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Materials Design
at the speed of thought.
Atomic Tessellator is the world’s fastest, most comprehensive multiscale materials design suite.
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Serving industry
and academia
Focus on Materials,
not on Infrastructure
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High-performance computing with zero configuration
⇝
Extensible and interoperable pipelines
↔
Collaboration
and support
The platform retrieves docker images with ready-to-use binaries containing the precise drivers, dependencies, and libraries upon simulation launch. Simulations are processed in asynchronous batches and are infinitely scalable. Complete infrastructure automation handles GPU-accelerated workloads without system administration needs. Only simulation parameters are required.
Build high throughput, automated workflows with extensible pipelines using an intuitive node-based canvas or via our Python API. Optimise your structure results by forking simulations, and testing various parameter permutations. The platform includes straightforward documentation, also accessible from directly within the interface.
Enable rapid hypothesis testing by sharing and collaborating on your simulations with your team in real-time, and export publication-ready charts, graphs, and advanced visualisations to support discoveries. Connect with other computational materials scientists through our slack community, where you’ll also gain a 24/7 direct line of communication to our team.
62,127
Materials Science research papers indexed and queryable via retrieval-augmented generation
>1,000,000
Primitives and structures from open source materials databases, importable directly from within the platform
Modelling
Ab-initio & Density Functional Theorem
FHI-aims
TeraChem
Deep Learning
Microsoft Mattersim
EquiformerV2
Orbital Materials ORB
Structure Generation
Supercells
Special Quasi-random Structures
Spectra
Band Gaps
Density of States
Mesoscale
Phase Field Modeling
Discrete Dislocation Dynamics
Continuum/Macroscale
SOON
Finite Element Analysis
Computational Fluid Dynamics
Concurrent Coupling
SOON
Engineering Properties
Electrical
SOON
FHI-aims
TeraChem
Thermal
Thermal Conductivity
Transport Properties
Thermodynamics
Machinability
SOON
Cost
SOON
Magnetic Properties
Anisotrophy Field
SOON
Coercivity
Maximum energy product
Magnetostriction
Hysteresis losses
Magnetocaloric effect
SOON
Entropy change
Adiabatic temperature change
Relative cooling power
Polarization
SOON
Remanence
TeraChem
Saturation Magnetization
SOON
Texture
Curie Temperature
Operating Temperature
Mechanical Properties
Aoung's Modulus
Shear modulus
Bulk modulus
Poisson’s ratio
Linear compressibility
Microstructure and defects
SOON
Hardness
Strength
Plasticity
Ductility
Fatigue
Acoustic
Transverse Mode 1
Transverse Mode 2
Longitudinal Mode
Chemical Properties
Toxicity
SOON
Environmental Impact
Phase stability
SOON
(off-) Stoichiometries
Element criticality
SOON
Recycling
Corrosion resistance
SOON
Building towards
full coverage