Workstation PCs

High-performance Home Workstation PCs built utilizing quality components

Browse our range of Home Workstation PCs that are designed for high performance and are built utilizing some of the most powerful hardware components in the industry, such as Intel Core and AMD CPUs, at least a 1TB solid state drive (SSD), NVIDIA RTX and GTX graphics cards.


All Vibox Desktop PCs are suitable for everyday office tasks such as sending emails, word processing and hosting other professional applications to help you prioritize and manage your workload.


Our PCs are also suitable for many other general uses such as gaming, video editing, music and much more.


All of our PCs come with a lifetime warranty which entitles you to free upgrade and repair labour, Contact our customer service team for assistance with everything from delivery information to helping with what components should be in your PC if you want to custom workstation.

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VTX-3 Schwarz V-1 Gaming-PC
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AMD Ryzen 9 9900X 56GHz 12-Core AM5
Nvidia RTX 3060 12GB
16GB Netac DDR5 4800MHz DIMM
1TB NVMe M.2 SSD
Vibox VTX-3 Schwarz
Voraussichtlicher Versand
140842
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VTX-2 Schwarz V-2 Gaming-PC
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AMD Ryzen 9 9900X 56GHz 12-Core AM5
Nvidia RTX 4060 8GB
16GB Netac DDR5 4800MHz DIMM
1TB NVMe M.2 SSD
Vibox VTX-2 Schwarz
Voraussichtlicher Versand
141018
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VTX-2 Weiß V-2 Gaming-PC
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AMD Ryzen 9 9900X 56GHz 12-Core AM5
Nvidia RTX 4060 8GB
16GB Netac DDR5 4800MHz DIMM
1TB NVMe M.2 SSD
Vibox VTX-2 Weiß
Voraussichtlicher Versand
141047
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VTX-3 Schwarz V-2 Gaming-PC
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AMD Ryzen 9 9900X 56GHz 12-Core AM5
Nvidia RTX 4060 8GB
16GB Netac DDR5 4800MHz DIMM
1TB NVMe M.2 SSD
Vibox VTX-3 Schwarz
Voraussichtlicher Versand
141330
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VTX-3 Weiß V-1 Gaming-PC
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AMD Ryzen 9 9900X 56GHz 12-Core AM5
Nvidia RTX 3060 12GB
16GB Netac DDR5 4800MHz DIMM
1TB NVMe M.2 SSD
Vibox VTX-3 Weiß
Voraussichtlicher Versand
141361
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VTX-3 Weiß V-2 Gaming-PC
0
AMD Ryzen 9 9900X 56GHz 12-Core AM5
Nvidia RTX 4060 8GB
16GB Netac DDR5 4800MHz DIMM
1TB NVMe M.2 SSD
Vibox VTX-3 Weiß
Voraussichtlicher Versand
141849

Vibox Workstation PCs

Difference between a gaming PC and a home workstation


A gaming PC and a home workstation are both types of personal computers, but they serve different purposes and are optimized for different tasks. Here are the main differences between the two:


Purpose:

Gaming PC: As the name suggests, a gaming PC is designed primarily for playing video games. It is built to handle the resource-intensive graphics and processing demands of modern games, providing a smooth and immersive gaming experience.


Home Workstation: A home workstation, on the other hand, is intended for productivity tasks such as office work, graphic design, video editing, programming, and other professional applications. It is optimized for multitasking, running resource-heavy software, and handling complex computational tasks.


Hardware Specifications:

Gaming PC: A gaming PC typically emphasizes high-end graphics capabilities, with dedicated graphics cards (GPU) designed for rendering 3D environments and achieving high frame rates. It also requires a powerful central processing unit (CPU) for handling game physics, AI, and other computations. Gaming PCs often have large amounts of RAM to support smooth gameplay and quick loading times.


Home Workstation: A home workstation usually focuses more on CPU performance, as it's crucial for multitasking and running specialized software efficiently. It might still have a good GPU, but not necessarily as high-end as those found in gaming PCs. Additionally, workstations often have more RAM and storage capacity to handle large files and datasets.


Aesthetics and Form Factor:

Gaming PC: Gaming PCs often come with flashy designs, RGB lighting, and visually appealing cases to cater to gamers who enjoy customizing and showing off their setups.


Home Workstation: Workstations typically have a more professional and utilitarian appearance, with a focus on practicality and efficient use of space.


Cooling and Noise Considerations:

Gaming PC: Gaming PCs tend to generate more heat due to the demanding graphics and processing tasks, requiring robust cooling solutions. As a result, they may produce more noise during intense gaming sessions.


Home Workstation: Workstations are designed with a balance between performance and noise reduction since noisy environments can be distracting during work-related tasks.


Software and Peripherals:

Gaming PC: Gaming PCs are optimized for running video games and often come with gaming-related software and peripherals such as specialized gaming keyboards, mice, and controllers.


Home Workstation: Workstations may come pre-installed with productivity software and are typically paired with standard input devices like a keyboard and mouse.


Difference between a workstation laptop and a workstation PC


A workstation laptop and a workstation computer are both computing devices designed for high-performance and specialized tasks, but they differ in several key aspects due to their form factors and intended use cases. Below, we'll explore the fundamental differences between these two types of workstations:


Form Factor:

Workstation Laptop: A workstation laptop is a compact, portable computing device designed to be carried and used on the go. It typically resembles a traditional laptop, with a built-in keyboard and display.


Workstation PC: A workstation PC, on the other hand, is a desktop computer that consists of separate components such as a central processing unit (CPU), graphics processing unit (GPU), motherboard, and peripherals (keyboard, mouse, monitor). It is typically stationary and not designed for portability.


Performance:

Workstation Laptop: While workstation laptops offer impressive performance, they are often limited by their smaller size and thermal constraints. They may not provide the same level of performance as a workstation PC, especially for demanding tasks that require extensive computational power or GPU acceleration.


Workstation PC: Workstation PCs are known for their superior performance capabilities. They can accommodate powerful CPUs, multiple GPUs, and large amounts of RAM, making them suitable for intensive tasks like 3D rendering, scientific simulations, and data analysis.


Upgradability:

Workstation Laptop: Workstation laptops are generally less upgradable than workstation PCs. Due to their compact design, components like CPUs and GPUs are often soldered to the motherboard, limiting the ability to upgrade these parts. RAM and storage upgrades are typically more feasible.


Workstation PC: Workstation PCs offer extensive upgradability options. Users can easily replace or upgrade individual components, allowing them to adapt the system to changing performance requirements or technology advancements.


Display Options:

Workstation Laptop: Workstation laptops typically have built-in displays, and the screen size may be limited compared to what you can connect to a workstation PC. However, many workstation laptops come with high-resolution, colour-accurate screens suitable for tasks like video editing and graphic design.


Workstation PC: Workstation PCs can be connected to a wide range of external displays, including multiple monitors, which is beneficial for professionals who require extensive screen real estate for multitasking or specialized applications.


Portability:

Workstation Laptop: Workstation laptops are designed with portability in mind. They are suitable for professionals who need to work in different locations or while travelling.


Workstation PC: Workstation PCs are stationary and not portable. They are typically used in a fixed workspace, such as an office or studio.


Cost:

Workstation Laptop: Workstation laptops tend to be more expensive than standard consumer laptops due to their specialized components and high-performance features.


Workstation PC: Workstation PCs can offer better performance for the price compared to laptops with similar specifications. They are often a more cost-effective option for demanding tasks.


What is the lifespan of a desktop computer vs. a laptop?


The lifespan of a desktop computer versus a laptop can vary based on several factors, including usage patterns, maintenance, and technological advancements. In general, both desktops and laptops are designed to last for a reasonable period, but there are some distinctions to consider.


Desktop Computer Lifespan:

Desktop computers tend to have a longer potential lifespan compared to laptops. This is primarily because desktop components are typically larger and have better cooling systems, which can help prevent overheating and extend the overall life of the hardware.


Here are some key factors affecting the lifespan of a desktop computer:


Upgradability: One significant advantage of desktops is their upgradability. Users can easily replace or upgrade individual components, such as the CPU, GPU, RAM, or storage drives. This adaptability can significantly extend the useful life of a desktop PC as technology evolves.


Better Cooling: Desktops have more space for efficient cooling solutions, including larger fans and heatsinks. Effective cooling can prevent overheating and component damage, contributing to a longer lifespan.


Less Wear and Tear: Desktop components are not subjected to the same physical stresses as laptops, which are often carried around and exposed to potential drops or bumps. The stationary nature of desktops results in less wear and tear on the hardware.


Power Supply Reliability: Desktop power supplies are generally more robust and reliable than laptop power adapters, which can be prone to wear and tear with frequent plugging and unplugging.


Repairability: Desktops are often easier and more cost-effective to repair because their components are more accessible and replaceable.


Laptop Lifespan: Laptops are inherently more portable and compact, which makes them convenient for on-the-go use. However, this portability comes with certain trade-offs in terms of lifespan:


Compact Design: The compact design of laptops limits their ability to dissipate heat efficiently. Over time, this can lead to heat-related wear and tear on internal components, potentially shortening their lifespan.


Limited Upgradability: Laptops are less upgradable compared to desktops. Some components, like the CPU or GPU, are often soldered to the motherboard, making them challenging or impossible to upgrade.


Battery Degradation: Laptop batteries have a limited number of charge cycles before they begin to degrade. This means that, over time, the laptop's battery life may decline, necessitating battery replacement.


Physical Wear and Tear: Due to their portability, laptops are more susceptible to physical damage from accidental drops, spills, or impacts during transportation.


Technological Advancements: Laptops tend to become technologically outdated more quickly than desktops because of their smaller form factor. Newer, more efficient laptops with better performance and battery life are regularly released, which can influence the perceived lifespan of older models.


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Gaming PCs

Gaming PCs

Vibox Gaming PCs

Vibox Workstation PCs | FAQs

Gaming PCs and workstation PCs can both be used for multiple uses, as long as their hardware specifications meet what you're planning to use them for.

You can easily customise your PC using our online PC builder and swap out components such as the CPU from an Intel Core to an AMD Ryzen, or change the GPU from an NVIDIA Geforce RTX to a GTX.


For guidance, do not hesitate to contact our customer service team for assistance.