Topic
- Computing and Processing
- Components, Circuits, Devices and Systems
- Communication, Networking and Broadcast Technologies
- Power, Energy and Industry Applications
- Signal Processing and Analysis
- Robotics and Control Systems
- General Topics for Engineers
- Fields, Waves and Electromagnetics
- Engineered Materials, Dielectrics and Plasmas
- Bioengineering
- Transportation
- Photonics and Electrooptics
- Engineering Profession
- Aerospace
- Geoscience
- Nuclear Engineering
- Career Development
- Emerging Technologies
- Telecommunications
- English for Technical Professionals
Alessandro Curioni
Also published under:A. Curioni
Affiliation
IBM Research–Zurich, Rüschlikon, Switzerland
Topic
Amorphous Carbon,Conductive Filaments,Heat Resistance,Memory Devices,Block Diagonal,Dependence Of Conductivity,Electrode,Endurance Cycling,Field Dependence,High Resistance State,Joule Heating Effect,Load Resistance,Matrix Multiplication,Memory Cells,Molecular Dynamics,Molecular Dynamics Simulations,Parallelization,Point-to-point Communication,Reversible Switching,Source Measure Unit,Sparse Matrix,Strong Scaling,Switching Memory,Temperature Dependence Of Conductivity,Temperature Distribution,Access Patterns,Adaptive Mesh Refinement,Adaptive Refinement,Anisotropy,Arbitrary Function,Atoms In Region,Benchmark Test,Big Data,Carbon-based Devices,Chebyshev Polynomials,Classical Molecular Dynamics Simulations,Communication Network,Communication Time,Computing Nodes,Conductive,Coulombic Efficiency,Crucial Observation,Density Matrix,Diagonal,Diamond-like Carbon,Dielectric Breakdown,Distribution Matrix,Divide-and-conquer Approach,Earthquake Occurrence,Earth’s Interior,
Biography
C. David Wright (M’96) received the B.Sc. degree in physics
from the Imperial College of Science and Technology, London, U.K., in 1978 and the Ph.D. degree in perpendicular
magnetic recording from Manchester in 1985. He took up the Chair in electronic and computer engineering at Exeter in
1999. His main research interests include the development of resistive-switching based materials and their use in a
wide range of applications, from memories to computing to novel optoelectrics. He was the leader (coordinator) of the
EU-FP7 Project CareRAMM (Carbon resistive switching random access memory materials) that brought together partners
from IBM Zurich, RWTH-Aachen, University of Cambridge, ISSP-Sofia, and the University of Exeter, and under the
auspices of which the work reported in this paper was carried out. He is the Head of the Nanoengineering, Science and
Technology Group at Exeter, and is leader of the University's strategic research theme of “Functional
Materials”.