Amd a8 intel: What is the AMD A8 equivalent to Intel?

AMD A8-9600 vs Intel Core i5-6400

Summary

  • AMD A8-9600

    100%

  • Intel Core i5-6400

    221%

Relative performance

  • AMD A8-9600

    100%

  • Intel Core i5-6400

    194%

Relative performance

  • AMD A8-9600

    100%

  • Intel Core i5-6400

    247%

Relative performance

Reasons to consider AMD A8-9600
Has an integrated GPU, which allows to run the system without a dedicated graphics card, unlike the Intel Core i5-6400.
Reasons to consider Intel Core i5-6400
Much higher single threaded performance (around 94% higher), makes a noticeable performance difference in gaming and the majority of applications.
Much higher multi threaded performance (around 147% higher). This allows for higher performance in professional applications like encoding or heavy multitasking.
Around 121% higher average synthetic performance.

Gaming

HWBench recommends Intel Core i5-6400

Based on game and synthetic benchmarks, and theoretical specifications.


Productivity

HWBench recommends Intel Core i5-6400

Based on productivity benchmarks, overall multithreaded performance and theoretical specifications.

Features
AMD A8-9600 Intel Core i5-6400
MMX
3DNow!
SSE
SSE2
SSE3
SSE4A
AMD64
CnQ
NX bit
AMD-V
SSSE3
SSE4. 2
AVX
AVX2
EIST
Intel 64
XD bit
VT-x
VT-d
AES-NI
TSX
TXT
CLMUL
FMA3
F16C
BMI1
BMI2
vPro
Boost 2.0

Architecture
AMD A8-9600 Intel Core i5-6400
Architecture AMD Excavator vs Intel_Skylake
Market Desktop vs Desktop
Memory Support DDR4 vs DDR4
Codename Bristol Ridge vs Skylake
Release Date Sep 2016 vs Jul 2015

Cores
AMD A8-9600 Intel Core i5-6400
Cores 4 vs 4
Threads 4 vs 4
SMPs 1 vs 1
Integrated Graphics Radeon R7 vs No

Cache
AMD A8-9600 Intel Core i5-6400
L1 Cache 128 KB (per core) vs 64 KB (per core)
L2 Cache 512 KB (per core) vs 256 KB (per core)
L3 Cache 0 KB vs 6144 KB (shared)

Physical
AMD A8-9600 Intel Core i5-6400
Socket AMD Socket AM4 vs Intel Socket 1151
Max Case Temp unknown vs 72°C
Package uPGA vs FC-LGA12C
Die Size unknown vs 177mm²
Process 14 nm vs 14 nm

Performance
AMD A8-9600 Intel Core i5-6400
Cpu Frequency 3100 MHz vs 2700 MHz
Turbo Clock 3400 MHz vs 3300 MHz
Base Clock 100 MHz vs 100 MHz
Voltage unknown vs unknown
TDP 65 W vs 65 W
  • AMD A8-9600

    2346 points

  • Intel Core i5-6400

    3795 points

Points — higher is better

  • AMD A8-9600

    7443 points

  • Intel Core i5-6400

    12420 points

Points — higher is better

  • AMD A8-9600 (simulated)

    72. 05

  • Intel Core i5-6400 (simulated)

    140.25

points — higher is better

  • AMD A8-9600 (simulated)

    260.24

  • Intel Core i5-6400 (simulated)

    644.14

points — higher is better

VS
AMD A8-9600 Intel Core i5-1035G1
VS
AMD A8-9600 Intel Core i7-1060G7
VS
Intel Core i5-6400 Intel Pentium Gold G6400
VS
Intel Core i5-6400 Intel Pentium Gold G6500
VS
Intel Pentium Gold G6600 Intel Core i7-1068G7
VS
Intel Core i7-1068G7 Intel Core i5-8420T

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A8 — AMD — WikiChip

AMD A8
A8 Logo

Developer AMD
Manufacturer AMD
Type Microprocessors
Introduction April, 2011 (launch)
Production 2011
ISA AMD64
µarch K10, Piledriver, Steamroller, Puma, Puma+, Excavator
Word size 64 bit

8 octets
16 nibbles

Process 32 nm

0.032 μm
3.2e-5 mm

, 28 nm

0.028 μm
2.8e-5 mm

Technology CMOS
Clock 1500 MHz-3900 MHz
Socket Socket FM1, Socket FM2, Socket FM2+
Succession
Athlon II X4

A8 is a family of 64-bit quad core mid-range microprocessors developed by AMD and introduced in early 2011.

Contents

  • 1 Overview
  • 2 Members
    • 2.1 Desktop microprocessors
    • 2.2 Mobile microprocessors
    • 2.3 See Also

Overview[edit]

Manufactured in 32 nm and later 28 nm, this family of 64-bit quad-core microprocessors have 4 MB (2×2 MB 16-way set associative) L2$ and no L3$. These processors have Virtualization and Turbo Core 3.0 support.

Members[edit]

Desktop microprocessors[edit]

Model Number Arch Freq (Base) Freq (Turbo) Cores Threads Tech L2$ TDP Introduced
A8-3550 K10  ? GHz  ? GHz 4 4 32 nm 4×1 MB 65 W 2013
A8-3550P K10  ? GHz  ? GHz 4 4 32 nm 4×1 MB 100 W 2013
A8-3560 K10  ? GHz  ? GHz 4 4 32 nm 4×1 MB 65 W 2013
A8-3560P K10  ? GHz  ? GHz 4 4 32 nm 4×1 MB 100 W 2013
A8-3800 K10 2. 4 GHz 2.7 GHz 4 4 32 nm 4×1 MB 65 W August 8, 2011
A8-3820 K10 2.5 GHz 2.8 GHz 4 4 32 nm 4×1 MB 65 W January 2012
A8-3850 K10 2.9 GHz 4 4 32 nm 4×1 MB 100 W July 3, 2011
A8-3870K K10 3.0 GHz 4 4 32 nm 4×1 MB 100 W Dec 20, 2011
A8-5500 Piledriver 3.2 GHz 3.7 GHz 4 4 32 nm 4×2 MB 65 W July 2012
A8-5500B Piledriver 3.2 GHz 3.7 GHz 4 4 32 nm 4×2 MB 65 W October 2012
A8-5600K Piledriver 3. 6 GHz 3.9 GHz 4 4 32 nm 4×2 MB 100 W October 2, 2012
A8-6500 Piledriver 3.5 GHz 4.1 GHz 4 4 32 nm 4×2 MB 65 W June 4, 2013
A8-6500B Piledriver 3.5 GHz 4.1 GHz 4 4 32 nm 4×2 MB 65 W June 2013
A8-6500T Piledriver 2.1 GHz 3.1 GHz 4 4 32 nm 4×2 MB 45 W September 18, 2013
A8-6600K Piledriver 3.9 GHz 4.2 GHz 4 4 32 nm 4×2 MB 100 W June 4, 2013
A8-7500 Steamroller 3.0 GHz 4 4 28 nm 4×2 MB 65 W April 2015
A8-7600 Steamroller 3. 1 GHz 3.8 GHz 4 4 28 nm 4×2 MB 65 W January 2014
A8-7650K Steamroller 3.3 GHz 3.8 GHz 4 4 28 nm 4×2 MB 95 W February 2015
A8-7670K Steamroller 3.6 GHz 3.9 GHz 4 4 28 nm 4×2 MB 95 W July 20, 2015
A8-7690K Steamroller 3.7 GHz 4 4 28 nm 4×2 MB 95 W August 2015
A8-8650 Steamroller 3.2 GHz 3.8 GHz 4 4 28 nm 4×2 MB 65 W June 2015
A8-8650K Steamroller 3.2 GHz 3.5 GHz 4 4 28 nm 4×2 MB 95 W June 2015
A8-7680 Excavator 3. 2 GHz 3.8 GHz 4 4 28 nm 4×2 MB 65 W January 2019

Mobile microprocessors[edit]

Model Number Arch Freq (Base) Freq (Turbo) Cores Threads Tech L2$ TDP Introduced
A8-3500M K10 1.5 GHz 2.4 GHz 4 4 32 nm 4×1 MB 35 W June 14, 2011
A8-3510MX K10 1.8 GHz 2.5 GHz 4 4 32 nm 4×1 MB 45 W June 14, 2011
A8-3520M K10 1.6 GHz 2.5 GHz 4 4 32 nm 4×1 MB 35 W December, 2011
A8-3530MX K10 1. 9 GHz 2.6 GHz 4 4 32 nm 4×1 MB 45 W June 14, 2011
A8-3550MX K10 2.0 GHz 2.7 GHz 4 4 32 nm 4×1 MB 45 W December, 2011
A8-4500M Piledriver 1.9 GHz 2.8 GHz 4 4 32 nm 2×2 MB 35 W May 15, 2012
A8-4555M Piledriver 1.6 GHz 2.4 GHz 4 4 32 nm 2×2 MB 19 W September 2012
A8-4557M Piledriver 1.9 GHz 2.8 GHz 4 4 32 nm 2×2 MB 35 W March 2013
A8-5545M Piledriver 1.7 GHz 2.7 GHz 4 4 32 nm 2×2 MB 19 W May 23, 2013
A8-5550M Piledriver 2. 1 GHz 3.1 GHz 4 4 32 nm 2×2 MB 35 W March 12, 2013
A8-5557M Piledriver 2.1 GHz 3.1 GHz 4 4 32 nm 2×2 MB 35 W May 23, 2013
A8-6410 Puma 2.0 GHz 2.4 GHz 4 4 28 nm 2×1 MB 15 W June 2014
A8-7100 Steamroller 1.8 GHz 3.0 GHz 4 4 28 nm 2×2 MB 19 W June 4, 2014
PRO A8-7150B Steamroller 1.9 GHz 3.2 GHz 4 4 28 nm 2×2 MB 19 W June 4, 2014
A8-7200P Steamroller 2.4 GHz 3.3 GHz 4 4 28 nm 2×2 MB 35 W June 4, 2014
A8-7410 Puma+ 2. 2 GHz 2.5 GHz 4 4 28 nm 2×1 MB 15 W May 6, 2015
A8-7410 Puma+ 2.2 GHz 2.5 GHz 4 4 28 nm 2×1 MB 15 W May 6, 2015
A8-8600P Excavator 1.6 GHz 3.0 GHz 4 4 28 nm 2×1 MB 15 W June 2, 2015
PRO A8-8600B Excavator 1.6 GHz 3.0 GHz 4 4 28 nm 2×1 MB 15 W September 29, 2015

See Also[edit]

  • AMD A10

Facts about «A8 — AMD»

RDF feed

designer AMD +
first launched April 2011 +
full page name amd/a8 +
instance of microprocessor family +
instruction set architecture AMD64 +
main designer AMD +
manufacturer AMD +
microarchitecture K10 +, Piledriver +, Steamroller +, Puma +, Puma+ + and Excavator +
name AMD A8 +
process 32 nm (0. 032 μm, 3.2e-5 mm) + and 28 nm (0.028 μm, 2.8e-5 mm) +
socket Socket FM1 +, Socket FM2 + and Socket FM2+ +
technology CMOS +
word size 64 bit (8 octets, 16 nibbles) +

AMD A8-3820 — processor overview. Benchmarks and Specs

The AMD A8-3820 processor is based on a 32 nm process and Llano architecture. The base clock is 2.50 GHz and the maximum turbo clock is 2.80 GHz. AMD A8-3820 contains 4 processor cores. To make the right choice for upgrading your computer, check out the detailed specifications and test results. Please check your motherboard socket compatibility before choosing. nine0003

5.0
From 3
Hitesti Score

TOP 10 processors

Most popular on the site

nine0002
Intel Celeron N4020
2x 1. 10 GHz (2.80 GHz)

Intel Celeron J4125
4x 2.00 GHz (2.70 GHz)

nine0002
AMD Ryzen 5 5500U
6x 2.10 GHz (4.00 GHz) HT

AMD Ryzen 3 3250U
2x 2.60 GHz (3.50 GHz) HT

nine0002
AMD Ryzen 7 5700U
8x 1. 80 GHz (4.30 GHz) HT

AMD Athlon Silver 3050U
2x 2.30 GHz (3.20 GHz)

nine0002
Intel Core i3-1115G4
2x 1.70 GHz (4.10 GHz) HT

Intel Core i5-1135G7
4x 2.40 GHz (4.00 GHz) HT

nine0002
Intel Celeron N4500
2x 1. 10 GHz (2.90 GHz)

AMD Ryzen 5 4600G
6x 3.70 GHz (4.20 GHz) HT

Buy here:

Yandex Market

SberMegaMarket

AliExpress
nine0003

General information

AMD A8-3820 base and maximum clock speed, number of processor cores and threads. The more the better (marked in green).

CPU cores, base and turbo frequencies

The overall performance of a processor can be easily determined based on the number of processor cores and threads, as well as the clock speed in standard mode and turbo. The more GHz, cores and L2-L3 cache a processor has, the better. Please note that high specs require a powerful cooling system and a quality chipset (check the VRM on the motherboard). nine0003

nine0056 4

nine0056 Number of threads:

nine0056 Acceleration:

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Clock frequency: 2.50 GHz Number of cores:
Turbo (1 core): 2.80 GHz 4
Hyper trading: No. Yes
Turbo (4 Cores): 2.80 GHz

Internal graphics

Some manufacturers (most often Intel) supplement processors with graphics chips, such a solution is especially popular in laptops, but ineffective in workstations and gaming stations. The higher the clock speed of the video card and the more memory on board, the better.

nine0066

nine0056 DirectX version:

nine0056 Number of shaders:

nine0056

nine0056 32 nm

nine0066

GPU name: AMD Radeon HD 6550D
GPU frequency: 0.60 GHz GPU (Turbo): No turbo
Generation: 3 11
Execution units: 5 400
Maximum memory: 1GB Number of monitors: 2
Technology: Release date: Q2/2011

Hardware codec support

Here we are dealing with specifications that are used by some processor manufacturers. These figures are mostly technical and can be disregarded for comparative purposes.

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nine0066

nine0066

nine0066

h364: Decode
JPEG: Decode/Encode
h365 8bit: No.
h365 10bit: No.
VP8: No.
VP9: No.
VC-1: Decode
AVC: Decode

RAM and PCIe

These are the memory standards supported by processors. The higher the standard and clock frequency with the amount of RAM, the better the performance and speed of the processor. It is also worth considering the possibility of memory operation in multichannel mode. nine0003

nine0066

Memory type: DDR3-1600 Memory channels: 2
ECC: No.

Encryption

Data encryption support

AES-NI: Yes

nine0046 Thermal management and TDP

nine0056 Maximum temperature:

TDP: 65W
Maximum TDP: TDP down:

Technical details

These are key parameters that will help you determine which processor is best. Pay special attention to the release date, the technological aspects of the manufacturing process (measured in nanometers) and the third level (L3) cache. nine0003

nine0056 Virtualization:

nine0056 Release date:

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L3-Cache: 4.00 MB Technology: 32 nm
Architecture: Llano AMD-V
Socket: FM1 Q4/2011
Price: ca. 85 $

Devices compatible with this processor

You probably already know which devices use processors. It can be a desktop computer or a laptop.

Used in: Unknown

nine0002 Cinebench R11.5 conducts simultaneous cross-platform tests on all processor cores. Running realistic 3D scenes, this benchmark will unleash the full potential of your single-core Intel or AMD

processor

AMD A10-7700K
4x 3. 50 GHz (3.80 GHz)

nine0003

Intel Core i7-6560U
2x 2.20 GHz (3.20 GHz) HT

AMD A8-3820
4x 2.50 GHz (2.80 GHz)

nine0003

Intel Core i5-4258U
2x 2.40 GHz (2.90 GHz) HT

Intel Celeron G49twenty
2x 3. 20 GHz (No turbo)

Geekbench 3 is a benchmark for 64-bit Intel and AMD processors. It uses a new power rating system for a single processor core. This software simulates real scenarios for accurate results

Intel Celeron 2957U
2x 1.40 GHz (No turbo)

Intel Celeron 2955U
2x 1.40 GHz (No turbo)

nine0002

AMD A8-3820
4x 2. 50 GHz (2.80 GHz)

AMD A4-3300
2x 2.50 GHz (No turbo)

nine0003

Intel Pentium J4205
4x 1.50 GHz (2.60 GHz)

Geekbench 3 supports multi-core AMD and Intel processors. Based on MAXON CINEMA 4D, it allows you to get the real comparative potential of the processor

AMD Phenom II X4 810
4x 2. 60 GHz (No turbo)

Intel Core i3-7020U
2x 2.30 GHz (No turbo) HT

nine0003

AMD A8-3820
4x 2.50 GHz (2.80 GHz)

Intel Core M-5Y71
2x 1.20 GHz (2.90 GHz) HT

Intel Pentium 4405U
2x 2. 10 GHz (No turbo) HT

It tests all and general CPU performance (math calculations, compression and decompression speed, 2D&3D graphics tests). Please note that data may differ from actual situations. nine0003

Intel Pentium G3220
2x 3.00 GHz (No turbo)

AMD Phenom II X3 B77
3x 3.20 GHz (No turbo)

nine0003

AMD A8-3820
4x 2. 50 GHz (2.80 GHz)

Intel Pentium Gold 4417U
2x 2.30 GHz (No turbo) HT

nine0003

Intel Core i3-5020U
2x 2.20 GHz (No turbo) HT

This test measures the performance of integrated graphics on Intel and AMD processors. The result is the calculated processing power in Single-Precision mode FP32

AMD A10-7400P
4x 2. 50 GHz (3.00 GHz)

AMD A10-5745M
4x 2.10 GHz (2.90GHz)

AMD A8-3820
4x 2.50 GHz (2.80 GHz)

Intel Xeon E3-1225 v5
4x 3.30 GHz (3.70 GHz)

nine0003

Intel Core i9-9900T
8x 2. 10 GHz (4.40 GHz) HT

5.0
From 3
Hitesti Score

Share on social networks:

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Review AMD A8-3820

Compare AMD A8-3820

VS
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Thanks to the built-in Radeon HD 7640G video core, the computer can work without a discrete graphics card because the monitor is connected to the video output on the motherboard.

Price in Russia

Want to buy cheap A8-4500M APU? Look at the list of stores that already sell the processor in your city.

Family

  • A8-4555M APU

Benchmarks AMD A8-4500M APU

Game performance

Performance in games and similar applications, according to our tests. nine0003

The performance of 4 cores, if any, and performance per core has the greatest impact on the result, since most games do not fully use more than 4 cores.

The speed of caches and working with RAM is also important.

Speed ​​in office use

Performance in everyday work such as browsers and office applications.

The performance of 1 core has the greatest impact on the result, since most of these applications use only one, ignoring the rest. nine0003

Similarly, many professional applications such as various CADs ignore multi-threaded performance.

Speed ​​in heavy applications

Performance in resource-intensive tasks loading a maximum of 8 cores.

The performance of all cores and their number have the greatest impact on the result, since most of these applications willingly use all the cores and increase the speed accordingly.

At the same time, certain periods of work can be demanding on the performance of one or two cores, for example, applying filters in the editor. nine0003

Data obtained from tests by users who tested their systems with and without overclocking. Thus, you see the average values ​​corresponding to the processor.

Speed ​​of numerical operations

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Simple household tasks

Minimum Average Maximum
40 Memory: 63 77

Memory

65

22 1 core: 37 48

1 core

15. 9

39 2 cores: 64 78

2 cores

13.8

Demanding games and tasks

Minimum Average Maximum
55 4 cores: 98 119

4 cores

10.7

56 8 cores: 100 119

8 cores

5. 7

Extreme

Minimum Average Maximum
61 All cores: 100 119 57
nine0002 All cores

1.8

Different tasks require different CPU strengths. A system with few fast cores and low memory latency will be fine for the vast majority of games, but will be inferior to a system with a lot of slow cores in a rendering scenario.

We believe that a minimum of 4/4 (4 physical cores and 4 threads) processor is suitable for a budget gaming PC. At the same time, some games can load it at 100%, slow down and freeze, and performing any tasks in the background will lead to a drop in FPS. nine0003

Ideally, the budget shopper should aim for a minimum of 4/8 and 6/6. A gamer with a big budget can choose between 6/12, 8/8 and 8/16. Processors with 10 and 12 cores can perform well in games with high frequency and fast memory, but are overkill for such tasks. Also, buying for the future is a dubious undertaking, since in a few years many slow cores may not provide sufficient gaming performance.

When choosing a processor for your work, consider how many cores your programs use. For example, photo and video editors can use 1-2 cores when working with filtering, and rendering or converting in the same editors already uses all threads. nine0003

Data obtained from tests by users who tested their systems both with overclocking (maximum value in the table) and without (minimum). A typical result is shown in the middle, the more filled in the color bar, the better the average result among all tested systems.

Compare

Benchmarks

Benchmarks were run on stock hardware, that is, without overclocking and with factory settings. Therefore, on overclocked systems, the points can noticeably differ upwards. Also, small performance changes may be due to the BIOS version. nine0003

Cinebench R20 Multi Core

Intel Core M-5Y10c

372

Intel Pentium N4200

371

AMD A6-3500 APU

368

Intel Celeron N3450

351

Intel Celeron J1900

294

AMD A8-4500M APU

285

Intel Core M3-6Y30

278

AMD A6-5400K APU

275

003

252

Intel Celeron N2920

249

Passmark

Intel Pentium G2020

1681

AMD Athlon II X3 435

1664

Intel Celeron G1820

1663

Intel Core i3-3120M

1660

AMD A6-5200 APU

1645

AMD A8-4500M APU

1645

AMD A6-5200 APU

1645

Intel Core i3-4005u 9000 9000 9000

ANTEL XEN0003

1630

Intel Core i3-4010u

1627

Intel Core i3-3110m

1624

Tests in games

FPS measured at AMD A8-4500M APU and compliance with system requirements. Please note that the official requirements of developers in games do not always match the data of real tests. Also, the result is strongly influenced by the overclocking of the system and the graphic settings in the game. We test at high settings in FullHD resolution to get numbers close to real gameplay. nine0473

  • N/A

SSD

  • A400 240GB
  • A400 480GB

Also with these components, the best results in tests and stable operation are achieved.

Most popular config: motherboard for AMD A8-4500M APU — HP Pavilion g6 Notebook PC, video card — HD 4000 (Mobile 1.25 GHz), SSD — A400 240GB. nine0003

Features

Main

nine0056 2012-05-15

Socket Installed in motherboards with a suitable socket. Note that a socket is not guaranteed to be compatible. The manufacturer may not add support to the BIOS. FS1r2
Manufacturer Firm AMD
Presentation datePresentation in the media, official information.
Code name of the Microarchitecture family. Trinity
GenerationCode name for the microarchitecture generation. A8
(Trinity)

Performance

Cores The total number of physical cores. 4
ThreadsNumber of threads. The number of logical processor cores that the operating system sees. nine0057

4
Multi-Threading Technology With Intel’s Hyper-threading and AMD’s SMT technology, one physical core is recognized by the operating system as two logical cores, thereby increasing processor performance in multi-threaded applications. Missing
Base frequencyThe guaranteed frequency of all cores (P-cores in the case of the corresponding architecture) of the processor at maximum load. It is important to remember that speed and frequency are not directly related. For example, a new processor at a lower frequency may be faster than an old one at a higher one. nine0057

1.9 GHz
Turbo frequency The maximum frequency of one processor core in turbo mode. Manufacturers allow modern processors to independently increase the frequency of one or more cores under low-threaded loads, due to which performance is noticeably increased. It may depend on the nature of the load, the number of loaded cores, temperature and the specified limits. Significantly affects the speed in games and applications that are demanding on the frequency of the CPU, but do not load all threads. nine0057

2.8 GHz
BCLK System bus frequency. Some motherboards allow you to achieve a good performance boost by slightly raising the bus frequency. Often this has a bad effect on the stability of the system. 100
CPU multiplier. The final CPU frequency is determined by the simple formula BCLK * CPU multiplier. Modern processors instantly change the multiplier of each of the cores, taking into account the type of load, temperature, consumption and settings in the BIOS. nine0057

19
TDPThermal Design Power is an indicator that determines heat dissipation in standard operation. The cooler or water cooling system must be rated for a larger value. Remember that with a factory bus or manual overclocking, TDP increases significantly. 35W

Cache and RAM

L1 Cache First level cache. Modern processors use a multi-level cache. The first is the fastest, but the smallest. In the case of an L1 access and a miss, the L2 cache is searched for the next stage. nine0057

192K
L2 Cache Second level cache. Holds more data, but is slower. 4MB (shared)
Supported type of RAM The type of RAM determines its frequency and timings (speed), availability, price. DDR3-1600 MHz
Dual-channel

Video core

Integrated graphics core Allows you to use your computer without a discrete graphics card. The monitor is connected to the video output on the motherboard. If earlier integrated graphics made it possible to simply work at a computer, today it can replace budget video accelerators and makes it possible to play most games at low settings. nine0057

Radeon HD 7640G

PCI

PCI-E The PCI Express computer bus version. The bandwidth and power limit depend on the version. There is backward compatibility. Gen 2

Details

nine0056 32 nm

ArchitectureCode name for the microarchitecture generation. Trinity
Chip manufacturer A company that manufactures chips in its own factory. GlobalFoundries
Number of transistors 1,000,000
Process The manufacturing process, measured in nanometers. The smaller the technical process, the more perfect the technology, the lower the heat dissipation and power consumption. For Ryzen with a chiplet layout, the CCD process is implied.
Chip size Varies with process technology and number of transistors. For chiplet Ryzen, the area of ​​​​all CCDs is indicated. 246 mm²
Socket type µPGA
Spec Code AM4500DEC44HJ

Competitors

nine1018 Office

nine0056 Intel Core i5 M 520

Games Heavy duty
Better than Intel Core2 Quad Q8300 Intel Xeon E3110 Intel Pentium Silver J5005
Worse than Intel Core i5-2537M Intel Core2 Quad Q9300

Please note that competitors are selected automatically based on performance in a particular task.