The work performed has led to main results as follows:
1. To qualify VCSELs and ICs for mass production, the design, production and pre-qualification of advanced VCSELs capable of up to 50 Gb/s per channel took place. In advanced single mode, VCSELs bit data rates of 25 Gbaud and 50 Gbaud were demonstrated, low RIN and high linearity was achieved. 108Gb/s data transmission was demonstrated over 100m of multimode fiber in PAM-4 modulation format, 54 Gb/s NRZ transmission over 2.2 km MM fiber was achieved. Up to 150 Gb/s transmission per single VCSEL was achieved in DMT and multi-CAP modulation formats over up to 300 meter of multimode fiber. All these results represent world records for VCSEL transmission over multimode fiber and are realized suing the same type of the devices produced by VIS (VCSELs and PIN photodetectors).
Furthermore, optimal epitaxial designs were modelled and altogether 110 epitaxial VCSEL wafers were grown at an industrial foundry necessary for the start of extended qualification program aimed at single mode 50 Gbaud VCSELs. 3 multi-wafer processing runs were executed.
2. To prepare market uptake and to create market awareness, the company exhibited at major international conferences and met multiple customers in the field of optical components and optical fiber communication, including multiple visits to customers and partners in the Silicon Valley, e.g. key Datacom system, supercomputer and consumer electronics companies.
The company presented talks on high speed VCSEL components at relevant conferences, e.g. Photonics West, OFC, and Asia Communications and Photonics Conference. Moreover, several, joint publications with customers and R&D partners have been released.
The customers are thus aware of possible drastic distance increase in the present generation of 100 Gb/s (25 Gb/s × 4) VCSEL based links (IEEE Std 802.3bm-2015) and also the availability of the devices (VCSELs, PINs, ICs, assemblies) suitable for new generations of VCSEL links being under standardization. The single channel bit data rates in the standards:
a. 56 Gb/s NRZ (64GFC Fibre Channel, CEI-56Gvsr, CEI-56G-usr)
b. 25 Gb/s x16 NRZ (IEEE P802.3bs 200 Gb/s and 400 Gb/s Ethernet Task Force)
c. 50 Gb/s PAM4 VCSELs at 25 Gbaud (IEEE P802.3cd 50 Gb/s, 100 Gb/s, and 200 Gb/s Ethernet Task Force)
will be covered by VCSELs with a significant safety margin, consequently, allowing standard multimode fiber-based architecture in datacenters, supercomputers and server farms to last and increase the share in the near future by extending the transmission distance. With 100 Gb/s PAM4 demonstration over MMF, VIS offered a solution for short reach technology for future standardization work for distances presently targeted only for single mode fiber transmission.
3. Overall, with PhotoniX technology, an ultra-high speed and reliable data communication at > 50 Gb/s transmission rate at low power level is now available. Thus, PhotoniX is completely in line with its ambitions to overcome the bottleneck of data transfer within large computer systems, thus, improving European digital infrastructure. With expected revenues to increase sharply, VIS is going to take approximately 2% of the addressable worldwide market for VCSEL chip used for data transmission. Thus, VIS will unlock the potential of new solutions for applications in high speed data transmission and new application such as 3D recognition or optical sensors, to leverage a global VCSEL chip market share of 4 % in the longer term. Main contracts acquired during the project duration prove a promising growth perspective. The fabless business model allows the company to establish a dominant position in a niche market and not to compete with the large foundries and companies. However, it might be necessary to invest in an own pilot line to take control over the most decisive technology steps.
PhotoniX is involved in relevant standardization activities defining new passes for the industry.