Fettweis GP, Doerpinghaus M, Castrillon J, Kumar A, Baier C, Bock K, Ellinger F, Fery A, Fitzek FHP, Haertig H, Jamshidi K, Kissinger T, Lehner W, Mertig M, Nagel WE, Nguyen GT, Plettemeier D, Schroeter M, Strufe T (2019)
Publication Type: Journal article
Publication year: 2019
Book Volume: 107
Pages Range: 204-231
Article Number: 8565890
Journal Issue: 1
DOI: 10.1109/JPROC.2018.2874895
With the explosion of the number of compute nodes, the bottleneck of future computing systems lies in the network architecture connecting the nodes. Addressing the bottleneck requires replacing current backplane-based network topologies. We propose to revolutionize computing electronics by realizing embedded optical waveguides for onboard networking and wireless chip-to-chip links at 200-GHz carrier frequency connecting neighboring boards in a rack. The control of novel rate-adaptive optical and mm-wave transceivers needs tight interlinking with the system software for runtime resource management.
APA:
Fettweis, G.P., Doerpinghaus, M., Castrillon, J., Kumar, A., Baier, C., Bock, K.,... Strufe, T. (2019). Architecture and Advanced Electronics Pathways Toward Highly Adaptive Energy- Efficient Computing. Proceedings of the IEEE, 107(1), 204-231. https://doi.org/10.1109/JPROC.2018.2874895
MLA:
Fettweis, Gerhard P., et al. "Architecture and Advanced Electronics Pathways Toward Highly Adaptive Energy- Efficient Computing." Proceedings of the IEEE 107.1 (2019): 204-231.
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