A5103064214- Photonic and Optical Devices
- Semiconductor Lasers and Optical Devices
- Optical Network Technologies
- Advanced Photonic Communication Systems
- Indoor and Outdoor Localization Technologies
- Topic Modeling
- COVID-19 diagnosis using AI
- Photonic Crystals and Applications
- Radio Wave Propagation Studies
- Target Tracking and Data Fusion in Sensor Networks
- Integrated Circuits and Semiconductor Failure Analysis
<title>Abstract</title> The recent surge of Multimodal Large Language Models (MLLMs) has fundamentally reshaped the landscape AI research and industry, shedding light on a promising path toward next milestone. However, significant challenges remain preventing MLLMs from being practical in real-world applications. most notable challenge comes huge cost running an MLLM with massive number parameters extensive computation. As result, need to be deployed high-performing cloud servers, which...
We address the effects of packaging on performance, reliability and cost photonic devices. For silicon photonics we some specific aspects. Finally propose an approach for integration ASICs.
This paper covers a silicon photonics technology platform that leverages commercial semiconductor supply chain for the manufacturing of high performance optical transceivers computing and hyper-scale data-center applications.
The source location based on the hybrid time difference of arrival (TDOA)/frequency (FDOA) is a basic problem in wireless sensor networks, and layout sensors TDOA/FDOA positioning will greatly affect accuracy positioning. Using unmanned aerial vehicle (UAV) as base stations, by optimizing trajectory UAV swarm, an optimal configuration formed to improve target position velocity estimation. In this paper, model first established, under different configurations measurement errors simulated...
In this paper we discuss design and characterization of silicon-photonics-based 100 Gbps (4×26 Gbps) transceivers for parallel single mode fiber communication. We also address some key underlying technologies including silicon photonics wafer processing, photonic device libraries, light source integration packaging technologies.
Ultra-low-loss optical coupling between photonic circuits and components is crucial in many applications such as quantum computing, sensing communications. This letter presents the thermal stability of a SU-8 based taper interconnect by characterizing its efficiency (CE) structural robustness after exposure to elevated temperatures. The heated from 280 °C 400 for duration 1 min 120 min. experimental results reveal that CE loss linear with high temperature, while relation temperature adheres...
In this paper we discuss the different aspects of designing and manufacturing advanced silicon photonics transceivers focus on utilizing experience infrastructure from CMOS industry. As an example, implementation a 100G CWDM-2 transceiver.
In this paper we address key design and performance aspects of high-speed optical transceivers based on silicon photonics technology.
Large progress has been made in the field of silicon photonics since its inception late eighties last century. An intriguing and challenging research evolved with time into a flourishing industry supporting propelling growth data centers distribute computing known as "the Cloud.".
We discuss key design elements that enable highspeed optical transceivers based on Luxtera's hybrid integrated silicon photonics platform.
In this paper we address silicon photonics based optical transceiver technology for applications in advanced data communications such as high performance computing and hyperscale datacenters.
We assess the reliability of a complete silicon integrated photonics platform through suite assurance and qualification tests. demonstrate high each component optical transceiver.