699-5G192-0550-300 PNY 20GB GDDR6 PCI Express 4.0 x16 16Bit RTX 4000 SFF GPU.

PNY 699-5G192-0550-300 20GB GDDR6 PCIE GPU Overview

The PNY 699-5G192-0550-300 is a high-performance graphics processing unit (GPU) designed for professionals seeking power, speed, and efficiency. With its advanced NVIDIA RTX 4000 Ada architecture, it offers exceptional rendering capabilities and reliability for creative and technical workflows.

General Information

• Manufacturer: PNY
• Part Number: 699-5G192-0550-300
• Product Type: Graphics Processing Unit (GPU)

Technical Specifications

• Installed VRAM: 20GB
• Memory Type: GDDR6
• Interface Type: PCI Express 4.0 x16
• Bus Width: 160-bit
• Memory Bandwidth: 280 GB/s
• Design Type: Dual-slot compact form factor
• Power Consumption: 70 Watts (maximum)
• Cooling Solution: Active thermal system for optimal heat control

Graphics Controller

• GPU Model: NVIDIA RTX 4000 Ada Generation
• Architecture: Ada Lovelace GPU architecture for superior AI and ray tracing
• VR Compatibility: Fully VR Ready for immersive experiences

Video Interface & Performance

• Interface Type: PCI Express 4.0 x16
• Graphics Processor Quantity: 1
• Supported APIs: DirectX 12, OpenGL 4.6, Vulkan, Shader Model 6.6

Display & Resolution

• Maximum External Resolution:
• 4 × 4096 x 2160 @ 120Hz
• 4 × 5120 x 2880 @ 60Hz
• 2 × 7680 x 4320 @ 60Hz
• Multi-Monitor Support: Up to 4 simultaneous displays

Connectivity & Ports

Available Interfaces

• Display Outputs: 4 × Mini DisplayPort 1.4a
• PCI / PCI-E Slot: PCI Express 4.0 x16

Performance Highlights

• Optimized for professional 3D design, CAD, and AI workloads
• High-speed data transfer with PCIe 4.0 bandwidth
• Enhanced power efficiency and quiet cooling operation
• Ideal for small form factor (SFF) workstations

Ideal Use Cases

• Architectural visualization
• Digital content creation
• Engineering simulations

PNY 20GB GDDR6 PCIE GPU Performance and Innovation

The PNY 699-5G192-0550-300 20GB GDDR6 PCI Express 4.0 x16 16Bit RTX 4000 SFF Ada GPU represents a new generation of professional-grade graphics cards built to deliver superior visual computing power, advanced AI acceleration, and precision-driven rendering capabilities. This graphics solution is part of the RTX Ada family, engineered by NVIDIA and distributed by PNY, designed to handle complex workloads with exceptional speed and reliability. Its architecture is optimized for cutting-edge applications in design visualization, engineering simulation, artificial intelligence, and digital content creation. Featuring a compact small form factor design, this GPU integrates seamlessly into modern workstations that demand high performance without compromising on space or energy efficiency.

Advanced Architecture and GPU Design

The RTX 4000 SFF Ada GPU leverages NVIDIA’s Ada Lovelace architecture, which significantly improves core efficiency, rendering speeds, and AI-driven operations. This advanced architecture introduces refined RT cores for real-time ray tracing, Tensor cores for accelerated machine learning computations, and CUDA cores for parallel data processing. The combination of these components allows professionals to experience lifelike visual fidelity while maintaining smooth performance across demanding tasks. The Ada architecture enhances efficiency per watt, reducing overall energy consumption while maximizing computational output. This makes the PNY 699-5G192-0550-300 not only powerful but also sustainable, aligning with modern energy efficiency standards for professional workstations and enterprise environments.

Precision Rendering and Real-Time Visualization

Real-time rendering and photorealistic visualization are central to the capabilities of the PNY RTX 4000 SFF Ada GPU. The inclusion of next-generation RT cores ensures accurate reflections, shadows, and light interactions within complex 3D environments. This GPU allows architects, engineers, and designers to visualize projects with real-world accuracy, reducing guesswork and improving workflow efficiency. Real-time visualization tools such as NVIDIA Omniverse and supported rendering engines like Unreal Engine and Autodesk Arnold benefit immensely from the GPU’s optimized architecture. Professionals can navigate large datasets, high-resolution textures, and complex lighting models without lag or frame drops, ensuring a seamless creative process. Whether rendering architectural interiors, engineering prototypes, or cinematic visual effects, the RTX 4000 Ada delivers unmatched precision and realism.

20GB GDDR6 Memory and Bandwidth Efficiency

The 20GB of GDDR6 video memory installed on the PNY 699-5G192-0550-300 GPU provides a generous capacity for managing intensive graphical workloads. The memory operates across a 160-bit interface, delivering a bandwidth of up to 280 GB/s, which ensures rapid data access and smooth performance even under complex multitasking scenarios. This capacity is particularly advantageous for applications involving large 3D assets, high-resolution textures, and deep learning model training. The GDDR6 technology also ensures low latency and high efficiency, enabling seamless streaming of visual data between the GPU and system memory. Professionals working in visual effects, data visualization, and computational graphics benefit greatly from this advanced memory configuration, as it minimizes bottlenecks and maximizes throughput in data-intensive workflows.

PCI Express 4.0 x16 Interface and High-Speed Connectivity

The GPU employs the PCI Express 4.0 x16 interface, which doubles the data transfer rate compared to the previous PCIe 3.0 standard. This interface ensures optimal communication between the graphics card and the system’s CPU, enhancing responsiveness during heavy workloads. PCIe 4.0 technology supports the bandwidth needed for advanced rendering pipelines, AI inference, and complex CAD or simulation processes. For professionals using high-end workstations, the faster data transfer results in reduced latency and improved system stability. The PCI Express 4.0 x16 connection makes the RTX 4000 SFF Ada GPU future-ready, ensuring compatibility with upcoming workstation motherboards and applications that demand faster throughput for high-performance computing tasks.

Small Form Factor and Thermal Design

The compact design of the PNY RTX 4000 SFF Ada GPU provides an ideal balance between performance and size. The dual-slot form factor makes it suitable for small form factor (SFF) systems, offering flexibility for integration into space-constrained professional setups. Despite its small footprint, the card includes an advanced active cooling system that maintains optimal thermal performance under continuous workloads. The cooling solution employs precision-engineered fans and heat sinks that ensure efficient airflow and heat dissipation. This design enables the GPU to sustain maximum boost clocks without throttling, ensuring consistent reliability even during extended rendering or AI training sessions. The combination of small size and advanced cooling technology makes it perfect for compact workstations requiring professional-grade power and stability.

Ray Tracing and Rendering Technologies

The GPU features third-generation RT Cores that deliver superior ray tracing capabilities for physically accurate lighting, reflections, and shadows. This technology enables realistic visual output in 3D scenes, making it ideal for game development, visual effects, and architectural visualization. When combined with AI-enhanced features such as DLSS (Deep Learning Super Sampling), the GPU delivers both performance and quality enhancements. Developers and designers can work with complex scenes in real time, previewing lighting changes and material adjustments instantly. The GPU’s ability to handle real-time ray tracing efficiently provides a major advantage over previous generations, ensuring professional-grade visual output and rapid creative iteration in demanding projects.

APIs and Professional Software Compatibility

The PNY 699-5G192-0550-300 supports an extensive range of graphics APIs, including DirectX 12, OpenGL 4.6, Vulkan, and Shader Model 6.6. These APIs ensure broad compatibility with a variety of professional software platforms, from CAD and 3D modeling suites to simulation and visualization tools. The GPU’s optimized driver support ensures seamless integration with major software like Autodesk Maya, Dassault Systèmes SolidWorks, Adobe Premiere Pro, and Blender. By leveraging these APIs, users can access advanced shader techniques, improved texture handling, and superior geometry processing. The result is smooth performance, accurate rendering, and enhanced stability across all professional applications. Whether handling video editing, real-time visualization, or GPU compute tasks, this GPU maintains consistent reliability and performance across diverse use cases.

High-Resolution Multi-Display Capabilities

The RTX 4000 SFF Ada GPU supports multiple high-resolution displays, offering exceptional flexibility for multi-monitor setups. It includes four Mini DisplayPort 1.4a outputs capable of driving up to four simultaneous 4K displays at 120Hz, or dual 8K displays at 60Hz. This capability is ideal for users requiring expansive digital workspaces, such as financial analysts, 3D animators, and visualization engineers. Multi-display configurations improve productivity by allowing users to multitask effectively, visualize large datasets, and manage real-time monitoring dashboards. The GPU’s high refresh rate support ensures smooth visuals across all screens, which is critical for detailed design and motion editing workflows. With HDR and color accuracy support, this GPU ensures that visuals are consistent and true to life across every connected display.

Power Efficiency and Performance Optimization

Designed for professionals who demand both power and efficiency, the PNY RTX 4000 SFF Ada GPU maintains an impressive 70-watt maximum power draw. This low power requirement enables it to operate effectively in compact or energy-conscious workstations without compromising on performance. Its power efficiency results from NVIDIA’s advanced Ada architecture, which optimizes energy consumption across all cores and modules. The GPU intelligently manages power distribution to balance performance with thermal limits, ensuring sustained productivity. This efficiency also allows businesses to reduce operational costs and improve system reliability. For professionals running extended workloads such as rendering farms, simulation environments, or AI pipelines, the low power consumption contributes to long-term cost savings and sustainable performance.

Enhanced Stability and Reliability for Professionals

PNY’s manufacturing standards ensure that the RTX 4000 SFF Ada GPU delivers industrial-grade stability under continuous use. Each card undergoes rigorous testing to meet professional reliability benchmarks required in mission-critical environments. The GPU’s firmware and drivers are designed for long-term stability, reducing the risk of crashes or data errors during extended operation. This reliability is vital for users who rely on consistent uptime, such as engineers working with CAD applications, visual effects studios managing render queues, and researchers processing large datasets. The card’s high-quality build materials and efficient cooling system further contribute to its longevity, making it a dependable solution for long-term professional deployment.

Professional Applications and Industry Relevance

The PNY 699-5G192-0550-300 GPU is widely utilized across industries that require accurate computation and high-resolution visualization. In architecture and engineering, it supports BIM (Building Information Modeling) workflows, enabling detailed modeling and simulation of structures. In manufacturing and design, it assists with product prototyping, industrial simulation, and virtual reality visualization. For media and entertainment, the GPU enhances video editing, color grading, and 3D animation with real-time feedback and accelerated rendering. In data science and AI, it boosts performance for data analysis, machine learning, and neural network inference. Its versatility across multiple domains underscores its status as an all-purpose GPU for professional workloads that demand speed, accuracy, and scalability.

Integration with NVIDIA Omniverse and Virtual Collaboration

One of the most notable features of the RTX 4000 Ada is its compatibility with NVIDIA Omniverse, a collaborative 3D design and simulation platform. Through Omniverse, professionals can connect multiple software tools and teams in real time, sharing assets, materials, and workflows seamlessly. The GPU’s hardware acceleration ensures that complex scenes render instantly, supporting fluid communication between designers, engineers, and developers. This integration enables collaborative design iterations, allowing creative teams to visualize adjustments simultaneously and maintain consistency across projects. For industries transitioning toward remote and hybrid collaboration, the PNY RTX 4000 SFF Ada GPU serves as a cornerstone for next-generation design pipelines powered by real-time simulation and interactivity.

Thermal and Acoustic Optimization

The PNY RTX 4000 Ada employs an optimized active cooling solution that balances thermal performance with low acoustic levels. The precision-engineered fans maintain efficient airflow through the GPU’s heat sink, minimizing temperature buildup during heavy computational loads. Advanced fan control technology dynamically adjusts speed based on temperature readings, ensuring quiet operation during idle or light workloads. This design minimizes noise without sacrificing performance, making it ideal for studio environments, research labs, and professional workspaces where silence is valued. The cooling system also contributes to the card’s extended durability by keeping thermal stress within optimal operating ranges throughout its lifespan.

Data Security and Hardware Integrity

PNY integrates robust security and integrity features into the RTX 4000 SFF Ada GPU, ensuring safe and reliable operation in sensitive computing environments. Hardware-level protection mechanisms prevent unauthorized access and ensure stable firmware performance. The GPU also supports secure boot processes, safeguarding system integrity from the moment of startup. These security measures are critical in enterprise and government sectors where data integrity and system reliability are non-negotiable. Combined with certified drivers and long-term software support, this GPU offers professionals peace of mind that their systems are protected while maintaining optimal computational performance.

Compatibility with Emerging Technologies

As industries evolve toward more complex digital workflows, the RTX 4000 Ada SFF GPU is engineered to remain compatible with emerging technologies such as virtual reality (VR), augmented reality (AR), and mixed reality (MR). Its VR Ready certification ensures immersive performance across head-mounted displays, enabling realistic simulations and interactive training experiences. The GPU’s advanced ray tracing and AI features enhance the realism and responsiveness of virtual environments, benefiting sectors such as architecture, defense, healthcare, and education. With support for the latest display protocols and connectivity standards, it ensures forward compatibility with future advancements in display and compute technologies. This adaptability positions the GPU as a long-term investment for professionals anticipating future developments in visual computing and AI integration.

Software Ecosystem and Driver Optimization

The PNY RTX 4000 SFF Ada GPU benefits from NVIDIA’s extensive software ecosystem, including Studio Drivers and Enterprise Drivers optimized for professional applications. These drivers undergo extensive validation and performance tuning to ensure maximum compatibility and reliability across industry-standard software. Regular updates improve stability, add support for new applications, and optimize performance for evolving workloads. NVIDIA’s CUDA and RTX SDKs enable developers to harness GPU acceleration for custom applications, simulations, and AI frameworks. With continuous driver updates and developer support, professionals using the PNY RTX 4000 Ada GPU are assured of consistent long-term performance and integration with the latest innovations in graphics and compute technologies.

Power Management and Efficiency Enhancements

Advanced power management technologies enable the RTX 4000 SFF Ada GPU to operate efficiently across a wide range of workloads. The GPU dynamically adjusts power consumption based on workload intensity, optimizing performance per watt. Idle power usage is minimized through intelligent clock gating and voltage management, contributing to lower energy bills and improved system sustainability. In high-demand scenarios, the card efficiently scales up performance while maintaining thermal and acoustic balance. This adaptability allows users to achieve maximum productivity while adhering to energy efficiency targets. For organizations deploying multiple GPUs in large-scale environments, the reduced power draw translates into significant long-term cost savings and environmental benefits.

Scalability and Enterprise Integration

In enterprise environments, scalability is essential, and the PNY RTX 4000 SFF Ada GPU offers the flexibility required for large-scale deployments. It supports multi-GPU configurations, allowing users to expand computational capacity as project requirements grow. Whether integrated into render farms, AI training clusters, or visualization networks, this GPU scales efficiently across multiple systems. PNY’s professional support ensures seamless deployment and maintenance within enterprise infrastructures. The GPU’s small form factor simplifies integration into dense rack-mounted systems or compact workstation arrays. For organizations focused on high-performance computing and visualization, this scalability ensures that investments in hardware deliver long-term value and adaptability.

Enhanced Productivity and Workflow Optimization

The efficiency of the RTX 4000 SFF Ada GPU extends beyond raw performance, enhancing overall workflow productivity. By accelerating tasks such as simulation, rendering, encoding, and data processing, it significantly reduces project turnaround times. Professionals benefit from smooth multitasking capabilities, enabling simultaneous operation of multiple resource-intensive applications. Whether running complex CAD models, rendering photorealistic environments, or training AI models, the GPU ensures consistent performance without slowdowns. Its optimized architecture and driver support streamline creative and computational processes, allowing professionals to focus on innovation and output quality rather than hardware limitations. The result is a smoother, faster, and more efficient working experience across industries that rely on high-end visualization and computation.

Future-Proof Professional GPU Solution

The PNY 699-5G192-0550-300 20GB GDDR6 PCI Express 4.0 x16 16Bit RTX 4000 SFF Ada GPU stands as a forward-looking solution for modern professionals. With its blend of compact design, energy efficiency, AI acceleration, and real-time rendering power, it redefines performance expectations in the professional graphics domain. As industries increasingly adopt AI-driven tools, real-time simulation, and collaborative cloud workflows, this GPU ensures seamless compatibility and sustained performance. It is engineered to handle the evolving demands of visual computing, data science, and immersive technologies, providing users with a robust, reliable, and future-ready platform for innovation.