Research Bits: May 7


High-temperature memory Researchers from the University of Pennsylvania and Air Force Research Laboratory demonstrated memory technology capable of enduring temperatures as high as 600° Celsius for more than 60 hours while retaining stability and reliability. The non-volatile memory device consists of a metal–insulator–metal structure, incorporating nickel and platinum electrodes with a 4... » read more

Research Bits: April 23


Probabilistic computer prototype Researchers at Tohoku University and the University of California Santa Barbara created a prototype of a heterogeneous probabilistic computer that combines a CMOS circuit with a limited number of stochastic nanomagnets. It aims to improve the execution of probabilistic algorithms used to solve problems where uncertainty is inherent or where an exact solution... » read more

Memristor Crossbar Architecture for Encryption, Decryption and More


A new technical paper titled "Tunable stochastic memristors for energy-efficient encryption and computing" was published by researchers at Seoul National University, Sandia National Laboratories, Texas A&M University and Applied Materials. Abstract "Information security and computing, two critical technological challenges for post-digital computation, pose opposing requirement... » read more

VCMA-Controlled MTJ Devices For Probabilistic Computing Applications


A technical paper titled “Probabilistic computing with voltage-controlled dynamics in magnetic tunnel junctions” was published by researchers at Northwestern University, University of Messina, Western Digital Corporation, and Universitat Jaume I. Abstract: "Probabilistic (p-) computing is a physics-based approach to addressing computational problems which are difficult to solve by convent... » read more

Power/Performance Bits: Oct. 15


Probabilistic computing Researchers at Purdue University and Tohoku University built a hardware demonstration of a probabilistic computer utilizing p-bits to perform quantum computer-like calculations. The team says probabilistic computing could bridge the gap between classical and quantum computing and more efficiently solve problems in areas such as drug research, encryption and cybersecurit... » read more