Laptop tools for Vray Rendering require a lot of graphics processing skills. Some of these tools come under the name of Vray, AutoCAD, Maya 3D, and SketchUp, Blender, and who works with this type of graphics-intensive software, knows well how important it is to have a good GPU in such a way that the workload on the CPU and RAM is not excessive.
Best Laptops For Vray Rendering 2021
In addition, together with a powerful GPU, it is also necessary to have a large memory and a RAM that is rarely able to support Vray Rendering, characteristics that gaming laptops already have in themselves guaranteeing exceptional graphics and performance, therefore these are the laptop that best work. adapt to the needs of Vray Rendering.
Best Laptops For Vray Rendering | Comparison Table 2021
|Razer Blade 15 Advanced Gaming Laptop 2021: Intel Core i9-11900H 8-Core, NVIDIA GeForce RTX 3080, 15.6” 4K OLED, 32GB RAM, 1TB SSD - CNC Aluminum - Chroma RGB - THX Spatial Audio - Thunderbolt 4||Razer||Check Price|
|Alienware m15 R4 RTX 3070 Gaming Laptop Full HD (FHD), 15.6 inch - Intel Core i7-10870H, 16GB DDR4 RAM, 1TB SSD, NVIDIA GeForce RTX 3070 8GB GDDR6, Windows 10 Home - Lunar Light (Latest Model)||Alienware||Check Price|
|GIGABYTE AERO 17 HDR YD - 17.3" UHD 4k IPS 300Hz, Intel Core i9, NVIDIA GeForce RTX 3080 Laptop GPU 8GB GDDR6, 32GB RAM, 512GB SSD+1TB SSD, Win10 Pro, Creator&Gaming Laptop(AERO 17 HDR YD-93US548SP)||GIGABYTE||Check Price|
|Acer Predator Triton 500 PT515-52-73L3 Gaming Laptop, Intel i7-10750H, NVIDIA GeForce RTX 2070 SUPER, 15.6" FHD NVIDIA G-SYNC Display, 300Hz, 16GB Dual-Channel DDR4, 512GB NVMe SSD, RGB Backlit KB||Acer||Check Price|
|ASUS TUF Dash 15 (2021) Ultra Slim Gaming Laptop, 15.6” 144Hz FHD, GeForce RTX 3050 Ti, Intel Core i7-11370H, 8GB DDR4, 512GB PCIe NVMe SSD, Wi-Fi 6, Windows 10, Eclipse Grey Color, TUF516PE-AB73||ASUS||Check Price|
|CUK GF65 Thin by MSI 15 Inch Gaming Notebook (Intel Core i7, 64GB RAM, 2TB NVMe SSD, NVIDIA GeForce GTX 1660 Ti 6GB, 15.6" FHD 120Hz IPS-Level, Windows 10 Home) Gamer Laptop Computer||Computer Upgrade King||Check Price|
|ROG Zephyrus G15 (2020) Ultra Slim Gaming Laptop, 15.6” 144Hz FHD, GeForce GTX 1660 Ti, AMD Ryzen 7 4800HS, 16GB DDR4, 1TB PCIe NVMe SSD, Windows 10, GA502IU-ES76||ASUS||Check Price|
|CUK HP Omen 15t Gaming Laptop (Intel i9-10885H, 64GB RAM, 2TB NVMe SSD + 2TB HDD, NVIDIA GeForce RTX 2080 Super 8GB Max-Q, 15.6" FHD 300Hz IPS, Windows 10 Home) Gamer Notebook Computer||Computer Upgrade King||Check Price|
|2019 Apple MacBook Pro (16-inch, 16GB RAM, 512GB Storage, 2.6GHz Intel Core i7) - Space Gray||Apple||Check Price|
Best Laptops For Twinmotion | 2021 Products Overview
Hardwar Requirement & Unrivaled Guide to Pick The Best Laptops For Vray Rendering in 2021
Recommended Hardware for V-Ray:
Chaos Group posts basic system requirements for each version of their V-Ray rendering plugin on their official website, as well as the standalone variant. However, the focus in each case is on minimum requirements – not what performs the best.
Moreover, there are actually two parts of V-Ray: Adv and RT, which each use different hardware in a computer. Because of this situation, we have taken the time here at Puget Systems to perform our own testing to determine what hardware runs V-Ray the best. Based on this testing, we have come up with our own list of recommendations.
V-Ray Next CPU (formerly called Adv) is the ‘normal’ version of V-Ray, and it uses the CPU to perform ray tracing and rendering. It scales very well with both clock speed and core count, and even across multiple physical CPUs in a single workstation. If that is the version you plan to use, you will want to spend the bulk of your funds on a powerful CPU – or two, if you have a big budget.
Theoretically, this should scale well to even a quad CPU workstation, but if you need that sort of horsepower (and can afford it) you might be better off with multiple computers running in a networked rendering configuration.
On the other hand, V-Ray Next GPU (formerly RT) began its life as a GPU-based rendering engine. We talk more about that in the next section, but it is worth mentioning that as of V-Ray 3.6 the CPU can now be used alongside the GPU(s) if you wish. Before this, only a basic CPU was needed for V-Ray RT – but now there is a good argument for getting a more powerful processor, especially if you first max out the number of video cards.
- Threadripper 3990X 2.9GHz (4.3 Turbo) 64 Core – With 64 cores and greatly improved per-core performance, AMD’s latest Threadripper has taken an even further lead over Intel in workstation processor performance – especially with well-threaded applications like rendering. Because of its fairly high turbo speeds, this CPU also does well with modeling and animation.
- Any high PCI-E lane count processor – If you are going to use V-Ray Next GPU, then packing in as many video cards as possible is the name of the game. To that end, processors which support a lot of PCI-Express lanes are the way to go… and things like core count matter a lot less. At a minimum, 1 core per video card (and ideally 2) is important, though, and keeping the high clock speed high helps too.
Video Card (GPU)
As with the CPU recommendation above, the choice here depends heavily on which version of V-Ray you plan to use. For V-Ray Adv, nothing special is needed from the video card. Your best bet here would be to select a card that is appropriate for whatever other software you plan to run alongside Cinema 4D, Maya, 3ds Max, etc.
However, for V-Ray RT the video card selection is the biggest single factor in rendering speed/performance. RT has a couple of different modes, though not all plugin versions support both. An OpenGL mode exists in some versions for use with AMD graphics cards, but the main focus is on the CUDA mode for NVIDIA cards. We have tested that with up to four GPUs and found the scaling to be quite good. Faster cards also perform better, of course, so it really is a balancing act to find the combination of cards that best fit your budget.
- GeForce RTX 3080 10GB – Generally speaking, the RTX 3000 is an excellent solid starting point – far faster than anything the 20 Series was, and for a lower price than either the RTX 2080 Ti or Titan RTX. A great choice if you want just one or two video cards and don’t work with particularly complex scenes.
- GeForce RTX 3090 34GB – Our go-to recommendation for most GPU rendering customers, the RTX 3090 provides the best performance in V-Ray while also having a tremendous 24GB of memory. It is also available with blower-style coolers, enabling the use of multiple cards if desired.
Beyond the selection of which card to use is the question of how many. V-Ray scales very well across multiple video cards, but the cooling systems on most GeForce models are not designed with multiple GPUs in mind. For the best overall performance, variants with a single fan that exhausts heat out the back (commonly called “blower” cards) are ideal. Stacking a few of those will give fantastic rendering performance, though it does require a larger chassis, strong power supply, and plenty of airflow from the case fans.
While the exact amount of RAM you need is going to depend on your particular projects, for V-Ray Next GPU (and GPU rendering in general) we recommend doubling the amount of VRAM on the cards. So if you have four 8GB cards, totaling 32GB, we would advise 64GB of system memory.
V-Ray Next CPU is more likely to use additional memory, but in the end, it comes down to how large and complex your scenes are. RAM is relatively cheap, so erring on the side of caution with 128GB or more is not a bad idea if you are unsure just how much you will need.
Storage (Hard Drives)
With the falling costs associated with SSDs, we almost always recommend using an SSD for the primary drive that will host your OS and the installation of V-Ray and other software. The high speed of SSDs allows your system to boot, launch applications, and load files many times faster than any traditional hard drive. If your budget allows, it is also a very good idea to have a second SSD that can be used to store your active projects to further decrease load and save time.
Since SSDs are still more expensive (per GB) than magnetic drives, we advise using traditional hard drives for long-term or rarely-accessed storage. Using an SSD can be useful in some situations, but most of the time the high performance of an SSD is simply not required for a storage drive.