Individually addressable monolithic 1 × 12 light-emitting diode array

Deimel, P.; Cheng, Jin; Forrest, S. R.; Hu, P. H.; Huntington, R.; Miller, Richard C.; Potopowicz, J. R.; Roccasecca, D. D.; Seabury, C.W.

doi:10.1109/jlt.1985.1074322

Cited by 16 publications

(2 citation statements)

References 10 publications

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“…As that decade grew to a close, it was clear that parallel optical interconnects should be energy efficient compared with electrical interconnects for system board-to-board, rack-to-rack and for local area networks [91,92]. The first parallel optical link demonstrations used 1 × 12 monolithic LED and PIN diode arrays [93,94], multifibre array connectors and a few hundred metres of fibre ribbon cable to achieve aggregates data rates of a few Gb s −1 [95,96]. While these proved the concept, it was realized that inefficient LED-based parallel optics and the immaturity of the ribbon fibre and array connectors would not enable commercial links.…”

Section: The Emergence Of Parallel Opticsmentioning

confidence: 99%

Advances in local area optical data communication systems

Cunningham

White

2020

Rep. Prog. Phys.

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This paper reviews optical fibre technology for local area optical communications systems. Technologies used in local systems include single and multimode fibre, single and multimode lasers, optical modulators, photodetectors, wavelength division multiplexing, multilevel modulation formats, electronic packet switching, electronic equalization and error correction. These methods have enabled the local area optical link data rate to increase from 0.1 Gb/s in 1990 to nearly a Tb/s in 2019. The challenges to increasing link data rates further, whilst reducing the transmitted power per bit, at reduced cost are discussed. Potential technical solutions and newly proposed methods which might address these challenges are highlighted.

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Section: The Emergence Of Parallel Opticsmentioning

confidence: 99%

Advances in local area optical data communication systems

Cunningham

White

2020

Rep. Prog. Phys.

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“…Source and detector arrays, combined with micromachined silicon alignment of fibers to array devices, provide optical fiber "ribbon cables" easily interfaced to the electronics of the system. [43][44][45] The present high cost of optical data links and their relatively low data rates [= 100 to 200 megabits per second (Mb/sl] limit present applications. However, lower cost and higher data rates will evolve over the next decade.…”

Section: New Interconnection-based Technologiesmentioning

confidence: 99%

Fundamental Interconnection Issues

Hornak¹,

Little²,

Tewksbury³

et al. 1987

At&T Technical Journal

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This paper presents several current interconnection issues as well as future technological directions for improved interconnection/communication performance. The physical hierarchy of interconnections and the corresponding communication environment are highlighted. General issues concerning chip‐to‐chip and on‐chip interconnections are reviewed, with particular emphasis on chip or wafer‐level clock distribution. Finally, wafer‐scale related system modules and optical interconnections are discussed from a “macro‐integration” perspective.

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System Interconnects

1999

Wiley Encyclopedia of Electrical and Electronics Engineering

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The sections in this article are Existing Interconnection Hierarchy System Interconnect Standards Optical Interconnects Architecture of Optical Interconnects Technologies for Optical Interconnect Systems Research Activities on Optical Interconnects Summary

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Individually addressable monolithic 1 × 12 light-emitting diode array

Cited by 16 publications

References 10 publications

Advances in local area optical data communication systems

Advances in local area optical data communication systems

Fundamental Interconnection Issues

System Interconnects

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