NVIDIA RTX A6000 Graphics Card 48GB

The RTX A6000 is an enthusiast-class professional graphics card by NVIDIA, launched on October 5th, 2020. Built on the 8 nm process, and based on the GA102 graphics processor, the card supports DirectX 12 Ultimate. The GA102 graphics processor is a large chip with a die area of 628 mm² and 28,300 million transistors. It features 10752 shading units, 336 texture mapping units, and 112 ROPs. Also included are 336 tensor cores which help improve the speed of machine learning applications. The card also has 84 raytracing acceleration cores. NVIDIA has paired 48 GB GDDR6 memory with the RTX A6000, which are connected using a 384-bit memory interface. The GPU is operating at a frequency of 1410 MHz, which can be boosted up to 1800 MHz, memory is running at 2000 MHz (16 Gbps effective).

Being a dual-slot card, the NVIDIA RTX A6000 draws power from an 8-pin EPS power connector, with power draw rated at 300 W maximum. Display outputs include: 4x DisplayPort 1.4a. RTX A6000 is connected to the rest of the system using a PCI-Express 4.0 x16 interface. The card measures 267 mm in length, 112 mm in width, and features a dual-slot cooling solution. Its price at launch was 4649 US Dollars.

Key Features:

1. 48GB GDDR6 ECC Memory

• • Massive Memory Capacity
    The A6000 is equipped with 48GB of GDDR6 memory with ECC (Error Correction Code) capabilities, enabling it to handle large datasets, complex simulations, and high-resolution video rendering without performance bottlenecks.
  • High Bandwidth
    A memory bandwidth of 768 GB/s ensures smooth performance for resource-intensive applications, such as 3D rendering, AI model training, and high-fidelity virtual reality.

2. NVIDIA Ampere Architecture

• • CUDA Cores
    Features 10,752 CUDA cores for general-purpose computation, enabling accelerated rendering, simulations, and parallel processing for large-scale workloads.
  • RT Cores (Second Generation)
    Up to 2x faster ray tracing performance than previous generations, enabling real-time photorealistic rendering and enhanced global illumination for immersive graphics.
  • Tensor Cores (Third Generation)
    Advanced Tensor Cores deliver 5x faster AI performance, optimized for deep learning training and inference, as well as AI denoising in creative workflows.

3. Real-Time Ray Tracing

• • Enhanced RT Performance
    The RTX A6000 is designed for real-time ray tracing, supporting complex lighting effects, reflections, shadows, and refractions with precision and speed, critical for industries like visual effects, game development, and architectural visualization.

4. AI-Optimized Workflows

• • AI-Powered Rendering
    Third-generation Tensor Cores accelerate AI tasks, including deep learning model training and inference, as well as AI-assisted rendering with NVIDIA OptiX and DLSS (Deep Learning Super Sampling).
  • Deep Learning & Data Science
    The GPU is certified for NVIDIA’s data science stack, offering end-to-end acceleration for machine learning, data analytics, and predictive modeling.

5. High-Performance Computing (HPC)

• • Double-Precision (FP64)
    Provides up to 38.7 TFLOPS of FP64 performance for scientific computing, simulations, and engineering workflows.
  • Mixed-Precision Computing
    Supports FP16 and INT8 computations for faster AI model development and deployment, making it ideal for training and inference at scale.

6. Advanced Display Capabilities

• • Quad-Display Support
    Equipped with 4 DisplayPort 1.4a outputs, the RTX A6000 supports resolutions up to 8K at 60Hz, making it suitable for multi-monitor setups and ultra-high-definition visualization.
  • NVIDIA Mosaic Technology
    Allows users to scale visuals across multiple displays seamlessly for immersive design reviews or expansive control room environments.

7. Virtual GPU (vGPU) Support

• • Multi-User Virtualization
    The A6000 supports NVIDIA vGPU technology, enabling multiple users to share GPU resources efficiently in virtualized environments. This feature is particularly useful for cloud-based collaboration, virtual desktop infrastructure (VDI), and remote work scenarios.

8. Scalable Multi-GPU Deployment

• • NVLink Technology
    The A6000 includes two NVLink connectors, enabling up to 112.5 GB/s of bidirectional bandwidth between GPUs. This facilitates scaling workloads across multiple GPUs, ideal for rendering farms, deep learning clusters, or simulation-heavy environments.

9. Energy-Efficient Design

• • Power Efficiency
    The RTX A6000 is rated at 300W TDP, delivering performance efficiency suitable for modern workstations and data centers.
  • Passive Cooling Option
    Designed for rack-mounted servers, the A6000 can operate with active or passive cooling systems, adapting to diverse hardware environments.

Applications:

1. Artificial Intelligence & Machine Learning
   • Deep Learning Training: Accelerate training of large neural networks for applications in NLP, computer vision, and predictive modeling.
   • AI Inference: Optimize real-time AI applications with Tensor Cores for faster decision-making and data analysis.
2. Media & Entertainment
   • 3D Rendering & Animation: Render lifelike 3D environments, characters, and animations with ray tracing and AI-enhanced rendering tools.
   • Post-Production: Handle 8K video editing, color grading, and compositing with unparalleled speed and precision.
3. Architecture, Engineering, and Construction (AEC)
   • Design Visualization: Create photorealistic architectural renderings and walkthroughs with real-time ray tracing.
   • Simulation & Analysis: Run structural simulations and fluid dynamics with GPU-accelerated precision.
4. Scientific Research
   • HPC Workloads: Perform large-scale simulations for weather forecasting, molecular dynamics, and physics experiments.
   • Data Analytics: Analyze and process massive datasets for genomics, astronomy, or climate modeling.
5. Automotive & Manufacturing
   • Prototyping: Develop and test complex product designs using virtual simulations and CAD software.
   • Autonomous Vehicles: Train and validate AI models for autonomous systems with precision and scalability.
6. Virtual Reality & Augmented Reality
   • Immersive Experiences: Power high-fidelity VR/AR applications for training, design reviews, and entertainment.
   • Multi-User VR: Deliver collaborative VR solutions in real-time with low latency and high-quality rendering.

Why Choose the NVIDIA RTX A6000 GPU Card?

1. Unmatched Memory Capacity
   • 48GB of GDDR6 ECC memory ensures smooth handling of large datasets, 8K video, and multi-application workflows.
2. Advanced Architecture
   • The Ampere architecture with next-generation RT and Tensor Cores delivers top-tier performance for AI, rendering, and HPC.
3. Scalability for Large Workloads
   • NVLink support and vGPU compatibility enable scaling across GPUs for large-scale rendering farms, AI clusters, and virtualized environments.
4. Versatile Application Support
   • Optimized for professional visualization, data science, and engineering tools like Autodesk, Blender, Adobe, MATLAB, and TensorFlow.
5. Energy Efficiency
   • A power-efficient design ensures the GPU delivers high performance without excessive energy consumption, making it suitable for workstations and data centers.