Audio tutorial

CEntral procesor unit

Pol Gautier

START

CONTENTS

[wHAT WE GONNA TALK ABOUT IT]

06.

01.

Manufacturing and Process Technologies

Introduction to CPUs

07.

02.

Future Trends:

CPU Architecture:

Case Studies and Practical Examples:

08.

03.

Types of CPUs

04.

Relevant data

05.

Timeline

Introducion to CPUs

Introduction to CPUs

[Central procesor Unit]

The CPU, or Central Processing Unit, is the brain of a computer. It is responsible for executing instructions, processing data, and performing calculations.

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Someone's say

‘From the early days of computing, CPUs have evolved significantly in terms of power, efficiency, and processing capability.’

CPU Architecture

Relevant data

[CPu architecture]

Data

Cache is a fast-access memory that stores data and instructions that the CPU frequently needs, helping to speed up access to that data.

The CPU consists of several key components, including the ALU (Arithmetic Logic Unit), which performs mathematical and logical operations, and the CU (Control Unit), which oversees and coordinates operations.

Data

Registers are small high-speed storage areas used to temporarily store data during processing.

Data

How it work's

CPU PARTS

Cache

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Type of cpu

Types CPU

CPUs can be classified into general-purpose CPUs, designed for a wide variety of tasks, and specialized CPUs, optimized for specific tasks such as graphics (GPU) or artificial intelligence (NPU).

Relevant data

[Type CPU]

Additionally, there are different types of CPUs depending on the device they are used in, such as desktop computers, laptops, servers, mobile devices, etc. Common architectures include x86 (primarily used in personal computers) and ARM (common in mobile and embedded devices).

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Timeline

Timeline

2017.

2000

1971

1985

2006

Manufacturing and Process Technologies

Manufacturing and Process Technologies

[Manufacturing]

Manufacturing nodes represent the size of transistors on a chip. A smaller node generally enables faster and more efficient chips. Lithography is the process of etching patterns into a silicon substrate to create chip components such as transistors and connections.

fUTURE TRENDS

Future Trends

IN A FEW YEARS

Quantum and neuromorphic computing represent areas of research and development that could revolutionize computing in the future, offering processing capabilities and problem-solving resolutions beyond classical CPUs. The ongoing quest for more powerful and energy-efficient CPUs is a key focus in the industry, with an emphasis on improving performance while reducing power consumption.

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Case Studies and Practical Examples

We are visual beings

¿CPU?

By comparing CPUs from different manufacturers and models, differences in terms of performance, energy efficiency, and specific features can be analyzed.

Maybe in the future we have a war with amd and intel and apple silicon for create the best cpu

Practical case studies can illustrate how different CPUs perform in various scenarios, from gaming to productivity applications and professional workloads.

Digital beings

Conclusions

In short, CPUs drive technological progress, evolving rapidly to meet growing demands for computing power across various sectors, from personal devices to advanced AI applications.

‘"The CPUs, true architects of the digital world, weave the tapestry of virtual reality on the loom of silicon.".’

Do you have any questions?

K: Indicates that the processor is unlocked and can be overclocked.

CPU

This is a back of the CPU

T: Indicates a low-power version of the processor.

FUture Trend

Future trends in CPUs are expected to focus on increased parallelism, integration of advanced technologies like AI, optimization for specific applications, and advancements in manufacturing processes to deliver higher performance and energy efficiency.

F: Denotes that the processor does not include an integrated graphics processor (GPU).

"Within the circuits of CPUs lies the intricate dance of digital existence, where binary pulses weave the fabric of our technological reality."

H: Found in high-performance processors for laptops.

X: Found in Intel's Extreme series processors, designed for enthusiasts and high-performance workstations.

1971

INTEL

Intel releases the first commercially available microprocessor, the Intel 4004, marking the beginning of the era of modern CPUs.

1985

INTEL 386

Intel introduces the Intel 386, the first 32-bit x86 microprocessor, which brings multitasking capabilities and memory protection, revolutionizing personal computing.

2000

Pentium 4

Intel launches the Intel Pentium 4, the first processor to reach a clock speed of 1 GHz, setting a new standard for processing speed.

2006

Core 2

Intel releases the Core 2 Duo processor lineup, which offers significant improvements in performance and energy efficiency, solidifying its position in the CPU market.

2017

AMD Ryzen

AMD launches the Ryzen series of processors, challenging Intel's dominance and reigniting competition in the CPU market with competitive performance and attractive price-to-performance ratio.