%0 Conference Paper %K Energy efficiency %K Energy-Efficient %K Iron compounds %K Lanthanum compounds %K Bismuth compounds %K Computer circuits %K Electron devices %K Logic devices %K Selenium compounds %K Building blockes %K Experimental demonstrations %K Local spin %K Proof of concept %K Signal output %K Spin orbits %K Supply currents %A C.-C Lin %A M Dc %A H B Liu %A K Oguz %A E.S Walker %A J Plombon %A B Buford %A C.H Naylor %A J.-P Wang %A F Casanova %A Ramamoorthy Ramesh %A T Gosavi %A I.A Young %A D Nikonov %A Y.-L Huang %A B Prasad %A W Choi %A V.T Pham %A I Groen %A J.-Y Chen %B Technical Digest - International Electron Devices Meeting, IEDM %D 2019 %G eng %I Institute of Electrical and Electronics Engineers Inc. %R 10.1109/IEDM19573.2019.8993620 %T Experimental demonstration of integrated magneto-electric and spin-orbit building blocks implementing energy-efficient logic %V 2019-December %@ 9781728140315 %X 600 mV magneto-electric switching in 30 nm La-doped BiFeO3 multiferroic oxide and a proof of concept 7 μV spin-orbit signal output in Pt / CoFe local spin injection device with 100 μA supply current were experimentally demonstrated at room temperature for the 1st time. Also demonstrated was a path towards 70 mV spin orbit output using Bi2Se3 in a local spin injection device. These are key accomplishments for WRITE and READ building blocks, respectively, toward realization of a magneto-electric spin-orbit (MESO) energy-efficient logic device. Moreover, the 1st generation of a MESO logic device with a functional READ unit is demonstrated. © 2019 IEEE.