#gpu rendering

Blender, Autodesk Maya, and Cinema 4D's GPU rendering workstations are built to speed up ray tracing, simulations, and final-frame rendering with the use of high-performance GPUs. To accelerate rendering and shorten production time, contemporary render engines (Cycles, Redshift, Octane, V-Ray, Arnold GPU) make extensive use of GPU cores and VRAM.

1. The Significance of GPU Rendering Workstations

Compared to systems relying solely on the CPU, GPU rendering provides a significant performance boost.

Major benefits include:

• Ray tracing that is accelerated by CUDA and RTX cores.

• Real-time viewport rendering during the modelling and animation process.

• AI denoising for speedier previews and final renders.

• Multi-GPU scaling to shorten rendering times for big scenes.

For instance, when compared to CPU rendering, Blender's Cycles renderer uses NVIDIA OptiX and CUDA to greatly accelerate rendering.

2. Optimal Hardware Setup for GPU Rendering Workstations

Central processing unit

Even if the GPU manages rendering, the CPU is still necessary for scene preparation, physics, and simulations.

Recommended CPUs:

• AMD Threadripper PRO 7000 Series

• Intel Xeon W-2400/W-3400 series

• AMD Ryzen 9 7950X / 9950X

• Intel Core i9 (14th Gen or later)

The Threadripper PRO is the best option for studios because it has a lot of cores for complicated scenes.

The most important part of the GPU.

The speed of rendering is directly proportional to the power of the GPU.

The best GPUs for use with Blender, Maya, and Cinema 4D:

• NVIDIA RTX 5090

• RTX 4090 from NVIDIA

• Blackwell, NVIDIA RTX PRO 6000

• NVIDIA RTX 4080 Super

• AMD Radeon Pro W7900

Examples:

• The RTX 5090 has a large amount of VRAM for complicated scenes and offers exceptional ray tracing performance.

• The RTX PRO 6000 is perfect for large cinematic scenarios since it can have up to 96 GB of VRAM.

RAM

Significant memory is necessary for simulation and rendering.

Suggest:

• At Least 64 GB

• Professional work: 128–256 GB

Scenes with intricate geometry and 8K textures might use a lot of RAM.

Storage

Use quick SSDs to load big files.

Suggested configuration:

• 1 TB NVMe SSD (operating system and software)

• NVMe SSD with 2–4 TB capacity (projects & cache)

• a NAS as an option for storage

Multiple GPUs

2 to 4 GPUs are commonly used in high-end rendering workstations.

Advantages:

• Redshift and Octane scale almost linearly with the number of GPUs.

• Big rendering tasks may finish considerably more quickly.

For Example:

• 2 times the RTX 4090

• Four RTX 4090s

• 2 × RTX PRO 6000

3. Instance of a GPU Rendering Workstation Setup

Superior Studio Workstation

The central processing unit

• Threadripper PRO 7995WX from AMD

GPU

• NVIDIA RTX 4090 × 2

RAM

• 128GB DDR5 ECC

Storage

• 4 TB NVMe + 2 TB NVMe SSD

The power supply

• 1600 W

Use case:

• Producing films

• VFX firms

• Extensive simulations

Workstation for Mid-Range Rendering

CPU

• AMD Ryzen 9 7950X

GPU

• NVIDIA RTX 4080 Super

RAM

• DDR5 with 64 GB

Storage

• 2 TB SSD + 1 TB NVMe

Use scenario:

• independent contractors

• motion graphics

• Producers of YouTube animations

4. The Rendering Engines Used in These Workstations

Typical GPU render engines include:

• Cycles (Blender)

• Redshift (Cinema 4D)

• Arnold GPU (Maya)

• Octane To render

• GPU for V-Ray

RTX acceleration is used by these engines for photorealistic ray tracing and AI-based denoising.

5. Sectors Employing GPU Rendering Workstations

Examples:

• Studios for film and animation

• Visualizing architecture

• Creating games

• Marketing and product design

• Motion graphics

Overview

A professional GPU rendering workstation generally has the following features:

• High-core CPU (Threadripper or Xeon)

• 1 to 4 powerful RTX GPUs

• RAM between 64 and 256 GB

• NVMe SSD storage

• Cutting-edge cooling and high-power PSU

The fast cloud rendering services provider and GPU&CPU render farm, Super Renders farm will share with you 4 rendering engines used for multi GPU rendering.

It is well known that GPU rendering can be performed using a graphics card instead of a CPU to render and can be significantly faster, as GPUs are primarily tailored for fast image rendering. GPU was created to cope with graphics-intensive applications that can burden the CPU and hinder computational performance. The principle of GPU rendering is to run across multiple cores on multiple data, putting parallel processing focused on one specific task, while freeing up the CPU to emphasize different sequential serial processing jobs.

With the reduction in GPU rendering times, there is a wide variety of rendering engines that utilize GPU rendering. In particular, simultaneous rendering using multiple GPUs can be 5 or 10 times faster than a single GPU. As a result, some of the world’s leading brands are focusing primarily on developing products that optimize multi-GPU performance. Maxon and Otoy, which bring great rendering solutions, reduce the rendering time burden for 3D artists, designers, filmmakers, etc.

The multi GPU rendering engines widely used today are Redshift, Octane, Vray, Iray, Fstorm, Eevee, Cycles, which have matured significantly and are outpacing CPU-based rendering engines in terms of both popularity and rendering speed.

Top 4 Multi-GPU Rendering Engines

1. Redshift

Redshift Rendering Technologies Inc was founded in California in early 2012 with the goal of developing production-quality, GPU-accelerated renderers that support biased global lighting technologies that have hitherto been entirely within the CPU domain. Redshift is now part of the Maxon family and is rapidly becoming the first choice of rendering engine for the motion design community. The Redshift rendering engine supports a selection of 3D programs: Autodesk Maya, Autodesk 3Ds Max, Maxon Cinema 4D, Houdini and Katana.

Recommended hardware requirements:

RAM: 16GB RAM or more

CPU: Core i7 or Xeon equivalent, 3.0GHz or higher

Graphics card: with 7.0 or higher CUDA computing power and NVIDIA GPU with 10GB or higher video memory: NVIDIA Quadro, Titan or GeForce RTX GPU for hardware-accelerated ray tracing.

Multiple GPUs

2. OctaneRender

OctaneRender® is one of the world’s first and fastest bias-free, spectrally correct GPU rendering engines, offering quality and speed unmatched by any production renderer on the market. As a product of Refractive Software, Octane was founded by Terrence Vergauwen, the lead developer of LuxRender, and in March 2012, Refractive Software was acquired by Otoy, who also received investment from Autodesk. Now as part of the Otoy family, Octane supports 3Ds Max, Maya, Cinema 4D, Houdini, Daz Studio, Unreal Engine and many other softwares.

Recommended hardware requirements:

RAM: 16GB RAM or more

Graphics: with CUDA computing power 3.0 or higher; and 10GB video memory of NVIDIA GPU: NVIDIA GeForce RTX GPU, GTX, Quadro, Titan

Multiple GPUs

3. EEVEE VS CYCLES

Eevee vs Cycles are the two main GPU rendering engines for Blender, the Blender Foundation’s open source 3D creation software that enables users to handle all aspects of 3D work. It includes modeling, animation, game creation, visual effects and much more. Blender is easy to download, customize and work on your own terms. The software also offers a large number of plugins for creating various types of models, animations, sculptures and more. Ultimately, comparing Evee with Cycles is more or less just comparing real time with ray tracing.

Recommended hardware requirements:

RAM: 16GB RAM or more

CPU: 64-bit quad-core CPU

Graphics card: At least 4GB of video memory

Multiple GPUs

Optimal hardware requirements:

RAM: 32GB RAM or more

CPU: 64-bit octa-core CPU

Graphics: 12GB VRAM or more, RTX GPU, Quadro

Multiple GPUs

4. FStormRender

FStormRender is a new GPU-driven, unbiased renderer with good performance that is quite easy to use. It uses convenient materials and light sources, it is simple, fast and realistic. Currently, FStorm GPU rendering engine is only available for 3Ds Max software. We hope that this amazing renderer will be available for major 3D software in the near future.

The FStormRender has many unique features such as improved tone mapping, glossy reflection shaders, glare effects, light sampling, improved ray tracer and optimized QMC sampling. The FStormRender is deeply integrated into the 3Ds Max environment and supports all necessary and critical features. The built-in scene converter allows easy and careful conversion of any scene from Corona, Octane and Vray renders. Fstorm is interactive, allowing the user to change the scene as it is rendered and to view these changes interactively without reloading. Any scene changes (other than geometry) are automatically reflected. Geometry changes require enabling live geometry updates or pressing the Reload Geometry button. Users can move the camera and get live updates in the frame buffer window.

Recommended hardware requirements:

RAM: 16GB RAM or more

Graphics: NVIDIA Geforce GPU: RTX and GTX series

Multiple GPUs

Source:

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AMD Introduces Impressive New Technology for GPU rendering within Maxon Cinema4D & its native integration of Radeon ProRender

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Maxon Cinema4D now incorporates the AMD Radeon ProRender as a native option for GPU rendering across the Mac or Windows platform(s).

+ MAYA new TECH with AMD

Autodesk Maya rendering with Arnold on a dual AMD Epyc CPU workstation. Each CPU has 32 cores (64 threads) for a combined total of 64 internal cores (128 threads) in a single workstation

Autodesk Maya rendering with Arnold on a dual AMD Epyc CPU workstation

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