NVIDIA Ada Lovelace Architecture
Performance and energy efficiency for endless possibilities
NVIDIA Ada Lovelace Architecture
Performance and energy efficiency for endless possibilities.
NVIDIA Ada Lovelace Architecture
Performance and energy efficiency for endless possibilities.
Meet the Next Generation of Graphics GPUs
The NVIDIA RTX™ platform continues to revolutionize professional visual computing by combining the power of advanced graphics, compute, and AI, bringing more powerful ray tracing capabilities to professional users with every new generation. Now, the NVIDIA Ada Lovelace GPU architecture accelerates the power of RTX to significantly enhance rendering, graphics, data science and AI performance. Engineered to perfection and featuring cutting-edge innovations, Ada takes RTX to new heights for professional workloads.
Performance- From Data Center to Desk
Data Center GPUs
The architecture’s NVIDIA L4 Tensor Core GPU and NVIDIA L40 GPU accelerate performance for data center workloads.
L4 is optimized for video streaming and inference at scale for a broad range of AI applications, including recommenders, AI assistants, visual search, and contact center automation.
L40 is the most powerful NVIDIA RTX™-enabled GPU for the data center, delivering unprecedented performance for visualization, rendering, virtualization, simulation, and AI.
Workstation GPUs
The NVIDIA RTX 6000 Ada Generation GPU is the ultimate workstation GPU, delivering unprecedented rendering, AI, graphics, data science, and compute performance for professional visualization workloads.
The NVIDIA Ada Lovelace architecture powers a variety of desktops and laptops to maximize productivity and creativity.
Explore the Empowering Ada Features
Third-Generation RT Cores
With up to 2X the throughput over the previous generation—and the ability to concurrently run ray tracing with either shading or denoising capabilities—the new third-generation RT Cores deliver massive speedups for workloads like photorealistic rendering of movie content and virtual prototyping of product designs. This technology also speeds up the rendering of ray-traced motion blur for faster results with greater visual accuracy.
Fourth-Generation Tensor Cores
Specialized for deep learning matrix multiply and accumulate math operations, the new fourth-generation Tensor Cores accelerate more data types and support Fine-Grained Structured Sparsity to deliver more than 2X throughput for tensor matrix operations compared to the previous generation. The updates to the Tensor Cores will also accelerate new FP8 precision modes while independent floating-point and integer data paths allow more efficient execution of workloads using a mix of computation and addressing calculations.
Cuda Cores
The Ada-based CUDA® cores bring double-speed processing for single-precision floating point (FP32) operations over the previous generation GPUs. This provides significant performance gains for graphics workflows like 3D model development and compute workflows like desktop simulation for computer-aided engineering (CAE).
PCIe Gen 4.0
New Ada GPUs support PCIe Gen 4.0, providing 2X the bandwidth of PCIe Gen 3.0. This improves data transfer speeds from CPU memory for data-intensive tasks such as AI and data science. Faster PCIe performance also accelerates GPU direct memory access (DMA) transfers, enabling faster video data transfers from GPUDirect® for video-enabled devices and faster I/O with GPUDirect Storage.
