficient neuromorphic computing systems.

Fraunhofer IPMS (www.computer-automation.de)
Smart and compact sensor technology thanks to edge AI
In the 'InSeKT' project (development of intelligent sensor edge technologies), the TH Wildau, the Leibniz Institute for Innovative Microelectronics (IHP) and the Fraunhofer IPMS are working together on new hardware, software and sensor solutions to make better use of artificial intelligence at the edges of IT networks.

Fraunhofer IPMS (www.industrial-production.de)
Error-free data transmission in the smart factory
Machines, logistics and products communicate in modern industrial plants. At INDUSTRIAL production + handling, Fraunhofer IPMS will be presenting solutions for industrial communication in the technology fields of Li-Fi, RFID sensors and communication IP cores.

Real-time communication via light (www.industrial-production.de)
Fraunhofer IPMS develops wireless TSN via Li-Fi
In automation technology, messages often have to be transmitted in the microsecond range, for example to synchronize machines or drives with each other. Fraunhofer IPMS has combined Li-Fi and Time Sensitive Networking to enable real-time capable and deterministic data transmission wirelessly.

SPS IPC Drives 2018 (www.industrial-production.de)
Fraunhofer IPMS: TSN IP Core for real-time capable Ethernet
Time Sensitive Networking (TSN) is a standard that allows time-controlled and prioritized transmission of real-time critical messages via standard Ethernet hardware for the first time. With the TSN IP Core, developers at Fraunhofer IPMS offer system manufacturers and operators the opportunity to equip their devices for the new TSN standards.

Instead of WLAN (www.industrial-production.de)
Li-Fi for wireless communication in industrial environments
At Embedded World from February 27 to March 1, 2018 in Nuremberg, Fraunhofer IPMS in Dresden will be presenting Li-Fi communication modules that compete with WLAN solutions in industry. In comparison, wireless optical technology promises faster, interference-free and more secure infrastructures.
