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New Software Release: MedeA® 2.22 Unlock the Code

 

 

 

 

 

 

 

 

 

 

 

 

Materials Design, Inc. announces the release of MedeA® version 2.22.

The release of MedeA® 2.22 includes:

  • Updated versions of compute engines VASPGIBBSLAMMPSGAUSSIAN, and MOPAC, accelerating performance and providing many new properties and features
  • Builder capability extensions – enhancing model construction and accelerating simulation studies
  • Updates to the MedeA® Forcefield library with many new forcefield types and parameter sets and extensions broadening coverage and improving simulation accuracy for many materials
  • Database updates and enhancements providing access to the latest in materials science information
  •  MedeA® runs natively in 64-bit mode both on Windows and Linux operating systems.

The release of MedeA® software version 2.22, allows the user to:

  • Benefit from using updated versions of all the MedeA® environment compute engines, with many new features and incorporating improvements in computing performance.

    • VASP 5.4.4 automated computational protocols provide response functions including electron-hole excitonic effects, accurate correlation energies from the random phase approximation, as well as new meta-GGA and van der Waals functionals, efficiently and straightforwardly delivering advanced calculations.
    • GIBBS 9.6.2 handles flexible multi-cyclic molecules opening new perspectives in property prediction for compounds of interest to a broad range of industries.
    • MedeA-UNCLE cluster-expansion engine extends the predictive power and accuracy of ab-initio methods to efficient large scale modeling of disordered systems, and now enables simulations for multi component alloys and surfaces, permitting the study of high-entropy alloys, surface segregation and surface coverage of adsorbents.
  • Efficiently build complex models, with the extension of the capabilities of the Thermoset

    Builder to allow control over relative probabilities of crosslink formation at sites capable of reacting multiple times and improve creation of large numbers of thermosets using Flowcharts and High-Throughput features.

  • Have increased simulation coverage and accuracy from the addition of new types of forcefields

    for molecular dynamics (ReaxFF, MEAM, REBO, and Streitz-Mintmire) and the extensions to existing forcefields for molecular dynamics and Monte Carlo (pcff+, TraPPE-UA+, mie).

  • MedeA® 2.22 - New Capabilities

“This MedeA® release unlocks cutting edge simulations with the latest generation of compute engines.” says Clive Freeman, CEO of Materials Design®. “MedeA® supplies up-to-date and thoroughly validated capabilities providing straightforward access to advanced methods opening tremendous opportunities in materials science research and development and high-throughput simulation.”

MedeA® is the leading professional software environment for atomistic materials modeling used at more than 500 customer sites worldwide. Scientists and engineers in industry and research institutions use MedeA® to understand complex processes such as mechanical failure, electrochemistry and ionic conductivity in batteries, and catalytic reactions; and to compute materials properties efficiently and systematically. MedeA® helps to create better products while saving valuable research and development time and cost.

MedeA® integrates world-leading structural databases (i.e., totaling over 980,000 entries), electronic structure programs, molecular dynamics and Monte Carlo methods with a host of powerful building, editing, and analysis tools in a unified environment thus allowing elaborate workflows to be used in a most efficient, easy to implement and reproducible manner. Its innovative high-throughput (HT) capabilities enable the full exploitation of increasingly available computing power.

About Materials Design 

Founded in 1998 by a team of leading scientists and technologists, Materials Design® is a global leader in computational materials science software and services. From Energy and Automotive to Electronics, Materials Design® works across industries and academia helping scientific research and engineering teams design new materials, predict their properties, and generate value through innovation to meet today’s challenges. Materials Design® is a dynamic innovator with employees and partners working on three continents and in seven time zones. Visit us online at www.materialsdesign.com

Download Medea 2.22


MedeA® 2.22 - New Capabilities

The new release, MedeA® 2.22, offers a range of new capabilities and enhancements as follows:

MedeA®-VASP:

  • Latest release, VASP 5.4.4, is introduced
  • Very accurate total energies from exact exchange and many-body correlation via ACFDT-RPA, as obtained from a fully automated computational protocol
  • Electronic response functions including electron-hole interactions by solving the Bethe-Salpeter equation on top of a GW quasiparticle calculation, as delivered by a multi-step computational protocol
  • Automated protocol for optical spectra including excitonic effects from time-dependent hybrid functionals (or TD-DFT) by solving the Casida equation
  • New meta-GGA functionals: SCAN, MS0, MS1, and MS2
  • New van der Waals functionals: BEEF-vdW, rev-vdW-DF2 (Hamada), SCAN + rVV10
  • New van der Waals forcefields: Many-body dispersion energy, DFT + dDsC
  • Advanced option to enable site- and atom-resolved (rather than default element-resolved) definition of potentials, U and J parameters, core holes etc.
  • Spin-polarized calculations constraining the total magnetic moment
  • Enhanced output options
  • VASP High-Throughput is aligned with the VASP 5.4 GUI settings

MedeA®-GIBBS:

  • New version 9.6.2
  • Extended capabilities to treat flexible/semi-flexible multi-cyclic molecules
  • Mie potential and Lafitte mixing rule introduced

MedeA®-LAMMPS:

  • New version (2017)
  • Atoms can be partly frozen (x/y/z)
  • Charge equilibration is turned on by default for charge transfer forcefields (COMB3, Streitz-Mintmire, and ReaxFF)

MedeA®-MOPAC:

  • New version (2016) of MOPAC

MedeA®-GAUSSIAN:

  • New version (2016) of GAUSSIAN supported

MedeA®-InfoMaticA & Databases:

  • Update of COD database
  • Update of Pearson database
  • MPDS

MedeA®-Thermoset Builder:

  • Substitution effect (control over relative probabilities of crosslink formation at sites capable of reacting multiple times)
  • Archival of snapshots of the periodic models during model build

MedeA®-HT:

  • HT Launchpad enhanced parallelization and workflow capabilities
  • HT Descriptors extended descriptor and reporting functionality

MedeA®-UNCLE:

  • Surface cluster expansion and Monte Carlo (applications for surface segregation, coverage of adsorbents, catalysis)
  • Automatic default or custom settings dedicated to multinary cluster expansion optimization

MedeA®-Phonon:

  • Refined temperature grid for thermodynamic functions
  • Thermal displacement tensors for all lattice sites

MedeA®-Forcefields:

  • PCFF+:
    • New parameterization for hydroxide ions (LJ parameters, partial charges and bond stretch)
    • Extension of parameterization (angle-angle term) for imide 5-membered rings
    • New forcefield parameters for boron-nitride
    • Enhancements and refinements for dimethyl siloxanes
  • MEAM:
    • Addition of Modified Embedded Atom Method (MEAM) forcefield type
    • MEAM forcefields for Cu, Ni, W, AlSiMgCuFe, AuSi, CH, FeC, SiC, and FeTiC included in the forcefields’ library (for use in LAMMPS)
  • Streitz-Mintmire:
    • Addition of Streitz-Mintmire forcefield type (also known as Charge Transfer Ionic Potentials).
    • Streitz-Mintmire forcefields for actinides-O, Al/Al2O3, and Ta/Ta2O5 included in the forcefields’ library.
  • ReaFF:
    • Addition of Reactive Forcefield (ReaxFF) forcefield type
    • ReaxFF forcefields for AuOH, CHO (combustion), CHON (nitramines), CHONSFPtClNi, FeCHO, HONB, VCHO, and ZnOH included in the forcefields’ library.
  • REBO:
    • Addition 1st generation Reactive Bond Order Potential (REBO) forcefield type
    • 1st generation REBO forcefield for SiClAr included in the forcefields’ library.
  • TraPPE-UA+:
    • Multiple extensions for TraPPE-FullyFlexible, for polycyclic compounds (aromatic, naphthenic and naphthenoaromatic)

MedeA®-FFO:

  • FFO extensions to handle explicit charge optimization
  • Enhancements for BKS forcefield optimization
  • Extensions to Bonny spline-based EAM forcefields

MedeA®-JobServer and MedeA®-TaskServer:

Platform Support: MedeA®2.22 is supported on 64 bit Windows and 64 bit Linux operating systems.

 

Download MedeA 2.22

Publish while: 
2017 Dec 7 - 10 - 2018 Jan 30 - 14

News & Views

Curious about the MedeA GUI? Watch the webinar here

Did you miss the webinar? Watch the recording here.

Click here to see the new capabilities of 2.22