This paper presents the research directions pursued by the WiPLASH European project, pioneering on-chip wireless communications as a disruptive enabler towards next-generation computing systems for artificial intelligence (AI). We illustrate the holistic approach driving our research efforts, which encompass expertises and abstraction levels ranging from physical design of embedded graphene antennas to system-level evaluation of wirelessly-communicating heterogeneous systems.
Klein, J., Levisse, A., Ansaloni, G., Atienza, D., Zapater, M., Dazzi, M., et al. (2021). Architecting more than Moore: wireless plasticity for massive heterogeneous computer architectures (WiPLASH). New York, NY : Association for Computing Machinery [10.1145/3457388.3458859].
Architecting more than Moore: wireless plasticity for massive heterogeneous computer architectures (WiPLASH)
Rossi, Davide;Conti, Francesco;
2021
Abstract
This paper presents the research directions pursued by the WiPLASH European project, pioneering on-chip wireless communications as a disruptive enabler towards next-generation computing systems for artificial intelligence (AI). We illustrate the holistic approach driving our research efforts, which encompass expertises and abstraction levels ranging from physical design of embedded graphene antennas to system-level evaluation of wirelessly-communicating heterogeneous systems.| File | Dimensione | Formato | |
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WIPLASH_redux pp.pdf
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