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Supercomputer Juwels in Jülich. In autumn 2024 the first exaFlop computer JUPITER will start in Jülich.
Supercomputer Juwels in Jülich. In autumn 2024 the first exaFlop computer JUPITER will start in Jülich.

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Why artificial intelligence needs ExaFlop computers

1. Processing speed: Artificial intelligence (AI) requires immense computing power, especially for complex tasks such as machine learning or deep learning. Exaflop supercomputers can perform a trillion calculations per second, providing the necessary speed for these sophisticated AI algorithms.

2. Big data analysis:
AI systems process large amounts of data in order to recognize patterns and correlations. Exaflop supercomputers can analyze large data sets in the shortest possible time, enabling faster and more accurate processing.

3. Complexity of models:
Modern AI models, such as neural networks, are highly complex and require enormous computing resources for training and inference. Exaflop supercomputers can process these complex models efficiently and thus improve the performance of AI.

4. Simulations and modeling:
AI is increasingly used in areas where simulations and modeling are required, such as medicine, climate change or materials science. Exaflop supercomputers make it possible to carry out complex simulations efficiently and thus accelerate progress in these areas.

5. Scalability:
Exaflop supercomputers offer greater scalability, which means they are able to keep pace with the ever-increasing demand for powerful AI processing. With the increasing complexity and amount of data required by AI applications, exaflop supercomputers are becoming increasingly important to ensure optimal performance.

In summary, exaflop supercomputers for artificial intelligence are needed to provide the computing power required for complex AI algorithms, big data analysis, modeling and simulations, and to enable greater scalability for the increasing demands of AI.

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