900-5G195-2200-000-01 Nvidia RTX PRO 4000 Blackwell 24GB GDDR7 GPU

Nvidia RTX PRO 4000 Blackwell 24GB GPU

The Nvidia 900-5G195-2200-000-01 RTX PRO 4000 Blackwell 24GB GDDR7 GPU is a high-performance graphics card engineered for advanced computing, artificial intelligence workloads, and next-generation rendering.

General Information

• Brand: Nvidia
• Model Number: 900-5G195-2200-000-01
• Category: Graphics Card

Technical Specifications

Video Interface & Cooling

• Output Port: DisplayPort
• Cooling Solution: Active thermal design
• Graphics Controller: NVIDIA RTX PRO 4000 Blackwell
• Installed VRAM: 24 GB
• Maximum Power Usage: 140W

Key Features

• Fifth-generation Tensor Cores for accelerated AI tasks
• Maximum AI performance with FP4 and DLSS 4
• New streaming multiprocessors optimized for RTX workloads
• Neural shaders for enhanced rendering
• Fourth-generation Ray Tracing Cores for realistic lighting
• Designed for RTX mega geometry processing

Video Capabilities

Graphics Processor

• Manufacturer: NVIDIA

Supported APIs

• DirectX 12
• OpenCL 3.0
• OpenGL 4.63
• Vulkan 1.3
• CUDA 11.6
• Shader Model 6.6
• DirectCompute

Display Performance

• Maximum Resolution: 7680 x 4320 (8K)
• Monitor Support: Up to 4 displays

Memory Details

Video Memory Technology

• Type: GDDR7
• Bus Width: 192-bit
• Bandwidth: 672 GB/sec

Connectivity Options

Interfaces & Ports

• DisplayPort Version: 2.1b
• Number of DisplayPorts: 4

Expansion Slot

• Interface: PCI Express 5.0 x16

Professional Blackwell Architecture GPU Category Overview

The NVIDIA RTX PRO 4000 Blackwell professional graphics category represents a new generation of workstation-class GPUs engineered for sustained performance, visual precision, and AI-accelerated workflows. Built on the Blackwell architecture, this category is designed to support advanced visualization, simulation, artificial intelligence development, and data-intensive creative pipelines. The inclusion of GDDR7 memory, next-generation Tensor Cores, and high-bandwidth DisplayPort connectivity positions this class of GPUs as a cornerstone for modern professional computing environments where accuracy, speed, and scalability are mandatory rather than optional.

Workstation graphics solutions in this category are purpose-built for professionals who depend on predictable performance and certified software compatibility. The RTX PRO 4000 Blackwell series emphasizes reliability under continuous workloads, making it suitable for engineering simulations, real-time rendering, scientific visualization, and enterprise AI inference. Unlike consumer-focused GPUs, this category prioritizes stability, long-term driver support, and precision computing features that are essential in regulated or mission-critical environments.

Blackwell GPU Architecture and Compute Advancements

The Blackwell architecture introduces architectural refinements that significantly enhance throughput, energy efficiency, and parallel processing density. This category benefits from a redesigned compute pipeline that improves instruction scheduling and reduces latency across graphics, compute, and AI tasks. Blackwell GPUs are optimized to handle mixed workloads, enabling simultaneous rendering, simulation, and AI inference without performance degradation.

Within this category, the GPU core design emphasizes scalability and deterministic performance. Enhanced cache hierarchies and memory controllers allow data to move more efficiently between processing units, reducing bottlenecks in complex workflows such as finite element analysis, computational fluid dynamics, and large-scale 3D scene manipulation. The architectural balance between raw compute power and intelligent resource management ensures that professional applications can fully utilize available hardware capabilities.

Fifth Generation Tensor Cores and AI Acceleration

Fifth Generation Tensor Cores are a defining feature of the RTX PRO 4000 Blackwell category, delivering substantial improvements in AI and machine learning acceleration. These Tensor Cores are engineered to support a wide range of numerical precisions, enabling faster training and inference for neural networks while maintaining accuracy requirements common in professional and research environments.

The integration of advanced Tensor Cores allows this category of GPUs to accelerate tasks such as generative AI, deep learning-based image enhancement, predictive analytics, and real-time AI-assisted rendering. By offloading AI computations to dedicated hardware, the GPU can execute complex models with lower latency and reduced power consumption compared to traditional compute approaches. This capability is particularly valuable in workflows where AI is embedded directly into creative or engineering applications.

AI Workflow Optimization for Enterprise and Research

In enterprise and research contexts, AI workloads often involve large datasets and iterative model refinement. The RTX PRO 4000 Blackwell category supports these demands through optimized Tensor Core pipelines and enhanced memory bandwidth. This combination allows professionals to process high-resolution datasets, train models more efficiently, and deploy inference tasks directly within visualization or simulation environments.

The ability to run AI-enhanced applications locally on a workstation GPU reduces dependency on remote compute resources and improves data security. This makes the category suitable for organizations handling sensitive data, such as medical imaging, financial modeling, and proprietary engineering designs.

GDDR7 Memory Technology and High-Capacity Frame Buffers

The adoption of GDDR7 memory marks a significant advancement for professional GPU categories. GDDR7 delivers higher data transfer rates and improved power efficiency compared to previous memory generations, enabling smoother handling of large datasets and complex scenes. The RTX PRO 4000 Blackwell category leverages this memory technology to ensure consistent performance under heavy workloads.

A large 24GB frame buffer allows professionals to work with high-resolution textures, detailed models, and extensive simulation datasets without frequent memory swapping. This capacity is especially beneficial in applications such as digital content creation, where large scene files and high-fidelity assets are common, as well as in data science workloads that require substantial memory for model parameters and intermediate results.

Memory Bandwidth and Data Throughput Benefits

High memory bandwidth is critical for maintaining performance in compute-intensive tasks. The RTX PRO 4000 Blackwell category is designed to maximize data throughput between the GPU core and memory subsystem, reducing latency and improving responsiveness. This is particularly important in real-time rendering and interactive design applications, where delays can disrupt workflow efficiency.

Improved memory efficiency also contributes to better power management, allowing the GPU to deliver sustained performance without excessive thermal output. This balance between performance and efficiency supports deployment in compact workstations and enterprise environments where thermal constraints must be carefully managed.

DisplayPort Connectivity and Visual Output Capabilities

Professional visualization demands precise and reliable display output, and this category addresses those needs through advanced DisplayPort connectivity. High-bandwidth DisplayPort interfaces support multiple high-resolution displays, enabling expansive desktop environments and immersive visualization setups. This capability is essential for professionals working with complex visual data, such as architects, designers, and analysts.

Support for modern display standards ensures accurate color reproduction, high refresh rates, and compatibility with professional-grade monitors. These features are critical in workflows where visual fidelity directly impacts decision-making, such as color grading, medical imaging, and visual effects production.

Multi-Display Workstation Configurations

The RTX PRO 4000 Blackwell category is well-suited for multi-display workstation configurations, allowing users to extend their workspace across several monitors without compromising performance. This setup enhances productivity by enabling simultaneous access to modeling tools, reference materials, data visualizations, and communication platforms.

Advanced display management capabilities ensure stable signal output and synchronization across connected displays. This reliability is particularly important in professional environments where downtime or visual artifacts can lead to costly interruptions.

Ray Tracing and Real-Time Visualization Performance

Real-time ray tracing capabilities are integral to modern professional visualization, and this category incorporates dedicated hardware to accelerate these tasks. Ray tracing enables realistic lighting, reflections, and shadows, enhancing the accuracy of visual representations in design and simulation workflows.

The RTX PRO 4000 Blackwell category is engineered to deliver consistent ray tracing performance, even in complex scenes with high geometric density. This allows professionals to evaluate designs in near-photorealistic conditions, reducing the gap between concept and final output.

Compute Reliability and Enterprise Deployment

Reliability is a core requirement for professional GPU categories, and the RTX PRO 4000 Blackwell series is designed with enterprise deployment in mind. Components and firmware are validated for continuous operation, ensuring consistent performance over extended periods.

This focus on reliability makes the category suitable for use in corporate workstations, research labs, and production studios where systems may operate under heavy loads for long durations. Predictable behavior and robust error handling contribute to reduced downtime and maintenance costs.

Scalability and Future-Proofing

The Blackwell-based RTX PRO 4000 category is designed to scale with evolving professional requirements. Support for modern APIs, advanced compute features, and high-speed interconnects ensures compatibility with future software updates and emerging workflows.

This forward-looking design protects investment value by extending the usable lifespan of the GPU within professional environments. Organizations can adopt new tools and techniques without needing immediate hardware replacements, improving overall return on investment.

Workstation-Class Performance for Modern Demands

The RTX PRO 4000 Blackwell category exemplifies workstation-class performance tailored to modern professional demands. By integrating advanced architecture, high-capacity memory, AI acceleration, and enterprise-grade reliability, this category addresses the complex requirements of today’s compute-intensive workflows.

Professionals who adopt this category gain access to a balanced platform capable of handling graphics, compute, and AI tasks within a single, cohesive solution. This integration simplifies system design and enhances productivity across diverse applications.