Professional Visualization & Rendering

Multi-GPU RenderingWorkstations

Up to 384GB of GPU memory with 24,064 CUDA cores and 4th-generation RT cores per GPU. Blender, V-Ray, OctaneRender, Unreal Engine, and DaVinci Resolve at maximum speed.

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Built for These Workflows

Multi-GPU rendering workstations accelerate every stage of the creative and production pipeline.

Blender Cycles

Near-linear multi-GPU scaling with OptiX RT cores. 4x GPUs render 3.8x faster than a single card. 96GB per GPU means massive scenes stay entirely in VRAM.

V-Ray GPU

Chaos V-Ray GPU scales across all available GPUs automatically. Combined 384GB VRAM handles architectural scenes with hundreds of millions of polygons and 8K textures.

OctaneRender

OTOY OctaneRender distributes work across multiple GPUs for real-time preview and final rendering. ECC memory ensures bit-perfect output for production work.

Unreal Engine

Real-time visualization, virtual production, and Lumen global illumination benefit from massive GPU memory for streaming high-resolution assets.

DaVinci Resolve

Multi-GPU accelerates timeline playback, color grading, Fusion compositing, and AI-powered features like Magic Mask, Speed Warp, and Super Scale.

After Effects & Premiere Pro

GPU-accelerated effects, Mercury Playback Engine, and CUDA-powered third-party plugins all benefit from professional GPU memory and compute.

Rendering Workstation Lineup

From dual-GPU mid-range to quad-GPU maximum performance, all built on AMD Threadripper platforms.

Maximum Performance
384 GB VRAMDesktop Tower

Threadripper Pro 9000 4-GPU Rendering Workstation

Maximum bandwidth and VRAM for the most demanding rendering pipelines

CPUAMD Threadripper PRO 9955WX
GPU4x RTX PRO 6000 Blackwell 96GB
Total VRAM384 GB GDDR7 ECC
CUDA Cores4x 24,064 = 96,256
RT Cores4th Generation (per GPU)
StorageTwin NVMe
Call for Pricing: (919) 348-4912
384 GB VRAMDesktop Tower

Threadripper 9000 4-GPU Rendering Workstation

Power-efficient quad-GPU with MaxQ GPUs for lower thermal output

CPUAMD Threadripper 9960X
GPU4x RTX PRO 6000 Blackwell MaxQ 96GB
Total VRAM384 GB GDDR7 ECC
GPU TDP4x 300W (vs 600W full-size)
StorageTwin NVMe
Call for Pricing: (919) 348-4912
64 GB VRAMDesktop Tower

Threadripper 9000 2-GPU Rendering Workstation

Dual NVIDIA RTX 5090 for excellent price-to-performance rendering

CPUAMD Threadripper 9960X
GPU2x NVIDIA RTX 5090 32GB
Total VRAM64 GB GDDR7
StorageTwin NVMe
Call for Pricing: (919) 348-4912
96 GB VRAMRackmount

Threadripper 9000 Rendering Rack Workstation

Rack-mounted rendering node for render farms and shared studios

CPUAMD Threadripper PRO 9965WX
GPU1x RTX PRO 6000 Blackwell MaxQ 96GB
VRAM96 GB GDDR7 ECC
StorageTwin NVMe
Call for Pricing: (919) 348-4912

Performance Comparison

Compare GPU configurations to find the right balance of VRAM, compute, and budget for your rendering workflow.

SpecificationTR Pro 4-GPUTR 4-GPU MaxQTR 2x RTX 5090Rack (1-GPU)
CPUTR PRO 9955WXTR 9960XTR 9960XTR PRO 9965WX
GPU Config4x RTX PRO 60004x RTX PRO 6000 MQ2x RTX 50901x RTX PRO 6000 MQ
Total VRAM384 GB ECC384 GB ECC64 GB96 GB ECC
Total CUDA Cores96,25696,256~42,00024,064
Total GPU TDP2,400W1,200W~900W300W
Form FactorDesktop TowerDesktop TowerDesktop TowerRackmount
Best ForVFX, arch-viz, filmEfficient quad-GPUMid-range valueRender farm node
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Frequently Asked Questions

Why is GPU rendering faster than CPU rendering?
GPUs have thousands of parallel cores designed for simultaneous computation. A single NVIDIA RTX PRO 6000 Blackwell has 24,064 CUDA cores versus 32-64 cores in a high-end CPU. For ray tracing workloads, GPU rendering is typically 10-50x faster. The 4th-generation RT cores provide hardware-accelerated ray tracing that has no CPU equivalent.
Do multi-GPU setups scale linearly for rendering?
GPU rendering scales nearly linearly with the number of GPUs in most modern renderers. A 4-GPU system typically delivers 3.7-3.9x the performance of a single GPU in Blender Cycles, OctaneRender, and V-Ray GPU. This is one of the most cost-effective ways to multiply rendering throughput.
Which rendering software supports multi-GPU?
Most modern GPU renderers support multi-GPU: Blender Cycles, OctaneRender, V-Ray GPU, Redshift, Arnold GPU, KeyShot GPU, and Chaos Corona GPU. DaVinci Resolve uses multi-GPU for real-time video processing, color grading, and Fusion compositing. Call (919) 348-4912 for configuration advice.
Should I choose RTX PRO 6000 or RTX 5090 for rendering?
The NVIDIA RTX PRO 6000 Blackwell has 96GB of ECC GDDR7 memory, making it essential for large scenes that exceed 32GB VRAM. The NVIDIA RTX 5090 with 32GB is excellent for scenes that fit in memory. For architectural visualization with massive datasets, choose the RTX PRO 6000. For motion graphics and moderate-complexity scenes, the RTX 5090 delivers great value.
Why does VRAM matter for rendering?
GPU VRAM must hold the entire scene: geometry, textures, materials, and lighting data. When a scene exceeds available VRAM, the GPU renderer either falls back to CPU rendering (much slower) or fails entirely. The 96GB ECC memory on the NVIDIA RTX PRO 6000 Blackwell means even the most complex scenes fit entirely in GPU memory.
Can these workstations handle AI alongside rendering?
Yes. The NVIDIA RTX PRO 6000 Blackwell features 5th-generation Tensor Cores alongside CUDA and RT cores. Many studios now use AI-powered denoising (OptiX, OIDN), AI upscaling, AI-assisted texture generation, and AI-driven asset creation. These workstations handle rendering and AI workflows on the same hardware.

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Talk to our hardware specialists about the right GPU rendering configuration for your studio, workflow, and budget.

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