Device Studio

As multiscale simulation reshapes materials science, Device Studio emerges as a unified platform eliminating fragmented toolchains. By integrating intuitive guided workflows with end-to-end capabilities—from atomic modeling to simulation and analysis—it democratizes advanced simulation for both experts and newcomers.

Experience the Power of Device Studio on AWS

Every subscription includes:

  • c7i.16xlarge Intel Xeon (64 vCPUs, 128 GiB RAM)
  • 500 GiB Storage
  • Full License Bundle: Device Studio + DS-PAW + BDF
  • One-Click Deployment: Pre-configured AWS environment

Flexible subscription options:

Monthly / Annual

Device Studio on AWS Dashboard

HZW Supercomputing Resource

AWS Cloud

Intel Xeon
3.2GHz~3.8GHz
64 vCPUs, 128 GiB RAM

HZW Cloud A

Intel Xeon
2.4GHz~3.3GHz
28 CPUs, 128 GiB RAM

HZW Cloud B

Intel Xeon
2.3GHz~3.6GHz
96 CPUs, 384 GiB RAM

HZW Cloud C

Intel Xeon
2.5GHz
48 CPUs, 334 GiB RAM

HZW Cloud D

Intel Xeon
3.0GHz
30 CPUs, 128 GiB RAM

HZW Cloud E

AMD EPYC
2.6GHz~3.3GHz
128 CPUs, 256 GiB RAM

HZW Cloud F

Intel Xeon
2.4GHz~3.12GHz
96 CPUs, 578 GiB RAM

HZW Cloud G

Intel Xeon
2.5GHz
48 CPUs, 192 GiB RAM

HZW Cloud H

Intel Xeon
2.5GHz
48 CPUs, 192 GiB RAM

HZW Cloud I

Coming soon
sw39000
MPE: 2.1GHz, CPE: 2.25GHz
6 core groups (CGs), each with 1 manage processing element(MPE) and 64 computing processing elements (CPEs), total 390 cores

HZW Cloud J

Coming soon
Intel Xeon Gold 6258R
2.7GHz
56 CPUs, 192 GiB RAM

Key Application Areas

Our products and technologies are widely applicable across critical fields of material design and development

Semiconductor Materials
Advanced semiconductor material & device design and testing analysis for next-generation electronics.
Battery Materials
Lithium battery material design and optimization for improved energy storage solutions.
Alloy Metals
Alloy metal material design for enhanced mechanical and thermal properties.
Biomedical Materials
Biomedical material design for healthcare and pharmaceutical applications.

Typical Cases

Case 1:Negative Capacitance Effect in SemiconductorHZO Material Systems

Case 2:Performance Optimization of Low-PowerSemiconductor Devices

case 3:Machine Learning-Based Formulation Optimizationfor Electrolyte lonic Conductivity

Case 4: Design of Photoelectric Molecular Materials for OLEDs

Case 5:Phase-Field Simulation of Solidification and GrowthProcesses in Noble Metal Alloys

Case 6:Phase-Field Simulation of Solidification and GrowthProcessesVICEoble Metal Alloys