NVIDIA L40 & L40S Enterprise 48GB

$7,600.00$8,099.00

✓ Product: NVIDIA L40

✓ Architecture: NVIDIA Ada Lovelace Architecture

✓ Process Size: 4nm NVIDIA Custom Process | TSMC

✓ Transistors: 76.3 Billion

✓ Die Size: 608.44 mm2

✓ CUDA Cores: 18176

✓ Tensor Cores: 568 | Gen 4

✓ RT Cores: 142 | Gen 3

✓ GPU Memory: 48 GB GDDR6 ECC

✓ Memory Interface: 384-bit

✓ Memory Bandwidth: 864 GB/s

✓ Display Connectors: 4x DP 1.4a

✓ Maximum Digital Resolution:

  • 4x 5K at 60 Hz
  • 2x 8K at 60 Hz
  • 4x 4K at 120 Hz
  • 30-bit Color

 

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Unprecedented Performance with NVIDIA L40 and Ada Lovelace Architecture

The NVIDIA L40, powered by the state-of-the-art Ada Lovelace Architecture, is a game-changer in terms of performance. With its groundbreaking features and cutting-edge technology, the L40 sets a new standard for GPU capabilities. Built on a 4nm NVIDIA Custom Process with a staggering 76.3 billion transistors, this GPU delivers unparalleled performance and efficiency. Whether you’re a professional designer working with complex 3D models or an avid gamer seeking the ultimate gaming experience, the L40’s power will amaze and delight.

Immersive Visuals and Unmatched Computing Power

Prepare to be blown away by the impressive specifications of the NVIDIA L40. With 18176 CUDA Cores, 568 Tensor Cores (Gen 4), and 142 RT Cores (Gen 3), this GPU offers unrivaled computing power. It seamlessly handles resource-intensive tasks, from real-time ray tracing and AI-driven applications to complex scientific simulations. The L40’s 48 GB of GDDR6 ECC GPU Memory, coupled with a 384-bit Memory Interface and a remarkable 864 GB/s memory bandwidth, ensures lightning-fast data transfer and efficient processing. Experience lifelike graphics, smooth gameplay, and accelerated workflows like never before.

Enhanced Productivity and Compatibility for a Seamless Workflow

The NVIDIA L40 goes beyond raw power with its comprehensive software support and compatibility. Designed to support NVIDIA vGPU software, including vApps, vPC, and vWS, this GPU provides virtualized GPU instances and efficient resource allocation. With availability slated for early 2023, the L40 empowers businesses and professionals to enhance productivity through virtual workstations and applications. Additionally, the L40 is compatible with leading graphics APIs such as DirectX 12 Ultimate, Shader Model 6.6, OpenGL 4.6, and Vulkan 1.3, ensuring smooth integration into existing software ecosystems. Whether you’re a content creator, researcher, or developer, the L40’s software compatibility and versatility make it an invaluable tool for boosting workflow efficiency and unleashing your creative potential.

Specification Detail
Product NVIDIA L40
Architecture NVIDIA Ada Lovelace Architecture
Process Size 4nm NVIDIA Custom Process | TSMC
Transistors 76.3 Billion
Die Size 608.44 mm2
CUDA Cores 18176
Tensor Cores 568 | Gen 4
RT Cores 142 | Gen 3
GPU Memory 48 GB GDDR6 ECC
Memory Interface 384-bit
Memory Bandwidth 864 GB/s
Display Connectors 4x DP 1.4a
Maximum Digital Resolution 4x 5K at 60 Hz | 2x 8K at 60 Hz 4x 4K at 120 Hz | 30-bit Color
Form Factor 4.4″ H x 10.5″ L | Dual Slot
Thermal Solution Passive
Maximum Power Consumption 300 W
vGPU Software Support NVIDIA vApps, vPC, vWS | Early 2023
vGPU Profiles Supported 1 GB, 2 GB, 3 GB, 4 GB, 6 GB, 8 GB, 12 GB, 16 GB, 24 GB, 48 GB
Graphics APIs DirectX 12 Ultimate, Shader Model 6.6, OpenGL 4.6, Vulkan 1.3
NVENC | NVDEC 3x ENC | 3x DEC | Includes AV1 Encode and Decode
Compute APIs CUDA 12.0, DirectCompute, OpenCL 3.0
NVIDIA 3D Vision and 3D Vision Pro Support via Optional 3-pin mini-DIN Bracket
Frame Lock Supported with optional NVIDIA Quadro Sync II
Power Connector 1x PCIe CEM5 16-pin
NEBS Ready Level 3
Secure Boot with Root of Trust Supported

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Blockchain uses consensus mechanisms, such as Proof of Work (PoW) or Proof of Stake (PoS), to validate and agree on the state of the network. These mechanisms require participants (nodes or validators) to solve complex mathematical puzzles or stake cryptocurrency to participate in the consensus process.

Blockchain uses consensus mechanisms, such as Proof of Work (PoW) or Proof of Stake (PoS), to validate and agree on the state of the network. These mechanisms require participants (nodes or validators) to solve complex mathematical puzzles or stake cryptocurrency to participate in the consensus process.

Blockchain uses consensus mechanisms, such as Proof of Work (PoW) or Proof of Stake (PoS), to validate and agree on the state of the network. These mechanisms require participants (nodes or validators) to solve complex mathematical puzzles or stake cryptocurrency to participate in the consensus process.

Blockchain uses consensus mechanisms, such as Proof of Work (PoW) or Proof of Stake (PoS), to validate and agree on the state of the network. These mechanisms require participants (nodes or validators) to solve complex mathematical puzzles or stake cryptocurrency to participate in the consensus process.

Blockchain uses consensus mechanisms, such as Proof of Work (PoW) or Proof of Stake (PoS), to validate and agree on the state of the network. These mechanisms require participants (nodes or validators) to solve complex mathematical puzzles or stake cryptocurrency to participate in the consensus process.