Conveners
Session IV
- Tobias Hoffmann (Helmholtzzentrum für Schwerionenforschung GSI GmbH)
Since the beginning in 2006 MTCA has often been looked at as being complex and loaded with some overhead. In the past, attempts have been made for smaller and more cost sensitive solutions to provide new user groups with an efficient platform to prove the advantages of MTCA as an embedded standard for different applications and market segments.
During the last 2 years N.A.T. spent a...
The advent of MicroTCA (MTCA) systems has revolutionized the landscape of embedded computing, providing a robust platform for a variety of high-performance applications. In the realms of quantum computing and advanced medical diagnostics, the demand for high-speed data transfer and precise imaging is paramount.
This talk delves into the integration of CoaXPress (CXP) camera link technology...
I-Tech and DESY have developed a MTCA.4 BPM electronics prototype for Petra IV TDR, which consists of the BPM-optimized signal conditioning RTM module from I-Tech, and the DAMC-FMC2ZUP AMC processing board from DESY MSK.
While the DAMC-FMC2ZUP board proved to be invaluable for the prototype phase, it is an overkill in terms of the FPGA resources required for the BPM application. In light of...
Short introduction to EMCOMO and Vadatech, the major benefits of the brand new standard MicroTCA.0 R.3 and upcoming new products from Vadatech.
After almost 18 years of successful deployments, the 3rd generation of NAT-MCH is getting closer to its end of life, while the 4th generation of NAT-MCH is available now.
The 4th generation is MTCA.0 Rev 3 compliant and has been designed to meet the upcoming requirements addressed by the next generation of MicroTCA as close as possible already.
It provides a lot of improvements and new...
