NVIDIA RTX in Professional Laptops

Endless Possibilities. Accelerated Everywhere.

Access the most powerful visual computing capabilities in thin and light mobile workstations anytime, anywhere. NVIDIA RTX professional laptop GPUs fuse speed, portability, large memory capacity, enterprise-grade reliability, and the latest RTX technology—including real-time ray tracing, advanced graphics, and accelerated AI—to tackle the most demanding creative, design, and engineering tasks on the go. 

NVIDIA RTX Ada Generation Laptop GPUs

This new generation of laptop GPUs, based on the NVIDIA Ada Lovelace architecture, provides massive breakthroughs in speed, performance and power efficiency so you can explore a new realm of possibility.

NVIDIA Ada Lovelace Architecture
Streaming Multiprocessors
Up to 2X performance and power efficiency

Third-Generation
RT Cores
Up to 2X ray tracing performance

Fourth-Generation
Tensor Cores
Up to 4X performance with DLSS 3 AI-based rendering

NVENC / NVDEC
Up to two video encode/decode engines with support for AV1.

Large Memory
Up to 16GB GDDR6 for complex projects and datasets.

AI Optimized With NVIDIA MAX-Q Technology

MAX-Q technology* introduces AI-based system optimizations that make thin and light mobile workstations perform better than ever.

Dynamic Boost uses AI to automatically deliver the optimal power between the GPU, GPU memory, and CPU to boost performance.
Battery Boost finds the optimal balance of GPU and CPU power usage, battery discharge, image quality, and frame rates for longer battery life.
Rapid Core Scaling scales the optimal number of cores and operates them at higher frequencies, delivering more performance for intensive professional apps while on-the-go.
CPU Optimizer enables the GPU to optimize the performance, temperature, and power of the CPU.
Whispermode uses AI-powered algorithms to manage the fan speeds in conjunction with the CPU, GPU, and system temperatures to deliver great acoustics and the best possible performance.
NVIDIA DLSS uses groundbreaking AI rendering to provide a massive performance boost.
Resizable BAR enables the CPU to access the entire GPU frame buffer at once, improving performance in games.
Optimized GPU Memory
  • High-Efficiency On-Chip Memory vastly improves power efficiency with higher bandwidth and improved clock gating.
  • Ultra-Low Voltage GDDR6 boosts GPU efficiency with the lowest voltage graphics memory ever.
  • Tri-Speed Memory Control enables the GPU to switch to new, lower power memory states dynamically.

*Support for MAX-Q technology varies by OEM system.

Bring RTX Power to Professional Workflows

Manufacturing and Product Design

  • Design, engineer, simulate, and render your next amazing product at home, in the office, from the factory, or wherever you need to work.
  • Leverage the power of real-time ray tracing, AI, and advanced graphics in a thin and light form factor to create advanced design visualizations on the go.
  • Simulate structural, fluid, and electromagnetic product performance to get an accurate understanding of design functionality quickly—anytime, anywhere.

Manufacturing and Product Design

  • Design, engineer, simulate, and render your next amazing product at home, in the office, from the factory, or wherever you need to work.
  • Leverage the power of real-time ray tracing, AI, and advanced graphics in a thin and light form factor to create advanced design visualizations on the go.
  • Simulate structural, fluid, and electromagnetic product performance to get an accurate understanding of design functionality quickly—anytime, anywhere.

Architecture, Engineering, Construction, and Operations

  • Design, review, modify, and accurately visualize complex 3D building models anywhere, from your office to your customer locations.
  • Immerse yourself in large-scale building designs with virtual reality.
  • Create compelling photorealistic renderings with lifelike reflections, shadows, and lighting with ray-tracing acceleration.

AI and Data Science

  • Accomplish compute-intensive data science tasks from anywhere. Explore large datasets and features, train and validate models directly on your laptop.
  • Examine large datasets with high levels of interactivity, without cutting down the size of the data or reducing fidelity.
  • Save environment setup time with NVIDIA-Certified data science mobile workstations, which are ideal for the most widely used AI frameworks and SDKs, like TensorFlow and PyTorch.

Enterprise-Grade Reliability

Certifications

Certifications for leading professional software applications deliver a smooth and stable user experience across a wide variety of workflows, including animation, computer-aided design (CAD), simulation, rendering, and more.

Simplified Manageability

Laptops with professional GPUs are easy to deploy, use, and manage across organizations with enterprise support, long lifecycle availability of the GPU, a robust suite of software tools for desktop management, multi-display modes, and IT management.

Enterprise Drivers

Enterprise drivers are continually tuned and tested for software compatibility and stability. Professional RTX GPUs undergo rigorous testing at the hardware and software levels to deliver peak productivity across workflows.

Certifications and multi-display capabilities vary by OEM. Check with your OEM for support for specific features.

Access Powerful NVIDIA Technologies

Streaming XR

NVIDIA CloudXR™, a groundbreaking innovation built on NVIDIA RTX™ technology, delivers VR and AR across 5G and Wi-Fi networks. Using the powerful NVIDIA RTX GPU in your laptop, you can stream your VR experience remotely from your system to your All-In-One headset for the highest quality VR, anywhere.

AI-Enhanced Video Conferencing

The NVIDIA Broadcast app transforms any room into a home office. Whether you’re working, collaborating, creating, or learning remotely, AI-enhanced voice and video significantly increase the quality of your conference calls, no matter what conferencing tools you use.

Create and Collaborate in Virtual Worlds

NVIDIA Omniverse™ Enterprise is a scalable, end-to-end platform enabling enterprises to develop custom 3D pipelines and simulate large-scale, physically accurate virtual worlds.

Simplify AI, HPC, and Data Analytics Workflows

The NGCTM catalog is a hub of GPU-optimized AI, HPC, and data analytics software that simplifies and accelerates end-to-end workflows.

See How NVIDIA RTX Laptops Help Professionals on the Go

Real-Time Collaborative Rendering

Design and collaborate on hyper-realistic environments from anywhere with NVIDIA Omniverse and DLSS 3 technology powered by the  NVIDIA RTX 5000 Ada Generation Laptop GPU.

Enhance Environment Design

See how NVIDIA RTX powered laptops can transform your creative workflow with AI-augmented applications and interactive ray traced rendering. Using advanced multi-application workflows artists and designers can create richly detailed 3D environments from a blank slate with ease.

3D Photogrammetry on an RTX Mobile Workstation

NVIDIA RTX powered mobile workstations help drive the process of 3D scanning using photogrammetry, whether in a studio or in a remote location. Bring the real world into all of your digital creations.

Image courtesy of Furio Tedeschi

Design Showcase: RTX All Stars

Get inspired by the artists, creators, and designers that are using RTX powered laptops to transform workflows and bring their best work to life.

Partners

Find the right solution to tackle your most challenging design and visualization workflows from anywhere.

Select a partner below to view hardware models and GPU options.

NVIDIA RTX Professional Laptop GPUs


GPU Specifications Performance
Options
Laptop GPUs NVIDIA CUDA® Processing Cores1 NVIDIA RT Cores NVIDIA Tensor Cores GPU Memory Peak Memory Bandwidth Memory Type Memory Interface TGP Max Power Consumption2 DisplayPort3 PCIe Generation Single Precision Floating-Point Performance (TFLOPS,Peak)4  AI TOPS9 Tensor Performance (TFLOPS, Peak)4,5 NVIDIA MAX-Q Technology NVENC / NVDEC6
NVIDIA RTX 5000 Ada Generation 9,728 76 (3rd Gen) 304 (4th Gen) 16GB ECC7 576GB/s GDDR6 256-bit 80-175W 1.4a 4 42.6 682 681.8    
NVIDIA RTX 4000 Ada Generation 7,424 58 (3rd Gen) 232 (4th Gen) 12GB ECC7 432GB/s GDDR6 192-bit 60-175W 1.4a 4 33.6 538 538.0    
NVIDIA RTX 3500 Ada Generation 5,120 40 (3rd Gen) 160 (4th Gen) 12GB ECC7 432GB/s GDDR6 192-bit  60-140W 1.4a 4 23.0 369 368.6    
NVIDIA RTX 3000 Ada Generation 4,608 36 (3rd Gen) 144 (4th Gen) 8GB ECC7 256GB/s GDDR6 128-bit 35-140W 1.4a 4 19.9 319 318.6    
NVIDIA RTX 2000 Ada Generation 3,072 24 (3rd Gen) 96 (4th Gen) 8GB 256GB/s GDDR6 128-bit 35-140W 1.4a 4 14.5 232 231.6    
NVIDIA RTX 1000 Ada Generation 2,560 20 (3rd Gen) 80 (4th Gen) 6GB 192GB/s GDDR6 96-bit 35-140W 1.4a 4 12.1 193 193.0    
NVIDIA RTX 500 Ada Generation 2,048 16 (3rd Gen) 64 (4th Gen) 4GB 128GB/s GDDR6 64-bit 35-60W 1.4a 4 9.2 154 147.4    
NVIDIA RTX A5500 7,424 458 (2nd Gen) 232 (3rd Gen) 16GB ECC7 512GB/s GDDR6 256-bit 80-165W 1.4a 4 24.7 396 197.8    
NVIDIA RTX A4500 5,888 46 (2nd Gen) 184 (3rd Gen) 16GB ECC7 512GB/s GDDR6 256-bit  80-140W 1.4a 4 18.5 297 148.4    
NVIDIA RTX A3000 12GB 4,096 32 (2nd Gen) 128 (3rd Gen) 12GB ECC7 336GB/s GDDR6 192-bit  60-130W 1.4a 4 14.1 226 113.0    
NVIDIA RTX A2000 8GB 2,560 20 (2nd Gen) 80 (3rd Gen) 8GB 224GB/s GDDR6 128-bit 35-95W 1.4a 4 9.3 149 74.3    
NVIDIA RTX A1000 6GB 2,560 20 (2nd Gen) 80 (3rd Gen) 6GB 168GB/s GDDR6 96-bit 35-95W 1.4a 4 9.3 149 74.6    
NVIDIA RTX A500 2,048 16 (2nd Gen) 64 (3rd Gen) 4GB 112GB/s GDDR6 64-bit 20-60W 1.4a 4 78 120 568    

1. CUDA parallel processing cores cannot be compared between GPU generations due to several important architectural differences that exist between streaming multiprocessor designs. 2.Maximum possible power consumption including the Dynamic Boost algorithm. For system specific GPU TGP, please consult your OEM/solution provider. 3. Display support varies by system-level implementation. Check with your workstation OEM vendor for system specific configurations. Adaptors available for DVI-SL, DVI-DL, HDMI, and VGA. 4.Peak rates are based on GPU boost clock.  5.Effective TFLOPS using the sparsity feature. NVIDIA Ada Lovelace architecture using FP8 matrix multiply with FP16 or FP32 accumulate; NVIDIA Ampere architecture using FP16 matrix multiply with FP16 or FP32 accumulate. 6.Number of NVENC and NVDEC may vary by GPU. GPU specific details can be found here: https://developer.nvidia.com/video-encode-and-decode-gpu-support-matrix-new 7.Ensures data integrity and reliability by eliminating soft errors on direct random-access memory (DRAM) only. 8. Peak FLOP and display support for NVIDIA RTX A500 Laptop GPU varies by system configuration. Check with your OEM system vendor to confirm which specification is supported. 9. INT8 TOPS with Sparsity (up to)