Enhanced Live Build Guide with Upgraded Cameras

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Enhanced Live Build Guide with Upgraded Cameras

Table of Contents

  1. Introduction
  2. Live Build Setup
  3. Upgraded Camera Equipment
  4. Basic and Simple Build System
  5. Components and Pricing
  6. Motherboard Specifications and Features
  7. Processor Choice and Benefits
  8. Selection of RAM
  9. Hard Drive Considerations
  10. Power Supply Capacity
  11. Graphics Card Performance
  12. Review of the Case
  13. Building the System Step-by-Step
  14. testing and Booting Up Outside of the Case
  15. Installing Components in the Case
  16. Connecting Cables and Cabling Management
  17. Powering On and Testing the System
  18. Conclusion

🖥️ Live Build Setup

Welcome to another live build session with John and The Geek! In this live build, we have improved our setup by upgrading our camera equipment to provide you with higher quality footage. We have also become more familiar with the software and can now answer your questions and comments in real-time. Unlike our previous live video, where we used Android phones, this time we are using webcams to ensure better quality and smoother switches between camera angles. So let's dive into this live build, where we will discuss the parts, their cost, and give you a step-by-step guide to assemble the system.

🎥 Upgraded Camera Equipment

One of the major improvements we have made since our last live build is updating our camera equipment. In the previous video, we used Android phones and IP streaming, which resulted in subpar quality. However, this time we have switched to webcams, which offer better resolution and overall video quality. We have tested the multicam switching to ensure a smooth experience for our viewers. Although there is always a risk of technical difficulties, we are confident that this upgrade will enhance your viewing experience.

💻 Basic and Simple Build System

The focus of this live build is to create a basic and simple system. By utilizing more affordable and possibly obsolete components, we aim to minimize potential risks of damage or loss to expensive equipment. This build is not intended for regular use or live shows, but rather for casual purposes. However, we will be producing videos featuring higher-end hardware in the future. If you are interested in more advanced builds, be sure to check out our main Channel for our last build guide.

💰 Components and Pricing

Now, let's discuss the various components we have selected for this build and the costs associated with them. There are several factors we considered, such as the motherboard, processor, RAM, hard drive, power supply, graphics card, and case.

Starting with the motherboard, we have chosen the MSI FM 2a85 XA - 43, which we purchased for a mere $16 from a Fry's Electronics store. This motherboard is considered obsolete, as newer versions such as FM2+ and FM3+ are already available in the market. However, the low price made it an excellent choice for this basic build.

For the processor, we opted for the Athlon X4 750K, which cost us $80. This CPU does not have built-in graphics, making it cheaper compared to APUs. Its base clock speed is 3.4 GHz, with a turbo boost up to 4 GHz. It provides sufficient power for our purposes, especially considering that we will be using a discrete graphics card.

Moving on to the RAM, we purchased 8GB of Kingston HyperX RAM for $70. With a speed of 1600 MHz, this RAM is suitable for our needs, as we are not relying heavily on integrated graphics. For systems utilizing integrated graphics, faster RAM speeds would be recommended.

In terms of storage, we have a Western Digital Blue 500GB hard drive, which we already had on HAND. While 1TB drives are currently available for similar prices, we chose to use this existing drive to minimize costs for this basic build.

Our power supply is a 525-watt model, which we acquired for $30. It is capable of powering our components, with room for an additional GPU if desired.

Lastly, our graphics card is the Asus DirectCU2 260X, which cost us $150 at the time of purchase. Although newer and more powerful graphics cards are now available for similar prices, this card still provides decent performance for running most modern games at 720p resolution on medium to high settings.

🔍 Motherboard Specifications and Features

Let's take a closer look at the MSI FM 2a85 XA - 43 motherboard. This full-size ATX motherboard offers a range of features and specifications that make it suitable for our basic build.

The FM2 socket supports AMD APUs and CPUs, with our chosen Athlon X4 750K falling into the CPU category. The motherboard has four DIMM slots for dual-channel memory, offering flexibility for future RAM upgrades. It also features two PCI Express slots (one at x16 and one at x8), enabling a potential Crossfire configuration. Additionally, there are three PCI Express x1 slots and a few legacy PCI slots for expansion cards.

Storage-wise, the motherboard provides six SATA connections, allowing for multiple hard drives or solid-state drives. On the rear panel, you can find DVI, VGA, and HDMI ports for video output, along with several USB 2.0 and USB 3.0 ports. Other features include Gigabit Ethernet, HD audio out, and 5.1 channel audio.

It is worth noting that the integrated graphics are not utilized in our build, as we are using a discrete graphics card. However, for those who wish to utilize the integrated graphics, an APU would be better suited.

⚙️ Processor Choice and Benefits

The Athlon X4 750K processor was an ideal choice for our basic build. It offered the necessary performance for our needs while being more affordable than APUs with integrated graphics. Priced at $80, this quad-core CPU has a base clock speed of 3.4 GHz and a turbo boost of up to 4 GHz.

While some may question why we didn't opt for an APU, we made this decision because our build includes a discrete graphics card. The integrated graphics on APUs would go unused, making them redundant in our system. By choosing the Athlon X4 750K, we obtained better value for money without compromising on performance.

💾 Selection of RAM

For our basic build, we selected 8GB of Kingston HyperX RAM operating at 1600 MHz. This was an open-box item purchased from Amazon for $70. Although faster RAM speeds are recommended for systems utilizing integrated graphics, 1600 MHz is sufficient for our purposes.

When choosing RAM, it's important to consider the capacity, speed, and compatibility with the motherboard. Our motherboard has four DIMM slots, allowing for future expansion. Dual-channel memory is supported, ensuring optimal performance.

💽 Hard Drive Considerations

In our build, we opted to use a Western Digital Blue 500GB hard drive that we already had on hand. While it may not be the latest or largest capacity drive, it serves the purpose of storing the operating system and basic applications.

When selecting a hard drive, it's essential to consider factors such as capacity, speed, and reliability. The Western Digital Blue series offers a balance between price, performance, and durability. However, for those seeking higher capacities, 1TB drives are currently available at similar price points.

🔌 Power Supply Capacity

To power our components, we chose a 525-watt power supply. This capacity is sufficient for our basic build and allows for potential upgrades, such as adding a Second GPU or more powerful components in the future.

When selecting a power supply, it's crucial to consider the wattage, efficiency rating, and reliability. Our chosen power supply offers a three-year warranty, providing peace of mind. However, it is worth noting that experiences with power supplies can vary, and it's essential to research customer reviews and ratings before making a final decision.

🎮 Graphics Card Performance

The graphics card we selected for our build is the Asus DirectCU2 260X. While it may be considered outdated by today's standards, it still offers decent performance for running most modern games at 720p resolution on medium to high settings.

Priced at $150 when we purchased it, the Asus DirectCU2 260X was a more affordable option compared to newer and more powerful cards. While it may not be able to handle the latest AAA titles at maximum settings, it provides a satisfactory gaming experience for casual gamers and those on a budget.

🖥️ Review of the Case

The case we chose for this build is the Tesseract by Deepcool. Priced at $30 with free shipping from Newegg, it offers good value for the price. The case features a full front mesh for increased airflow and improved ventilation. It also has USB 3.0 and USB 2.0 ports on the front panel, along with a satin-like finish for a sleek appearance.

With its black interior and exterior, the Tesseract offers a clean and professional look. It comes with multiple fan mounting options and has provisions for cable management, although it may not have as many cable routing holes as some higher-end cases. Overall, the Tesseract provides a solid foundation for our basic build.

🔨 Building the System Step-by-Step

Now let's walk you through the process of building the system. We recommend following these steps to ensure a successful assembly.

Step 1: Start with the CPU - Gently insert the CPU into the ZIF socket, ensuring proper alignment with the arrow indicators. Lower the CPU latch to secure it in place.

Step 2: Install the CPU cooler - Attach the included CPU cooler, which already has thermal paste pre-applied. Line up the cooler's pins with the corresponding holes on the motherboard, and press down until it clicks into place.

Step 3: Insert the RAM - Align the RAM module with the DIMM slots and press firmly until it clicks into place. Ensure that the notch on the RAM module matches the slot on the motherboard.

Step 4: Connect the hard drive - Plug the power and data cables into the appropriate ports on the hard drive. Secure the drive in one of the drive bays inside the case.

Step 5: Mount the power supply - Insert the power supply into the appropriate slot in the case. Secure it with screws to ensure stability.

Step 6: Install the graphics card - Gently insert the graphics card into the appropriate slot on the motherboard. Ensure it is securely seated and use screws to fasten it to the case if necessary.

Step 7: Connect the necessary cables - Attach the various power connectors, such as the ATX power connector and SATA power connectors, to the appropriate ports on the motherboard and components.

🔌 Testing and Booting Up Outside of the Case

Before installing the components inside the case, it is recommended to test and boot up the system outside of the case. This allows you to troubleshoot any potential issues and ensures that all the components are working correctly.

To test the system, follow these steps:

  1. Connect the necessary cables, including the power supply, monitor, keyboard, and mouse.
  2. Power on the system by pressing the power button or connecting the appropriate pins on the motherboard.
  3. Check if all fans are running and if the motherboard and CPU LEDs light up.
  4. Access the BIOS to ensure that all components are recognized and functioning correctly.
  5. If everything is working correctly, proceed to the next step. If not, troubleshoot the issue before proceeding.

📦 Installing Components in the Case

Once you have tested the system and ensured that all components are working correctly, it's time to install them inside the case. Follow these steps to assemble your system:

  1. Open the side panel of the case by removing the screws or unlocking the latches.
  2. Install the motherboard by aligning it with the standoffs and securing it with screws. Ensure that the I/O shield is properly inserted into the case.
  3. Connect the necessary cables, such as the ATX power connector, CPU power connector, and front panel connectors. Refer to the motherboard manual for Pin configurations.
  4. Mount the hard drive and any additional storage devices in the appropriate drive bays using screws or tool-less installation.
  5. Install the graphics card into the appropriate slot on the motherboard and secure it with screws if necessary.
  6. Route the cables neatly to ensure proper cable management and improved airflow.
  7. Close the side panel of the case and secure it with screws or latches.

🔌 Connecting Cables and Cable Management

Connecting cables and managing them properly is essential for a clean and organized build. Here are some tips when it comes to cable management:

  1. Route cables behind the motherboard tray whenever possible to improve airflow within the case.
  2. Use cable ties or Velcro straps to secure and bundle cables together.
  3. Ensure that cables are not blocking fans or obstructing any components.
  4. Connect cables to their respective headers on the motherboard, such as USB, audio, and fan headers.
  5. Tuck excess cables away in empty drive bays or use cable management features provided by the case if available.

Remember that good cable management not only improves aesthetics but also aids in better airflow, reducing the risk of heat buildup and ensuring optimal system performance.

🔌 Powering On and Testing the System

After assembling all the components and managing the cables, it's time to power on the system and test its functionality. Before proceeding, ensure that all connections are secure and no loose cables or components are Present.

  1. Connect the power cord to the power supply and the wall outlet.
  2. Power on the system by pressing the power button on the case or using the appropriate pins on the motherboard.
  3. Observe the system closely for any errors or unusual behavior during the boot process.
  4. Enter the BIOS to check if all components are detected and operating correctly.
  5. If the system boots up without any issues, you can proceed with installing the operating system and any additional software.

✅ Conclusion

Congratulations on successfully building your basic system using our step-by-step guide! We hope this live build session has provided valuable insights into the assembly process and component selection. Remember to check the description for the parts list and explore our main channel for more detailed build videos. Stay tuned for future videos featuring higher-end hardware and advanced builds. Thank you for watching, and until next time, happy building!

FAQ

Q: Can I use this build for gaming? A: This basic build is suitable for casual gaming or running older titles. For more demanding games or higher resolutions, we recommend upgrading to a more powerful graphics card.

Q: Can I upgrade the RAM in the future? A: Yes, the motherboard has four DIMM slots, allowing for future RAM upgrades. Simply purchase compatible RAM modules and install them accordingly.

Q: Is this build suitable for video editing or other resource-intensive tasks? A: While this build can handle basic video editing tasks, it may struggle with more demanding workflows. For professional video editing or resource-intensive tasks, we recommend investing in higher-end components.

Q: Can I overclock the CPU with this build? A: Unfortunately, the Athlon X4 750K does not support overclocking. If you're interested in overclocking, consider upgrading to a CPU that is specifically designed for it.

Q: Can I add more storage to this system? A: Yes, the motherboard supports additional hard drives and SSDs. You can easily add more storage by following the same installation process for the existing hard drive.

Q: What operating system is recommended for this build? A: You can choose any operating system that is compatible with the hardware components. However, for a basic build like this, we recommend using a lightweight operating system such as Linux or Windows 10 Home.

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