Your go-to destination for cutting-edge server products

Toll-free: +1 (888) 585-4454 Call for discount: (607) 246-7817

VCNRTX4000ADA-PB PNY Nvidia Quadro Rtx 4000 20GB GDDR6 Graphic Card 4 X Display Port.

Home/GPU & Graphics/GDDR6 GPU/20GB/PNY VCNRTX4000ADA-PB Nvidia Quadro Rtx 4000 20GB GDDR6 Graphic Card 4 X Display Port. New Sealed in Box (NIB) with 3 Year Warranty

Mfg Part #:VCNRTX4000ADA-PB

* Product may have slight variations vs. image

PNY VCNRTX4000ADA-PB RTX 4000 Graphic Card

Hover on image to enlarge

Brief Overview of VCNRTX4000ADA-PB

PNY VCNRTX4000ADA-PB Nvidia Quadro Rtx 4000 20GB GDDR6 Graphic Card 4 X Display Port. New Sealed in Box (NIB) with 3 Year Warranty

QR Code of VCNRTX4000ADA-PB PNY Nvidia Quadro Rtx 4000 20GB GDDR6 Graphic Card 4 X Display Port.

$2,362.50

$1,750.00

You save: $612.50 (26%)

Ask a question

Price in points: 1750 points

Quantity:

+ −

Quote

SKU/MPNVCNRTX4000ADA-PBAvailability✅ In StockProcessing TimeUsually ships same day ManufacturerPNY TECHNOLOGY Manufacturer Warranty3 Years Warranty from Original Brand Product/Item ConditionNew Sealed in Box (NIB) ServerOrbit Replacement Warranty1 Year Warranty

Google Top Quality Store Customer Reviews

Our Advantages

— Free Ground Shipping
— Min. 6-month Replacement Warranty
— Genuine/Authentic Products
— Easy Return and Exchange
— Different Payment Methods
— Best Price
— We Guarantee Price Matching
— Tax-Exempt Facilities
— 24/7 Live Chat, Phone Support

Payment Options

— Visa, MasterCard, Discover, and Amex
— JCB, Diners Club, UnionPay
— PayPal, ACH/Bank Transfer (11% Off)
— Apple Pay, Amazon Pay, Google Pay
— Buy Now, Pay Later - Affirm, Afterpay
— GOV/EDU/Institutions PO's Accepted
— Invoices

Delivery

— Deliver Anywhere
— Express Delivery in the USA and Worldwide
— Ship to -APO -FPO
— For USA - Free Ground Shipping
— Worldwide - from $30

Description

Product Overview of PNY Nvidia RTX 4000 Graphics Card

The PNY VCNRTX4000ADA-PB is a high-performance Nvidia Quadro RTX 4000 20GB GDDR6 video card designed for professional workstations. Engineered with advanced graphics processing capabilities, this GPU delivers stunning visuals, accelerated workflows, and seamless multi-display.

General Information

Manufacturer: PNY Technologies
Part Number: VCNRTX4000ADA-PB
Product Type: Graphics Card

Technical Specifications

Memory: 20GB GDDR6
Memory Interface: 160-bit
Interface: PCI Express 4.0 x16
GPU Model: Quadro RTX 4000
Architecture: Nvidia Ampere Architecture
Manufacturing Process: 4nm Custom Nvidia Process
Transistor Count: 35.8 Billion

Memory and Performance

Video Memory: 20GB GDDR6
Memory Bus Width: 160-bit Interface
Bandwidth: 360 GB/s
Memory Type: GDDR6 High-Speed Memory

Power Efficiency

Typical Power Draw: 130 Watts
Recommended Power Supply: 130W PSU or higher

Form Factor and Compatibility

Slot Requirement: Single Slot Design
Interface: PCI Express 4.0 x16
System Compatibility: Desktop Workstations with PCIe 4.0

Display and Connectivity

Display Outputs: 4 x DisplayPort
Multiple Monitor Support: Yes
Digital Resolution Support: Ultra HD / 4K Ready

Ideal Use Cases

3D Rendering and Animation
Architectural Visualization
Video Editing and Post-Production
Simulation and AI Training
Medical Imaging and Research

Boost Your Productivity with the PNY Quadro RTX 4000 20GB

Whether you're a designer, engineer, or content creator, the PNY Nvidia Quadro RTX 4000 20GB GDDR6 delivers exceptional reliability, performance, and scalability. Take your professional workloads to the next level with this workstation-class GPU.

PNY Quadro RTX 4000 20GB VCNRTX4000ADA‑PB

The PNY Quadro RTX 4000 20GB graphics card, identified by model code VCNRTX4000ADA‑PB, is a professional workstation GPU built on NVIDIA’s Turing architecture featuring RT cores, Tensor cores, and advanced CUDA cores. This Quadro RTX 4000 variant is designed for demanding workloads in areas such as computer aided design (CAD), 3D rendering, simulations, scientific visualization, video post‑production, and virtual desktop infrastructure (VDI). With 20GB of GDDR6 memory and four DisplayPort outputs, the VCNRTX4000ADA‑PB delivers a robust solution for professionals who need real‑time ray tracing, AI acceleration, and stable drivers certified by major software vendors.

Technical Specifications and Architecture

The heart of the VCNRTX4000ADA‑PB is the TU104 GPU die, manufactured on a 12nm FinFET process and equipped with advanced RT (ray tracing) cores and Tensor cores. It supports real‑time ray tracing, deep learning acceleration, and efficient rasterization performance combined. The card offers 20GB of GDDR6 memory on a 256‑bit interface, providing substantial bandwidth ideal for handling large datasets, complex scenes, or high resolution textures in professional applications. Memory bandwidth, PCIe interface, and power consumption are balanced to ensure compatibility with many workstation chassis. The card is engineered for professional use, with ECC support, error detection, and reliable cooling under sustained loads. Its four DisplayPort 1.4 connectors allow multi‑monitor configurations, supporting up to four displays with high resolutions and refresh rates. This enables expansive workspace layouts, essential for modeling, simulation, or large timelines in post production.

Performance in Workstation

In CAD and digital content creation software (for example, Autodesk Maya, SolidWorks, CATIA, Blender, or 3ds Max), the PNY Quadro RTX 4000 20GB shows strong performance thanks to its optimized drivers and hardware acceleration units. Its RT cores accelerate reflections, shadows, ambient occlusion, and global illumination with much better throughput than older Quadro or non‑RTX GPUs. Tensor cores can accelerate denoising or AI‑based features. The GPU maintains stability under long rendering sessions and supports large model data sets in engineering workflows. In video editing, color grading, or compositing environments (such as Adobe Premiere Pro, DaVinci Resolve, or After Effects), the card can handle 8K media timelines, complex effects, and GPU‑accelerated codecs. The high memory capacity ensures buffer headroom for multiple layers and effects. The multi‑display support allows a dedicated viewport output, timeline view output, or client view output across monitors.

Use Cases and Industry Information

The VCNRTX4000ADA‑PB finds its place in industries where accuracy, reliability, and certified compatibility are critical. In architecture, engineering, and construction (AEC) firms, professionals use it to visualize large building models, simulate sunlight and shadows, run structural simulations, and produce photorealistic renders with ray tracing enabled. It aids in real‑time walkthroughs and client presentations. In media and entertainment, studios rely on the Quadro RTX 4000 20GB for rendering VFX shots, managing large compositing tasks, and accelerating GPU features in software like Unreal Engine, Unity, and real‑time virtual production pipelines. The GPU’s AI and ray tracing capabilities allow visual teams to achieve film‑quality results with interactive performance. In scientific research and visualization, the card is suitable for processing large 3D point clouds, volumetric rendering, simulation visualization, or computational fluid dynamics (CFD). It can drive multiple high resolution displays or VR setups for immersive exploration of datasets.

Compatibility and System Integration

When integrating a PNY Quadro RTX 4000 20GB (VCNRTX4000ADA‑PB) into workstations, one must ensure proper power delivery, cooling, and physical space. The card requires a standard PCIe x16 slot and draws power from a single 8‑pin PCIe power connector. The system’s power supply must provide sufficient headroom for peak loads. A well ventilated chassis or additional case fans are recommended for sustained performance. The physical length and cooling shroud design require case clearance. Users must confirm the card can fit within the case’s GPU clearance, taking into account adjacent components such as drives or expansion cards. Cooling airflow should be unobstructed around the heatsink fins and ventilation ports. PNY offers certified drivers and frequent updates to maintain compatibility with professional software suites. These drivers are tested and validated to avoid instabilities or regressions in critical environments. Many workstation builders include the Quadro RTX 4000 in their official hardware compatibility lists for ISV‑certified systems.

Variants of Quadro RTX 4000 Series

Within the Quadro RTX 4000 family, multiple variants exist, differentiated by cooler design, memory configuration, or bundled accessories. The VCNRTX4000ADA‑PB variant is one such SKU, targeted for international markets. Another variant may include single fan, dual fan, or blower style coolers, or models with additional display adapters. Some cards may be OEM editions with custom firmware or locked utility features; others are standard retail Quadro RTX 4000s. Differences may include factory clock speeds, cooling solutions, or inclusion of display cables and support kits. Regardless of the variant, the core GPU architecture and 20GB GDDR6 memory specification remain consistent, preserving performance and compute quality across variants.

Compatible Display and Connectivity Features

The four DisplayPort 1.4 connectors on the Quadro RTX 4000 support high resolution monitors, multi‑monitor setups, and daisy chaining via DisplayPort Multi‑Stream Transport (MST). You can drive multiple high DPI or 4K displays simultaneously. Users often configure one display for the main workspace, another for tool palettes, and others for reference imagery or timeline previews in creative workflows. In simulation or visualization environments, tiled display walls or video walls can be managed from a single card with proper MST chaining or splitter configurations. DisplayPort 1.4 offers support for Display Stream Compression (DSC) or HBR3 to enable 8K resolutions or HDR monitors. The card is capable of high refresh rates and deep color depths, making it suited for color critical workflows, HDR grading, or advanced visual analytics.

Performance Benchmarks and Efficiency

Independent benchmarks show that the Quadro RTX 4000 20GB variant delivers substantial gains over previous generation Quadro cards or consumer GeForce GPUs when running professional workloads. In ray tracing tests, it improves render performance by leveraging dedicated RT cores and refined driver optimizations. In AI inference or deep learning tasks, the Tensor cores allow acceleration of INT8, FP16, or mixed precision workloads, improving throughput for denoising, AI upscaling, or deep learning inference. Efficiency is achieved via dynamic clock scaling, power gating, and thermal management. Under light workloads, the card downclocks to conserve power and reduce fan noise. Under sustained load, active cooling ensures performance consistency without thermal throttling. This makes it ideal for continuous heavy workloads like long render queues, simulation runs, or video encoding sessions.

Memory Utilization and Large Dataset Handling

The 20GB GDDR6 memory allows professionals to operate on large models, complex textures, dense point clouds, or volumetric datasets without hitting memory limits. In architectural scenes, multiple layers and high resolution textures can exceed typical GPU memory, but the Quadro RTX 4000 20GB helps maintain headroom. In video projects with multiple layers, effects, or color buffers, this memory ensures that heavier timelines fit within GPU memory, reducing out‑of‑memory errors or performance slowdowns. When working with 3D medical imaging, simulation data, or GIS datasets, the GPU can store large buffers, mesh representations, or volumetric datasets entirely in GPU memory to avoid costly swaps between system RAM and VRAM. This improves interactivity and responsiveness in viewport or rendering previews.

Thermal Performance and Acoustic Characteristics

The thermal solution of the VCNRTX4000ADA‑PB balances cooling and acoustics. The heatsink design, heatpipes, and optimized fin arrays ensure effective heat dissipation. A blower or dual axial fan layout manages airflow through the cooler and exhausts warmed air out of the case or into case ventilation paths. Under high loads, fan speeds ramp up to maintain safe operating temperatures, while under moderate loads the card remains relatively quiet. Noise levels are engineered to stay within acceptable ranges for professional environments such as studios or offices. Heat profiles are stable to avoid thermal throttling or performance degradation over long working sessions. The card’s temperature sensors dynamically adjust fan curves and clock behavior to maintain both cooling efficiency and acoustic balance.

Software Features and Utilities

Alongside the driver package, users get access to utilities such as NVIDIA Control Panel, NVIDIA RTX Enterprise features, and performance tuning tools. GPU management tools allow adjusting clock offsets, fan curves, or power targets within safe limits. In virtualized or remote environments, features such as Multi GPU virtualization, VRRO (Rendering On GPU), or RTX Virtual Workstation support may be available, enabling remote GPU sharing or VDI use cases. The card works with CUDA Toolkit to accelerate compute workloads, leverage CUDA kernels, or integrate with AI frameworks. Deep learning, data science, and GPU compute applications benefit from CUDA support and synergy with RTX hardware.

Multi‑GPU and Expansion Possibilities

While the Quadro RTX 4000 is often used as a single card solution in many workstations, in larger setups or rendering nodes it may be paired or networked with multiple GPUs. For systems supporting multiple RTX 4000 cards, synchronization, data partitioning, or workload balancing can be managed through software. In rendering farms or compute clusters, each card can handle different tiles or frames, maximizing throughput. For display wall or VR environments, multiple cards may drive large arrays of monitors or projectors. Proper synchronization and driver settings ensure seamless transitions between displays or viewports. The 20GB memory per card allows distributed memory setups where large datasets are segmented across GPUs effectively.

Scaling Strategies and Infrastructure Considerations

When scaling with multiple Quadro RTX 4000 cards, infrastructure such as power delivery, cooling, and PCIe lane allocation must be carefully planned. High current rails, additional cooling or airflow systems, and well balanced motherboard layouts are essential. In server or rack mounting scenarios, ensure that the chassis and airflow design consider cumulative heat loads from multiple GPUs. Network interconnect and storage throughput are also critical, as GPU workloads often rely on streaming large datasets from storage. A fast NVMe or RAID array feeding data to each GPU reduces bottlenecks. In cloud or cluster environments, remote management, GPU monitoring, and failover strategies should be integrated.

Longevity and Upgrade Path

Deploying the VCNRTX4000ADA‑PB in existing or new workstations provides a solid upgrade path. Its 20GB memory capacity and support for new software features help future proof systems against growing dataset sizes and evolving rendering techniques. Should needs escalate to more compute horsepower, frameworks in clustered deployments or hybrid workflows allow upgrading to higher tier Quadro or RTX A series GPUs, while retaining investment in infrastructure such as cooling, chassis, and PCIe layout.

Features