Supercomputers are the engines of groundbreaking discoveries. From predicting extreme weather to advancing disease research and designing safer, more efficient infrastructures, these machines simulate complex systems that are impractical to test in the real world due to their size, cost, and material requirements. Since the introduction of the GPU in 1999, NVIDIA has continually pushed the…
]]>Everything that is manufactured is first simulated with advanced physics solvers. Real-time digital twins (RTDTs) are the cutting edge of computer-aided engineering (CAE) simulation, because they enable immediate feedback in the engineering design loop. They empower engineers to innovate freely and rapidly explore new designs by experiencing in real time the effects of any change in the simulation.
]]>In the realm of high-performance computing (HPC), NVIDIA has continually advanced HPC by offering its highly optimized NVIDIA High-Performance Conjugate Gradient (HPCG) benchmark program as part of the NVIDIA HPC benchmark program collection. We now provide the NVIDIA HPCG benchmark program in the /NVIDIA/nvidia-hpcg GitHub repo, using its high-performance math libraries, cuSPARSE…
]]>The exponential growth in data processing demand is projected to reach 175 zettabytes by 2025. This contrasts sharply with the slowing pace of CPU performance improvements. For more than a decade, semiconductor advancements have not kept up with the pace predicted by Moore’s Law, leading to a pressing need for more efficient computing solutions. NVIDIA GPUs have emerged as the most efficient…
]]>AI is augmenting high-performance computing (HPC) with novel approaches to data processing, simulation, and modeling. Because of the computational requirements of these new AI workloads, HPC is scaling up at a rapid pace. To enable applications to scale to multi-GPU and multi-node platforms, HPC tools and libraries must support that growth. NVIDIA provides a comprehensive ecosystem of…
]]>The NVIDIA Grace CPU is the first data center CPU developed by NVIDIA. Combining NVIDIA expertise with Arm processors, on-chip fabrics, system-on-chip (SoC) design, and resilient high-bandwidth low-power memory technologies, the Grace CPU was built from the ground up to create the world’s first superchip for computing. At the heart of the superchip, lies the NVLink Chip-2-Chip (C2C).
]]>The latest NVIDIA HPC SDK update expands portability and now supports the Arm-based AWS Graviton3 processor. In this post, you learn how to enable Scalable Vector Extension (SVE) auto-vectorization with the NVIDIA compilers to maximize the performance of HPC applications running on the AWS Graviton3 CPU. The NVIDIA HPC SDK includes the proven compilers, libraries…
]]>