536 goals in 1 match ️️️ #football #edit #everton #shorts #fyp

Bro is being the next cr7

178 hattricks??

Bro was playing against the u2 blind and deaf liverpool team😭🙏🙏🙏

A soccer match lasts 90 minutes.
Convert minutes to seconds:

90 X 60 = 5,400

Given 536 goals, we calculate goals per second:

536 / 5,400 ~ 0.0993 goals per second.

U haven't even hit 5 views in 7b years

When ur playing Sunday league💀

Not injured just legs were too numb because he was running so fast lol

6 goals a minute so every 10 seconds a goal💀

we have the halftime score

1351 - 2 💀💀💀

1,351 in one game is crazy

Bro is ronaldo s friend

The match results 1351 0 😱

I think Everton won their first game ever

You guys do realize that he’s using a filter that doesn’t make sense for this video idea right?

Bro scored 10 goals every second
And 5 assists every second

Biggest What Ifs:

What if he played 2 matches?

Bro is bican but more of him💀💀💀☠️☠️☠️☠️☠️

Bro is true egoist

Bruh 💀

Prime Messi and prime Ronaldo can’t stop him

Bro made a goal every 5 seconds

Bros already the goat

Building a computer from scratch is a challenging but rewarding process that combines knowledge of electronics, computer science, and hardware assembly. While most people buy pre-built systems or assemble computers from pre-made parts, creating a computer from the ground up involves creating each component and ensuring they work together seamlessly. This essay will explore the steps involved in building a computer from scratch, including designing the architecture, manufacturing components, and assembling the system.

1. Understanding the Components of a Computer

Before building a computer from scratch, it is essential to understand the basic components that make up a computer system. These include:
• Central Processing Unit (CPU): The heart of the computer, the CPU performs calculations and manages the execution of instructions.
• Motherboard: The motherboard serves as the main circuit board that connects all the components of the computer.
• Memory (RAM): Random Access Memory (RAM) stores data that is actively being used by the CPU. It allows quick access to the data, which is crucial for the performance of the system.
• Storage Devices (Hard Drive or SSD): These are used to store data permanently, even when the computer is powered off.
• Power Supply Unit (PSU): This component supplies electrical power to the computer’s components.
• Input/Output Devices: These include the keyboard, mouse, monitor, and other peripherals that allow the user to interact with the computer.

2. Designing the Architecture

The first step in building a computer from scratch is designing the architecture of the system. This involves determining the specifications and performance requirements of the computer. Key considerations include:
• Processor selection: The type of CPU chosen will determine the performance of the system. Factors like clock speed, number of cores, and architecture (such as ARM vs. x86) need to be considered.
• Motherboard design: You’ll need to design a motherboard that supports the chosen CPU and other components. This includes creating the circuit layout and deciding on the type of memory, storage, and input/output connections.
• Data Bus and Communication Protocols: The architecture of the computer must include the data buses that allow communication between components. Standard protocols like PCIe for expansion cards and SATA for storage devices must be implemented.

This stage of the process requires a deep understanding of computer engineering and electronic design. It may involve using design software, creating detailed schematics, and selecting appropriate materials for the components.

3. Manufacturing the Components

Once the design is complete, the next challenge is manufacturing the components. This is where the difficulty of building a computer from scratch becomes apparent. Unlike assembling a pre-built system, creating the actual parts involves intricate knowledge of semiconductor fabrication and electronic components.
• Processor Fabrication: Designing and manufacturing a custom CPU is one of the most complex tasks, as it involves creating millions of transistors on a silicon chip using photolithography. This process is generally beyond the scope of most DIY builders and is typically done by specialized companies like Intel or AMD.
• Memory and Storage Devices: RAM and storage devices are also fabricated using advanced technologies. While it is possible to design and build simpler memory units, high-performance memory (such as DRAM) and storage (like SSDs) require advanced manufacturing processes.
• Motherboard Production: Motherboards are printed circuit boards (PCBs) that must be designed to support all the components, including the CPU socket, RAM slots, and expansion slots. These boards are typically fabricated by PCB manufacturers using a multi-layer design to accommodate all the required connections.

In practice, manufacturing these components from scratch at home is nearly impossible. Most builders rely on pre-manufactured parts, even when designing a custom-built system.

4. Assembly

After obtaining the necessary components—such as a processor, memory, motherboard, and storage devices—the next step is assembly. This involves:
• Installing the CPU: Carefully placing the CPU into the motherboard’s socket and securing it.
• Attaching the RAM: Inserting the RAM modules into the appropriate slots on the motherboard.
• Mounting the Motherboard: Securing the motherboard in a computer case using screws and standoffs to prevent short circuits.
• Connecting Storage Devices: Connecting the hard drive or SSD to the motherboard using SATA or NVMe connections.
• Installing the Power Supply: Positioning the power supply unit (PSU) within the case and ensuring it is connected to the motherboard, CPU, storage, and any additional peripherals.
• Connecting Peripheral Devices: Finally, input/output devices such as the keyboard, mouse, and monitor are connected to the computer via USB, HDMI, or other appropriate interfaces.

5. Software Installation

Once the hardware has been assembled, the computer must be powered on and configured. This includes installing an operating system (such as Windows, Linux, or macOS) and any necessary drivers to ensure all components work together properly. Software installation also includes:
• Driver Installation: Ensuring that the motherboard, graphics card, sound card, and other peripherals are compatible with the operating system and have the necessary drivers installed.
• System Configuration: Configuring the BIOS/UEFI settings on the motherboard, including boot order, overclocking options, and memory settings.
• Operating System Setup: Setting up the operating system, configuring security settings, and installing software for the computer’s intended use.

6. Testing and Troubleshooting

After the computer has been assembled and the operating system is installed, thorough testing is crucial to ensure everything works as expected. This involves:
• Running Diagnostic Software: Software tools can check the performance and stability of the CPU, memory, storage, and other components.
• Stress Testing: Running intensive applications to test the system’s stability under heavy loads.
• Troubleshooting Issues: If problems arise, such as failure to boot or performance issues, diagnosing and resolving hardware or software conflicts may be necessary.

Conclusion

Building a computer from scratch is a challenging and complex process that requires a deep understanding of both hardware and software. While it is technically possible to design and manufacture every component of a computer, the practicality of doing so without specialized knowledge and equipment makes it more feasible to rely on pre-manufactured components. Nevertheless, understanding the underlying principles of computer architecture, component assembly, and software installation is an essential skill for anyone interested in computer science or engineering. For most people, building a computer from scratch means assembling parts into a functional system, and this is an excellent way to gain hands-on experience with computer hardware.

It is bros prime club so...

Yamal really taught him🥶🥶🥶🥶🥶🥶

They had to ban him for the rest of his career for all the goals he got

536 +
815
-------
1351
--------


In one match his team scored 1351 goals
--------

If we add 536+815, it means that at least 1351 goals were scored in the match, and if we divide 5400 divided by 1351 ((5400 seconds are 90 minutes)5400÷1351) would mean that every second would He would score every 4 seconds, and we don't even count the extra time that they put in after 90 minutes. Yes, that player was a fucking beast

They are wins +1250-? Reallay unreal game😂

💀💀💀💀 I’m shocked 😳

He only played one game because he got caught doing drugs

Bro really understood it now

Imagine they lose

They scored every 3.9 seconds💀

1,351-?

Whats the song name

Actually not ronaldo is the goat he scored 900 goals siuuuuu

Bro goat ronaldo!!!

Dam

Amir

His legs have transcended into another universe

what if that was the first half

Ronald and Messi are cooked

Look bro beats Ronaldo fast😂

Somthing none pele none maradona none ronaldo none messi could do🥶😎☠️

Bro is the fusion of Messi and Ronaldo

1351 in 1 match😊

Everton scored 1351 goals

Bro scored 1351 goals in one match💀

Bros team is goated