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SLC-based optical interconnect for computing systems

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6 Author(s)
Nakagawa, S. ; Tokyo Res. Lab., IBM, Yamato ; Taira, Y. ; Numata, H. ; Kobayashi, K.
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The performance increase of computing systems is hindered by the power dissipated by the system. Multi-core systems enable the performance increase under such power-constrained environment with high-level interconnection of power-efficient processing elements. High-density and high-bandwidth interconnects are crucial for such systems, and optical interconnects promise to provide the required features, such as data rate, channel density, power dissipation. In this paper, we have demonstrated a high-density, chip-based optical interconnect exploiting a waveguide-integrated surface laminar circuit (SLC) board. A build-up polymer waveguide layer is formed on a SLC, and optical and electrical chips constructing optical interconnects are flip-chip mounted on the SLC much like low-cost electrical packaging using printed circuit boards. Assembled optical interconnect transmitter and receiver have demonstrated 10 Gbps operations.

Published in:

VLSI Packaging Workshop of Japan, 2008. VPWJ 2008. IEEE 9th

Date of Conference:

1-2 Dec. 2008