The GPU or GPU is one of the most important components of any computer. It is a hardware component designed to process the images generated by your computer. When you’re watching a video, playing a game, or editing photos, your GPU plays a major role in how good the graphics are or how smoothly they animate.
Thanks to advances in the workings of GPUs, they are also used for non-graphics purposes. Because they are made up of many simple processors, GPUs are good at handling certain kinds of tasks at incredibly fast speeds. For example, many video and photo editing packages can use the GPU to speed up encoding and conversion tasks.
However, not all GPUs are created equal. There is a whole class of professional workstation-class GPUs out there that seem pretty strange at first glance. Their core specs and performance are not far from the GPUs designed for gamers and consumers alike.
However, they cost staggeringly more than these regular cards. What makes professional workstation cards so special? If this issue bothers you, it’s time to fix this problem.
They are supposed to pay for themselves
To understand the role of professional graphics cards in workstations, you need one fundamental change in attitude. All you need to know is that these cards are designed and priced to pay for themselves.
In other words, cards will bring money and quickly return the investment made in them. This is a big clue as to whether you should even look at a workstation map at all. Unless you have a hardware app that ultimately delivers more value than you originally invested, they probably aren’t meant for you.
Certification and testing of software and drivers
Every area of ??professional computing has a number of standard software packages. Think AutoCAD for design or Catia for advanced 3D rendering. In addition, there are scientific modeling and data analysis programs such as Gaussian for chemistry or Simulia for mechanical engineering.
Companies that make professional workstation cards work directly with the people who make these professional tools. They strive to ensure that hardware, drivers, and software function flawlessly. Why? Because every minute of downtime translates into a direct loss of income.
For customers who buy professional cards, time is literally money. Compared to how much they can lose, the price of the equipment itself is quite reasonable!
After sales service
Of course, no matter how much testing is done on a product, there is no perfection. So what happens when something goes wrong? Professional GPU users will receive updates and fixes as quickly as possible.
They also usually receive priority support to quickly resolve their individual problems. Certification of a professional product for a specific use imposes an obligation on stakeholders to remedy a situation where a product does not perform as advertised.
In addition to better and longer-lasting support for professional cards, there are often exclusive affiliate programs that are open only to organizations using professional products. This is often the case for mission-critical operations.
Oodles of Special RAM
While things are constantly changing, mid-range and high-end gaming GPUs tend to have six to eight gigabytes of video memory. This memory is used to store texture data and any other information the GPU needs to properly render the image.
How much video memory a game card requires is mainly determined by how detailed the game textures are and at what resolution the game will play. Game developers are, of course, very good at optimizing the use of video memory and create their games according to specific requirements.
The situation is completely different for professional users. Their use of video memory is nowhere near as predictable, and professional workloads can lead to much higher memory requirements.
Since these maps are used to work with very complex 3D models or huge datasets, it is very important that they have enough memory. Otherwise, the card will have to start replacing the contents of the memory with the computer’s own RAM, which will drastically slow down the work!
Thus, you will see professional cards with a very large memory capacity. Instead of 8 GB, numbers like 12, 16 and 24 are not uncommon.
And it’s not just about the clean container. As with server and workstation RAM, professional GPU memory is a special type of error-correcting memory. When memory corruption occurs on a game card, the result is usually a small visual glitch or a tiny flaw that the user won’t even notice.
When you’re doing scientific modeling, data analysis, or rendering professional graphics for a Hollywood blockbuster, even one extra byte can have dire consequences.
Beyond dedicated memory, professional GPUs meet higher standards than the already high bar for consumer cards. Under the hood they will have improved voltage regulation components, capacitors, and printed circuit boards.
The GPU itself is likely to be “abandoned” – a term that refers to the choice of chips that have performed particularly well for the premium line of products. I repeat once again that the whole design philosophy of these professional cards assumes much less resistance to defects of any kind, which, in turn, increases their cost.
Game cards emphasize pure performance. Consumers are concerned about achieving the highest graphics settings, delivering as many frames per second as the hardware can muster. As a result, we get random driver instability or other problem that can spoil the gameplay for a short time.
Professional cards too should perform well, but never at the expense of stability. This core value implies how these cards work in real life. Qualitatively different from the products that gamers love, but worth every penny of the asking price.