Friese, IngoIngoFrieseGalkow-Schneider, MandyMandyGalkow-SchneiderBassbouss, LouayLouayBassboussZoubarev, AlexanderAlexanderZoubarevNeparidze, AndyAndyNeparidzeMelnyk, SergiySergiyMelnykZhou, QiuhengQiuhengZhouSchotten, Hans D.Hans D.SchottenPfandzelter, TobiasTobiasPfandzelterBermbach, DavidDavidBermbachKritzner, ArndtArndtKritznerZschau, EnricoEnricoZschauDhara, PrasenjitPrasenjitDharaGöring, SteveSteveGöringMenz, WilliamWilliamMenzRaake, AlexanderAlexanderRaakeRüther-Kindel, WolfgangWolfgangRüther-KindelQuaeck, FabianFabianQuaeckStuckert, NickNickStuckertVilter, RobertRobertVilter2024-01-042024-01-042023https://publica.fraunhofer.de/handle/publica/45842910.1109/6GNet58894.2023.103176472-s2.0-85179764558Research project 6G NeXt is considering true 3D holography as a use case, setting requirements on the communication as well as the computing infrastructure. In a future holographic communication service, clients are widely spread in the network and cooperatively interact with each other. Especially for holographic communication high processing power is required as well. This makes a high-speed distributed backbone computing infrastructure, which realizes the concept of split computing, inevitable. Furthermore, tight integration between processing facili-ties and wireless networks is required in order to provide an immersive user experience. This paper illustrates true 3D holographic communication and its requirements. Af- terward, an appropriate solution approach is elaborated. Here, novel technological approaches are discussed based on a proposed overall communication and computing architecture.enCloud computing architectureComputer architectureNetwork architectureQuality of serviceconference paper