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PNY VCNRTX4000ADALP-PB NVIDIA RTX 4000 SFF Ada Graphics Card - 20 GB GDDR6 - Low-profile - PCIe 4.0 x 16 - 4x Mini DisplayPort - 7680 x 4320
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Product Features
Technical Overview
At the core of the RTX 4000 SFF Ada is NVIDIA's advanced Ada Lovelace GPU architecture, featuring third-generation RT cores for accelerated ray tracing and fourth-generation Tensor cores optimized for AI and deep learning workloads. The 20 GB GDDR6 memory with 160-bit bus width provides ample capacity for large datasets and complex models in professional applications.
The card supports hardware-accelerated video decoding through its fifth-generation NVDEC engine, handling codecs including MPEG-2, H.264, H.265, VP8, VP9, and AV1. For encoding tasks, the eighth-generation NVENC engine delivers superior quality for 4K and 8K video production with support for efficient AV1 encoding.
Relevant factors for this section include API Supported, Number of Monitors Supported, Maximum Digital Display Resolution, Chipset Manufacturer. When those points are considered together, they give buyers a clearer picture of how the product is equipped, how it fits into deployment, and what kind of day-to-day role it is meant to support.
Key Product Advantages
The RTX 4000 SFF Ada stands out with its combination of professional workstation performance and compact form factor. Unlike full-height graphics cards, this low-profile solution fits into smaller chassis while delivering the same architectural advantages as larger workstation GPUs.
Advanced Ray Tracing
Third-generation RT cores provide up to 2x faster ray-triangle intersection throughput compared to previous generations, enabling real-time ray tracing for professional visualization and design workflows.
- Physically accurate shadows and reflections
- Support for NVIDIA OptiX, Microsoft DXR, and Vulkan ray tracing
- Interactive design workflows with immediate feedback
AI Acceleration
Fourth-generation Tensor cores with support for FP8 precision and Fine-Grained Structured Sparsity deliver more than 2x throughput for tensor matrix operations, accelerating AI training and inference workloads.
- Enhanced deep learning performance
- Support for mixed computation workloads
- Independent floating-point and integer data paths
Memory Integrity
Error Correcting Code (ECC) on graphics memory ensures data integrity for mission-critical applications, providing uncompromised computing accuracy and reliability in professional workstation environments.
- Protection against data corruption
- Essential for scientific and engineering applications
- Maintains computational accuracy
Deployment / Use Cases
The RTX 4000 SFF Ada is engineered for professional workstation environments where space constraints meet demanding computational requirements. Its low-profile design makes it ideal for compact workstations, small form factor systems, and rack-mounted configurations where traditional full-height graphics cards cannot fit.
This graphics card excels in computer-aided engineering (CAE) simulations, 3D model development, architectural visualization, and scientific computing applications. The combination of real-time ray tracing capabilities and AI acceleration supports interactive design workflows across multiple industries including manufacturing, architecture, media production, and research.
Professional Visualization
Support for up to four displays at 7680x4320 resolution enables multi-monitor setups for CAD, CAM, and visualization applications, with hardware-accelerated rendering for complex professional models.
Video Production Workflows
The eighth-generation NVENC engine with AV1 encoding support provides 40% more efficiency than H.264 for 4K HDR video, making this card suitable for professional video editing and broadcast applications.
Physical Profile
Measuring 6.60" (167.64 mm) in length and 2.70" (68.58 mm) in height, the RTX 4000 SFF Ada maintains a compact footprint while delivering full workstation GPU performance. The low-profile, dual-slot design includes both ATX (full-height) and SFF (low-profile) brackets for flexible installation in various chassis types. An active cooling system ensures optimal thermal performance during sustained computational workloads.
The physical profile is practical for deployment planning because the dimensions and weight are clearly defined: Low-profile, 160 bit. This helps confirm rack, shelf, desk, or cabinet fit before installation.
- Width
- 160 bit
- Height
- Low-profile
- Length
- 6.60" (167.64 mm)
What's in the Box
The graphics card ships complete with all necessary components for immediate deployment in professional workstation environments.
Highlights
- NVIDIA Ada Lovelace architecture with 6144 CUDA cores
- 20 GB GDDR6 memory with 160-bit bus width
- PCI Express 4.0 x16 interface for double the bandwidth of PCIe Gen 3
- Low-profile, dual-slot design for space-constrained workstations
- Support for up to four displays at 7680x4320 resolution
- Third-generation RT cores for accelerated ray tracing
- Fourth-generation Tensor cores for AI and deep learning workloads
- Error Correcting Code (ECC) on graphics memory for data integrity
- Hardware-accelerated video decoding and encoding
- Compatible with PC, Linux, FreeBSD, and Solaris platforms
Specifications
| Specifications | |
|---|---|
| Manufacturer | PNY Technologies |
| Manufacturer Part Number | VCNRTX4000ADALP-PB |
| Brand Name | PNY |
| Product Name | NVIDIA RTX 4000 SFF Ada Generation Graphic Card |
| Product Type | Graphic Card |
| Technical Information | |
| API Supported | OpenGL 4.0,DirectCompute,OpenACC,OpenCL |
| Number of Monitors Supported | 4 |
| Maximum Digital Display Resolution | 7680 x 4320 |
| CUDA Cores | 6144 |
| Processor & Chipset | |
| Chipset Manufacturer | NVIDIA |
| Chipset Series | RTX |
| Chipset Model | RTX 4000 SFF Ada |
| Memory | |
| Standard Memory | 20 GB |
| Memory Technology | GDDR6 |
| Bus Width | 160 bit |
| Interfaces/Ports | |
| Host Interface | PCI Express 4.0 x16 |
| Mini DisplayPort | Yes |
| Number of Mini DisplayPort Outputs | 4 |
| Physical Characteristics | |
| Slot Space Required | Dual |
| Form Factor | Plug-in Card |
| Card Height | Low-profile |
| Cooler Type | Active Cooler |
| Height | 2.70" (68.58 mm) |
| Length | 6.60" (167.64 mm) |
| Miscellaneous | |
| Package Contents | NVIDIA RTX 4000 SFF Ada Generation professional graphics card ATX (full-height) and SFF (low-profile) brackets, ATX attached NVIDIA RTX Quick Start Guide NVIDIA RTX Support Guide 4x mDP to DP adapters |
| Platform Supported | PC,Linux,FreeBSD OS,Solaris |
FAQ
What makes the RTX 4000 SFF Ada suitable for compact workstations?
The RTX 4000 SFF Ada features a low-profile, dual-slot design measuring just 2.70" in height and 6.60" in length, allowing it to fit into space-constrained chassis and small form factor systems. Despite its compact size, it delivers full professional workstation GPU performance with 20 GB GDDR6 memory, 6144 CUDA cores, and support for PCI Express 4.0 x16 interface.
How does the memory configuration support professional applications?
With 20 GB of GDDR6 memory on a 160-bit bus, the RTX 4000 SFF Ada provides sufficient capacity for large datasets, complex 3D models, and scientific simulations in professional applications. The memory includes Error Correcting Code (ECC) protection to ensure data integrity for mission-critical workloads in engineering, scientific computing, and visualization environments.
What display configurations does this graphics card support?
The RTX 4000 SFF Ada supports up to four simultaneous displays through its four Mini DisplayPort outputs, with maximum digital resolution of 7680 x 4320 per display. The package includes four mDP to DP adapters for connecting to standard DisplayPort monitors, enabling multi-monitor setups for CAD, visualization, and video production workflows.
How does PCI Express 4.0 benefit professional workloads?
PCI Express 4.0 x16 interface provides double the bandwidth of PCIe Gen 3, significantly improving data transfer speeds between the CPU and GPU memory. This enhanced bandwidth accelerates data-intensive tasks such as AI training, data science computations, and complex 3D rendering where large datasets must move quickly between system components.
What video codecs are supported for hardware acceleration?
The fifth-generation NVDEC engine provides hardware-accelerated decoding for MPEG-2, VC-1, H.264 (AVCHD), H.265 (HEVC), VP8, VP9, and AV1 video formats. For encoding, the eighth-generation NVENC engine supports efficient AV1 encoding that delivers 40% better efficiency than H.264 for 4K HDR video, making it suitable for professional video editing and broadcast applications.
Which operating systems are compatible with this graphics card?
The RTX 4000 SFF Ada is compatible with PC (Windows), Linux, FreeBSD, and Solaris operating systems. This broad platform support makes it suitable for diverse professional environments including engineering workstations, scientific computing systems, and media production setups across different operating system preferences and requirements.
| Qty | Price | Available |
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