FAST-Net optical interconnection prototype characterization

M. W. Haney; M. P. Christensen; P. Milojkovic; J. Rieve; J. Ekman; P. Chandramani; F. Kiamilev; Y. Liu; M. Hibbs-Brenner; E. Strzelecka; G. Fokken; M. Vickberg; B. Gilbert

FAST-Net optical interconnection prototype characterization

M. W. Haney, M. P. Christensen, P. Milojkovic, J. Rieve, J. Ekman, P. Chandramani, F. Kiamilev, Y. Liu, M. Hibbs-Brenner, E. Strzelecka, G. Fokken, M. Vickberg, B. Gilbert

Physiology & Biomedical Engineering

Research output: Contribution to conference › Paper › peer-review

Abstract

This paper reports progress toward the experimental evaluation of the smart pixel based optical interconnection demonstrator currently being developed under the Free-space Accelerator for Switching Terabit Networks (FAST-Net) project. The prototype data switching system incorporates 2-D monolithic arrays of high-bandwidth vertical cavity surface emitting lasers (VCSELs) and photodetectors (PDs) that are solder bump bonded to CMOS circuits. The CMOS circuitry provides the high-speed drivers and receivers, control, and interface functions for the smart pixels. The integrated smart pixel arrays are distributed across a multi-chip substrate. A reflective optical system effects a global interconnection pattern across the multi-chip array by imaging clusters of VCSELs onto clusters of PDs. VCSEL/PD pairs are arrayed in a clustered format with a closest pitch of 250 μm. To achieve the required density and registration accuracy, the smart pixel arrays are positioned on the multi-chip substrate to a 10 μm registration tolerance. The optical system is similarly aligned to achieve 10 μm registration accuracy for the VCSEL/PD cluster images. The packaging issues and approach associated with the prototype are reviewed in this paper. The results suggest that a multi-Terabit/sec optically interconnected switch module is feasible.

Original language	English (US)
Pages	1/-
State	Published - Dec 1 1999
Event	InterPACK '99: Pacific RIM/ASME International Intersociety Electronics Photonic Packaging Conference 'Advances in Electronic Packaging 1999' - Maui, HI, USA Duration: Jun 13 1999 → Jun 19 1999

Other

Other	InterPACK '99: Pacific RIM/ASME International Intersociety Electronics Photonic Packaging Conference 'Advances in Electronic Packaging 1999'
City	Maui, HI, USA
Period	6/13/99 → 6/19/99

ASJC Scopus subject areas

Electrical and Electronic Engineering
Mechanical Engineering

Cite this

Haney, M. W., Christensen, M. P., Milojkovic, P., Rieve, J., Ekman, J., Chandramani, P., Kiamilev, F., Liu, Y., Hibbs-Brenner, M., Strzelecka, E., Fokken, G., Vickberg, M., & Gilbert, B. (1999). FAST-Net optical interconnection prototype characterization. 1/-. Paper presented at InterPACK '99: Pacific RIM/ASME International Intersociety Electronics Photonic Packaging Conference 'Advances in Electronic Packaging 1999', Maui, HI, USA.

FAST-Net optical interconnection prototype characterization. / Haney, M. W.; Christensen, M. P.; Milojkovic, P. et al.
1999. 1/- Paper presented at InterPACK '99: Pacific RIM/ASME International Intersociety Electronics Photonic Packaging Conference 'Advances in Electronic Packaging 1999', Maui, HI, USA.

Research output: Contribution to conference › Paper › peer-review

Haney, MW, Christensen, MP, Milojkovic, P, Rieve, J, Ekman, J, Chandramani, P, Kiamilev, F, Liu, Y, Hibbs-Brenner, M, Strzelecka, E, Fokken, G, Vickberg, M & Gilbert, B 1999, 'FAST-Net optical interconnection prototype characterization', Paper presented at InterPACK '99: Pacific RIM/ASME International Intersociety Electronics Photonic Packaging Conference 'Advances in Electronic Packaging 1999', Maui, HI, USA, 6/13/99 - 6/19/99 pp. 1/-.

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AU - Kiamilev, F.

AU - Liu, Y.

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AB - This paper reports progress toward the experimental evaluation of the smart pixel based optical interconnection demonstrator currently being developed under the Free-space Accelerator for Switching Terabit Networks (FAST-Net) project. The prototype data switching system incorporates 2-D monolithic arrays of high-bandwidth vertical cavity surface emitting lasers (VCSELs) and photodetectors (PDs) that are solder bump bonded to CMOS circuits. The CMOS circuitry provides the high-speed drivers and receivers, control, and interface functions for the smart pixels. The integrated smart pixel arrays are distributed across a multi-chip substrate. A reflective optical system effects a global interconnection pattern across the multi-chip array by imaging clusters of VCSELs onto clusters of PDs. VCSEL/PD pairs are arrayed in a clustered format with a closest pitch of 250 μm. To achieve the required density and registration accuracy, the smart pixel arrays are positioned on the multi-chip substrate to a 10 μm registration tolerance. The optical system is similarly aligned to achieve 10 μm registration accuracy for the VCSEL/PD cluster images. The packaging issues and approach associated with the prototype are reviewed in this paper. The results suggest that a multi-Terabit/sec optically interconnected switch module is feasible.

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FAST-Net optical interconnection prototype characterization

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