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Follow on Google News | GIGALIGHT Empowers Data Centers with Massive 400G/800G SiPH Modules via Custom COP TM PlatformGIGALIGHT's mass production of 400G/800G SMF&MMF SiPh modules signifies a pivotal advancement in high-speed data center connectivity. Leveraging our innovative COP TM Process Platform ensures top-tier performance, especially over long distances.
By: GIGALIGHT GIGALIGHT has made significant strides in silicon optical chip and module development since 2018, successfully completing the production or sampling stage for at least 10 different kinds of silicon photonics modules. More innovative and differentiated silicon photonics optical modules are set for release in 2024. Bulk production:
Sample production:
The mass production of SiPh optical modules is primarily attributed to our proprietary and customized COP TM (Chip on Plane) process platform. This single platform enables the planar form factor of various lasers, including DML, EML, silicon optics, and TFLN. Leveraging the capabilities of this process platform and substantial investments in 800G/400G automated testing equipment, GIGALIGHT has recently achieved a composite monthly output capacity of 10K for 800G/400G multimode and single-mode optical modules! GIGALIGHT's SiPh optical modules and multimode VCSEL technology collectively comprise an integrated solution tailored for high-speed AI data center interconnections. These SiPh optical modules specifically target interconnection scenarios exceeding 100 meters, while within the 100-meter range, the preference leans towards low-power 400G SR4/800G SR8 multimode optical modules. Looking ahead, silicon optics might eventually emerge as the ultimate solution. However, assessing SiPh optical technology based solely on power consumption might be an unnecessary focus. In fact, GIGALIGHT's product line showcases that both the silicon-based 400G and 800G optical modules do not exhibit power consumption disadvantages compared to EML technology. Currently, debates on power consumption might not hold immediate significance, given that power consumption primarily depends on the utilized DSP. In the forthcoming future, silicon optics could take on the significant task of reducing power consumption in the link away from DSPs. Philosophically speaking, the focus should shift from debating the current state to earnestly approaching future innovations. For more details at https://www.gigalight.com/ End
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