Simulating Molecules: Can We Simulate Complexity?

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Simulating the physical movements and interactions of atoms and molecules is currently achievable with software like Ascalaph and Abalone. The discussion explores the potential to simulate complex molecular interactions found in simple organisms, such as bacteria, and even extend to cellular interactions and brain simulations. With advancements in computing power and effective modeling, simulating intricate systems like human consciousness and societal interactions could become feasible. The prospect of quantum computing may accelerate these developments significantly. Overall, the ability to simulate such complexity could greatly enhance our understanding of biology and human behavior.
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We can simulate physical movements of atoms and molecules and how they interact with many software like ascalaph or abalone.
But can we one day simulate complex interaction of molecules like the interactions that happens inside a simple organism like a simple bacteria?
And going further, can we one day simulate interaction between cells and even simulate a brain (that is at its core only cells interaction)?
 
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With sufficient computing power, there is no reason why it should not be possible. It is easier with some effective models about the components, instead of a simulation of all atoms in the molecules.
Protein structures and even the combination of multiple proteins, with thousands of atoms in multiple molecules, are explored that way.
 
Thats really great, imagine if we could simulate a entire human and simulate conscience, we could learn a lot about the brain and how it works! That would be great!
And even learn about society and how humans interact, if we could simulate a entire comunity of humans.
Maybe with the advance of quantum computing we could, very soon make it happen!
 
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