The video discusses Exascale Computing, which is the next generation of supercomputing, capable of performing at least one exoflop floating point calculation per second. This technology has the potential to unlock vast possibilities in fields such as climate science, cancer research, and materials science. Exascale computing is also used in precision medicine and in analyzing large amounts of data to create accurate predictions. However, there are challenges with heat generation, and the technology requires special cooling systems. Exascale computing differs from quantum computing in that it uses binary codes for calculations, while quantum computing uses superposition and entanglement. The future of Exascale Computing is promising and could lead to further breakthroughs in various fields.
1. Exascale computing is the next-gen super computing that performs at least one exaflop floating point calculation per second and is used for intense tasks like modeling, simulations, AI, and analytics.
2. Exascale computing is used to simulate tiny interactions between atoms, and to tackle Global challenges like climate change and cancer research, among others.
3. Exascale computing can be used to create strong and clean energy systems and materials that can withstand extreme conditions.
4. Exascale computing has a limitation when it comes to heat generation and requires special cooling systems.
5. Exascale computing and Quantum computing are two different types of computing that have unique features and limitations.
6. The future of exascale computing is incredibly promising and full of possibilities.