Skip to main content

Research

This image was generated by Midjourney using Salvador Dali’s open art images and LPiNS logo.

This image was generated by Midjourney using Salvador Dali’s open art images and our LPiNS logo. (Hardware Utilization NVIDIA GeForce GTX 1070 GPU Memory: 7.4GB, Temp: 63C, Utilization 6%). Can we do it better?

Research at a Glance

LPiNS Laboratory’s research goal is to innovate low-power algorithms, design methods to model and design energy-efficient integrated circuits and computer hardware architectures. Foundational and applied work extends across diverse audiences and applications, from biomedical device innovation to in-memory device architecture re-design. Our research topics can be illustrated in a matrix format. The core research objective is building energy-efficient hardware components, systems, and architectures utilizing low-power circuit methods and current technological trends. Our applications and our passion lies in crafting solutions that transcend boundaries, benefiting both human health and the natural world. With a dedicated focus on humanitarian initiatives such as healthcare devices and wildlife/nature conservation technologies, we are committed to developing greener technology. We often ask ourselves…

“Can we do it better?”

LPiNS Laboratory's Research Matrix. The x-axis represents our research and incorporation of Artificial Intelligence (AI) and Neural Network/Deep Learning, enabling automation and high precision rate in applications, and the y-axis represents our focus on developing and designing energy/power-efficient integrated circuits and embedded systems for real-time applications focusing on humanitarian initiatives.

LPiNS Laboratory’s Research Matrix. The x-axis represents our research and incorporation of Artificial Intelligence (AI) and Neural Network/Deep Learning, enabling automation and high precision rate in applications, and the y-axis represents our focus on developing and designing energy/power-efficient integrated circuits and embedded systems for real-time applications focusing on humanitarian initiatives.

 

Research Topics

Our research topics include design of integrated circuits, design and engineering for humanity and AI/machine-learning hardware architecture. We are a research laboratory consisting and collaborating with electrical and mechanical engineers, sensor architects, natural conservationist, humanitarian activists and healthcare professionals.

Back To Top