Summary: Researchers have bridged the gap between biology and silicon by creating a 3D programmable device that merges living brain cells with advanced electronics. Unlike previous “brain-on-a-chip” ...

Abstract: Accurate IR drop analysis in 3D integrated circuits (3D ICs) is critical for ensuring power integrity and physical design convergence. However, conventional IR drop simulation flows suffer ...

Soft electrodes designed to perfectly match a person's brain surface may help advance neural interfaces for neurodegenerative disease monitoring and treatment, according to a new study led by Penn ...

Summary: No two brains are shaped exactly alike, yet most neural implants use a “one-size-fits-all” design. Researchers have developed a breakthrough approach to 3D printing soft, stretchable ...

The soft bioelectrodes use a honeycomb-inspired design that allows researchers to stretch them onto the specific geometry of a patient’s brain, without sacrificing structural strength or sensitivity ...

Abstract: This paper introduces an innovative approach utilizing a deep neural network (DNN) to optimize the modulation scheme for time-modulated antenna array (TMAA) to verify specific side lobe and ...