Master the Art of Building a PC: Part Two - Boost Performance with New Coolers

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Master the Art of Building a PC: Part Two - Boost Performance with New Coolers

Table of Contents:

  1. Introduction
  2. The Art of Building a PC: Part Two
    1. Adding New Coolers
    2. The Importance of Paste
    3. Comparing Different Fans
    4. Building Multiple Systems
    5. Using Thicker Fans for Better Cooling
    6. Compatibility with Socket A CPUs
    7. Mounting the Motherboard
    8. Installing Heatsinks
    9. Configuring Airflow in the Case
    10. Choosing the Right Case
    11. Adding Expansion Cards
    12. Connecting Storage Devices
    13. Powering Up the System

The Art of Building a PC: Part Two

In this Second part of our series, we will continue exploring the process of building a PC from scratch. If you missed the first part, you can find it here. This time, we will focus on adding new coolers to improve the system's performance, mounting the motherboard, configuring airflow, and connecting storage devices. So let's dive in and continue our journey into the world of PC building!

Adding New Coolers

One of the most crucial aspects of building a PC is ensuring proper cooling. In this part, we will be installing new coolers to enhance the system's thermal performance. The author introduces two new coolers, one of which is a new old stock, copper slug cooler. These coolers are 60 by 80 millimeters and have a width of 8 millimeters. The other cooler is a 25 millimeter thick fractal fan.

The Importance of Paste

To ensure efficient heat transfer, thermal paste is applied between the processor and the cooler. The author emphasizes the importance of applying the paste properly to prevent instability and overheating. He advises applying a sufficient amount of paste to cover the core, as having too little can lead to temperature issues. He also mentions that it's better to have slightly more paste, as excess will squeeze out during installation.

Comparing Different Fans

The author compares the characteristics of the different fans used in the system. The 60 millimeter fans have a Height of 15 millimeters and a rotation speed of four to four and a half thousand RPMs. On the other HAND, the 25 millimeter fans are rated at 2.5 thousand RPMs and are considered more modern and efficient. The author notes that the thicker fans offer more blade surface area and a better angle of attack, compensating for any potential airflow restrictions caused by the pull configuration.

Building Multiple Systems

In addition to building a single system, the author plans to build multiple systems using the newly acquired coolers. He believes that these coolers, along with the matching specifications of the CPUs and coolers, will make for an efficient and reliable setup.

Using Thicker Fans for Better Cooling

The author explains that using thicker fans can contribute to better cooling performance. He mentions that the slight increase in thickness allows for more air movement and better cooling capacity. The author believes that these thicker fans will be more than sufficient to cool the system, even with higher power components.

Compatibility with Socket A CPUs

The newly acquired coolers are compatible with Socket A CPUs. The author mentions that the coolers' size and performance specifications Align perfectly with the CPUs in the system. He expects this compatibility to result in optimal thermal performance without any temperature-related issues.

Mounting the Motherboard

After checking the CPUs and ensuring they are identical, the author proceeds to mount the coolers on the motherboard. He takes precautions, such as using a piece of thick plastic underneath the motherboard, to prevent any accidental damage. The author highlights the importance of mounting the coolers correctly to ensure proper contact with the CPUs and efficient heat dissipation.

Installing Heatsinks

The author applies thermal paste on the CPUs and mounts the heatsinks on top. He explains the process, including the need for accuracy and caution to avoid damaging the components. The author follows best practices to ensure that the paste is evenly distributed and that the coolers are securely attached, allowing for optimal heat transfer.

Configuring Airflow in the Case

The author describes the rationale behind choosing a pull configuration for the case fans. He explains that this configuration, along with the proper positioning of the case fans, will result in a cleaner airflow pattern. By directing the airflow away from the graphics card and avoiding recirculation of hot air, the author expects improved temperature management and overall system performance.

Choosing the Right Case

The author highlights the importance of selecting a suitable case for the build. In this case, the author opts for a beige case with good cooling capabilities, including multiple fans and additional ventilation holes. The choice of case is based on aesthetics and the practicality of the system's cooling requirements.

Adding Expansion Cards

In addition to the CPU and motherboard, the author installs various expansion cards, including a graphics card, a network card, and a sound card. The author emphasizes the importance of selecting suitable expansion cards that meet the system's requirements while considering factors such as compatibility and performance.

Connecting Storage Devices

To ensure sufficient storage capacity, the author connects storage devices to the system. This includes an SSD and a hard drive. The author describes the process of mounting the devices and organizing the cables to ensure efficient cable management. The author also takes the opportunity to showcase the choice of retro optical drives, aligning with the aesthetics of the system.

Powering Up the System

Finally, the author powers up the system and notes that the installation of Windows went smoothly. The system shows no signs of instability or issues, providing a stable operating environment. The author leaves viewers with a preview of the next part, where they will benchmark the system and explore its capabilities in greater detail.

With the hardware assembled and everything running smoothly, it's time to put the system through its paces and see what it can do. Tune in to the next part to see the benchmark results and discover the potential of this unique PC build.

Stay tuned for Part Three of "The Art of Building a PC" series, where we delve further into the system's performance and explore its capabilities. Don't miss out on the exciting conclusion of this PC building adventure.

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