900-5G153-2500-000 Nvidia RTX PRO 6000 Blackwell Max-Q 96GB GDDR7 With ECC GPU

Nvidia 900-5G153-2500-000 96GB GDDR7 GPU

The Nvidia 900-5G153-2500-000 RTX PRO 6000 Blackwell Max-Q Workstation Edition is not merely an incremental update; it represents a fundamental shift in computational architecture for professional workflows. Built upon the groundbreaking Nvidia Blackwell GPU platform, this accelerator is engineered for the most demanding computational, creative, and scientific challenges. With an unprecedented combination of next-generation RT Cores, Tensor Cores, and a staggering 96GB of GDDR7 memory with ECC protection, it stands as the definitive solution for professionals who cannot compromise on performance, accuracy, or data integrity.

The Blackwell Advantage

At the core of the 900-5G153-2500-000 RTX PRO 6000 Blackwell Max-Q lies the Blackwell GPU architecture, Nvidia's most advanced and efficient design for parallel processing. This architecture introduces revolutionary changes that translate directly to professional application performance.

Decompression Engine and RAS

A dedicated decompression engine accelerates data ingestion by offloading lossless decompression tasks from the CPU. This is critical for data-intensive tasks in simulation, computational finance, and genomic sequencing. Furthermore, enhanced Reliability, Availability, and Serviceability (RAS) features ensure maximum uptime for mission-critical deployments, with advanced error detection, correction, and containment protocols.

96GB GDDR7 with ECC

The memory configuration of the 900-5G153-2500-000 RTX PRO 6000 Blackwell Max-Q is its most defining characteristic, engineered to tackle datasets and models previously confined to multi-GPU setups or remote servers.

Capacity and Bandwidth

With 96GB of ultra-fast GDDR7 memory, professionals can work with immense models, scenes, and datasets entirely in GPU memory. This eliminates the performance-killing latency of swapping data to system RAM. The GDDR7 interface delivers exceptional bandwidth, exceeding 1.5 TB/s, ensuring that the massive computational units of the Blackwell GPU are continuously fed with data, minimizing stalls and maximizing utilization across all cores.

Error Correction Code (ECC) Protection

For scientific computing, financial modeling, and long-render jobs, data integrity is non-negotiable. The integrated ECC memory corrects single-bit errors and detects double-bit errors on-the-fly, ensuring calculations and renders are mathematically accurate and free from silent data corruption. This protection is essential for validating research results and ensuring the fidelity of mission-critical visual effects and engineering simulations.

Core Compute Engines: RT, Tensor, and CUDA

The GPU's processing might is partitioned into specialized units designed for parallel processing, ray tracing, and AI acceleration, all working in concert.

Next-Generation RT Cores

The inclusion of advanced RT Cores (Ray Tracing Cores) brings cinematic-quality rendering and simulation to interactive workflows. These cores accelerate bounding volume hierarchy (BVH) traversal and ray-triangle intersection testing, which are the fundamental computations behind ray tracing.

Opacity Micro-Map (OMM) and Displaced Micro-Mesh (DMM) Engines

These new hardware subsystems, part of the RT Core complex, revolutionize how complex geometry and textures are handled. OMMs drastically accelerate ray tracing for alpha-mapped geometry like foliage, hair, and particles, while DMMs generate extremely detailed geometry on-the-fly from compact base meshes and displacement maps, dramatically reducing memory footprint and accelerating render times for highly tessellated surfaces.

Fourth-Generation Tensor Cores

The Fourth-Generation Tensor Cores are the heart of AI acceleration. They support a broad range of data formats (FP8, FP16, BF16, TF32, INT8, INT4) and are fine-tuned for the matrix math that underpins deep learning and AI. In professional applications, these cores accelerate AI-powered features such as NVIDIA DLSS for superior real-time viewport performance, AI-denoisers in renderers, neural radiance fields (NeRFs), and tools for audio/video processing and data analytics.

High-Performance CUDA Cores

Thousands of enhanced CUDA Cores provide the massive parallel processing power for traditional graphics and compute tasks. These cores handle the shading, simulation, and general computational workloads across CAD, DCC, scientific, and enterprise applications, ensuring blistering performance in both legacy and modern software pipelines.

Elite Performance, Optimized Form Factor

The "Max-Q" designation signifies this GPU is engineered for high-performance mobile and compact workstation solutions, balancing extreme performance with thermal and power efficiency.

Power Efficiency

Through advanced PCB design, low-voltage GDDR7 memory, and optimized power delivery, the Max-Q variant delivers a significant portion of the performance of its full desktop counterpart within a drastically reduced thermal design power (TDP) envelope. This allows OEMs to integrate this world-class GPU into thinner, lighter, and quieter mobile workstations and compact desktops without sacrificing the core capabilities professionals require.

Advanced Cooling Compatibility

The GPU is designed to work in tandem with sophisticated OEM cooling solutions, including vapor chambers and advanced fan profiles. This ensures sustained performance during long compute or render sessions, maintaining high clock speeds without thermal throttling.

Key Specifications Overview

The following detailed specifications define the capabilities of the Nvidia 900-5G153-2500-000 RTX PRO 6000 Blackwell Max-Q Workstation Edition.

GPU Specifications

Based on the Nvidia Blackwell architecture, the GPU features a cutting-edge manufacturing process. It houses a next-generation multi-core processor with dedicated units for graphics, compute, ray tracing, and AI. The exact core counts (CUDA, RT, Tensor) are optimized for the Max-Q power profile, delivering the highest possible performance per watt.

Memory Specifications

The hallmark 96GB of GDDR7 memory operates on a wide, high-speed interface. It features Error Correction Code (ECC) protection for mission-critical accuracy and offers industry-leading bandwidth to feed the compute engines, ensuring no bottleneck for data-intensive tasks.

Display and Connectivity

The GPU supports multiple high-resolution displays, typically through a complement of DisplayPort 2.1 connectors, enabling 8K and HDR workflows. It features advanced display engines supporting AV1 encode/decode for efficient video workflows. System connectivity is provided via a PCI Express 5.0 x16 interface, ensuring maximum bandwidth to the latest workstation platforms.

Form Factor and Power

Designed in a Max-Q form factor for integration into premium mobile and compact desktop workstations. The thermal design power (TDP) is optimized for these platforms, requiring advanced cooling solutions but enabling unparalleled performance in a portable format. Specific power inputs (via traditional PCIe or new 12VHPWR connectors) are determined by the OEM system design.