490-BGFV Dell NVIDIA A100 40GB HBM2 PCI-E 6912 CUDA Cores Accelerator Graphics Card.

Dell 490-BGFV NVIDIA A100 40GB HBM2 GPU Accelerator 

The Dell 490-BGFV NVIDIA A100 40GB HBM2 PCI-E 4.0 x16 GPU Accelerator Graphics Card represents a pinnacle in advanced computing and artificial intelligence acceleration. Designed to meet the evolving needs of data centers, deep learning engineers, and high-performance computing professionals, this model integrates NVIDIA’s cutting-edge Ampere architecture to deliver exceptional throughput, precision, and efficiency. Built for enterprise workloads, this GPU enhances processing power for scientific simulations, analytics, machine learning, and complex AI inferencing tasks. The Dell 490-BGFV ensures robust compatibility with modern servers, offering a balance between power consumption, bandwidth optimization, and thermal stability.

High-Performance Ampere Architecture

Powered by the Ampere architecture, the Dell 490-BGFV NVIDIA A100 40GB GPU introduces the next level of computational performance. This design incorporates 6912 CUDA cores that deliver massive parallel processing capabilities. The GPU’s Tensor Cores and CUDA Cores enable rapid execution of floating-point calculations, significantly accelerating AI model training and scientific computations. The architectural improvements reduce latency while improving energy efficiency, making the A100 a preferred choice in large-scale distributed environments. The Ampere-based A100 redefines performance per watt and ensures scalability for complex workloads in research and enterprise AI infrastructure.

Advanced Memory Bandwidth with HBM2

Equipped with 40GB of high-bandwidth memory (HBM2), the Dell 490-BGFV delivers substantial memory capacity and bandwidth for intensive applications. The HBM2 interface offers a wide data bus and minimal latency, allowing smoother data flow between the GPU and the computational cores. This configuration is especially advantageous for AI datasets, simulation modeling, and big data analytics that require rapid access to memory resources. The improved bandwidth supports data-heavy frameworks and facilitates multi-streaming for concurrent model processing, ensuring that workloads run efficiently without bottlenecks.

PCI Express 4.0 x16 Connectivity

The PCI-E 4.0 x16 interface of the Dell 490-BGFV GPU ensures faster data transfer rates between the GPU and the host system compared to previous generations. This connectivity provides twice the bandwidth of PCI-E 3.0, significantly improving I/O performance for intensive applications like AI inference, 3D rendering, and scientific computation. The PCI-E 4.0 interface also supports backward compatibility, ensuring seamless integration with a wide variety of modern server architectures and motherboards. By maintaining a balance between high throughput and reliability, the Dell 490-BGFV provides an optimal solution for data centers that require scalable GPU deployment.

Optimized for Artificial Intelligence and Deep Learning

The Dell 490-BGFV NVIDIA A100 GPU is optimized to deliver superior performance in artificial intelligence and machine learning workloads. Its 6912 CUDA cores, combined with third-generation Tensor Cores, deliver outstanding speed and precision for AI model training, inferencing, and neural network simulations. With mixed-precision support, this GPU ensures efficient utilization of computational resources, allowing users to handle deep learning models that involve vast datasets and complex architectures. The A100’s ability to execute both FP64 and FP32 workloads simultaneously makes it ideal for AI researchers and developers seeking consistent, high-speed output in enterprise environments.

Scalability for Multi-GPU Systems

One of the defining strengths of the Dell 490-BGFV GPU is its scalability. Designed for multi-GPU server configurations, it supports NVLink technology that connects multiple A100 GPUs with ultra-high-speed interconnects. This interconnect technology eliminates data transfer bottlenecks, allowing multiple GPUs to function as a single computational entity. The scalability of the Dell 490-BGFV supports both single-node and multi-node GPU clusters, enabling parallel data processing for tasks like image recognition, deep neural network training, and 3D rendering. This flexibility makes it a core component in modern supercomputing and AI-driven workloads.

Tensor Core Innovation

The integration of third-generation Tensor Cores in the Dell 490-BGFV GPU significantly enhances performance for deep learning and AI workloads. These specialized cores are designed to accelerate matrix operations, which form the backbone of most neural network computations. The Tensor Cores deliver exceptional throughput for mixed-precision calculations, optimizing training speed while maintaining accuracy. By leveraging these cores, enterprises and researchers can deploy models faster and reduce overall time-to-insight for machine learning applications. This technological innovation is a hallmark of the NVIDIA A100’s efficiency in high-performance AI frameworks.

Enterprise Reliability and Efficiency

Dell’s engineering excellence ensures that the 490-BGFV GPU delivers enterprise-level reliability and consistency. The card undergoes rigorous validation testing for thermal stability, compatibility, and long-term durability under demanding workloads. Its efficient cooling design maintains optimal operating temperatures even under heavy computational pressure. This ensures longer component lifespan and sustained performance in high-density data center environments. Furthermore, the Dell 490-BGFV minimizes power leakage and optimizes voltage regulation, offering performance gains without compromising energy efficiency.

Thermal and Power Design

The advanced cooling design of the Dell 490-BGFV ensures that the GPU remains within ideal thermal thresholds during extended high-load operations. It uses precision-engineered heat dissipation mechanisms that maintain consistent temperatures across GPU modules. The efficient thermal management allows continuous high-performance computing without risk of thermal throttling or degradation. Power management features within the GPU architecture further contribute to energy savings, offering data centers a balance between maximum performance and sustainability. The result is a GPU that performs exceptionally even in compact server configurations where thermal constraints are critical.

Energy Efficiency in Data Centers

Energy efficiency remains a key priority in enterprise GPU deployments. The Dell 490-BGFV delivers superior performance-per-watt compared to earlier GPU generations, thanks to the optimized Ampere architecture and enhanced power control algorithms. This efficiency reduces the operational costs of data centers by lowering total power consumption while maintaining exceptional computational performance. For organizations managing large-scale AI or HPC clusters, the A100’s energy efficiency translates into significant long-term cost savings and improved sustainability metrics.

Enhanced Data Analytics and HPC Workloads

The Dell 490-BGFV NVIDIA A100 40GB GPU is engineered to meet the needs of high-performance computing (HPC) environments where data throughput and compute density are paramount. It excels in parallel processing environments, where multiple tasks must be executed simultaneously with minimal latency. In data analytics, this GPU enables real-time processing and visualization of massive datasets. Its ability to handle floating-point and mixed-precision workloads accelerates computational modeling in fields such as molecular dynamics, genomics, and weather forecasting. The GPU’s efficiency and raw processing capability make it a cornerstone for advanced HPC deployments.

Big Data Acceleration

Big data analytics platforms benefit immensely from the high-bandwidth HBM2 memory and parallel compute capacity of the Dell 490-BGFV GPU. This architecture allows rapid data ingestion, transformation, and analysis across large datasets. By reducing latency in data movement, the GPU ensures that big data workloads run efficiently, making it suitable for enterprise-level analytics engines and AI-driven data discovery platforms. This capability empowers organizations to gain insights faster, enabling more informed business decisions and strategic innovations.

Data Center Integration and Compatibility

The Dell 490-BGFV GPU integrates seamlessly into modern data center environments. It supports industry-standard frameworks, including NVIDIA CUDA, TensorFlow, PyTorch, and other deep learning platforms, ensuring broad compatibility with existing AI infrastructures. The PCI-E 4.0 interface provides improved connectivity between CPUs and GPUs, ensuring faster communication and data synchronization. Additionally, Dell’s optimized server configurations are engineered to fully leverage the performance potential of the NVIDIA A100 GPU, ensuring stable deployment and streamlined scalability for enterprise computing clusters.

Virtualization and Multi-Tenant Workloads

With NVIDIA’s Multi-Instance GPU (MIG) technology, the Dell 490-BGFV allows virtualization at the GPU level. This enables multiple users or applications to share a single GPU without interference or performance degradation. Each GPU instance operates as an independent unit, offering predictable performance for multi-tenant environments. This is particularly advantageous in cloud computing and virtual desktop infrastructure (VDI) solutions, where efficient resource allocation and workload isolation are critical for productivity and cost-effectiveness.

Cloud AI and Hybrid Infrastructure Support

The Dell 490-BGFV GPU aligns seamlessly with cloud and hybrid computing models. Organizations can deploy it across private, public, or hybrid cloud infrastructures to accelerate AI and deep learning operations. Its compatibility with leading cloud service providers ensures flexible scalability and integration with containerized workloads using Kubernetes or Docker frameworks. This adaptability enables businesses to transition smoothly between on-premises and cloud environments while maintaining consistent performance across platforms.

Accelerated Rendering and Visualization

Beyond computational workloads, the Dell 490-BGFV GPU is also optimized for rendering and visualization tasks. Creative professionals, engineers, and designers benefit from the GPU’s ability to render complex 3D models, visual simulations, and photorealistic graphics with unprecedented speed. The combination of CUDA and Tensor Cores ensures that graphical workloads execute efficiently without sacrificing quality. This capability makes the A100 ideal for industries like automotive design, architectural visualization, and film production where real-time rendering is essential for productivity and creativity.

Support for Modern Graphics APIs

The GPU supports major graphics and compute APIs such as CUDA, OpenCL, and DirectX, allowing developers to create applications that leverage the full potential of the Ampere architecture. This compatibility ensures smooth performance across diverse software ecosystems, giving professionals the freedom to utilize their preferred tools and development frameworks. The robust driver support from Dell and NVIDIA further ensures stability and long-term support for professional visualization and simulation workloads.

Enhanced Computational Visualization

In scientific and engineering environments, the Dell 490-BGFV enables advanced computational visualization. This allows researchers to visualize large-scale simulations in real time, reducing the gap between data analysis and insight generation. From molecular structures to fluid dynamics, the GPU’s visualization power helps transform raw computational data into interpretable visual models that enhance understanding and innovation across disciplines.

Security and Data Integrity

Enterprise-level security is integrated into the Dell 490-BGFV NVIDIA A100 design. The GPU supports secure boot mechanisms, firmware integrity verification, and encrypted communications to protect against unauthorized access and tampering. These features make it suitable for mission-critical environments where data confidentiality and hardware reliability are paramount. Dell’s enterprise firmware management further strengthens GPU reliability through regular updates and proactive security patches.

Server-Grade Validation and Reliability

Each Dell 490-BGFV unit undergoes extensive validation within Dell’s enterprise server platforms to ensure optimal compatibility and reliability. The GPU is rigorously tested for consistent performance under demanding thermal and workload conditions. This comprehensive validation ensures that enterprises deploying Dell servers with A100 GPUs benefit from consistent uptime, reduced maintenance requirements, and predictable performance across all deployed systems.

Use Cases and Industry Applications

The Dell 490-BGFV NVIDIA A100 GPU finds applications across a wide spectrum of industries that depend on accelerated computing. In healthcare, it supports medical imaging analysis, genomic sequencing, and predictive analytics. In finance, it enhances algorithmic trading, risk modeling, and fraud detection. The GPU also plays a transformative role in scientific research, energy exploration, autonomous vehicle development, and natural language processing. Its flexibility and scalability make it an indispensable component in modern digital transformation initiatives where data-driven insights drive competitive advantage.

AI Development and Data Science

AI developers and data scientists utilize the Dell 490-BGFV GPU to train and deploy sophisticated neural networks. Its processing power enables efficient handling of complex algorithms in image classification, natural language understanding, and reinforcement learning. The GPU’s consistent performance ensures reduced training times and improved model accuracy, making it a valuable asset for AI research labs, universities, and enterprise data science teams focused on innovation and automation.

Scientific and Engineering Simulations

In scientific and engineering domains, the GPU accelerates computational simulations that require immense processing capacity. Engineers leverage the A100 to perform finite element analysis, fluid dynamics simulations, and electromagnetic modeling with enhanced speed and precision. The high memory bandwidth and floating-point performance provide reliable results across simulation cycles, enabling engineers to test multiple variables efficiently and reduce development time for complex systems.

Future-Ready GPU Design

The Dell 490-BGFV NVIDIA A100 GPU is future-ready, built to accommodate the rapid evolution of data-intensive workloads. With its PCI-E 4.0 architecture and scalable interconnects, it is prepared for integration into next-generation data centers and HPC environments. The GPU’s ability to handle increasingly complex AI models ensures that organizations can stay ahead in the fast-paced digital ecosystem. Its forward-looking design ensures continued relevance in an era where computational demands are constantly expanding.

Integration with Next-Generation Servers

Dell’s next-generation PowerEdge servers are designed to complement the performance of the 490-BGFV GPU. This synergy enables organizations to build high-density, high-efficiency compute clusters optimized for AI, ML, and HPC applications. With enhanced thermal and power management systems, Dell servers maximize the A100’s potential while maintaining system stability and reducing total cost of ownership.