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For AMD RADEON PRO VII; WX 9100, WX 8200; WX 7100 and AMD FirePRO W9100; W9000; W8100; W8000; W7000; W7100 & AMD FirePro V9800; V8800; V8750; V7900; V7800 – also in CrossFire operation (up to 4 graphics cards in one system can be synchronized with frame accuracy).The ability to update the firmware offers extensive customization options to meet various application requirements.Supports frame locking, gen locking, synchronized framebuffer swap, and synchronized refresh rate.Additional SDI SyncThe most advanced Genlock/Framelock solution on the market.Enables multi-system video walls and supports Genlock with a house reference signal.Supports Tri-Level Sync for HDTV, PAL, and NTSC SD Video Blackburst.36-month manufacturer’s warranty from AMD.

The AMD Radeon™ PRO W6400 graphics card, powered by the award winning AMD RDNA™ 2 architecture, features a powerful 4GB of dedicated GDDR6 memory, hardware raytracing, 16 MB of all new AMD Infinity Cache™ and is ready for 2x demanding UHD HDR displays supporting truer colors. The complete AMD Radeon PRO W6000 range of GPUs are meticulously engineered to deliver ultra-high viewport frame rates, dependability and serious performance for popular professional applications. Scope of delivery: • AMD Radeon PRO W6400 • 1x DisplayPort to DisplayPort Adapter • Attached Full-Height (ATX) Bracket • Additional Low-Profile (SFF) Bracket

Screen resolutions are increasing, with 4K displays becoming ever more common and the availability of 8K and higher-resolution screens steadily rising. Massive visualization displays in design centers, TV studios, retail environments, and sports venues are pushing the boundaries of display technologies. On-air broadcasts featuring graphics, video, and virtual sets are becoming the norm. The blending of graphics and video—often across multiple displays—has become an integral part of the creative process. The NVIDIA Quadro Sync II card provides the solution for such advanced synchronized display requirements. A single Quadro Sync II card supports up to 4 Pascal / Turing / Ampere-based GPUs, enabling synchronization of up to 16 displays. With two (2) Sync II cards per system, up to 8 GPUs per chassis can be linked together, supporting a total of 32 synchronized displays per system. The NVIDIA Quadro Sync II card, when combined with Quadro Pascal / Turing / Ampere-based GPUs, is the ideal solution for professional synchronized display implementations. Supported NVIDIA Graphics Cards: • NVIDIA L40s • NVIDIA L40 • NVIDIA A40 • NVIDIA RTX PRO 6000 Blackwell Workstation-Edition • NVIDIA RTX PRO 6000 Blackwell Max-Q Workstation-Edition • NVIDIA RTX PRO 5000 Blackwell • NVIDIA RTX PRO 4500 Blackwell • NVIDIA RTX PRO 4000 Blackwell • NVIDIA RTX 6000 Ada • NVIDIA RTX 5000 Ada • NVIDIA RTX 4500 Ada • NVIDIA RTX 4000 Ada • NVIDIA RTX 4000 SFF Ada • NVIDIA RTX A6000 • NVIDIA RTX A5500 • NVIDIA RTX A5000 • NVIDIA RTX A4500 • NVIDIA RTX A4000 • NVIDIA Quadro RTX 8000 • NVIDIA Quadro RTX 6000 • NVIDIA Quadro RTX 5000 • NVIDIA Quadro RTX 4000 • NVIDIA Quadro GV100 • NVIDIA Quadro GP100 • NVIDIA Quadro P6000 • NVIDIA Quadro P5000 • NVIDIA Quadro P4000 Scope of Delivery: • NVIDIA Quadro Sync II • 4x flat ribbon cables for internal connection of multiple graphics cards

NVIDIA Blackwell GB202, Prozessor mit 512-bit Speicheranbindung 21.760 Universale Shaderprozessoren zur Geometrie- und Pixeldarstellung Grafikspeicher-Bandbreite 1.792 GB/s (GDDR7 RAM) Half Precision floating point performance (peak) = 104.8 TFLOPS Single Precision floating point performance (peak) = 104.8 TFLOPS OpenGL 4.6, OpenCL 3.0, DirectX 12.2, Vulkan 1.4, CUDA 12.8 Passmark : 46.500 points • Speicher: 32-GB • Chip-Konfig : 170SM (21760SU/680TMU/170ROP) 96-MB L2-Cache 170 RT-Cores, 680 Tensor Cores • Leistungsaufnahme: 575 Watt (TDP) • Schnittstelle: PCIe 5.0 x16 • Gesamthöhe: Triple-Slot • Anschlüsse: 3x DisplayPort 2.1b, 1x HDMI 2.1b • Abmessung: 333 x 137 x 60mm (LxBxH)

NVIDIA Blackwell GB202, Prozessor mit 512-bit Speicheranbindung 21.760 Universale Shaderprozessoren zur Geometrie- und Pixeldarstellung Grafikspeicher-Bandbreite 1792 GB/s (GDDR7 RAM) Half Precision floating point performance (peak) = 104.8 TFLOPS Single Precision floating point performance (peak) = 104.8 TFLOPS OpenGL 4.6, OpenCL 3.0, DirectX 12.2, Vulkan 1.4, CUDA 12.8 Passmark : 45.700 points • Speicher: 32-GB • Chip-Konfig : 170SM (21760SU/680TMU/170ROP), 170 RT-Cores, 680 Tensor Cores, 96MB L2-Cache • Leistungsaufnahme: 575 Watt (TDP) • Schnittstelle: PCIe 5.0 x16 • Gesamthöhe: Triple-Slot • Anschlüsse: 3x DisplayPort 2.1b, 1x HDMI 2.1b • Abmessung: 333 x 137 x 60mm (LxBxH)

NVIDIA Blackwell GB202, Prozessor mit 512-bit Speicheranbindung 21.760 Universale Shaderprozessoren zur Geometrie- und Pixeldarstellung Grafikspeicher-Bandbreite 1792 GB/s (GDDR7 RAM) Half Precision floating point performance (peak) = 104.8 TFLOPS Single Precision floating point performance (peak) = 104.8 TFLOPS OpenGL 4.6, OpenCL 3.0, DirectX 12.2, Vulkan 1.4, CUDA 10.1 Passmark : 45.700 points • Speicher: 32 GB • Chip-Konfig : 170SM (21760SU/680TMU/170ROP), 170 RT-Cores, 680 Tensor Cores, 96MB L2-Cache • Leistungsaufnahme: 575 Watt (TDP) • Schnittstelle: PCIe 5.0 x16 • Gesamthöhe: Dual-Slot • Anschlüsse: 3x DisplayPort 2.1b, 1x HDMI 2.1b • Abmessung: 329.7x137.8x67.8mm (LxBxH)

NVIDIA Blackwell GB202, processor with 512-bit memory connection 21,760 universal shader processors for geometry and pixel representation Graphics memory bandwidth 1792 GB/s (GDDR7 RAM) Half Precision floating point performance (peak) = 104.8 TFLOPS Single Precision floating point performance (peak) = 104.8 TFLOPS OpenGL 4.6, OpenCL 3.0, DirectX 12.2, Vulkan 1.4, CUDA 10.1 Passmark : 45,700 points - Memory: 32 GB - Chip config : 170SM (21760SU/680TMU/170ROP), 170 RT cores, 680 tensor cores, 96MB L2 cache - Power consumption: 575 watts (TDP) - Interface: PCIe 5.0 x16 - Total height: Dual slot - Connections: 3x DisplayPort 2.1b, 1x HDMI 2.1b - Dimensions: 329.7x137.8x67.8mm (LxWxH)

GPU name: AD104 Architecture: Ada Lovelace Memory size: 24 GB Memory type: GDDR6 with ECC Memory bus: 192 bit Memory bandwidth: 300 GB/s FP32 (Float) Power: 31.3 TFLOPS Shader units: 7.680 Third generation Tensor cores: 40 Supported APIs: OpenCL / DirectCompute / OpenACC / CUDA Power consumption: 40-60 Watt Thermal solution: Passive

NVIDIA Blackwell GB206, processor with 128-bit memory interface 4,352 universal shader processors for geometry and pixel rendering Graphics memory bandwidth: 288.0 GB/s (GDDR7 ECC RAM) Single Precision floating point performance (peak) = 16.97 TeraFlops Half Precision floating point performance = 16.97 TeraFlops RT-Core performance: ? TeraFlops Tensor performance: ? TeraFlops Passmark Score: ? points High-Level Shading Language: OpenGL: 4.6 / OpenCL: 3.0 / DirectX: 12 / Vulkan: 1.4 / CUDA 13.0 Shader Model 6.7 • Memory: 16 GB • Shader Units / TMUs / Tensor / ROPs: 4,352 / 136 / 136 / 64 • Power Consumption: 70 Watts (TDP) • External Power Supply: not required • Interface: PCIe 5.0 x8 • Form Factor: Low Profile / Dual-Slot • Cooling: 1x radial fan (65mm), reference design • Ports: 4x mini DisplayPort 2.1b Special Features: NVENC | NVDEC 1x | 1x (+AV1 Encode & Decode) H.265 encode/decode NVIDIA VR-Ready, NVIDIA VR SLI 10-bit color channel depth, HDCP 2.2 Quadro Mosaic: 4 monitors on one graphics card create one large display! 3-year manufacturer warranty

NVIDIA Blackwell GB206, processor with 128-bit memory interface 4,352 universal shader processors for geometry and pixel rendering Graphics memory bandwidth: 288.0 GB/s (GDDR7 ECC RAM) Single Precision floating point performance (peak) = 16.97 TeraFlops Half Precision floating point performance = 16.97 TeraFlops RT-Core performance: ? TeraFlops Tensor performance: ? TeraFlops Passmark Score: ? points High-Level Shading Language: OpenGL: 4.6 / OpenCL: 3.0 / DirectX: 12 / Vulkan: 1.4 / CUDA 13.0 Shader Model 6.7 • Memory: 16 GB • Shader Units / TMUs / Tensor / ROPs: 4,352 / 136 / 136 / 64 • Power Consumption: 70 Watts (TDP) • External Power Supply: not required • Interface: PCIe 5.0 x8 • Form Factor: Low Profile / Dual-Slot • Cooling: 1x radial fan (65mm), reference design • Ports: 4x mini DisplayPort 2.1b Special Features: NVENC | NVDEC 1x | 1x (+AV1 Encode & Decode) H.265 encode/decode NVIDIA VR-Ready, NVIDIA VR SLI 10-bit color channel depth, HDCP 2.2 Quadro Mosaic: 4 monitors on one graphics card create one large display! 3-year manufacturer warranty

The NVIDIA A10 Tensor Core GPU delivers a versatile platform for mainstream enterprise workloads, like AI inference, training, and HPC. With TF32 and FP64 Tensor Core support, as well as an end-to-end software and hardware solution stack, A10 ensures that mainstream AI training and HPC applications can be rapidly addressed. Multi-instance GPU (MIG) ensures quality of service (QoS) with secure, hardware-partitioned, right-sized GPUs across all of these workloads for diverse users, optimally utilizing GPU compute resources. Scope of delivery: • NVIDIA A10

The NVIDIA A100 Tensor Core GPU delivers unprecedented acceleration at every scale for AI, data analytics, and HPC to tackle the world’s toughest computing challenges. As the engine of the NVIDIA data center platform, A100 can efficiently scale up to thousands of GPUs or, using new Multi-Instance GPU (MIG) technology, can be partitioned into seven isolated GPU instances to accelerate workloads of all sizes. A100’s third-generation Tensor Core technology now accelerates more levels of precision for diverse workloads, speeding time to insight as well as time to market. Scope of delivery: • NVIDIA A100 • 8-pin male (graphics card) to 2x 8-pin female (power supply)

The NVIDIA A100 Tensor Core GPU delivers unprecedented acceleration at every scale for AI, data analytics, and HPC to tackle the world’s toughest computing challenges. As the engine of the NVIDIA data center platform, A100 can efficiently scale up to thousands of GPUs or, using new Multi-Instance GPU (MIG) technology, can be partitioned into seven isolated GPU instances to accelerate workloads of all sizes. A100’s third-generation Tensor Core technology now accelerates more levels of precision for diverse workloads, speeding time to insight as well as time to market. Scope of delivery: • NVIDIA A100 80GB • 8-pin male (graphics card) to 2x 8-pin female (power supply)

Take remote work to the next level with NVIDIA A16, the ideal GPU for high-density, graphics rich VDI. Based on the latest NVIDIA Ampere architecture, A16 is purpose-built to achieve the highest user density, with up to 64 concurrent users per board in a dual slot form factor. Combined with NVIDIA Virtual PC (vPC) software, it enables the power and performance to tackle any project from anywhere. Based on the NVIDIA Ampere architecture, A16 provides double the user density versus the previous generation, while ensuring the best possible user experience. Scope of delivery: • NVIDIA A16

The NVIDIA A2 Tensor Core GPU provides entry-level inference with low power, a small footprint, and high performance for NVIDIA AI at the edge. Featuring a low-profile PCIe Gen4 card and a low 40-60 watt (W) configurable thermal design power (TDP) capability, the A2 brings adaptable inference acceleration to any server. Scope of delivery: • NVIDIA A2 • Low-Profile (SFF) Bracket mounted • Additional Full-Height (ATX) Bracket

The NVIDIA A30 Tensor Core GPU delivers a versatile platform for mainstream enterprise workloads, like AI inference, training, and HPC. With TF32 and FP64 Tensor Core support, as well as an end-to-end software and hardware solution stack, A30 ensures that mainstream AI training and HPC applications can be rapidly addressed. Multi-instance GPU (MIG) ensures quality of service (QoS) with secure, hardware-partitioned, right-sized GPUs across all of these workloads for diverse users, optimally utilizing GPU compute resources. Scope of delivery: • NVIDIA A30 • 8-pin male (graphics card) to 2x 8-pin female (power supply)

NVIDIA® A40 delivers the data center-based solution designers, engineers, artists, and scientists need to meet today’s challenges. Built on the NVIDIA Ampere architecture, the A40 combines the latest generation RT Cores, Tensor Cores, and CUDA® Cores with 48GB of graphics memory for unprecedented graphics, rendering, compute, and AI performance. From powerful virtual workstations accessible from anywhere, to dedicated render nodes, the A40 is built to tackle the most demanding visual computing workloads from the data center. Scope of delivery: • NVIDIA A40 • 8-pin male (graphics card) to 2x 8-pin female (power supply)

GPU Virtualization GRID boards feature the NVIDIA Kepler architecture that, for the first time, allows hardware virtualization of the GPU. This means multiple users can share a single GPU, improving user density while providing true PC performance and compatibility. Scope of delivery: • NVIDIA GRID K2 Right-to-Left Airflow

Der NVIDIA L40 liefert eine noch nie dagewesene visuelle Rechenleistung für das Rechenzentrum und bietet Grafik-, Rechen- und KI-Funktionen der nächsten Generation für GPU-beschleunigte Anwendungen. Basierend auf der Ada Lovelace GPU-Architektur verfügt der L40 über RT Cores der dritten Generation, die die Echtzeit-Raytracing-Fähigkeiten verbessern, und Tensor Cores der vierten Generation mit Unterstützung für das FP8-Datenformat, die eine Inferenzleistung von über einem Petaflop liefern. Diese neuen Funktionen werden mit CUDA Cores der neuesten Generation und 48 GB Grafikspeicher kombiniert, um Visual Computing-Workloads von hochleistungsfähigen virtuellen Workstation-Instanzen bis hin zu großen digitalen Zwillingen in NVIDIA Omniverse zu beschleunigen. Scope of delivery: • NVIDIA L40

Der NVIDIA L40S liefert eine noch nie dagewesene visuelle Rechenleistung für das Rechenzentrum und bietet Grafik-, Rechen- und KI-Funktionen der nächsten Generation für GPU-beschleunigte Anwendungen. Basierend auf der Ada Lovelace GPU-Architektur verfügt der L40S über RT Cores der dritten Generation, die die Echtzeit-Raytracing-Fähigkeiten verbessern, und Tensor Cores der vierten Generation mit Unterstützung für das FP8-Datenformat, die eine Inferenzleistung von über einem Petaflop liefern. Diese neuen Funktionen werden mit CUDA Cores der neuesten Generation und 48 GB Grafikspeicher kombiniert, um Visual Computing-Workloads von hochleistungsfähigen virtuellen Workstation-Instanzen bis hin zu großen digitalen Zwillingen in NVIDIA Omniverse zu beschleunigen. Scope of delivery: • NVIDIA L40S

Offering incredible 3D application performance and the ability to simultaneously drive four 4K displays. The NVIDIA® Quadro® K1200 includes a full-height bracket allowing it to be installed in any workstation, desktop, and mid-tower enclosure. With the supplied low-profile bracket even the most space constrained SFF compact system can be used. 512 CUDA cores coupled with 4GB of GDDR5 GPU memory with fast bandwidth, the NVIDIA Quadro K1200 enables you to create large, complex 3D models, and an all-new display engine drives up to four displays natively with DisplayPort 1.2 support for true 4K resolutions like 3840 x 2160 at 60 Hz with 30-bit color. Scope of delivery: • NVIDIA Quadro K1200 • Attached Full-Height (ATX) Bracket • Additional Low-Profile (SFF) Bracket

The NVIDIA® Quadro® K2200 delivers exceptional power-efficient 3D application performance. 4GB of GDDR5 GPU memory with fast bandwidth enables you to create large, complex models, and a flexible single-slot form factor makes it compatible with even the most space and power-constrained chassis. Plus, an all-new display engine drives up to four displays with DisplayPort 1.2 support for ultra-high resolutions up to 3840 x 2160 at 60 Hz with 30-bit color. Scope of delivery: • NVIDIA Quadro K2200

The new family of NVIDIA® Quadro® professional graphics products leverages the powerful NVIDIA Kepler™ architecture to deliver a new level of workstation performance and capabilities. You can now realize your most ambitious vision—whether it’s product design, visualization, and simulation or spectacular visual storytelling — and get it to market faster, more profitably, and with superior quality. The NVIDIA Quadro K4000 graphics board offers supercharged performance for graphics-intensive applications. You get 3 GB of GDDR5 memory, stereo capability, and the freedom to drive up to four displays simultaneously from a single slot board configuration. Scope of delivery: • NVIDIA Quadro K4000

NVIDIA® Quadro RTX 4000 combines the NVIDIA Turing GPU architecture with the latest memory and display technologies, to deliver the best performance and features in a single-slot PCI-e form factor. Enjoy greater fluidity with photorealistic rendering, experience faster performance with AI-enabled applications and create detailed, lifelike VR experiences more cost-effectively and across a broader range of workstation chassis configurations. NVIDIA® Quadro RTX 4000 features 36 RT cores to accelerate ray tracing, 288 Tensor cores to accelerate AI and 8GB GDDR6 memory to accommodate large datasets. It is equipped with three DisplayPort 1.4 connectors with HDR support and features the latest VirtualLink connector to simplify connectivity to next-gen VR HMDs. Additionally, in conjunction with Quadro Sync II you can deploy massive digital signage solutions with higher density and at lower cost. Scope of delivery: • NVIDIA Quadro RTX 4000