Abstract
Photonic interconnections provide a viable means to overcome the fundamental limitations imposed upon computer system topologies by electrical signaling. Direct board-to-board (or assembly-to-assembly) signaling, without need of a backplane, provides multiple points of connectivity between adjacent electronic complexes while obviating the need to route all board-level signals to and through a central connector choke point. Optical busses can permit full-speed signaling between multiple chips, memory units, or processing units without requiring an active control plane. One-to-many and all-to-all photonic broadcasts greatly simplify multi-processor and multi-core system design.
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References
B.S. Landman, R.L. Russo, IEEE Trans. Comput. C-20(12), 1469 (1971)
H. Cho, P. Kapur, K.C. Saraswat, J. Lightw. Technol. 22(9), 2021 (2004)
R. Yung, S. Rusu, K. Shoemaker, Future trend of microprocessor design, in Proc. 28th Eur. Solid-state Circuits Conf. (ESSCIRC 2002), 24–26 September 2002, pp. 43–46
W.J. Dally, J.W. Poulton, Digital Systems Engineering (Cambridge University Press, Cambridge, 1998), pp. 106–108 [ISBN 0-521-59292-5]
R. Mehra, L.M. Guerra, J.M. Rabaey, IEEE J. Solid State Circuits 32(3), 433 (1997)
C.A. Ridgeway, H.S. Sangha, Making the move to serial buses. EDN article, 3 February 2005