Supercomputer Nvidia

The NVIDIA Quadro T1000 is a professional-grade graphics card built on the Turing architecture, featuring 896 CUDA cores and available with either 4 GB or 8 GB of GDDR6 memory on a 128-bit interface, delivering a memory bandwidth of up to 160 GB/s. With a peak single-precision (FP32) performance of 2.5 TFLOPS, it supports up to four 5K displays via four mini DisplayPort 1.4 outputs. The card operates with a maximum power consumption of 50 W, utilizes a PCI Express 3.0 x16 interface, and comes in a low-profile, single-slot form factor with active cooling, making it ideal for compact professional workstations.

The NVIDIA RTX 2000 Ada Generation graphics card, based on the Ada Lovelace architecture, offers cutting-edge performance and features for professional applications. With 2,816 CUDA cores, it delivers up to 12 TFLOPS of single-precision floating-point performance. The card is equipped with 88 Tensor Cores for up to 191.9 TFLOPS of AI acceleration, as well as 22 third-generation RT Cores providing 27.7 TFLOPS of real-time ray tracing performance. It includes 16 GB of GDDR6 memory with error-correcting code (ECC) to ensure data integrity during intensive workloads, paired with a 128-bit memory interface offering a bandwidth of 224 GB/s. The graphics card operates via a PCI Express 4.0 x8 interface and is capable of supporting resolutions up to 7680 x 4320 at 60 Hz.

The NVIDIA RTX 3500 Ada Generation graphics card leverages the cutting-edge Ada Lovelace architecture, designed for next-generation gaming, content creation, and AI-driven tasks. Featuring advanced ray tracing and AI-powered technologies, this GPU delivers unprecedented performance in real-time rendering and complex simulations. Equipped with a powerful memory interface and superior processing cores, it ensures smooth gameplay and efficient multitasking, catering to both gamers and professionals. With support for DLSS 3, real-time ray tracing, and NVIDIA Reflex technology, it guarantees the highest quality visuals and response time in the most demanding applications.

The NVIDIA GeForce RTX 4060 is powered by the ultra-efficient Ada Lovelace architecture and features 3,072 CUDA cores. It operates at a base clock of 1.83 GHz and can boost up to 2.46 GHz. Equipped with 8 GB of GDDR6 memory on a 128-bit interface, it delivers a memory bandwidth of 272 GB/s. The card supports advanced technologies including DLSS 3, third-generation ray tracing cores, and fourth-generation Tensor cores. It offers a total graphics power (TGP) of 115 W and requires a minimum system power of 550 W.

The NVIDIA GeForce RTX 4060 Ti is powered by the ultra-efficient Ada Lovelace architecture and features 4,352 CUDA cores. It operates at a base clock of 2.31 GHz and can boost up to 2.54 GHz. Equipped with 8 GB or 16 GB of GDDR6 memory on a 128-bit interface, it delivers a memory bandwidth of 288 GB/s. The card supports advanced technologies including DLSS 3, third-generation ray tracing cores, and fourth-generation Tensor cores. It offers a total graphics power (TGP) of 160 W and requires a minimum system power of 550 W. 

The NVIDIA GeForce RTX 4070 is powered by the ultra-efficient Ada Lovelace architecture and features 5,888 CUDA cores. It operates at a base clock of 1.92 GHz and can boost up to 2.47 GHz. Equipped with 12 GB of GDDR6X memory on a 192-bit interface, it delivers a memory bandwidth of 504 GB/s. The card supports advanced technologies including DLSS 3.5, third-generation ray tracing cores, and fourth-generation Tensor cores. It offers a total graphics power (TGP) of 200 W and requires a minimum system power of 650 W.

The NVIDIA GeForce RTX 4070 SUPER is powered by the ultra-efficient Ada Lovelace architecture and features 7,168 CUDA cores. It operates at a base clock of 1.98 GHz and can boost up to 2.48 GHz. Equipped with 12 GB of GDDR6X memory on a 192-bit interface, it delivers a memory bandwidth of 504 GB/s. The card supports advanced technologies including DLSS 3.5, third-generation ray tracing cores, and fourth-generation Tensor cores. It offers a total graphics power (TGP) of 220 W and requires a minimum system power of 650 W.

The NVIDIA GeForce RTX 4070 Ti SUPER is powered by the ultra-efficient Ada Lovelace architecture and features 8,448 CUDA cores. It operates at a base clock of 2.34 GHz and can boost up to 2.61 GHz. Equipped with 16 GB of GDDR6X memory on a 256-bit interface, it delivers a memory bandwidth of 672 GB/s. The card supports advanced technologies including DLSS 3.5, third-generation ray tracing cores, and fourth-generation Tensor cores. It offers a total graphics power (TGP) of 285 W and requires a minimum system power of 750 W. 

The NVIDIA GeForce RTX 4080 SUPER Founders Edition is powered by the ultra-efficient Ada Lovelace architecture and features 10,240 CUDA cores. It operates at a base clock of 2.33 GHz and can boost up to 2.55 GHz. Equipped with 16 GB of GDDR6X memory on a 256-bit interface, it delivers a memory bandwidth of 736 GB/s. The card supports advanced technologies including DLSS 3.5, third-generation ray tracing cores, and fourth-generation Tensor cores. It offers a total graphics power (TGP) of 320 W and requires a minimum system power of 750 W. 

The NVIDIA GeForce RTX 4090 Founders Edition is powered by the Ada Lovelace architecture and features 16,384 CUDA cores. It operates at a base clock of 2.23 GHz and can boost up to 2.52 GHz. Equipped with 24 GB of GDDR6X memory on a 384-bit interface, it delivers a memory bandwidth of 1,008 GB/s. The card supports advanced technologies including DLSS 3.5, third-generation ray tracing cores, and fourth-generation Tensor cores. It offers a total graphics power (TGP) of 450 W and requires a minimum system power of 850 W.