Accelerators for scientific simulation, computational physics, climate modeling, drug discovery, and genomics. These GPUs combine massive floating-point throughput with high memory bandwidth to tackle the world's most demanding computational workloads.
Double-precision floating-point performance for scientific accuracy in molecular dynamics, CFD, and computational chemistry.
Multi-TB/s HBM bandwidth handles the massive datasets required for climate simulation, seismic analysis, and genomic sequencing.
High-speed interconnects and proven multi-node scaling power the world's fastest supercomputers for frontier scientific discovery.
CUDA, ROCm, and HPC SDK support with optimized libraries for GROMACS, LAMMPS, VASP, WRF, and other scientific applications.
All accelerators eligible for GPU-backed financing through GPU Loans.
Next-gen Rubin architecture with 288GB HBM4, 22 TB/s bandwidth, and 50 PFLOPS FP4.
View Specs →Grace Blackwell Superchip with 384GB HBM3e and 40 PFLOPS FP4.
View Specs →Blackwell Ultra with 288GB HBM3e and 15 PFLOPS FP4 for exascale AI.
View Specs →Next-gen Blackwell architecture with 192GB HBM3e and 20 PFLOPS FP4.
View Specs →Enhanced Hopper with 141GB HBM3e for memory-intensive AI workloads.
View Specs →The industry-standard AI accelerator with 80GB HBM3.
View Specs →AMD's CDNA 4 flagship with 288GB HBM3e, 8 TB/s bandwidth, and 10.1 PFLOPS FP8.
View Specs →Memory-upgraded CDNA 3 with 256GB HBM3e and 6 TB/s bandwidth.
View Specs →AMD's flagship AI accelerator with 192GB HBM3 and 5.3 PFLOPS FP8.
View Specs →Enterprise OEM partners offering server platforms for high-performance computing workloads.
Get up to 70% LTV on enterprise GPU hardware. Fast approvals, competitive rates, flexible terms.
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