VCSEL-Based Light Sources—Scalability Challenges for VCSEL-Based Multi-100- Gb/s Systems

Abstract

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Future high-performance computers require optical interconnects with aggregated Exa-Byte/s data transport. Densely packed arrays of vertical-cavity surface-emitting lasers (VCSELs) might present the only feasible technical solution. The high-speed properties of semiconductor lasers, however, are strongly affected by their operating temperature. Thermal crosstalk becomes dominant when densely packed arrays of high-speed VCSELs are required. In this paper, we derive the maximum bandwidth of future VCSEL-based optical interconnects from the influence of device heating occurring in high-speed VCSEL arrays. Furthermore, we estimate the scalability of this technology and address the challenges. From our calculations we obtain, that VCSEL arrays are scalable from a bandwidth density of 100 Gbps/mm2 with today's devices up to a technological limit of 15 Tbps/mm2.

Keywords

• Vertical-cavity surface-emitting laser (VCSEL)
• optical interconnects
• energy efficiency
• high-performance computing
• VCSEL arrays
• scalability