12/21/2023 0 Comments Fotonica 2016![]() This way has led to the creation of a new class of quantum matter – topological insulators. Unique experiments, new theoretical models as well as simulations have been elaborated by researchers in many countries to study unique optical, electrical and magnetic properties of these materials. This time we believe we understand better the nature of II-VI and III-V compounds. Three years after being at NANO2013 - Symposium on Nanostructered Materials, it is time to return to welcoming Rzeszow and to discuss, once again, the latest achievements of research on semiconductor nanostructures. More Context: Intel’s 2018 Data-Centric Innovation Summit – Alexis Bjorlin Presentation | Webcast Replay | Innovations for the Next Era of Data-Centric Connectivity (Alexis Björlin Blog) | Silicon Photonics: High Speed Optical Connectivity for 5G Wireless (Alexis Björlin Blog)Įven More Context: Learn more at Intel’s silicon photonics products web page.International Conference on Semiconductor Nanostructures for Optoelectronics and Biosensors Samples of its 400G silicon photonics products are expected to be available next quarter with volume shipment of 400G modules slated for the second half of 2019. Earlier this year, Intel demonstrated its 400G silicon photonics capabilities. Since introducing its first 100G silicon photonics product in 2016, Intel has ramped production and is shipping its 100G data center products at a run rate of more than a million units per year. What’s Next: Intel projects the total market opportunity for its connectivity business, which includes silicon photonics, to grow from $4 billion today to an estimated $11 billion total addressable market by 2022. Production start for the new silicon photonics wireless modules is scheduled for the first quarter of 2019. ![]() Samples of Intel’s silicon photonics transceivers targeting 5G wireless infrastructure are available now. Intel’s integrated laser into silicon approach makes its silicon photonics transceivers suitable for mass production and deployment as 5G infrastructure ramps. These transceivers are designed to meet the harsh outdoor conditions of cellular towers with the capability to support optical transport to the nearest baseband unit or central office (up to 10 km). Intel’s latest 100G silicon photonics transceivers meet the bandwidth demands of 5G wireless fronthaul applications. The industry’s move to 5G, along with a ramp in existing network traffic such as video streaming, is straining existing communications infrastructure that must support an expanded spectrum range including mmWaves, massive MIMO and network densification. Intel’s 100G silicon photonics solutions deliver tremendous value by offering fast, reliable and cost-effective connectivity. Why It’s Important: In the data-centric era, the ability to move, store and process data is paramount. Hong Hou, vice president and general manager of Intel’s Silicon Photonics Product Division By extending this technology outside the data center and into 5G infrastructure at the edge of the network, we can provide the same benefits to communications service providers while supporting 5G fronthaul bandwidth needs.” “Our hyperscale cloud customers are currently using Intel’s 100G silicon photonics transceivers to deliver high-performance data center infrastructure at scale. The latest 100G silicon photonics transceivers are optimized to meet the bandwidth requirements of next-generation communications infrastructure while withstanding harsh environmental conditions. At the European Conference on Optical Communication (ECOC) in Rome, Intel unveiled specifics on new silicon photonics products that are optimized to accelerate the movement of massive amounts of data being generated by new 5G use cases and Internet of Things (IoT) applications. What’s New: Intel today announced details on the expansion of its portfolio of 100G silicon photonics transceivers beyond the data center and into the network edge. Intel Corporation’s portfolio of 100G silicon photonics transceivers are optimized to meet the bandwidth requirements of next-generation communications infrastructure while withstanding harsh environmental conditions.
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