Efficient Molecular Dynamics Simulations

Efficient Molecular Dynamics Simulations

Efficient Molecular Dynamics Simulations

WaferMol

WaferMol

WaferMol

Highly efficient computational platform for Molecular Dynamics simulations, powered by wafer-scale engine technology to deliver unprecedented speed and energy efficiency. From exploring solvation processes to advancing lead optimization in drug design, WaferMol’s architecture—built on our integration with Cerebras—enables cheaper, and more accurate simulations than ever before.

Highly efficient computational platform for Molecular Dynamics simulations, powered by wafer-scale engine technology to deliver unprecedented speed and energy efficiency. From exploring solvation processes to advancing lead optimization in drug design, WaferMol’s architecture—built on our integration with Cerebras—enables cheaper, and more accurate simulations than ever before.

Highly efficient computational platform for Molecular Dynamics simulations, powered by wafer-scale engine technology to deliver unprecedented speed and energy efficiency. From exploring solvation processes to advancing lead optimization in drug design, WaferMol’s architecture—built on our integration with Cerebras—enables cheaper, and more accurate simulations than ever before.

WaferMol harnesses the unparalleled power of Cerebras’ wafer-scale architecture to deliver a quantum leap in molecular dynamics simulations. By tapping into an entire wafer of 900,000 processor cores and 44 GB of on-chip memory, WaferMol eliminates the interconnect bottlenecks typical of multi-chip systems. This vast number of tightly integrated cores provides massive parallelization, allowing researchers to simulate complex molecular systems—such as cellular membranes, catalytic reactions, and Li-ion batteries—with greater accuracy over longer time scales.

WaferMol harnesses the unparalleled power of Cerebras’ wafer-scale architecture to deliver a quantum leap in molecular dynamics simulations. By tapping into an entire wafer of 900,000 processor cores and 44 GB of on-chip memory, WaferMol eliminates the interconnect bottlenecks typical of multi-chip systems. This vast number of tightly integrated cores provides massive parallelization, allowing researchers to simulate complex molecular systems—such as cellular membranes, catalytic reactions, and Li-ion batteries—with greater accuracy over longer time scales.

WaferMol harnesses the unparalleled power of Cerebras’ wafer-scale architecture to deliver a quantum leap in molecular dynamics simulations. By tapping into an entire wafer of 900,000 processor cores and 44 GB of on-chip memory, WaferMol eliminates the interconnect bottlenecks typical of multi-chip systems. This vast number of tightly integrated cores provides massive parallelization, allowing researchers to simulate complex molecular systems—such as cellular membranes, catalytic reactions, and Li-ion batteries—with greater accuracy over longer time scales.

Highlights

WaferMol is a powerful computational tool for molecular dynamics simulations of materials and molecules, including:

  • Cellular membrane transport

  • Surface catalytic reactions and corrosion kinetics

  • Solvation processes

  • Li-ion batteries

  • Thermodynamic properties of solids

Highlights

WaferMol is a powerful computational tool for molecular dynamics simulations of materials and molecules, including:

  • Cellular membrane transport

  • Surface catalytic reactions and corrosion kinetics

  • Solvation processes

  • Li-ion batteries

  • Thermodynamic properties of solids

Highlights

WaferMol is a powerful computational tool for molecular dynamics simulations of materials and molecules, including:

  • Cellular membrane transport

  • Surface catalytic reactions and corrosion kinetics

  • Solvation processes

  • Li-ion batteries

  • Thermodynamic properties of solids

Technology

WafeMol operates on the Cerebras Wafer-Scale engine architecture, leveraging its 900k computing cores:

  • 900 000 cores

  • 44 GB of on-chip memory

  • 21 PB/s of bandwidth

  • 50x energy savings compared to GPU

Technology

WafeMol operates on the Cerebras Wafer-Scale engine architecture, leveraging its 900k computing cores:

  • 900 000 cores

  • 44 GB of on-chip memory

  • 21 PB/s of bandwidth

  • 50x energy savings compared to GPU

Technology

WafeMol operates on the Cerebras Wafer-Scale engine architecture, leveraging its 900k computing cores:

  • 900 000 cores

  • 44 GB of on-chip memory

  • 21 PB/s of bandwidth

  • 50x energy savings compared to GPU

Experience
WaferMol in Action

Experience
WaferMol in Action

Ready to transform your molecular dynamics simulations with wafer-scale efficiency? Book a demo today and see how WaferMol delivers unprecedented speed and insight.

Ready to transform your molecular dynamics simulations with wafer-scale efficiency? Book a demo today and see how WaferMol delivers unprecedented speed and insight.

Book a demo now!

Book a demo now!

Book a demo now!

Our offices

Poland:

Mogilska 43
31-545 Kraków

Canada:

101 College St
Suite H230-1
Toronto

USA:

7757 Baltimore Avenue
Ste 1603

20740 MD College Park

Links

Privacy Policy

© 2025 BEIT Inc.

Our offices

Poland:

Mogilska 43
31-545 Kraków

Canada:

101 College St
Suite H230-1
Toronto

USA:

7757 Baltimore Avenue
Ste 1603

20740 MD College Park

Links

Privacy Policy

© 2025 BEIT Inc.

Our offices

Poland:

Mogilska 43
31-545 Kraków

Canada:

101 College St
Suite H230-1
Toronto

USA:

7757 Baltimore Avenue
Ste 1603

20740 MD College Park

Links

Privacy Policy

© 2025 BEIT Inc.