Webinar on Jun 24, 2020: IBM Research & Synopsys: Simulating Properties of Alternative Metals for Advanced Logic Interconnects
Learn MoreIBM Research and Synopsys Study on Properties of Alternative Metals for Advanced Logic Interconnects
Learn MoreDec 2019: Discover the New Features and Performance Improvements in QuantumATK Version Q-2019.12
Learn MoreResearch project between Synopsys and Technical University of Denmark gives breakthrough in atomic-scale modeling of solar cells
Learn MoreDiscover the new automatic method in QuantumATK for combining two crystals into a low-strain interface
Learn MoreTry a new method in QuantumATK for most efficient and accurate modeling of realistic rectifiers and transistors including electron-phonon coupling effects
Learn MoreA new method in QuantumATK for reliable and efficient calculations of resistivity and mobility including electron-phonon coupling effects
Learn MoreNew paper on first-principles Green's-function method for surface calculations with QuantumATK
Learn MoreOct 2019: Methods & Tools in QuantumATK to Study Resistive Switching in Novel Non-Volatile RAM-like Systems
Learn MoreOct 2019: QuantumATK Study Unraveling Controversy over an Electrocatalytic Reaction Mechanism
Learn MoreNew QuantumATK Study Discovers Magnetic States on the Edges of 1T’ TMDs, impacting their utilization as quantum spin Hall insulators
Learn MoreNew QuantumATK Study on Efficient Solar-Cell Devices Based on Stacked Janus 2D Material Layers
Learn MoreDiscover QuantumATK ForceField: run simulations on more than 100 000 atoms with more than 300 classical interatomic potentials!
Learn MoreA new QuantumATK study from GLOBALFOUNDRIES and IBM Research aiming at reducing the metal - semiconductor contact resistance in semiconductor devices
Learn MoreNew QuantumATK study from IBM Research on the potential of Pt, Rh, Ir and Pd nanowires for the next generation transistor-interconnect technology
Learn MoreInterested in applying QuantumATK software to your research? Test our software or contact us at quantumatk@synopsys.com to get more information on QuantumATK platform for atomic-scale modeling.