BEST GAMER PC CONFIGURATION AT THIS MOMENT ( February 2025)
(paid link)
I understand that you interested for
compilation the most powerful desktop configuration in this Although the market
is quickly is changing , currently as top-notch configuration can to suggest next
composition :
1. Processor (CPU): Intel Core i9-14900K
- Technical characteristics : 16 cores , 32 threads , working
clock speed up to 5.5 GHz.
- Explanation : This one processor provides
exceptional performance for demanding applications and games .
2. Home Motherboard : Asus ROG Maximus Z790 Hero
- Technical characteristics : Support for DDR5 memory , PCIe
5.0 slots , advanced options cooling and overclocking .
- Explanation : This board enables maximum
exploitation potential processor and other components .
3. Memory (RAM): G.Skill Trident Z5 RGB 64GB (2x32GB) DDR5 6000MHz
- Technical characteristics : High frequency and low latency
for optimal performance .
- Explanation : 64GB RAM provides enough memory
for multitasking and demanding applications .
4. Graphic card (GPU): NVIDIA GeForce RTX 5090
- Technical features : 24GB GDDR6X memory , support
for ray tracing and DLSS 3.0 technologies .
- Explanation : Latest generation of NVIDIA
graphics card provides top-notch gaming performance and professional
applications .
5. Storage : Samsung 990 Pro 2TB NVMe SSD
- Technical characteristics : Speed read speed up to 7450
MB/s writing up to 6900 MB/s.
- Explanation : This SSD provides quickly
loading system and application .
6. Power supply (PSU): Seasonic PRIME TX-1000 1000W 80+ Titanium
- Technical characteristics : High efficiency , modular
cables , quiet and reliably power supply .
- Explanation : 1000W power ensures stable
system operation even and under maximum load .
7. Case : Lian Li PC-O11 Dynamic XL
- Technical characteristics : Spacious housing with
excellent flow rate air and with support for watery cooling .
- Explanation : Enables simple installation
components and efficiently cooling .
8. Cooling : Corsair iCUE H150i Elite LCD XT
- Technical features : 360mm AIO water cooling with
customizable LCD screen .
- Explanation : Maintained low processor
temperatures even and at high loads .
For photographs or buying these components ,
you can to visit next links :
- Intel Core i9-14900K: (paid link)
- Asus ROG Maximus Z790 Hero:
- G.Skill Trident Z5 RGB DDR5 6000MHz:
- NVIDIA GeForce RTX 5090: ( Note : RTX 5090 still
always not officially presented ; link leads to to RTX 4090 as the latest
available model .)
- Samsung 990 Pro 2TB NVMe SSD:
- Seasonic PRIME TX-1000 1000W 80+ Titanium:
- Lian Li PC-O11 Dynamic XL:
- Corsair iCUE H150i Elite LCD XT:
This configuration provides top-notch performance for everything types tasks , from gaming to professional work with demanding applications .
Why is your laptop overheating?
It is not a rare case that after some time the laptop starts to heat up more than "normal", and then you hear the cooler (fan) suddenly increasing the number of revolutions, that is, it starts blowing hard to "cool" it.
The cooler receives a report on the temperature of individual components from the temperature sensor, and if they are increased, it blows harder because its role is to blow out warm air through the grid or mesh openings on the housing.
What is the most common cause of laptop overheating? Well, the first most common one is:
Dust accumulates around the fan and the opening through which it blows, so the normal circulation of the air stream is either difficult or the fan is blocked.
Dust accumulates on components that are normally heated, thus creating an obstacle to normal heat transmission.
faulty laptop battery.
malfunction of a component.
If the laptop is really overheating, it may restart or shut down. Therefore, this problem should be treated as if something needs to be done urgently, in order not to have serious consequences such as the failure (burning) of a component, and therefore the failure of the laptop.
The first thing to do is to locate the source of the increased temperature in the physical architecture of the laptop itself. In addition to the fact that the laptop blows out warm air through the openings on the case that are intended for this purpose, touching the case with your hand in some cases can feel a part of the machine that heats up more than usual.
Even if you manage to locate the source, laptop disassembly is inevitable, and here we'll walk you through all the key components and potential sources of trouble:
Fig. 1. LAPTOP MOTHER BOARD
You can't see the processor and graphics chip in this picture because they are covered by a thermally conductive metal plate that has a copper rod to take the heat from the processor and graphics chip to the metal heatsink that the fan blows into.
Between the chips (processor and graphic), there is a thermal paste whose role is to enable better heat transmission, conduction to the metal.
If we remove this heat dissipation and reduction system, the chips will appear:
So, as we have already said, the first thing that needs to be cleaned is the dust, starting from the cooler (fan), where a lot of dust tends to collect, as well as on the openings on the case where warm air is blown out to the outside environment.
Dust is cleaned with a brush made of natural materials (bristle) so as not to generate static electricity due to friction. Static electricity can be very dangerous to both components and the motherboard.
Therefore, it is necessary to know how to handle electronic components (how to grip them with the hands), so that there is no discharge of accumulated static electricity and damage to the component.
When you have cleaned the heat removal system, you can proceed to cleaning individual components.
Since the components and the motherboard were under voltage, due to the electrical charge, they accumulate dust on themselves:
The RAM memory should not be grasped by the contact pins, but should be held by the edges on the side. The hard disk should also not be touched by the electronic part.
The motherboard also knows how to collect dust.
If you have already disassembled the processor and graphics chip cooling system, it is recommended to change the thermal paste that is applied to them as a medium for easy transfer of heat to the cooling system.
If it is established that a component is overheating, an ordinary user will not be able to do anything, the problem should be solved by a professional service person.
If you do not have any experience and disassembling a laptop is not recommended for you, it is better to have the service do it for you.
It is not good for the components to work with increased temperature, so if you run demanding applications (video games) on your laptop, which know how to heat up the machine, it is recommended to use a special stand that has one or two fans and cools your laptop from below through openings on the case.
You can also monitor the heat of key components through various software that exist, in case you know that dust is not the reason for overheating of your laptop.
It is not recommended to place the laptop on soft surfaces (bed, blanket) that close the exhaust openings on the case and prevent normal air flow.
LOOK AT THE NEWEST LAPTOP OFFER:
How Does a Quantum Computer Work?
A quantum computer operates based on the principles of quantum mechanics, utilizing qubits (quantum bits) instead of classical bits (0s and 1s). The key differences from classical computers are:
- Superposition – A qubit can exist in multiple states (both 0 and 1) at the same time, unlike classical bits, which are either 0 or 1. This allows quantum computers to process multiple possibilities simultaneously.
- Entanglement – Qubits can be linked together, meaning the state of one qubit is directly related to another, even across large distances. This enables faster and more efficient calculations.
- Quantum Interference – Quantum computers use interference to amplify correct solutions and cancel out incorrect ones, making calculations more precise.
Quantum vs. Classical Computers: Performance Comparison
| Feature | Classical Computer | Quantum Computer |
|---|---|---|
| Processing Units | Bits (0 or 1) | Qubits (0, 1, or both) |
| Computation Model | Sequential processing | Parallel quantum processing |
| Best at | Routine tasks (gaming, office work, software dev.) | Complex simulations, cryptography, AI, drug discovery |
| Speed | Limited by Moore’s Law | Exponential speedup for some problems |
| Error Tolerance | Low (stable systems) | High (quantum decoherence is a challenge) |
Quantum computers excel in tasks like cryptography, materials science, AI training, and large-scale simulations, where classical computers would take millions of years to compute certain solutions.
For example, Google's Sycamore quantum processor solved a problem in 200 seconds that would take the most powerful supercomputer 10,000 years.
Future Predictions for Quantum Computing
-
Affordable for Everyone?
- Currently, quantum computers are extremely expensive, costing millions of dollars due to complex cooling and error correction requirements.
- In 10–20 years, advancements may reduce costs, allowing cloud-based quantum computing services for consumers.
-
Applications in Everyday Life
- Quantum AI could revolutionize search engines, finance, and cybersecurity.
- Quantum simulations will improve medicine and material design.
- Quantum encryption may replace classical encryption for secure communications.
-
Challenges Before Mass Adoption
- Error Correction: Qubits are fragile and affected by decoherence.
- Scalability: Increasing qubit count while maintaining stability is difficult.
- Cost Reduction: Cryogenic cooling and quantum hardware need optimization.
Top Quantum Computing Companies
| Company | Key Achievements |
|---|---|
| IBM | Quantum Cloud & 1000+ qubit roadmap |
| Google (Alphabet) | Achieved "Quantum Supremacy" with Sycamore (2019) |
| D-Wave | First commercial quantum computer (quantum annealing) |
| Intel | Developing silicon-based quantum processors |
| Rigetti Computing | Cloud-based quantum computing services |
| Microsoft | Developing topological qubits and Azure Quantum |
| Alibaba | Quantum research & cloud services in China |
IBM and Google lead in universal quantum computing, while D-Wave focuses on quantum annealing (a specialized form of quantum computing for optimization problems).
Conclusion: Will Quantum Computing Become Mainstream?
Quantum computers will likely not replace classical computers but will complement them for specific applications. Large IT companies will be the primary users for the next decade, but as the technology advances, it may become accessible via cloud-based services for individuals and smaller businesses.
Would you like to know more about how quantum computing could impact IT consulting or AI development? 🚀
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