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FloSimu

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LDES H2 SAF DAC

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Atom Molecular Materials

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FloSimu

Innovate, Manufacture, Deploy & Operate

Harness advanced computation and analytics and maximize the potential of your clean energy technology or projects. By leveraging these tools, you can unlock significant benefits and drive optimal performance.

Kiioto Rich Dad, thank you for letting me learn from you everyday and look up to your inte

Lifecycle Management - Innovators, Developers, Financial Institutions 

Predicting material properties is a laborious and expensive process, especially when it comes to synthesizing and validating novel materials in the physical world. However, there is a promising solution offered by Large Language Models [LLM] & other Neural Networking [NN] techniques, which significantly reduce the time and cost involved in materials development. Through the utilization of LLM & other NN algorithms, inputs such as crystal structure, chemical composition, and electronic band structures can be used to train models that predict computationally challenging or costly properties. Moreover, Machine Learning [ML] empowers scientists to generate innovative ideas for intricate tasks like solid-state synthesis and crystal structure determination, unveiling previously inaccessible physical insights. This efficient approach allows scientists to explore extensive chemical and configurational search spaces in pursuit of stable, affordable, and high-performance materials. Our engine, powered by LLM and High Performance Computing [HPC], facilitates atomistic as well as molecular generative materials design. With the support of Azure computing resources, the engine seamlessly integrates various stages of the materials design process, including hypothesis generation, calculation setup, experiment execution, informatics analysis, and database development. The need for human intervention is minimized, enabling a more efficient and streamlined workflow.

Lifecycle Management         Innovators        Developers

FlowSimu Portfolio

FlowSimu - Coal Decomposition

 

Our coal subroutine is ideally designed for the decomposition of coal. It breaks down the char into its elemental molecules, namely: Hydrogen (H2), Oxygen (O2), Nitrogen (N2), Carbon (C), and Sulfur (S); while leaving ash and water unchanged

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