Tampa Tech Wire - News and Technology From Around The Bay                  

NSF grant funds research at Florida Poly to develop reliable, energy efficient electronic devices

Facebook
Twitter
LinkedIn
Pinterest
Pocket
WhatsApp
Dr. Ashiq Sakib, an assistant professor, secured the $175,000 research grant that could change the landscape of self-powered electronic devices.
Dr. Ashiq Sakib, assistant professor of electrical and computer engineering at Florida Polytechnic University, has received a $175,000 grant from the National Science Foundation to research resilient and energy efficient designs for ultra-low power applications.
Dr. Ashiq Sakib, assistant professor of electrical and computer engineering at Florida Polytechnic University, has received a $175,000 grant from the National Science Foundation to research resilient and energy efficient designs for ultra-low power applications. - Photo: Florida Polytech

Lakeland, Fla. March 24, 2022 – (Erica Johnson | FPU) – Developing error-resilient and highly energy efficient computing platforms for ultra-low power applications will be the focus of a new research at Florida Polytechnic University funded by a grant from the National Science Foundation (NSF).

Dr. Ashiq Sakib, assistant professor of electrical and computer engineering, secured the $175,000 grant that could change the landscape of self-powered electronic devices operating on very minimal harvested energy. Low maintenance, safety critical, and extreme environmental applications, such as implantable medical electronics, military surveillance devices, and exploratory deep-sea and outer-space systems could benefit from this research.

“My focus is on energy efficiency and reliability,” Sakib said. “The proposal focuses on creating a venue to implement low power and sustainable embedded computing to support batteryless smart devices.”

Sakib said his approach is unconventional, but it has the potential to make a big difference. 

“Things are changing, and conventional designs are not being able to keep up,” Sakib said. “People are shifting toward finding alternate solutions and this is where my research comes in.”

we can create a whole new class of applications that can be serviced using energy harvesting based on asynchronous domain.

—Dr. Ashiq Sakib, Assistant Professor of Electrical & Computer Engineering at Florida Polytechnic University

Sakib explained that most digital electronic devices are synchronous, which use global clock for synchronizing between components, and are powered by rechargeable batteries. 

“With people demanding high speeds, technology is not always able to keep up. Because as you have high operating frequency clocks, the power consumption of your device becomes high,” Sakib said. 

The devices he envisions will be based on asynchronous clockless designs, which can resolve the power inefficiencies associated with conventional synchronous designs. This makes them an excellent choice for applications powered by very limited harvested energy, he said.

As the energy generated through harvesting is dependent on the environmental source, movement, or human activities, the supplied energy may fluctuate, and continuous supply of desired energy might not be guaranteed. He hopes to overcome this problem, allowing devices to maintain their functionality despite the energy fluctuations.

“If you cannot produce huge energy through the sources, the device has to be extremely energy efficient,” he said. “If a device has to operate on limited harvested energy, it can benefit from asynchronous designs and we can create a whole new class of applications that can be serviced using energy harvesting based on asynchronous domain.”

The two-year project will be conducted in two phases. The first will examine existing error-resilient architectures and analyze their error response. The second phase will involve creating modified or new architectures to ensure complete error resilience and evaluating their performance for power consumption, speed, and area utilization. Two graduate students and two undergraduate students will work on the project

Contact:
Lydia Guzmán
Director of Communications
863-874-8557

Facebook
Twitter
LinkedIn
Pinterest
Pocket
WhatsApp
Your subscription could not be saved. Please try again.
Thanks for subscribing!

Newsletter

Never miss any important news. Subscribe to our newsletter.

Leave a Reply

Your subscription could not be saved. Please try again.
Thanks for subscribing!

Newsletter

Never miss any important news. Subscribe to our newsletter.

Latest Jobs

Recent News

Popular

Blog Subscriber Form