If you're on the lookout for cutting-edge rugged GPGPU solutions that can withstand the harshest environments without compromising on performance, I might have exactly what you need.
EIZO Rugged Solutions has recently released the
NVA500x – and it's a game-changer in the world of high performance video graphics and GPGPU processing.
In this comprehensive overview, we dissect the technical intricacies that make the NVA500x a standout solution for demanding environments such as military, aerospace, and industrial sectors.
Uncompromising Durability:
The NVA500x is engineered with an uncompromising commitment to durability, and its MIL-STD-810 certifications attest to its ability to endure harsh environmental conditions. From extreme temperatures to shock and vibration resistance, and available in both rugged air cooled and rugged conduction cooled versions, the NVA500x has been designed for robustness in the field.
Computational Powerhouse:
A card this rugged shouldn’t be let down by it’s processing capability, and the NVA500x XMC GPGPU is built on the Ampere™ architecture using the RTX A500 GPU, renowned for performance and efficiency. The combination ensures seamless execution of resource-intensive tasks, making it an optimal choice for applications demanding accelerated graphics processing, such as surveillance, mapping, and image analysis. The Condor NVA500xX offers high-performance embedded computing (HPEC) capabilities such as low-latency GPGPU processing, real-time ray tracing, deep learning (DL), and AI inferencing.
The NVIDIA RTX A500 GPU is a headless GPU that operates without a display output. Headless GPUs can be leveraged to perform parallel processing on large datasets, making them suitable for tasks like object detection, image recognition, and other computationally intensive operations. Headless GPUs can contribute to reducing latency by offloading specific computational tasks from the CPU to the GPU, enabling faster processing of data.
GPGPU Capabilities:
The processing power of the NVA500x relies on the performance of the GPGPU and maximising all it’s available resources. The card includes 4 GB GDDR6 graphics memory along with 2,048 NVIDIA CUDA Cores, 64 Tensor Cores, and 16 RT Cores for uncompromised computing accuracy and reliability. It is capable of up to 2.7 TFLOPS FP32 Single Floating Point Performance, and supports both CUDA 11 (Compute Capability 8.6) and CUDA-X.
This versatile solution features support for PCI Express Gen 4 for increased data transfer speeds, incorporates dedicated H.265/H.264 encode and decode engines, and supports NVIDIA GPUDirect Remote Direct Memory Access (RDMA) for streamlined data transfer operations.
What Are You Waiting For?
The NVA500x's integration of the NVIDIA Ampere architecture serves as a key differentiator, bringing several notable advantages to the board. First and foremost, the Ampere architecture delivers unparalleled parallel processing capabilities, enhancing overall computational efficiency and performance.
To find out more, or to get a quote, please speak to one of our knowledgeable Sales Engineers.
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