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NVIDIA RTX 4000 Ada Generation

NVIDIA RTX™ 4000 Ada Generation

  • SKU: VCNRTX4000ADA-PB
  • Description

    NVIDIA RTX 4000 Ada Generation

    Performance for Endless Possibilities

    The NVIDIA RTX 4000 Ada Generation is the most powerful single-slot GPU for professionals, providing massive breakthroughs in speed and power efficiency over the previous generation to tackle demanding creative, design, and engineering workflows from the desktop. Harnessing the latest-generation RT Cores, Tensor Cores, and CUDA® cores alongside 20GB of graphics memory, RTX 4000 empowers professionals to create intricate product engineering, visionary cityscapes, and immersive entertainment experiences. With its power-efficient, single-slot design, RTX 4000 seamlessly fits into various workstation chassis, offering limitless potential for professionals.

     

    Performance Highlights

    Architecture

    NVIDIA Ada Lovelace Architecture

    Foundry

    TSMC

    Process Size

    4 nm NVIDIA Custom Process

    Transistors

    35.8 billion

    Die Size

    294.5 mm2

    CUDA Parallel Processing Cores

    6,144

    NVIDIA Tensor Cores

    192

    NVIDIA RT Cores

    48

    Single-Precision Performance1

    26.7 TFLOPS

    RT Core Performance1

    61.8 TFLOPS

    Tensor Performance1

    427.6 TFLOPS2

    GPU Memory

    20 GB GDDR6 with ECC

    Memory Interface

    160-bit

    Memory Bandwidth

    360 GB/s

    Max Power Consumption

    130W

    Graphics Bus

    PCI Express 4.0 x16

    Display Connectors

    DP 1.4a (4)3

    Form Factor

    4.4" (H) x 9.5"(L) Single Slot

    Product Weight

    528 g

    Thermal Solution

    Blower Active Fan

    NVIDIA 3D Vision® and 3D Vision Pro

    Support via 3-pin mini DIN

    Frame Lock

    Compatible (with Quadro Sync II)

    NVLink

    Not Supported

    NVENC | NVDEC

    2x | 2x (+AV1 Encode & Decode)
    • 1 Peak rates are based on GPU boost clock.
    • 2 Effective FP8 TFLOPS using the new sparsity feature.
    • 3 Display ports are on by default for the RTX 4000 Ada Generation.

    NVIDIA RTX 4000 Ada Generation Use Cases

    Manufacturing Solutions

    • Designers can create sophisticated visualization systems for collaborative design, design reviews, and retail locations.
    • Real-time ray tracing with an AI assisted rendering performance opens new vistas in interactive photorealistic design across manufacturing workflows.
    • Computational performance makes brings FP32 CAE earlier into the design process, allowing for optimization, validation, and avoidance of costly redesigns.
    • Enable fluid, interactive 3D collaboration with photorealistic results for rapid design reviews with breakthrough solutions like NVIDIA Omniverse Enterprise.

    Media and Entertainment Solutions

    • Broadcasters can synchronize graphics and video for broadcast solutions, virtual sets, and on-air graphics.
    • Create scalable, manageable, and versatile visualization solutions for entertainment outlets or sporting and live events.
    • Video editing, color grading, ray-traced rendering, physically accurate simulation of VFX all enable wider creative vistas to be explored – many with an AI assist.
    • Makes digital storytelling more compelling with NVIDIA Omniverse Enterprise, by allowing M&E professionals to remotely collaborate using their preferred applications, in real-time with cinematic quality visuals, allowing for rapid conceptual signoff and implementation.

    AECO Solutions

    • Fuse design, BIM, and visualization into a unified workflow environment, enhanced with real-time ray tracing and AI.
    • Utilize AR/VR/XR for design reviews, customer walkthroughs, project sign-off, optimization of on-site construction operations, worker safety, and more.
    • Utilize workflow and collaboration tools like NVIDIA Omniverse Enterprise to enable architects, civil and structural engineers, project stakeholders, prospective or actual clients, and contractors into a rapidly iterative and fluid design process from conception to completion of construction.

    Visual Simulation Solutions

    • Create flight, mission, training, or other simulations that circle the globe seamlessly without limitations to altitude, setting, or detail.
    • Connect multiple displays or projectors together to realize a 360-degree field of view, alternatively utilize an AR/VR/XR headset.
    • Optional NVIDIA Quadro Sync II connects multiple RTX 4000 board equipped systems for cost-reduced multi-display or multi-projector simulation, visualization, virtual set or digital signage environments, all with NVIDIA RTX real-time rendering and AI enhanced capabilities and performance.

    Contact pnypro@pny.eu for additional information.

  • Features

    NVIDIA RTX 4000 Ada Generation

    PERFORMANCE AND USEABILITY FEATURES

    NVIDIA Ada Lovelace Architecture

    Experience fast, interactive performance—powered by the latest NVIDIA Ada Lovelace architecture-based GPU—with ultra-fast, onboard graphics memory technology and optimized software drivers for professional applications. The Shader Execution Reordering (SER) system allows on-the-fly organization and reordering of workloads, grouping similar performing threads so the streaming multiprocessor (SM) and RT Core can operate more efficiently.

    CUDA Cores

    The NVIDIA Ada Lovelace architecture-based CUDA cores deliver up to 2X the single-precision floating-point (FP32) throughput compared to the previous generation, providing significant performance improvements for graphics workflows such as 3D model development and compute for workloads like desktop simulation for CAE.

    Third-Generation RT Cores

    Third-generation RT Cores provide up to 2X the throughput of the previous generation and the ability to run ray tracing with either shading or denoising capabilities concurrently. This accelerates renders for M&E content creation, AECO design evaluations, and manufacturing virtual prototyping. Third-generation RT Cores deliver up to 2X the ray-tracing performance over the previous generation, delivering groundbreaking performance for photorealistic rendering. Enhanced RT Cores combined with new SER technology dynamically reorder inefficient workloads, dramatically improving shader performance to accelerate end-to-end ray-traced image rendering performance.

    Fourth Generation Tensor Cores

    Fourth-generation Tensor Cores provide up to 4X faster AI training performance than the previous generation with FP16 precision. Support for the new FP8 data format for inference provides more than 4X faster performance than the previous generation and reduces data memory usage by half (compared to the FP16 data format).

    PCIe Gen 4

    RTX 4000 supports PCIe Gen4, which doubles the bandwidth of PCIe Gen3 from 15.75GB/sec to 31.5 GB/sec for x16 connections, improving data transfer speeds from CPU memory for data-intensive tasks such as AI, data science, and creating 3D models from large datasets. Faster PCIe performance also accelerates GPU DMA transfers, providing faster video data transfers from GPUDirect for Video-enabled devices and faster IO with GPUDirect Storage.

    Higher Speed GDDR6 Memory

    RTX 4000 features 20GB of GDDR6 memory, providing the memory needed for rendering, data science, engineering simulation, and other GPU memory-intensive applications. Support for ECC memory delivers uncompromised computing accuracy and reliability for mission-critical applications.

    Multi-Display

    Four mini-DisplayPort 1.4a connectors, support for multiple 8K monitors, NVIDIA Quadro Sync, Mosaic, and Warp and Blend enable massive immersive environments for CAVE, video walls, and location-based entertainment deployments.

    Extended Reality

    Support for the latest high-resolution HMD devices, high-performance graphics, and 20GB of GPU memory enable the creation of AR and VR experiences for training, product validations, building walkthroughs, and compelling entertainment.

    Form Factor and Power Efficiency

    With a single-slot, low-profile form factor, and power-efficient design, RTX 4000 fits into a wide range of workstation chassis, providing professionals with a generous selection of compatible workstations from worldwide OEM vendors and delivering a groundbreaking GPU architecture for AI and AI-based neural graphics in desktop workstations.

    Motion BVH

    Hardware-accelerated rendering of motion blur—a common cinematic effect that's difficult to render—means artists no longer need to rely on traditional methods of using motion vectors to achieve motion blur. Motion vectors allow the artist to adjust motion blur in post but require visual fixes for reflections and translucency.

    NVIDIA DLSS

    The Ada Lovelace GPU architecture features a new Optical Flow Accelerator and AI-based DLSS Super Resolution with DL denoiser that boost DLSS 3.0's frame rates up to 4X compared to the previous version while maintaining or exceeding native image quality.

    NVIDIA RTX Broadcast Engine

    The NVIDIA RTX Broadcast Engine transforms offices into broadcast studios, upgrading standard webcams and microphones into premium smart devices with the power of AI. Improve the video and audio quality of live streams with AI capabilities such as virtual backgrounds, webcam auto frame, and microphone noise removal. With dedicated AI processors called Tensor Cores on NVIDIA RTX GPUs, the AI networks can run in real-time alongside your applications.

    SOFTWARE SUPPORT

    NVIDIA RTX Experience

    NVIDIA RTX Experience delivers a suite of productivity tools to your desktop workstation, including desktop recording in up to 8K, automatic alerts for the latest NVIDIA RTX Enterprise driver updates, and access gaming features. The application is available for download here.

    NVIDIA CUDA Parallel Computing Platform

    Natively execute standard programming languages like C/C++ and Fortran, and APIs such as OpenCL, OpenACC, and Direct Compute to accelerate techniques such as ray tracing, video and image processing, and computation fluid dynamics.

    Unified Memory

    A single, seamless 49-bit virtual address space allows for the transparent migration of data between the full allocation of CPU and GPU memory.

    NVIDIA GPU Direct for Video

    GPUDirect for Video speeds communication between the GPU and video I/O devices by avoiding unnecessary system memory copies and CPU overhead.

    NVIDIA Enterprise Management Tools

    Maximize system uptime, seamlessly manage wide-scale deployments, and remotely control graphics and display settings for efficient operations.

  • Specifications

    NVIDIA RTX 4000 Ada Generation

    SPECIFICATIONS

    Product

    NVIDIA RTX 4000 Ada Generation

    Architecture

    NVIDIA Ada Lovelace Architecture

    Foundry

    TSMC

    Process Size

    4 nm NVIDIA Custom Process

    Transistors

    35.8 billion

    Die Size

    294.5 mm2

    CUDA Parallel Processing Cores

    6,144

    NVIDIA Tensor Cores

    192

    NVIDIA RT Cores

    48

    Single-Precision Performance1

    26.7 TFLOPS

    RT Core Performance1

    61.8 TFLOPS

    Tensor Performance1

    327.6 TFLOPS2

    GPU Memory

    20 GB GDDR6 with ECC

    Memory Interface

    160-bit

    Memory Bandwidth

    360 GB/s

    Max Power Consumption

    130W

    Graphics Bus

    PCI Express 4.0 x16

    Display Connectors

    DP 1.4a (4)3

    Form Factor

    4.4" (H) x 9.5"(L) Single Slot

    Product Weight

    528 g

    Thermal Solution

    Blower Active Fan

    NVIDIA 3D Vision® and 3D Vision Pro

    Support via 3-pin mini DIN

    Frame Lock

    Compatible (with Quadro Sync II)

    NVLink

    Not Supported

    NVENC | NVDEC

    2x | 2x (+AV1 Encode & Decode)

    Performance numbers may be subject to change until product availability.

    • 1 Peak rates are based on GPU boost clock.
    • 2 Effective FP8 TFLOPS using the new sparsity feature.
    • 3 Display ports are on by default for the RTX 4000 Ada Generation.

    SUPPORTED PLATFORMS

    • Microsoft Windows 11 (64-bit)
    • Microsoft Windows 10 (64-bit)
    • Red Hat Enterprise Linux 7.x
    • SUSE Linux Enterprise Desktop 15.x
    • OpenSuse 15
    • Fedora 31
    • Ubuntu 18.04
    • FreeBSD 11.x
    • Solaris 11
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