Amd a12 vs intel i7: AMD A12-9720P vs Intel Core i7-8550U: What is the difference?

AMD A12-9720P vs Intel Core i7-8550U: What is the difference?

44points

AMD A12-9720P

52points

Intel Core i7-8550U

Comparison winner

64 facts in comparison

AMD A12-9720P

Intel Core i7-8550U

Why is AMD A12-9720P better than Intel Core i7-8550U?

1.5x faster CPU speed?
4 x 2.7GHzvs4 x 1.8GHz
458MHz faster GPU clock speed?
758MHzvs300MHz
1MB bigger L2 cache?
2MBvs1MB
64KB bigger L1 cache?
320KBvs256KB
0.25MB/core more L2 cache per core?
0.5MB/corevs0.25MB/core
Has FMA4?

Why is Intel Core i7-8550U better than AMD A12-9720P?

534MHz higher ram speed?
2400MHzvs1866MHz
4 more CPU threads?
8vs4
10°C higher maximum operating temperature?
100°Cvs90°C
14nm smaller semiconductor size?
14nmvs28nm
48. 4% higher PassMark result?
5942vs4004
0.4GHz higher turbo clock speed?
4GHzvs3.6GHz
4.2GB/s more memory bandwidth?
34.1GB/svs29.9GB/s
45.98% higher PassMark result (single)?
2070vs1418

Which are the most popular comparisons?

AMD A12-9720P

Intel Core i5-8250U

Intel Core i7-8550U

Intel Core i5-1135G7

AMD A12-9720P

Intel Core i5-8259U

Intel Core i7-8550U

Intel Core i5-10210U

AMD A12-9720P

Intel Core i5-7200U

Intel Core i7-8550U

AMD Ryzen 7 3700U

AMD A12-9720P

Intel Core i3-8130U

Intel Core i7-8550U

AMD Ryzen 5 3500U

AMD A12-9720P

Intel Core i5-6200U

Intel Core i7-8550U

Intel Core i3-10110U

AMD A12-9720P

Intel Core i3-7020U

Intel Core i7-8550U

Intel Core i5-8250U

AMD A12-9720P

AMD Ryzen 3 2200U

Intel Core i7-8550U

Intel Core i5-1035G1

AMD A12-9720P

Intel Core i3-10110U

Intel Core i7-8550U

Intel Core i3-1115G4

AMD A12-9720P

AMD Ryzen 3 3250U

Intel Core i7-8550U

AMD Ryzen 5 5500U

Price comparison

User reviews

Overall Rating

AMD A12-9720P

1 User reviews

AMD A12-9720P

8. 0/10

1 User reviews

Intel Core i7-8550U

0 User reviews

Intel Core i7-8550U

0.0/10

0 User reviews

Features

Value for money

10.0/10

1 votes

No reviews yet

Gaming

8.0/10

1 votes

No reviews yet

Performance

8.0/10

1 votes

No reviews yet

Reliability

10.0/10

1 votes

No reviews yet

Energy efficiency

6.0/10

1 votes

No reviews yet

Performance

1.CPU speed

4 x 2.7GHz

4 x 1.8GHz

The CPU speed indicates how many processing cycles per second can be executed by a CPU, considering all of its cores (processing units). It is calculated by adding the clock rates of each core or, in the case of multi-core processors employing different microarchitectures, of each group of cores.

2. CPU threads

More threads result in faster performance and better multitasking.

3.turbo clock speed

3.6GHz

When the CPU is running below its limitations, it can boost to a higher clock speed in order to give increased performance.

4.Has an unlocked multiplier

✖AMD A12-9720P

✖Intel Core i7-8550U

Some processors come with an unlocked multiplier which makes them easy to overclock, allowing you to gain increased performance in games and other apps.

5.L2 cache

A larger L2 cache results in faster CPU and system-wide performance.

6.L3 cache

Unknown. Help us by suggesting a value. (AMD A12-9720P)

A larger L3 cache results in faster CPU and system-wide performance.

7.L1 cache

A larger L1 cache results in faster CPU and system-wide performance.

8. L2 core

0.5MB/core

0.25MB/core

More data can be stored in the L2 cache for access by each core of the CPU.

9.L3 core

Unknown. Help us by suggesting a value. (AMD A12-9720P)

2MB/core

More data can be stored in the L3 cache for access by each core of the CPU.

Memory

1.RAM speed

1866MHz

2400MHz

It can support faster memory, which will give quicker system performance.

2.maximum memory bandwidth

29.9GB/s

34.1GB/s

This is the maximum rate that data can be read from or stored into memory.

3.DDR memory version

DDR (Double Data Rate) memory is the most common type of RAM. Newer versions of DDR memory support higher maximum speeds and are more energy-efficient.

4.memory channels

More memory channels increases the speed of data transfer between the memory and the CPU.

5.maximum memory amount

The maximum amount of memory (RAM) supported.

6.bus transfer rate

Unknown. Help us by suggesting a value. (AMD A12-9720P)

The bus is responsible for transferring data between different components of a computer or device.

7.Supports ECC memory

✖AMD A12-9720P

✖Intel Core i7-8550U

Error-correcting code memory can detect and correct data corruption. It is used when is it essential to avoid corruption, such as scientific computing or when running a server.

8.eMMC version

Unknown. Help us by suggesting a value. (AMD A12-9720P)

Unknown. Help us by suggesting a value. (Intel Core i7-8550U)

A higher version of eMMC allows faster memory interfaces, having a positive effect on the performance of a device. For example, when transferring files from your computer to the internal storage over USB.

9.bus speed

Unknown. Help us by suggesting a value. (AMD A12-9720P)

Unknown. Help us by suggesting a value. (Intel Core i7-8550U)

The bus is responsible for transferring data between different components of a computer or device.

Benchmarks

1.PassMark result

This benchmark measures the performance of the CPU using multiple threads.

2.PassMark result (single)

This benchmark measures the performance of the CPU using a single thread.

3.Geekbench 5 result (multi)

Unknown. Help us by suggesting a value. (AMD A12-9720P)

Geekbench 5 is a cross-platform benchmark that measures a processor’s multi-core performance. (Source: Primate Labs, 2022)

4.Cinebench R20 (multi) result

Unknown. Help us by suggesting a value. (AMD A12-9720P)

Cinebench R20 is a benchmark tool that measures a CPU’s multi-core performance by rendering a 3D scene.

5.Cinebench R20 (single) result

Unknown. Help us by suggesting a value. (AMD A12-9720P)

Cinebench R20 is a benchmark tool that measures a CPU’s single-core performance by rendering a 3D scene.

6.Geekbench 5 result (single)

Unknown. Help us by suggesting a value. (AMD A12-9720P)

Geekbench 5 is a cross-platform benchmark that measures a processor’s single-core performance. (Source: Primate Labs, 2022)

7.Blender (bmw27) result

Unknown. Help us by suggesting a value. (AMD A12-9720P)

734.74seconds

The Blender (bmw27) benchmark measures the performance of a processor by rendering a 3D scene. More powerful processors can render the scene in less time.

8.Blender (classroom) result

Unknown. Help us by suggesting a value. (AMD A12-9720P)

2142.37seconds

The Blender (classroom) benchmark measures the performance of a processor by rendering a 3D scene. More powerful processors can render the scene in less time.

9.performance per watt

Unknown. Help us by suggesting a value. (AMD A12-9720P)

This means the CPU is more efficient, giving a greater amount of performance for each watt of power used.

Features

1.uses multithreading

✖AMD A12-9720P

✔Intel Core i7-8550U

Multithreading technology (such as Intel’s Hyperthreading or AMD’s Simultaneous Multithreading) provides increased performance by splitting each of the processor’s physical cores into virtual cores, also known as threads. This way, each core can run two instruction streams at once.

2.Has AES

✔AMD A12-9720P

✔Intel Core i7-8550U

AES is used to speed up encryption and decryption.

3.Has AVX

✔AMD A12-9720P

✔Intel Core i7-8550U

AVX is used to help speed up calculations in multimedia, scientific and financial apps, as well as improving Linux RAID software performance.

4.SSE version

SSE is used to speed up multimedia tasks such as editing an image or adjusting audio volume. Each new version contains new instructions and improvements.

5.Has F16C

✔AMD A12-9720P

✔Intel Core i7-8550U

F16C is used to speed up tasks such as adjusting the contrast of an image or adjusting volume.

6.bits executed at a time

Unknown. Help us by suggesting a value. (AMD A12-9720P)

Unknown. Help us by suggesting a value. (Intel Core i7-8550U)

NEON provides acceleration for media processing, such as listening to MP3s.

7.Has MMX

✔AMD A12-9720P

✔Intel Core i7-8550U

MMX is used to speed up tasks such as adjusting the contrast of an image or adjusting volume.

8.Has TrustZone

✖AMD A12-9720P

✖Intel Core i7-8550U

A technology integrated into the processor to secure the device for use with features such as mobile payments and streaming video using digital rights management (DRM).

9.front-end width

Unknown. Help us by suggesting a value. (AMD A12-9720P)

Unknown. Help us by suggesting a value. (Intel Core i7-8550U)

The CPU can decode more instructions per clock (IPC), meaning that the CPU performs better

Price comparison

Cancel

Which are the best CPUs?

AMD A12-9800 vs Intel Core i7-7500U: What is the difference?

54points

AMD A12-9800

50points

Intel Core i7-7500U

Comparison winner

65 facts in comparison

AMD A12-9800

Intel Core i7-7500U

Why is AMD A12-9800 better than Intel Core i7-7500U?

2.81x faster CPU speed?
4 x 3.8GHzvs2 x 2.7GHz
267MHz higher ram speed?
2400MHzvs2133MHz
808MHz faster GPU clock speed?
1108MHzvs300MHz
3.6MB bigger L2 cache?
4.1MBvs0. 5MB
0.7GHz higher turbo clock speed?
4.2GHzvs3.5GHz
384KB bigger L1 cache?
512KBvs128KB
Has an unlocked multiplier?
0.77MB/core more L2 cache per core?
1.02MB/corevs0.25MB/core

Why is Intel Core i7-7500U better than AMD A12-9800?

26°C higher maximum operating temperature?
100°Cvs74°C
14nm smaller semiconductor size?
14nmvs28nm
5.8% higher PassMark result?
3647vs3447
50W lower TDP?
15Wvs65W
21.66% higher PassMark result (single)?
1955vs1607
Has NX bit?

Which are the most popular comparisons?

AMD A12-9800

Intel Core i5-7400

Intel Core i7-7500U

Intel Core i5-1135G7

AMD A12-9800

AMD A10-9700

Intel Core i7-7500U

Intel Core i3-1115G4

AMD A12-9800

AMD Ryzen 3 2200G

Intel Core i7-7500U

Intel Core i5-8250U

AMD A12-9800

Intel Core i3-7100

Intel Core i7-7500U

Intel Pentium G4560

AMD A12-9800

AMD A10-8700P

Intel Core i7-7500U

Intel Core M7-6Y75

AMD A12-9800

AMD Athlon 3000G

Intel Core i7-7500U

Intel Core i5-7400

AMD A12-9800

AMD Pro A10-8700B

Intel Core i7-7500U

AMD Ryzen 5 5500U

AMD A12-9800

AMD Ryzen 3 3200G

Intel Core i7-7500U

AMD Ryzen 5 3500U

AMD A12-9800

AMD A10-8780P

Intel Core i7-7500U

AMD Ryzen 7 5700U

Price comparison

User reviews

Overall Rating

AMD A12-9800

1 User reviews

AMD A12-9800

10. 0/10

1 User reviews

Intel Core i7-7500U

3 User reviews

Intel Core i7-7500U

9.0/10

3 User reviews

Features

Value for money

9.0/10

1 votes

8.0/10

3 votes

Gaming

9.0/10

1 votes

7.0/10

3 votes

Performance

10.0/10

1 votes

8.0/10

3 votes

Reliability

10.0/10

1 votes

10.0/10

3 votes

Energy efficiency

10.0/10

1 votes

7.7/10

3 votes

Performance

1.CPU speed

4 x 3.8GHz

2 x 2.7GHz

2.CPU threads

More threads result in faster performance and better multitasking.

3.turbo clock speed

4.2GHz

3.5GHz

When the CPU is running below its limitations, it can boost to a higher clock speed in order to give increased performance.

4.Has an unlocked multiplier

✔AMD A12-9800

✖Intel Core i7-7500U

Some processors come with an unlocked multiplier which makes them easy to overclock, allowing you to gain increased performance in games and other apps.

5.L2 cache

A larger L2 cache results in faster CPU and system-wide performance.

6.L3 cache

Unknown. Help us by suggesting a value. (AMD A12-9800)

A larger L3 cache results in faster CPU and system-wide performance.

7.L1 cache

A larger L1 cache results in faster CPU and system-wide performance.

8.L2 core

1.02MB/core

0.25MB/core

More data can be stored in the L2 cache for access by each core of the CPU.

9.L3 core

Unknown. Help us by suggesting a value. (AMD A12-9800)

2MB/core

More data can be stored in the L3 cache for access by each core of the CPU.

Memory

1.RAM speed

2400MHz

2133MHz

It can support faster memory, which will give quicker system performance.

2.maximum memory bandwidth

38.4GB/s

34.1GB/s

This is the maximum rate that data can be read from or stored into memory.

3.DDR memory version

DDR (Double Data Rate) memory is the most common type of RAM. Newer versions of DDR memory support higher maximum speeds and are more energy-efficient.

4.memory channels

More memory channels increases the speed of data transfer between the memory and the CPU.

5.maximum memory amount

Unknown. Help us by suggesting a value. (AMD A12-9800)

The maximum amount of memory (RAM) supported.

6.bus transfer rate

Unknown. Help us by suggesting a value. (AMD A12-9800)

The bus is responsible for transferring data between different components of a computer or device.

7.Supports ECC memory

✖AMD A12-9800

✖Intel Core i7-7500U

Error-correcting code memory can detect and correct data corruption. It is used when is it essential to avoid corruption, such as scientific computing or when running a server.

8.eMMC version

Unknown. Help us by suggesting a value. (AMD A12-9800)

Unknown. Help us by suggesting a value. (Intel Core i7-7500U)

9.bus speed

Unknown. Help us by suggesting a value. (AMD A12-9800)

Unknown. Help us by suggesting a value. (Intel Core i7-7500U)

The bus is responsible for transferring data between different components of a computer or device.

Benchmarks

1.PassMark result

This benchmark measures the performance of the CPU using multiple threads.

2.PassMark result (single)

This benchmark measures the performance of the CPU using a single thread.

3.Geekbench 5 result (multi)

Unknown. Help us by suggesting a value. (AMD A12-9800)

Geekbench 5 is a cross-platform benchmark that measures a processor’s multi-core performance. (Source: Primate Labs, 2022)

4.Cinebench R20 (multi) result

Unknown. Help us by suggesting a value. (AMD A12-9800)

Cinebench R20 is a benchmark tool that measures a CPU’s multi-core performance by rendering a 3D scene.

5.Cinebench R20 (single) result

Unknown. Help us by suggesting a value. (AMD A12-9800)

Cinebench R20 is a benchmark tool that measures a CPU’s single-core performance by rendering a 3D scene.

6.Geekbench 5 result (single)

Unknown. Help us by suggesting a value. (AMD A12-9800)

Geekbench 5 is a cross-platform benchmark that measures a processor’s single-core performance. (Source: Primate Labs, 2022)

7.Blender (bmw27) result

Unknown. Help us by suggesting a value. (AMD A12-9800)

1309.46seconds

The Blender (bmw27) benchmark measures the performance of a processor by rendering a 3D scene. More powerful processors can render the scene in less time.

8.Blender (classroom) result

Unknown. Help us by suggesting a value. (AMD A12-9800)

3568.44seconds

The Blender (classroom) benchmark measures the performance of a processor by rendering a 3D scene. More powerful processors can render the scene in less time.

9.performance per watt

Unknown. Help us by suggesting a value. (AMD A12-9800)

Unknown. Help us by suggesting a value. (Intel Core i7-7500U)

This means the CPU is more efficient, giving a greater amount of performance for each watt of power used.

Features

1.uses multithreading

✔AMD A12-9800

✔Intel Core i7-7500U

2.Has AES

✔AMD A12-9800

✔Intel Core i7-7500U

AES is used to speed up encryption and decryption.

3.Has AVX

✔AMD A12-9800

✔Intel Core i7-7500U

AVX is used to help speed up calculations in multimedia, scientific and financial apps, as well as improving Linux RAID software performance.

4.SSE version

SSE is used to speed up multimedia tasks such as editing an image or adjusting audio volume. Each new version contains new instructions and improvements.

5.Has F16C

✔AMD A12-9800

✔Intel Core i7-7500U

F16C is used to speed up tasks such as adjusting the contrast of an image or adjusting volume.

6.bits executed at a time

Unknown. Help us by suggesting a value. (AMD A12-9800)

Unknown. Help us by suggesting a value. (Intel Core i7-7500U)

NEON provides acceleration for media processing, such as listening to MP3s.

7.Has MMX

✔AMD A12-9800

✔Intel Core i7-7500U

MMX is used to speed up tasks such as adjusting the contrast of an image or adjusting volume.

8.Has TrustZone

✖AMD A12-9800

✖Intel Core i7-7500U

A technology integrated into the processor to secure the device for use with features such as mobile payments and streaming video using digital rights management (DRM).

9.front-end width

Unknown. Help us by suggesting a value. (AMD A12-9800)

Unknown. Help us by suggesting a value. (Intel Core i7-7500U)

The CPU can decode more instructions per clock (IPC), meaning that the CPU performs better

Miscellaneous

1.OpenGL ES version

Unknown. Help us by suggesting a value. (AMD A12-9800)

OpenGL ES is used for games on mobile devices such as smartphones. Newer versions support better graphics.

Price comparison

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Which are the best CPUs?

AMD A12-9720P vs Intel Core i7-7500U vs AMD A12-9700P

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#471 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#472 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#473 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#474 linkCache_getLink no uid found +0s … 0.31s

#475 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.31s

#476 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#477 linkCache_getLink no uid found +0s … 0.31s

#478 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#479 linkCache_getLink no uid found +0s … 0.31s

#480 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#481 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#482 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#483 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#484 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#485 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#486 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#487 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#488 linkCache_getLink no uid found +0s … 0.31s

#489 linkCache_getLink no uid found +0s … 0.31s

#490 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.31s

#491 linkCache_getLink using $NBC_LINKCACHE +0s … 0.31s

#492 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.311s

#493 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#494 linkCache_getLink no uid found +0s … 0.311s

#495 linkCache_getLink no uid found +0s … 0.311s

#496 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#497 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#498 linkCache_getLink no uid found +0s … 0.311s

#499 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#500 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#501 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#502 linkCache_getLink no uid found +0s … 0.311s

#503 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#504 linkCache_getLink no uid found +0s … 0.311s

#505 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.311s

#506 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#507 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#508 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#509 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#510 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#511 linkCache_getLink no uid found +0s … 0.311s

#512 linkCache_getLink using $NBC_LINKCACHE +0s … 0.311s

#513 linkCache_getLink using $NBC_LINKCACHE +0s … 0.312s

#514 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.312s

#515 linkCache_getLink using $NBC_LINKCACHE +0s … 0.312s

#516 linkCache_getLink no uid found +0s … 0.313s

#517 linkCache_getLink no uid found +0s … 0.313s

#518 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#519 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#520 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.313s

#521 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#522 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#523 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#524 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#525 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#526 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#527 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#528 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#529 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#530 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#531 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#532 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#533 linkCache_getLink using $NBC_LINKCACHE +0s … 0.313s

#534 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.313s

#535 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.314s

#536 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#537 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#538 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#539 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#540 linkCache_getLink no uid found +0s … 0.314s

#541 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#542 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#543 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#544 linkCache_getLink no uid found +0s … 0.314s

#545 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#546 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#547 linkCache_getLink no uid found +0s … 0.314s

#548 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#549 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.314s

#550 linkCache_getLink no uid found +0s … 0.314s

#551 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#552 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#553 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#554 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#555 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#556 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#557 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#558 linkCache_getLink no uid found +0s … 0.314s

#559 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#560 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#561 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#562 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#563 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#564 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.314s

#565 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#566 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#567 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#568 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#569 linkCache_getLink no uid found +0s … 0.314s

#570 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#571 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#572 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#573 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#574 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#575 linkCache_getLink no uid found +0s … 0.314s

#576 linkCache_getLink no uid found +0s … 0.314s

#577 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#578 linkCache_getLink no uid found +0s … 0.314s

#579 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.314s

#580 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#581 linkCache_getLink using $NBC_LINKCACHE +0s … 0.314s

#582 linkCache_getLink using $NBC_LINKCACHE +0s … 0.315s

#583 linkCache_getLink using $NBC_LINKCACHE +0s … 0.315s

#584 linkCache_getLink no uid found +0s … 0.315s

#585 linkCache_getLink using $NBC_LINKCACHE +0s … 0.315s

#586 linkCache_getLink using $NBC_LINKCACHE +0s … 0.315s

#587 linkCache_getLink using $NBC_LINKCACHE +0s … 0.315s

#588 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.316s

#589 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#590 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#591 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#592 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#593 linkCache_getLink no uid found +0s … 0. 316s

#594 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#595 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#596 linkCache_getLink no uid found +0s … 0.316s

#597 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#598 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#599 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#600 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#601 linkCache_getLink no uid found +0s … 0.316s

#602 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#603 linkCache_getLink no uid found +0s … 0.316s

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#605 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

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#608 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.316s

#609 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#610 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#611 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

#612 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

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#622 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.316s

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#630 linkCache_getLink no uid found +0s … 0.316s

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#632 linkCache_getLink using $NBC_LINKCACHE +0s … 0.316s

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#637 linkCache_getLink no uid found +0s . .. 0.316s

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#642 linkCache_getLink using $NBC_LINKCACHE +0s … 0.317s

#643 linkCache_getLink using $NBC_LINKCACHE +0s … 0.317s

#644 linkCache_getLink using $NBC_LINKCACHE +0s … 0.317s

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#648 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.319s

#649 linkCache_getLink using $NBC_LINKCACHE +0s … 0.319s

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#651 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.32s

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#653 linkCache_getLink using $NBC_LINKCACHE +0s … 0.32s

#654 linkCache_getLink using $NBC_LINKCACHE +0s … 0.32s

#655 linkCache_getLink using $NBC_LINKCACHE +0s … 0.32s

#656 linkCache_getLink using $NBC_LINKCACHE +0s … 0.32s

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#663 linkCache_getLink using $NBC_LINKCACHE +0s … 0.321s

#664 linkCache_getLink using $NBC_LINKCACHE +0s … 0.321s

#665 linkCache_getLink using $NBC_LINKCACHE +0s … 0.322s

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#669 linkCache_getLink using $NBC_LINKCACHE +0s … 0.322s

#670 linkCache_getLink using $NBC_LINKCACHE +0s … 0.322s

#671 linkCache_getLink using $NBC_LINKCACHE +0s … 0.322s

#672 linkCache_getLink using $NBC_LINKCACHE +0s … 0.322s

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#680 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.323s

#681 linkCache_getLink using $NBC_LINKCACHE +0s … 0.323s

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#684 linkCache_getLink no uid found +0.001s … 0.324s

#685 linkCache_getLink using $NBC_LINKCACHE +0s … 0.324s

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#687 linkCache_getLink no uid found +0.001s … 0.325s

#688 linkCache_getLink using $NBC_LINKCACHE +0s … 0.325s

#689 linkCache_getLink using $NBC_LINKCACHE +0s … 0.325s

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#691 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#692 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#693 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#694 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.326s

#695 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#696 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#697 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#698 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#699 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#700 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#701 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#702 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#703 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#704 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#705 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#706 linkCache_getLink using $NBC_LINKCACHE +0s … 0.326s

#707 linkCache_getLink no uid found +0s … 0.326s

#708 linkCache_getLink using $NBC_LINKCACHE +0s .. . 0.327s

#709 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#710 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#711 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#712 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#713 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#714 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#715 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#716 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#717 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#718 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#719 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

#720 linkCache_getLink using $NBC_LINKCACHE +0s … 0.327s

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#722 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.328s

#723 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#724 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#725 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#726 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#727 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#728 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#729 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#730 linkCache_getLink no uid found +0s … 0.328s

#731 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#732 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#733 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#734 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#735 linkCache_getLink using $NBC_LINKCACHE +0s … 0.328s

#736 linkCache_getLink using $NBC_LINKCACHE +0s .. . 0.329s

#737 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.329s

#738 linkCache_getLink using $NBC_LINKCACHE +0s … 0.329s

#739 linkCache_getLink using $NBC_LINKCACHE +0s … 0.329s

#740 linkCache_getLink using $NBC_LINKCACHE +0s … 0.329s

#741 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#742 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#743 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#744 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#745 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#746 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#747 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#748 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#749 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#750 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.33s

#751 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#752 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#753 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#754 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#755 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#756 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#757 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#758 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#759 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#760 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#761 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#762 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#763 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#764 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#765 linkCache_getLink no uid found +0s . .. 0.33s

#766 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#767 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#768 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#769 linkCache_getLink using $NBC_LINKCACHE +0s … 0.33s

#770 linkCache_getLink no uid found +0.002s … 0.332s

#771 linkCache_getLink no uid found +0.001s … 0.332s

#772 linkCache_getLink no uid found +0s … 0.333s

#773 min, max, avg, median took s +0.001s … 0.334s

#774 return log +0s … 0.334s

AMD A12-9720P vs Intel Core i7-7500U

log 22. 18:41:09

#0 checking url part for id 9192 +0s … 0s

#1 checking url part for id 8149 +0s … 0s

#2 not redirecting to Ajax server +0s … 0s

#3 did not recreate cache, as it is less than 5 days old! Created at Tue, 20 Sep 2022 13:14:10 +0200 +0.01s . .. 0.01s

#4 linkCache_getLink no uid found +0.008s … 0.018s

#5 linkCache_getLink no uid found +0.003s … 0.021s

#6 composed specs +0.006s … 0.027s

#7 did output specs +0s … 0.027s

#8 getting avg benchmarks for device 9192 +0s … 0.027s

#9 linkCache_getLink using $NBC_LINKCACHE +0s … 0.028s

#10 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.029s

#11 got single benchmarks 9192 +0.009s … 0.037s

#12 getting avg benchmarks for device 8149 +0.001s … 0.039s

#13 linkCache_getLink using $NBC_LINKCACHE +0.002s … 0.041s

#14 linkCache_getLink using $NBC_LINKCACHE +0s … 0.041s

#15 got single benchmarks 8149 +0.139s … 0.179s

#16 got avg benchmarks for devices +0s … 0.179s

#17 linkCache_getLink no uid found +0.007s … 0.187s

#18 linkCache_getLink no uid found +0s … 0.187s

#19 linkCache_getLink no uid found +0s . .. 0.187s

#20 linkCache_getLink no uid found +0s … 0.187s

#21 linkCache_getLink no uid found +0.001s … 0.188s

#22 linkCache_getLink no uid found +0s … 0.188s

#23 linkCache_getLink no uid found +0s … 0.188s

#24 linkCache_getLink no uid found +0.001s … 0.189s

#25 linkCache_getLink no uid found +0s … 0.189s

#26 linkCache_getLink no uid found +0.001s … 0.19s

#27 linkCache_getLink using $NBC_LINKCACHE +0.147s … 0.337s

#28 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#29 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#30 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#31 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#32 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#33 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#34 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.337s

#35 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#36 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#37 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#38 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#39 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#40 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#41 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#42 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#43 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#44 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#45 linkCache_getLink no uid found +0s … 0.337s

#46 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#47 linkCache_getLink using $NBC_LINKCACHE +0s … 0.337s

#48 linkCache_getLink no uid found +0s … 0.337s

#49 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.337s

#50 linkCache_getLink no uid found +0s … 0.338s

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#414 linkCache_getLink using $NBC_LINKCACHE +0s … 0.357s

#415 linkCache_getLink using $NBC_LINKCACHE +0s … 0.357s

#416 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.357s

#417 linkCache_getLink using $NBC_LINKCACHE +0s … 0.357s

#418 linkCache_getLink using $NBC_LINKCACHE +0s … 0.357s

#419 linkCache_getLink no uid found +0s … 0.357s

#420 linkCache_getLink using $NBC_LINKCACHE +0s … 0.357s

#421 linkCache_getLink using $NBC_LINKCACHE +0s … 0.357s

#422 linkCache_getLink using $NBC_LINKCACHE +0s … 0.357s

#423 linkCache_getLink using $NBC_LINKCACHE +0s … 0.357s

#424 linkCache_getLink using $NBC_LINKCACHE +0s … 0.357s

#425 linkCache_getLink no uid found +0s … 0.357s

#426 linkCache_getLink using $NBC_LINKCACHE +0s … 0.357s

#427 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.357s

#428 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#429 linkCache_getLink no uid found +0s … 0.358s

#430 linkCache_getLink no uid found +0s … 0.358s

#431 linkCache_getLink no uid found +0s . .. 0.358s

#432 linkCache_getLink no uid found +0s … 0.358s

#433 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#434 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#435 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#436 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#437 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#438 linkCache_getLink no uid found +0s … 0.358s

#439 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#440 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#441 linkCache_getLink no uid found +0s … 0.358s

#442 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#443 linkCache_getLink no uid found +0s … 0.358s

#444 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#445 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#446 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.358s

#447 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#448 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#449 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#450 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#451 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#452 linkCache_getLink no uid found +0s … 0.358s

#453 linkCache_getLink no uid found +0s … 0.358s

#454 linkCache_getLink using $NBC_LINKCACHE +0s … 0.358s

#455 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.359s

#456 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#457 linkCache_getLink no uid found +0s … 0.359s

#458 linkCache_getLink no uid found +0s … 0.359s

#459 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#460 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#461 linkCache_getLink no uid found +0s . .. 0.359s

#462 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#463 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#464 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#465 linkCache_getLink no uid found +0s … 0.359s

#466 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#467 linkCache_getLink no uid found +0s … 0.359s

#468 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#469 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#470 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#471 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#472 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#473 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#474 linkCache_getLink no uid found +0s … 0.359s

#475 linkCache_getLink using $NBC_LINKCACHE +0s … 0.359s

#476 linkCache_getLink using $NBC_LINKCACHE +0. 001s … 0.36s

#477 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#478 linkCache_getLink no uid found +0s … 0.36s

#479 linkCache_getLink no uid found +0s … 0.36s

#480 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#481 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#482 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#483 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#484 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#485 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#486 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#487 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#488 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#489 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#490 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#491 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.36s

#492 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#493 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#494 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#495 linkCache_getLink using $NBC_LINKCACHE +0s … 0.36s

#496 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.361s

#497 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#498 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#499 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#500 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#501 linkCache_getLink no uid found +0s … 0.361s

#502 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#503 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#504 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#505 linkCache_getLink no uid found +0s … 0.361s

#506 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.361s

#507 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#508 linkCache_getLink no uid found +0s … 0.361s

#509 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#510 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#511 linkCache_getLink no uid found +0s … 0.361s

#512 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#513 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#514 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#515 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#516 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#517 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#518 linkCache_getLink using $NBC_LINKCACHE +0s … 0.361s

#519 linkCache_getLink no uid found +0s … 0.362s

#520 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#521 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.362s

#522 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#523 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#524 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#525 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#526 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#527 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#528 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#529 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#530 linkCache_getLink no uid found +0s … 0.362s

#531 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#532 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#533 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#534 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#535 linkCache_getLink using $NBC_LINKCACHE +0s .. . 0.362s

#536 linkCache_getLink no uid found +0s … 0.362s

#537 linkCache_getLink no uid found +0s … 0.362s

#538 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#539 linkCache_getLink no uid found +0s … 0.362s

#540 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#541 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#542 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#543 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#544 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#545 linkCache_getLink no uid found +0s … 0.362s

#546 linkCache_getLink using $NBC_LINKCACHE +0s … 0.362s

#547 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.363s

#548 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#549 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.363s

#550 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.363s

#551 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#552 linkCache_getLink no uid found +0s … 0.363s

#553 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#554 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#555 linkCache_getLink no uid found +0s … 0.363s

#556 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#557 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#558 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#559 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#560 linkCache_getLink no uid found +0s … 0.363s

#561 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#562 linkCache_getLink no uid found +0s … 0.363s

#563 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#564 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#565 linkCache_getLink no uid found +0s . .. 0.363s

#566 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#567 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#568 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#569 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#570 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#571 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#572 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#573 linkCache_getLink using $NBC_LINKCACHE +0s … 0.363s

#574 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#575 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#576 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#577 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#578 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#579 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.364s

#580 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#581 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#582 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#583 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#584 linkCache_getLink no uid found +0s … 0.364s

#585 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#586 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#587 linkCache_getLink no uid found +0s … 0.364s

#588 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#589 linkCache_getLink no uid found +0s … 0.364s

#590 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#591 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#592 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#593 linkCache_getLink no uid found +0s … 0.364s

#594 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.364s

#595 linkCache_getLink using $NBC_LINKCACHE +0s … 0.364s

#596 linkCache_getLink no uid found +0s … 0.364s

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#598 linkCache_getLink using $NBC_LINKCACHE +0s … 0.365s

#599 linkCache_getLink using $NBC_LINKCACHE +0s … 0.365s

#600 linkCache_getLink using $NBC_LINKCACHE +0s … 0.365s

#601 linkCache_getLink using $NBC_LINKCACHE +0s … 0.365s

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#603 linkCache_getLink using $NBC_LINKCACHE +0s … 0.366s

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#607 linkCache_getLink using $NBC_LINKCACHE +0s … 0.367s

#608 linkCache_getLink no uid found +0s . .. 0.367s

#609 linkCache_getLink using $NBC_LINKCACHE +0s … 0.367s

#610 linkCache_getLink using $NBC_LINKCACHE +0s … 0.367s

#611 linkCache_getLink using $NBC_LINKCACHE +0s … 0.367s

#612 linkCache_getLink using $NBC_LINKCACHE +0s … 0.367s

#613 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.368s

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#618 linkCache_getLink using $NBC_LINKCACHE +0s … 0.368s

#619 linkCache_getLink using $NBC_LINKCACHE +0s … 0.368s

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#622 linkCache_getLink using $NBC_LINKCACHE +0s .. . 0.369s

#623 linkCache_getLink using $NBC_LINKCACHE +0s … 0.369s

#624 linkCache_getLink using $NBC_LINKCACHE +0s … 0.369s

#625 linkCache_getLink using $NBC_LINKCACHE +0s … 0.369s

#626 linkCache_getLink using $NBC_LINKCACHE +0s … 0.369s

#627 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.369s

#628 linkCache_getLink using $NBC_LINKCACHE +0s … 0.369s

#629 linkCache_getLink no uid found +0s … 0.369s

#630 linkCache_getLink using $NBC_LINKCACHE +0s … 0.37s

#631 linkCache_getLink using $NBC_LINKCACHE +0s … 0.37s

#632 linkCache_getLink using $NBC_LINKCACHE +0s … 0.37s

#633 linkCache_getLink using $NBC_LINKCACHE +0s … 0.37s

#634 linkCache_getLink no uid found +0.001s … 0.37s

#635 linkCache_getLink using $NBC_LINKCACHE +0s … 0.37s

#636 linkCache_getLink no uid found +0.001s … 0.371s

#637 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.371s

#638 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.372s

#639 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#640 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#641 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#642 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#643 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#644 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#645 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#646 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

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#648 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#649 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#650 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#651 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.372s

#652 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#653 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#654 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#655 linkCache_getLink no uid found +0s … 0.372s

#656 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#657 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#658 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#659 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#660 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#661 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#662 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#663 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#664 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#665 linkCache_getLink using $NBC_LINKCACHE +0s .. . 0.372s

#666 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

#667 linkCache_getLink using $NBC_LINKCACHE +0s … 0.372s

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#670 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#671 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#672 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#673 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#674 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#675 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#676 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#677 linkCache_getLink no uid found +0s … 0.373s

#678 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#679 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.373s

#680 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#681 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#682 linkCache_getLink using $NBC_LINKCACHE +0s … 0.373s

#683 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.374s

#684 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#685 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#686 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#687 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#688 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#689 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#690 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#691 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#692 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#693 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.374s

#694 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#695 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#696 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#697 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#698 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#699 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#700 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#701 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#702 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#703 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#704 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#705 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#706 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#707 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.374s

#708 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#709 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#710 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#711 linkCache_getLink no uid found +0s … 0.374s

#712 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#713 linkCache_getLink using $NBC_LINKCACHE +0s … 0.374s

#714 linkCache_getLink using $NBC_LINKCACHE +0s … 0.375s

#715 linkCache_getLink no uid found +0.001s … 0.375s

#716 min, max, avg, median took s +0.001s … 0.376s

#717 linkCache_getLink using $NBC_LINKCACHE +0s … 0.376s

#718 return log +0.004s … 0.38s

AMD A12-9720P vs Intel Core i7-8550U

log 22. 18:41:34

#0 checking url part for id 9192 +0s … 0s

#1 checking url part for id 9208 +0s … 0s

#2 not redirecting to Ajax server +0s . .. 0s

#3 did not recreate cache, as it is less than 5 days old! Created at Tue, 20 Sep 2022 13:14:10 +0200 +0.001s … 0.001s

#4 linkCache_getLink no uid found +0.007s … 0.008s

#5 linkCache_getLink no uid found +0.006s … 0.014s

#6 composed specs +0.001s … 0.015s

#7 did output specs +0s … 0.015s

#8 getting avg benchmarks for device 9192 +0.001s … 0.015s

#9 linkCache_getLink using $NBC_LINKCACHE +0s … 0.016s

#10 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.017s

#11 got single benchmarks 9192 +0.01s … 0.027s

#12 linkCache_getLink using $NBC_LINKCACHE +0.003s … 0.03s

#13 getting avg benchmarks for device 9208 +0.006s … 0.036s

#14 linkCache_getLink using $NBC_LINKCACHE +0.003s … 0.038s

#15 linkCache_getLink using $NBC_LINKCACHE +0s … 0.039s

#16 got single benchmarks 9208 +0.18s … 0. 219s

#17 got avg benchmarks for devices +0s … 0.219s

#18 linkCache_getLink no uid found +0s … 0.219s

#19 linkCache_getLink no uid found +0.001s … 0.221s

#20 linkCache_getLink no uid found +0.001s … 0.222s

#21 linkCache_getLink no uid found +0.001s … 0.223s

#22 linkCache_getLink using $NBC_LINKCACHE +0s … 0.223s

#23 linkCache_getLink no uid found +0.001s … 0.225s

#24 linkCache_getLink no uid found +0.008s … 0.232s

#25 linkCache_getLink using $NBC_LINKCACHE +0s … 0.233s

#26 linkCache_getLink no uid found +0s … 0.233s

#27 linkCache_getLink no uid found +0.001s … 0.234s

#28 linkCache_getLink no uid found +0s … 0.234s

#29 linkCache_getLink no uid found +0s … 0.234s

#30 linkCache_getLink using $NBC_LINKCACHE +0s … 0.234s

#31 linkCache_getLink no uid found +0s … 0.235s

#32 linkCache_getLink no uid found +0s . .. 0.235s

#33 linkCache_getLink no uid found +0.001s … 0.235s

#34 linkCache_getLink no uid found +0s … 0.236s

#35 linkCache_getLink using $NBC_LINKCACHE +0s … 0.236s

#36 linkCache_getLink no uid found +0.001s … 0.236s

#37 linkCache_getLink no uid found +0s … 0.236s

#38 linkCache_getLink no uid found +0s … 0.237s

#39 linkCache_getLink using $NBC_LINKCACHE +0s … 0.237s

#40 linkCache_getLink using $NBC_LINKCACHE +0.313s … 0.55s

#41 linkCache_getLink no uid found +0s … 0.55s

#42 linkCache_getLink using $NBC_LINKCACHE +0.001s … 0.55s

#43 linkCache_getLink using $NBC_LINKCACHE +0s … 0.55s

#44 linkCache_getLink no uid found +0s … 0.55s

#45 linkCache_getLink no uid found +0s … 0.551s

#46 linkCache_getLink using $NBC_LINKCACHE +0s … 0.551s

#47 linkCache_getLink using $NBC_LINKCACHE +0s . .. 0.551s

#48 linkCache_getLink using $NBC_LINKCACHE +0s … 0.551s

#49 linkCache_getLink using $NBC_LINKCACHE +0s … 0.551s

#50 linkCache_getLink using $NBC_LINKCACHE +0s … 0.551s

#51 linkCache_getLink using $NBC_LINKCACHE +0s … 0.551s

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AMD A12-9720P vs Intel Core i7-1165G7

AMD A12-9720P vs Intel Core i7-1165G7

Comparison of the technical characteristics between the processors, with the AMD A12-9720P on one side and the Intel Core i7-1165G7 on the other side. The first is dedicated to the laptop sector, It has 4 cores, 4 threads, a maximum frequency of 3,6GHz. The second is used on the ultrabook segment, it has a total of 4 cores, 8 threads, its turbo frequency is set to 4,7 GHz. The following table also compares the lithography, the number of transistors (if indicated), the amount of cache memory, the maximum RAM memory capacity, the type of memory accepted, the release date, the maximum number of PCIe lanes, the values obtained in Geekbench 4 and Cinebench R15.

Note: Commissions may be earned from the links above.

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Specifications:

Processor	AMD A12-9720P	Intel Core i7-1165G7
Market (main)	Laptop	Ultrabook
ISA	x86-64 (64 bit)	x86-64 (64 bit)
Microarchitecture	Excavator	Willow Cove
Core name	Bristol Ridge	Tiger Lake-UP3
Family	A10-9000	Core i7-1100
Part number(s), S-Spec	AM972PADY44AB	FH8069004530104, SRK02
Release date	Q2 2016	Q3 2020
Lithography	28 nm	10 nm SuperFin
Transistors	3. 100.000.000	—
Cores	4	4
Threads	4	8
Base frequency	2,7 GHz	1,2 GHz
Turbo frequency	3,6 GHz	4,7 GHz
Cache memory	2 MB	12 MB
Max memory capacity	32 GB	64 GB
Memory types	DDR4-2400	DDR4-3200, LPDDR4x-4267
Max # of memory channels	2	2
Max PCIe lanes	8	16
TDP	15 W	28 W
GPU integrated graphics	AMD Radeon R7 Graphics (Bristol)	Intel Iris Xe Graphics G7 96EU
GPU cores	8	—
GPU execution units	—	96
GPU shading units	512	768
GPU base clock	758 MHz	300 MHz
GPU boost clock	720 MHz	1300 MHz
GPU FP32 floating point	737,3 GFLOPS	1. 690 GFLOPS
Socket	FP4	BGA1449
Maximum temperature	90°C	100°C
AI accelerator	—	Gaussian & Neural Accelerator, Deep Learning Boost
Crypto engine	—	AES New Instructions
Security	—	OS Guard, Boot Guard, Mode-based Execute Control, Control-Flow Enforcement Technology
CPU-Z single thread	184	428
CPU-Z multi thread	613	2. 357
Cinebench R15 single thread	72	215
Cinebench R15 multi-thread	244	814
Cinebench R20 single thread	162	568
Cinebench R20 multi-thread	549	2.042
PassMark single thread	1.336	2.205
PassMark CPU Mark	2.614	10.493
(Windows 64-bit) Geekbench 4 single core	1.943	6.367
(Windows 64-bit) Geekbench 4 multi-core	4. 525	20.188
(Windows) Geekbench 5 single core	385	1.421
(Windows) Geekbench 5 multi-core	1.054	4.598
(SGEMM) GFLOPS performance	51,02 GFLOPS	316,4 GFLOPS
(Multi-core / watt performance) Performance / watt ratio	302 pts / W	721 pts / W
Amazon
eBay

Note: Commissions may be earned from the links above.

We can better compare what are the technical differences between the two processors.

Price: For technical reasons, we cannot currently display a price less than 24 hours, or a real-time price. This is why we prefer for the moment not to show a price. You should refer to the respective online stores for the latest price, as well as availability.

We see that the two processors have an equivalent number of cores, the turbo frequency of Intel Core i7-1165G7 is bigger, that the PDT of AMD A12-9720P is lower. The Intel Core i7-1165G7 was started more recently.

Performances :

Performance comparison between the two processors, for this we consider the results generated on benchmark software such as Geekbench 4.

	CPU-Z — Multi-thread & single thread score
Intel Core i7-1165G7	428 2.357
AMD A12-9720P	184 613

In single core, the difference is 133%. In multi-core, the difference in terms of gap is 285%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

CPU-Z is a system information software that provides the name of the processor, its model number, the codename, the cache levels, the package, the process. It can also gives data about the mainboard, the memory. It makes real time measurement, with finally a benchmark for the single thread, as well as for the multi thread.

	Cinebench R15 — Multi-thread & single thread score
Intel Core i7-1165G7	215 814
AMD A12-9720P	72 244

In single core, the difference is 199%. In multi-core, the difference in terms of gap is 234%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

Cinebench R15 evaluates the performance of CPU calculations by restoring a photorealistic 3D scene. The scene has 2,000 objects, 300,000 polygons, uses sharp and fuzzy reflections, bright areas, shadows, procedural shaders, antialiasing, and so on. The faster the rendering of the scene is created, the more powerful the PC is, with a high number of points.

	Cinebench R20 — Multi-thread & single thread score
Intel Core i7-1165G7	568 2.042
AMD A12-9720P	162 549

In single core, the difference is 251%. In multi-core, the difference in terms of gap is 272%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

Cinebench R20 is a multi-platform test software which allows to evaluate the hardware capacities of a device such as a computer, a tablet, a server. This version of Cinebench takes into account recent developments in processors with multiple cores and the latest improvements in rendering techniques. The evaluation is ultimately even more relevant.

	PassMark — CPU Mark & single thread
Intel Core i7-1165G7	2.205 10.493
AMD A12-9720P	1.336 2.614

In single core, the difference is 65%. In multi-core, the difference in terms of gap is 301%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

PassMark is a benchmarking software that performs several performance tests including prime numbers, integers, floating point, compression, physics, extended instructions, encoding, sorting. The higher the score is, the higher is the device capacity.

On Windows 64-bit:

	Geekbench 4 — Multi-core & single core score — Windows 64-bit
Intel Core i7-1165G7	6.367 20.188
AMD A12-9720P	1.943 4.525

In single core, the difference is 228%. In multi-core, the difference in terms of gap is 346%.

On Linux 64-bit:

	Geekbench 4 — Multi-core & single core score — Linux 64-bit
Intel Core i7-1165G7	6. 877 19.876
AMD A12-9720P	1.699 3.226

In single core, the difference is 305%. In multi-core, the difference in terms of gap is 516%.

On Android 64-bit:

	Geekbench 4 — Multi-core & single core score — Android 64-bit
Intel Core i7-1165G7	5.924 18.450
AMD A12-9720P	2.067 4.550

In single core, the difference is 187%. In multi-core, the difference in terms of gap is 305%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

Geekbench 4 is a complete benchmark platform with several types of tests, including data compression, images, AES encryption, SQL encoding, HTML, PDF file rendering, matrix computation, Fast Fourier Transform, 3D object simulation, photo editing, memory testing. This allows us to better visualize the respective power of these devices. For each result, we took an average of 250 values on the famous benchmark software.

On Windows:

	Geekbench 5 — Multi-core & single core score — Windows
Intel Core i7-1165G7	1.421 4.598
AMD A12-9720P	385 1.054

In single core, the difference is 269%. In multi-core, the difference in terms of gap is 336%.

On Linux:

	Geekbench 5 — Multi-core & single core score — Linux
Intel Core i7-1165G7	1.420 4.422
AMD A12-9720P	488 1.217

In single core, the difference is 191%. In multi-core, the difference in terms of gap is 263%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

Geekbench 5 is a software for measuring the performance of a computer system, for fixed devices, mobile devices, servers. This platform makes it possible to better compare the power of the CPU, the computing power and to compare it with similar or totally different systems. Geekbench 5 includes new workloads that represent work tasks and applications that we can find in reality.

Equivalence:

AMD A12-9720P Intel equivalentIntel Core i7-1165G7 AMD equivalent

AMD A12-9800 vs Intel Core i7-7500U: What is the difference?

Smartphone-graphic wire headphones

54 BALLLA

AMD A12-9800

50 BALLA

Intel Core i7-7500U

Winner when compared to

9000 VS

65 facts compared to

AMD A12-9800 9000 AMD A12-9800 9 7500U

Why is AMD A12-9800 better than Intel Core i7-7500U?

2. 81x higher CPU speed?
4 x 3.8GHz vs 2 x 2.7GHz
267MHz higher RAM speed?
2400MHz vs 2133MHz
GPU frequency 808MHz more?
1108MHz vs 300MHz
3.6MB more L2 cache?
4.1MB vs 0.5MB
0.7GHz higher turbo clock speed?
4.2GHz vs 3.5GHz
384KB more L1 cache?
512KB vs 128KB
Has an unlocked multiplier?
0.77MB/core more L2 cache per core?
1.02MB/core vs 0.25MB/core

26°C higher than maximum operating temperature?
100°C vs 74°C
Semiconductor size 14nm smaller?
14nm vs 28nm
5.8% higher PassMark score?
3647 vs 3447
50W below TDP?
15W vs 65W
21.66% higher PassMark score (single)?
1955 vs 1607
Has NX bit?

What are the most popular comparisons?

AMD RYZEN 5 5500U

Intel Core i5-1135g7

AMD Ryzen 3 3250U

Intel Core i3-1115G4

AMD Ryzen 3 5300U

Intel Core i3-1115g4

AMD Ryzen 7 5800h

Intel Core i7-11800h

AMD Ryzen 5 5500u

I3-1115G4

AMD Ry Intel Core i7-1165G7

AMD Ryzen 5 5500U

Intel Core i5-10210U

AMD Ryzen 5 3500U

Intel

I3-115G

Intel Core Core Core Core Core 215G Core i5-10210U

AMD RYZEN 7 3700U

Intel Core i5-10210u

Complexation prices

Users reviews

General rating

AMD A12-9000 9000 9 $

AMD A12-9800 /10

1 User reviews

Intel Core i7-7500U

3 User reviews

Intel Core i7-7500U

9. 0 /10

3 User reviews 9Ol000 /10

3 votes

performance

10.0 /10

1 Votes

8.0 /10

3 Votes

Reliability

10.0 /10 9 9

1 Votes

10.0 /10

3 Votes 9000

4 x 3.8GHz

2 x 2.7GHz

CPU speed indicates how many processing cycles per second a processor can perform, considering all its cores (processors). It is calculated by adding the clock speeds of each core or, in the case of multi-core processors, each group of cores.

2nd processor thread

More threads result in better performance and better multitasking.

3.speed turbo clock

4.2GHz

3.5GHz

When the processor is running below its limits, it can jump to a higher clock speed to increase performance.

4. Has unlocked multiplier

✔AMD A12-9800

✖Intel Core i7-7500U

Some processors come with an unlocked multiplier and are easier to overclock, allowing for better performance in games and other applications.

5.L2 Cache

More L2 scratchpad memory results in faster results in CPU and system performance tuning.

6.L3 cache

Unknown. Help us offer a price. (AMD A12-9800)

More L3 scratchpad memory results in faster results in CPU and system performance tuning.

7.L1 cache

More L1 cache results in faster results in CPU and system performance tuning.

8.core L2

1.02MB/core

0.25MB/core

More data can be stored in the L2 scratchpad for access by each processor core.

9. L3 core

Unknown. Help us offer a price. (AMD A12-9800)

2MB/core

More data can be stored in L3 scratchpad for access by each processor core.

Memory

1.RAM speed

2400MHz

2133MHz

Can support faster memory which speeds up system performance.

2.max memory bandwidth

38.4GB/s

34.1GB/s

This is the maximum rate at which data can be read from or stored in memory.

3.DDR version

DDR (Double Data Rate Synchronous Dynamic Random Access Memory) is the most common type of RAM. New versions of DDR memory support higher maximum speeds and are more energy efficient.

4.Memory channels

More memory channels increase the speed of data transfer between memory and processor.

5.max memory

Unknown. Help us offer a price. (AMD A12-9800)

Maximum amount of memory (RAM).

6.bus baud rate

Unknown. Help us offer a price. (AMD A12-9800)

The bus is responsible for transferring data between various components of a computer or device.

7. Supports memory debug code

✖AMD A12-9800

✖Intel Core i7-7500U

Memory debug code can detect and repair data corruption. It is used when necessary to avoid distortion, such as in scientific computing or when starting a server.

8.eMMC version

Unknown. Help us offer a price. (AMD A12-9800)

Unknown. Help us offer a price. (Intel Core i7-7500U)

A newer version of eMMC — built-in flash memory card — speeds up the memory interface, has a positive effect on device performance, for example, when transferring files from a computer to internal memory via USB.

9.bus frequency

Unknown. Help us offer a price. (AMD A12-9800)

Unknown. Help us offer a price. (Intel Core i7-7500U)

The bus is responsible for transferring data between various components of a computer or device

Geotagging

1. PassMark result

This benchmark measures CPU performance using multi-threading.

2. PassMark result (single)

This test measures processor performance using a thread of execution.

3.Geekbench 5 result (multi-core)

Unknown. Help us offer a price. (AMD A12-9800)

Geekbench 5 is a cross-platform benchmark that measures multi-core processor performance. (Source: Primate Labs, 2022)

4.Cinebench R20 result (multi-core)

Unknown. Help us offer a price. (AMD A12-9800)

Cinebench R20 is a benchmark that measures the performance of a multi-core processor by rendering a 3D scene.

5.Cinebench R20 result (single core)

Unknown. Help us offer a price. (AMD A12-9800)

Cinebench R20 is a test to evaluate the performance of a single core processor when rendering a 3D scene.

6.Geekbench 5 result (single core)

Unknown. Help us offer a price. (AMD A12-9800)

Geekbench 5 is a cross-platform benchmark that measures the single-core performance of a processor. (Source: Primate Labs, 2022)

7. Blender test result (bmw27)

Unknown. Help us offer a price. (AMD A12-9800)

1309.46seconds

The Blender benchmark (bmw27) measures CPU performance by rendering a 3D scene. More powerful processors can render a scene in a shorter time.

8.Blender result (classroom)

Unknown. Help us offer a price. (AMD A12-9800)

3568.44seconds

The Blender (classroom) benchmark measures CPU performance by rendering a 3D scene. More powerful processors can render a scene in a shorter time.

9.power per watt

Unknown. Help us offer a price. (AMD A12-9800)

Unknown. Help us offer a price. (Intel Core i7-7500U)

This means that the processor is more efficient, giving more performance per watt of power used.

Functions

1.uses multithreading

✔AMD A12-9800

✔Intel Core i7-7500U

processor cores into logical cores, also known as threads. Thus, each core can run two instruction streams at the same time.

2. Has AES

✔AMD A12-9800

✔Intel Core i7-7500U

AES is used to speed up encryption and decryption.

3. Has AVX

✔AMD A12-9800

✔Intel Core i7-7500U

AVX is used to help speed up calculations in multimedia, scientific and financial applications, and to improve the performance of the Linux RAID program.

4.Version SSE

SSE is used to speed up multimedia tasks such as editing images or adjusting audio volume. Each new version contains new instructions and improvements.

5. Has F16C

✔AMD A12-9800

✔Intel Core i7-7500U

F16C is used to speed up tasks such as image contrast adjustment or volume control.

6.bits transmitted at the same time

Unknown. Help us offer a price. (AMD A12-9800)

Unknown. Help us offer a price. (Intel Core i7-7500U)

NEON provides faster media processing such as MP3 listening.

7. Has MMX

✔AMD A12-9800

✔Intel Core i7-7500U

MMX is used to speed up tasks such as adjusting image contrast or adjusting volume.

8. Has TrustZone

✖AMD A12-9800

✖Intel Core i7-7500U

Technology is integrated into the processor to ensure device security when using features such as mobile payments and streaming video using digital rights management (DRM) technology ).

9.interface width

Unknown. Help us offer a price. (AMD A12-9800)

Unknown. Help us offer a price. (Intel Core i7-7500U)

The processor can decode more instructions per clock (IPC), which means that the processor performs better

Other

1. OpenGL ES version

Unknown. Help us offer a price. (AMD A12-9800)

OpenGL ES is used to play on mobile devices such as smartphones. Later versions support better graphics.

Why is Apple A12 Bionic better than Intel Core i7-8700B?

Has integrated LTE?
Smaller 7nm semiconductors?
7nm vs 14nm
Uses big.LITTLE technology?
Has a TrustZone?

Why is Intel Core i7-8700B better than Apple A12 Bionic?

1.68x higher CPU speed?
6 x 3.2GHz vs 2 x 2.5GHz & 4 x 1.6GHz
533MHz higher memory speed?
2666MHz vs 2133MHz
6 more CPU threads?
12 vs 6
8.6GB/s more memory bandwidth?
42.7GB/s vs 34.1GB/s
2.11GHz higher turbo clock speed?
4.6GHz vs 2.49GHz
Multithreaded?
Has AVX?
Has MMX?

What are the most popular comparisons?

Apple A12 Bionic

Qualcomm Snapdragon 855

Intel Core i7-8700B

Intel Core i3-8100H

Apple A12 Bionic

Apple A13 Bionic

Intel Core i7-8700B

Apple M1

Apple A12 Bionic

Apple A9x

Intel Core i7-8700B

AMD ATHOLON

BONIC 9000 BIONIC 9000 BS0003

Qualcomm Snapdragon 870

Intel Core i7-8700B

Intel Core i5-10300H

Apple A12 Bionic

Qualcomm Snapdragon 860

Intel Core i7-8700B

Intel Core i7 -8700k

Apple A12 Bionic

Apple A8x

Intel Core i7-8700b

AMD Ryzen 7 3700u

Apple A12 Bionic

Qualcomm Qualcrom Snaprm SNAPDDROM0003

Intel Core i7-8700b

Intel Core i3-8100

Apple A12 Bionic

Apple A8

Intel Core i7-8700b

Intel Core INTEL CORE INTEL CORE INTEL CORE Bionic

Apple A10x Fusion

Intel Core i7-8700B

AMD Ryzen 5 3500U

Bionic

x Bionic Bionic Bionic Bionic Bionic Bionic Bionic. 0002 VS

Intel Core i5-8400b

Comparison prices

Users reviews

General rating

Apple A12 Bionic

7 Reviews Users

Apple A12 Bionic

Intel Core i7-8700B

0 User reviews

Intel Core i7-8700B

0.0 /10

0 User reviews

Features

Games

9.0 /10

7 Votes

Reviews yet not

performance

/10

7 Votes

Reviews yet not

9000

performance

1. Oscry of the central processor 1.0004 1. Oscry of the central processor 1.

2 x 2.5GHz & 4 x 1.6GHz

6 x 3.2GHz

CPU speed indicates how many processing cycles per second a processor can perform, given all its cores (processors). It is calculated by adding the clock speeds of each core or, in the case of multi-core processors, each group of cores.

2nd processor thread

More threads result in better performance and better multitasking.

3. Uses big.LITTLE technology

✔Apple A12 Bionic

✖Intel Core i7-8700B

Using big.LITTLE technology, the chip can switch between two sets of processors to ensure maximum performance and battery life. For example, while gaming, a more powerful processor will be used to improve performance, while checking email will use a less powerful processor to extend battery life.

4. Uses HMP

✖Apple A12 Bionic

✖Intel Core i7-8700B

HMP is a more advanced version of big.LITTLE technology. In this configuration, the processor can use all cores at the same time, or only one core for low-intensity tasks. This can provide high performance and longer battery life respectively.

5.speed turbo clock

2. 49GHz

4.6GHz

When the processor is running below its limits, it can jump to a higher clock speed to increase performance.

6.L2 cache

Unknown. Help us offer a price. (Apple A12 Bionic)

More L2 scratchpad memory results in faster results in CPU and system performance tuning.

7.L1 cache

Unknown. Help us offer a price. (Apple A12 Bionic)

More L1 scratchpad memory results in faster results in CPU and system performance tuning.

8.hour multiplier

Unknown. Help us offer a price. (Apple A12 Bionic)

The hour multiplier controls the speed of the processor.

9.L3 cache

Unknown. Help us offer a price. (Apple A12 Bionic)

More L3 scratchpad memory results in faster results in CPU and system performance tuning.

Memory

1. RAM speed

2133MHz

2666MHz

Can support faster memory which speeds up system performance.

2.DDR memory version

Unknown. Help us offer a price. (Intel Core i7-8700B)

DDR (Double Data Rate Synchronous Dynamic Random Access Memory) is the most common type of main memory. New versions of DDR memory support higher maximum speeds and are more energy efficient.

3.max memory

Unknown. Help us offer a price. (Apple A12 Bionic)

Maximum amount of memory (RAM).

4.max memory bandwidth

34.1GB/s

42.7GB/s

This is the maximum rate at which data can be read from or stored in memory.

5th memory channels

Unknown. Help us offer a price. (Apple A12 Bionic)

More memory channels increase the speed of data transfer between memory and processor.

6. eMMC version

Unknown. Help us offer a price. (Apple A12 Bionic)

Unknown. Help us offer a price. (Intel Core i7-8700B)

7.Supports memory troubleshooting code

✖Apple A12 Bionic

✖Intel Core i7-8700B

Memory error recovery code can detect and repair data corruption. It is used when necessary to avoid distortion, such as in scientific computing or when starting a server.

Features

1.Has built-in LTE

✔Apple A12 Bionic

✖Intel Core i7-8700B

System on a Chip (SoC) has built-in LTE cellular chip. LTE can download at higher speeds than older 3G technologies.

2.download speed

1000MBits/s

Unknown. Help us offer a price. (Intel Core i7-8700B)

Download speed is a measurement of Internet connection bandwidth that represents the maximum data transfer rate at which a device can access online content.

3.download speed

150MBits/s

Unknown. Help us offer a price. (Intel Core i7-8700B)

Download speed is a measurement of Internet connection bandwidth that represents the maximum data transfer rate at which a device can send information to a server or other device.

4. TrustZone enabled

✔Apple A12 Bionic

✖Intel Core i7-8700B

Technology is integrated into the processor to ensure device security when using features such as mobile payments and video streaming through Digital Rights Management (DRM) .

5.uses multithreading

✖Apple A12 Bionic

✔Intel Core i7-8700B

cores, also known as threads. Thus, each core can run two instruction streams at the same time.

6. Has NX bit

✔Apple A12 Bionic

✔Intel Core i7-8700B

NX bit helps protect your computer from virus attacks.

7 bits transmitted at the same time

Unknown. Help us offer a price. (Apple A12 Bionic)

Unknown. Help us offer a price. (Intel Core i7-8700B)

NEON provides faster media processing such as MP3 listening.

8. Has AES

✔Apple A12 Bionic

✔Intel Core i7-8700B

AES is used to speed up encryption and decryption.

9.VFP version

Unknown. Help us offer a price. (Apple A12 Bionic)

Unknown. Help us offer a price. (Intel Core i7-8700B)

The floating point vector (VFP) is used by the processor to provide enhanced performance in areas such as digital imaging.

Geotags

1. Geekbench 5 result (single core)

Unknown. Help us offer a price. (Intel Core i7-8700B)

Geekbench 5 is a cross-platform test that measures the single-core performance of a processor. (Source: Primate Labs, 2022)

2.Geekbench 5 result (multi-core)

Unknown. Help us offer a price. (Intel Core i7-8700B)

Geekbench 5 is a cross-platform test that measures the performance of a multi-core processor. (Source: Primate Labs, 2022)

3. PassMark result

Unknown. Help us offer a price. (Apple A12 Bionic)

This test measures processor performance using multithreading.

4. PassMark result (single)

This test measures processor performance using a thread of execution.

5. PassMark result (overclocked)

Unknown. Help us offer a price. (Apple A12 Bionic)

Unknown. Help us offer a price. (Intel Core i7-8700B)

This test measures the performance of the processor while it is overclocked.

Others

1. Has AVX

✖Apple A12 Bionic

✔Intel Core i7-8700B

AVX is used to help speed up calculations in multimedia, scientific and financial RAID applications, and to improve Linux program performance.

2.Has MMX

✖Apple A12 Bionic

✔Intel Core i7-8700B

MMX is used to speed up tasks such as adjusting image contrast or adjusting volume.

3.bus baud rate

Unknown. Help us offer a price. (Apple A12 Bionic)

The bus is responsible for transferring data between various components of a computer or device.

4.Has FMA3

✖Apple A12 Bionic

✔Intel Core i7-8700B

FMA3 is used to speed up tasks such as image contrast adjustment or volume control.

5. Has F16C

✖Apple A12 Bionic

✔Intel Core i7-8700B

F16C is used to speed up tasks such as adjusting image contrast or adjusting volume.

Price comparison

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can we do without a video card? GECID.com. Page 1

::>Processors
>2018
> Comparison of AMD A12-9800 with AMD A10-7800, Intel Core i3-7100 and Intel Pentium G4560: can we do without a graphics card?

24-02-2018

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Through the efforts of the miners, the prices of video cards have skyrocketed, and low-cost users are looking towards the APU. Let’s see what the flagship of the previous 7th generation AMD A12-9800 is capable of compared to its competitors.

It has 4 cores with 28nm AMD Excavator architecture in its structure, the base frequency of which is 3.8 GHz, and the dynamic frequency can rise up to 4.2 GHz. The dual-channel RAM controller supports modules no faster than DDR4-2400, and the integrated Radeon R7 Graphics includes 512 stream processors with a maximum frequency of 1108 MHz. The thermal package is 65 W, and the critical temperature is 90°C.

The AMD A12-9800 is available for sale at an estimated cost of $120. It comes with a simple AMD Near-Silent cooler, a user manual and a sticker on the case. By the way, the cooler fan is based on a hydraulic bearing, which promises a longer service life and a comfortable noise background.

Since this APU was created for Socket AM4, we will test it on the usual stand with the MSI X370 SLI PLUS motherboard, CBO be quiet! Silent Loop 240mm and 16GB Patriot Viper 4 RAM kit in DDR4-2400 mode. In a hurry, they overlooked and forgot to lower the memory timings, but this is unlikely to have drastically affected the test results.

As an internal opponent, we will use one of the flagship models of the AMD Kaveri line — AMD A10-7800. It also has 4 processor cores, but with an even older Steamroller architecture and lower clock speeds: from 3.5 to 3.9GHz in dynamic overclocking. The integrated graphics adapter also has 512 stream processors in its structure, but they operate at a maximum frequency of 720 MHz and are built on the 2nd generation GCN architecture, not the 3rd. The memory controller is guaranteed to be able to serve only DDR3-2133 modules in 2-channel mode. But the AMD A10-7800 has 4 MB of L2 cache, while its newer competitor has only 2 MB.

This model can be found on the market for an average of $88. But it should be understood that the FM2 + platform has already become a thing of the past, and its updating is very problematic. Paired with A10-7800 we used ASRock Fatal1ty FM2A88X+ Killer motherboard, be quiet! PURE ROCK SLIM and 16GB G.Skill TridentX RAM kit.

The first external competitor is the 2-core 4-thread Intel Pentium G4560, which can be found on sale with an estimated price tag of $77. Its operating clock speed is 3.5 GHz and it boasts 3 MB of L3 cache. Together with it, we used a simple ASRock h210M-HDS motherboard and a Vinga CL-2001B cooler with a convenient mounting, a quieter and more efficient 120mm fan than the bundled solution. The Patriot Viper 4’s RAM ran in DDR4-2400 mode.

Of course, the most relevant opponent is the 4-core Intel Core i3-8100, but the lack of budget motherboards makes the assembly based on it very expensive. So we took its 2-core, 4-thread Intel Core i3-7100 predecessor, which will set you back $125. Unlike the «hyperstump», it has a higher clock speed of 3.9 GHz and boasts support for AVX and FMA instructions. To test it, we used an MSI h370-A PRO motherboard, a Thermalright Archon SB-E X2 cooler, and the same 16GB Patriot Viper 4 RAM kit in DDR4-2400 mode.

The role of the video card is assigned to Inno3D iChill GeForce GTX 1080 X3, the disk subsystem is represented by SSD series GOODRAM Iridium PRO and HDD Seagate IronWolf, and we used the Thermaltake Core P5 Tempered Glass Edition open case as the basis of the test bench.

By tradition, we open the test block with synthetics. When working with RAM in AIDA64 , the pentium takes the lead. AMD A12-9800 is at least 53% behind. The L1 cache on the newer APU is 5-7% faster and the L2 cache is 18-48% faster than its predecessor. And in the confrontation with Intel processors, the clear favorite is the Intel Core i3: its advantage ranges from 17 to 123%. It is he who is the leader of the overall standings.

The Core i3 also has the lowest data access latency. AMD A12-9800 is 44% behind in this indicator.

But it unexpectedly shows the highest unpacking speed in 7-Zip . In other parameters, the Core i3-7100 returns the palm: the gap between them reaches 20%.

But there are no surprises in WinRAR : Core i3 confidently takes the lead, beating the test model by 50%.

The Corona rendered the scene better than Intel. And in the fight, APU won AMD A12-9800 with a minimal margin, however, it lagged behind the leader by 35%.

When encoding video in the x265 benchmark, the balance of power changed slightly: the test model moved up to second place, lagging behind the Intel Core i3 by 17%.

In CineBench R15 , the representative of the AM4 platform was only able to get ahead of his internal opponent. In turn, the Intel Core i3 bypasses it by at least 26%.

The final result in the complex benchmark RealBench is quite consistent with the logic of previous tests: AMD A12-9800 is minimally ahead of its predecessor, but lags behind Intel by 19-27%.

Let’s move on to gaming benchmarks when using a discrete video card, and we’ll check the integrated graphics a little later.

Assassin’s Creed Origins in HD and at maximum settings is difficult for all systems, although Intel representatives managed to provide a playable frame rate, while AMD can only call it an average. Lag AMD A12-9800 from the leader exceeds 40%.

Ultra settings in Far Cry Primal provide more comfortable video sequence speed even on systems with APU. For example, the model under study produced 48 FPS with drawdowns up to 32. But this was not enough to beat even the internal opponent. The backlog from the permanent leader was 43-46%.

Rainbow Six Siege at ultra preset and HD resolution left mixed impressions. On the one hand, even a system with AMD A12-9800 on board gave a very comfortable average speed under 90 FPS. On the other hand, the minimum frequency dropped to 26 frames / s. The leader coped with the task at least 71% better.

Apple M2, M1, M1 Pro, M1 Max, M1 Ultra vs Intel i5, i7, i9

The centerpiece of Apple’s presentation was a completely new processor, which from now on will be used in all Cupertino computers. The novelty is called Apple M1. And it was she who caused the appearance of new laptops and mac Mini at the same presentation. After all, previously all these devices used processors from the company Intel . In April 2021, Apple iMac 2021 and Apple iPad Pro with M1 processor were provided. On October 18, new MacBook Pro with M1 Pro and M1 Max processors were introduced, which are significantly faster than the M1. And on March 8, 2022, Apple provided the new Apple M1 Ultra processor.

At the June presentation, Apple introduced a completely new chip for laptops — Apple M2. Almost all authoritative publications called it much more powerful than the Apple M1. But in order to understand how much more interesting the new processor is than the old one, you will have to make a short review, consider the capabilities and technical characteristics of processors (including Pro, Max and Ultra modifications).

By the way, during the presentation, there was information that the new Apple chip is several times more productive than the 10th generation Intel processors. She got us interested. It seemed incredible that Apple, which released the processor for the first time, could immediately put the legendary blue brand to shame. Therefore, we decided to make a small comparison of processors from both manufacturers.

M2, M1, M1 Pro, M1 Max, M1 Ultra, A12Z Bionic and Intel i5, i7, i9 processor specifications

First, it is worth looking at and comparing the characteristics of processors. This will help you immediately understand what exactly Apple did in order to leave the Intel i5, Intel i7, Intel i9 overboard. A first glance at the general parameters will help determine what exactly will need to be considered in more detail to obtain more complete information. It is also worth comparing the advantages of the M2, M1 and M1 Pro modifications, as well as the M1 Max and M1 Ultra over the Apple A12Z Bionic installed in the iPad Pro.

Specifications Apple M2

Number of cores: 8. 5 nanometers.
Turbo frequency: 3.4 GHz.
Level 3 cache (L3): no data.
Supported memory type: LPDDR5-6400.
TDP: 15W.
Integrated graphics: yes, Apple M2 GPU with 8 cores (10 core option available) with ProRes support.
Additional options: support for 24 GB of RAM with a bandwidth of 102.4 GB / s.

Apple M1 specifications

Number of cores: 8 (architecture 4 big cores + 4 LITTLE cores), 5 nanometer process technology.
Turbo frequency: not available.
L3 cache ( L 3): not available.
Supported memory type: is part of the processor.
Heat pack ( TDP ): up to 10W.
Integrated graphics: yes, Apple M1 GPU with 8 cores (up to 2.6 TFlops performance).
Additional options: Neural Engine 16 cores up to 11 TOPS, Secure Enclave.

Apple M1 Pro specifications

Number of cores: 10 (architecture 8 big cores + 2 LITTLE cores), frequency up to 3.2 GHz, manufacturing process 5 nanometers.
Turbo frequency: not available.
L3 cache ( L 3): not available.
Supported memory type: is part of the processor.
Heat pack ( TDP ): not available.
Integrated graphics: yes, Apple M1 GPU with 16 cores and ProRes support.
Additional options: Neural Engine 16 cores, Secure Enclave.

Specifications Apple M1 Max

Number of cores: 10 (architecture 8 big cores + 2 LITTLE cores), 5 nanometer process technology.
Turbo frequency: not available.
L3 cache ( L 3): not available.
Supported memory type: is part of the processor.
Heat pack ( TDP ): not available.
Integrated graphics: yes, Apple M1 GPU with 32 cores and ProRes support.
Additional options: Neural Engine 16 cores, Secure Enclave.

Features Apple M1 Ultra

Number of cores: 20. 5 nanometers.
Turbo frequency: 3.2 GHz.
L3 cache ( L 3): not available.
Supported memory type: LPDDR5-6400.
Thermal pack ( TDP ): no data.
Integrated graphics: yes, Apple M1 GPU with 64 cores and ProRes support.
Additional options: Neural Engine 16 cores, Secure Enclave.

Specification Apple A12Z Bionic

Number of cores: 8 (architecture 4 big cores + 4 LITTLE cores), 7nm process technology.
Turbo frequency: 2490 GHz.
L3 cache ( L 3): not available.
Supported memory type: LPDDR4X dual channel.
Heat pack ( TDP ): 6W.
Integrated graphics: Apple A12 Bionic GPU, 8 cores.
Additional options: Neural Engine, motion coprocessor.

Specifications Intel Core i9-12900KF

Number of cores: 16.5 nanometers.
Turbo frequency: 5.20 GHz.
Level 3 cache (L3) : 30 MB.
Supported memory type: DDR5 4800 MT/s, DDR4 3200 MT/s.
TDP: 241W.
Integrated graphics: no.
Additional options : Intel Volume Management Device (VMD), Intel Control-Flow Enforcement, Intel VT-x with Extended Page Tables (EPT).

Specifications Intel Core i9-10980HK

Number of cores: 8.
Number of threads: 16.
Rated frequency: 2400 MHz.
Turbo Boost frequency: 5300 MHz.
Level 3 cache (L3): 16 MB.
Supported memory type: DDR4-2933 dual channel.
TDP: 45W.
Integrated graphics: yes, Intel UHD Graphics 630 350 — 1250 MHz.
Additional options: Hyper-Threading.

Specifications Intel Core i9-10900F

Number of cores: 10.
Number of threads: 20.
Rated frequency: 2800 MHz.
Frequency Turbo Boost : 5200 MHz.
L3 cache ( L 3): 20 MB.
Supported memory type: DDR4-2933 dual channel.
Heat pack ( TDP ): 65W.
Integrated graphics: no.
Additional options: Hyper-Threading, PCI Express 3.0 (16 lanes).

Specifications Intel Core i7-10750H

Number of cores: 6.
Number of threads: 12.
Rated frequency: 2600 MHz.
Turbo frequency: 5000 MHz.
L3 cache ( L 3): 12 MB.
Supported memory type: DDR4-2933 dual channel.
Heat pack ( TDP ): 45W.
Integrated graphics: yes, Intel UHD Graphics 630, 350 — 1150 MHz.
Additional options: Hyper-Threading, PCI Express 3.0 (16 lanes).

Specifications Intel Core i5-10400F

Number of cores: 6.
Number of threads: 12.
Rated frequency: 2900 MHz.
Turbo frequency: 4300 MHz.
L3 cache ( L 3): 12 MB.
Supported memory type: DDR4-2666 dual channel.
Heat pack ( TDP ): 65W.
Integrated graphics: no.
Additional options: Hyper-Threading, PCI Express 3.0 (16 lanes).

As you can see, Apple does not disclose the detailed specifications of new items. Unlike the same Intel. This is standard behavior for Cupertinos. They believe that users do not need dry numbers. Much more important is what the processor is capable of. And it’s hard to disagree with them. If Intel has everything on the surface, then Apple has all the charm in the little things. Therefore, it will be necessary to consider in more detail some of the features of the chips.

Performance in applications

So, Intel with its 16 threads shows pretty good results in applications that require multithreading. Almost everything opens quickly. But this processor largely depends on the RAM installed in the computer. Only a bunch of CPU-RAM affects the speed of work in applications. If the RAM is not powerful enough, then there is no need to talk about any speed. The processor simply will not be able to demonstrate all that it is capable of.

Intel Core i9-10900F has 10 cores and 20 threads. Therefore, its performance in multitasking processes is quite high. However, there is no integrated graphics, so it will not be possible to fully compare it with the CPU from Apple. The i7-10750H processor also lacks an integrated graphics core, but this does not prevent it from showing good results in synthetic tests (Geekbench). However, even these desktop gems can’t match the performance of Apple’s latest CPUs.

High-performance Performance-core or «P-core» cores are optimized for high performance in single-threaded or low-threaded mode, and its power-efficient Efficient-core or «E-core» cores are optimized for scaling multi-threaded workloads. Therefore, in almost all applications, the Intel Core i9-12900KF shows impressive results, although it does not even come close to the M1 Ultra in terms of performance.

A12 Bionic shows no less interesting results than Intel. Even though the processor is mobile. An important role is played by the support of high-performance and energy-efficient type of LPDDR4X RAM. In tests, the A12 shows impressive results. It feels like applications launch and run faster than even on Intel. But still, this chip cannot be compared with the M1. After all, M1 has its own RAM and 8 cores (against 6 for A12).

M1 is a little different. The fact is that it has its own DRAM RAM. And its volume can reach 16 GB. Moreover, this solution provides much more RAM bandwidth. Therefore, with applications, the M1 is faster than Intel (even with good RAM). The advantage of the M1 is that the RAM and the processor are combined into one ecosystem and work synchronously. Therefore, in terms of working with applications, the results will always be higher.

M1 Pro and M1 Max are much more powerful than even the classic M1. This is achieved through the presence of 10 high-performance cores in the processor part and a unique system of communication with RAM, which is an integral part of the SoC. M1 Ultra in applications shows unsurpassed results. After all, in fact, in terms of architecture, these are two M1s connected by a special bridge. Therefore, the CPU is larger than all other solutions from Apple. The processor effortlessly copes with tasks of any complexity: even rendering and encoding 8K video in the appropriate editor is not a problem. 20 cores are the best suited for multi-threaded tasks. The integrated GPU with 64 cores is also great for video rendering.

M1 Ultra excels in applications. After all, in fact, in terms of architecture, these are two M1 Macs connected by a special bridge. Therefore, the CPU is larger than all other solutions from Apple. The processor effortlessly copes with tasks of any complexity: even rendering and encoding 8K video in the appropriate editor is not a problem. 20 cores are the best suited for multi-threaded tasks. The integrated GPU with 64 cores is also great for video rendering.

According to the Cupertino engineers, the speed gain compared to M1 and M2 is significant. With the same power consumption, the M2 outperforms the M1 by 18% in terms of CPU and 25% in terms of GPU. If you use full power, the increase is 35%. The Neural Engine module has also been upgraded: neural network calculations are performed 40% faster. However, this processor cannot be compared with the Pro, Max and Ultra models. But there is every chance to assume that Apple will release the appropriate modifications for the M2 in the very near future. The Apple M2 supports up to 24GB of LPDDR5 RAM, while the M1 is limited to 16GB. The difference is noticeable when multitasking and running processes that require RAM. Another M2 feature is a dedicated block responsible for encoding video according to H.264, HEVC, ProRes and ProRes RAW standards. It significantly speeds up the editing and processing of videos in these popular codecs.

Geekbench 5 Benchmark Chart for 2020-2022 Apple M2, M1, M1 Pro, M1 Max, M1 Ultra, and Intel i5, i7, i9 processors ). The higher the score, the better, a doubling of the score indicates a doubling of performance.

The table shows Apple iMac, Mac and MacBook computers from 2020-2022, the older ones are no longer available, so it makes no sense to compare older models.

The Apple M2 scores 1896 in the single-core test and 8928 in the multi-core test. M1 results are 1719 and 7474 respectively. In the Metal graphics benchmark, the new chip shows a 50 percent advantage over the M1: 30,627 points versus 20,400. Apple also reports that the M2 is 40% faster when working with RAW images in Affinity Photo.

In all respects, fresh Apple chips installed in MacBook Pro 13″ M2 and MacBook Air M2 2022 leave all competitors far behind. Just because of the unique architecture.

Performance in games

Here, too, everything is ambiguous. On the one hand, the Intel Core i9 is designed for gaming in some way. In conjunction with a good video card and good RAM, he is able to pull everything. But the integrated graphics subsystem is not particularly powerful. And we will compare processors based on these parameters (after all, M1 does not yet support discrete graphics). Therefore, on the integrated graphics core, the CPU shows rather average results.

The Intel Core i9 10900F, i7-10750H and i5-10400F are designed specifically to work with discrete graphics cards. And this means that in games they show incredible performance. These processors are able to unleash the full potential of modern video cards, which significantly affects the performance in games. But only on a Windows PC.

12th Gen Intel Core desktop processors have up to 20 lanes (16 PCIe 5.0 lanes and 4 PCIe 4.0 lanes) to optimize discrete graphics and storage performance by providing higher bandwidth connection points. Therefore, if all other components of the system match the processor, the machine will easily pull all current AAA releases. Noticed that Intel Core i9-12900KF performs better than direct competitors in games. Therefore, it is recognized as the best gaming stone.

Apple A12Z Bionic can only demonstrate its capabilities in the mobile segment. And they are really impressive. There is no toy in the App Store that can get the most out of this processor. The integrated graphics core effortlessly copes even with modern AAA releases at maximum graphics settings. In the case of particularly complex tasks, the Neural Engine block is connected.

But the Apple M1 has a fairly powerful graphics subsystem on an 8-core chip. Therefore, the toys are doing very well. And despite the fact that the Mac is not physically designed for games. This alone speaks volumes. Good results are observed in such games as World of Warcraft, World of Tanks, Among Us, Uncharted and so on. But you need to use only native games. If you run the toy through Wine, you will not be able to achieve such performance.

The M2, M1 Pro and M1 Max are not made for gaming. They are intended primarily for time-consuming graphics and video rendering processes. Even the presence of a high-performance graphics accelerator in the processor (32 cores in the Max version) does not save the situation in toys. Due to the non-standard architecture, the processor and graphics adapter do not have the characteristics that are needed to run top games. And macOS is not conducive to gaming.

This is where Apple products are traditionally inferior to Intel, because these processors are not designed for games. However, in native Mac games, the M1 Ultra performs well, even if the game is very demanding on hardware. Of course, if you play purely Windows toys using Wine or another pad, the performance will drop, but comfortable gaming is still possible if, of course, the game is launched with such an exclusive processor. So far, no one has tested Windows games for compatibility with the M1 Ultra.

Gaming is the only area where Apple processors lose out to Intel products.

Heat dissipation and cooling

Everyone has long known that the Intel Core i9 is a hell of a thing. If you use it to the fullest, you will need to take care of a powerful cooling system consisting of several coolers. Moreover, the manufacturer recommends using liquid cooling with the processor. The temperature of the processor under load can easily step over 90 degrees. And this is not the limit. Therefore, in small cases, you need to use the CPU carefully.

Intel Core i9-10900F, i7-10750H and i5-10400F generate quite a lot of heat. For their normal cooling, a good tower is required. That is why such hot processors are not installed in laptops. And if you overclock, then the temperature can even go off scale. However, for desktop processors (which include the models under consideration), this is quite normal.

For Intel Core i9-12900KF requires powerful cooling (and preferably water), since its estimated TDP is 241 watts. But even this figure is abstract, as this figure can easily increase under load. Experts recognize this processor as one of the hottest: in this regard, it outperformed even AMD’s top-end Ryzen. Therefore, to use this stone, you must first decide on the cooling system. A classic cooler for such a heat pack will be too noisy, therefore, you need to use a CBO.

The Apple A12Z Bionic has low heat dissipation. It doesn’t even require cooling as such. And in the limited case of a mobile device, there would simply be nowhere to install it. The heat dissipation package for this chip is at around 6 watts. In this regard, the chip surpasses even the M1. But it is worth considering that the latter is intended not only for smartphones and tablets, but also for computers.

Apple M1 features extremely low heat generation. The amount of heat generated is so small that the MacBook Air, for example, does not even install a cooler. Cooling (even under load) is easily handled by a conventional radiator. Coolers are installed only in older models of MacBook Pro and Mac Mini. And this is only because these devices have a specific case that is not capable of passively cooling the filling.

The new 2021 iMacs have the Apple M1 processor. It is so cold that the engineers managed to install a very small cooling system. This made it possible to significantly reduce the thickness of the monoblocks. Even a cooling system of this size is able to cope with the cooling of the chip. Apparently, this is why they decided to install the M1 in the new iMacs. This only brought benefits, because now the monoblocks began to look more modern and significantly increased in terms of performance.

Apple M1 Pro and M1 Max turned out to be quite cold. So much so that the new 2021 MacBook Pros have a rather weak cooling system (albeit equipped with 2 turbo fans). Weak heating of the crystal makes it possible to run resource-intensive processes without a drop in performance. In laptops designed for professionals, this plays almost the most important role.

The Apple M1 Ultra only gets very hot when performing very demanding tasks. However, the power reserve of the processor is such that it is extremely problematic to load it to the fullest. Therefore, in most cases it is quite cold. However, Mac Studio (the first nettop on the M1 Ultra) installed a couple of powerful turbo coolers just in case. After all, this Mac will be used for the most complex professional tasks. However, even with complex tasks, M1 Ultra can be called the coldest processor in the world.

The TDP of the new M2 barely reaches 15 W: it’s slightly more than the classic M1, but much less than all modifications of last year’s processor (starting with Pro). This suggests that the new processor is much colder than the previous generation models. The M2 is so cold that the new 2022 MacBook Air decided to do without fans in the cooling system. In everyday tasks, the absence of fans is not noticeable in any way, but if you run any resource-intensive process (for example, a stress test or many hours of video encoding), then the lack of cooling will affect — the processor will start to slow down. However, with the capacities of the M2, the drop in performance will not be noticeable at all.

Again, Apple’s processors perform much better than their closest competitors.

Impact on autonomy

Since we are looking at mobile processors, autonomy is one of the most important aspects. Powering the Intel Core i9 requires quite a bit of power. This is due to the fact that the processor is made using a somewhat outdated process technology. Therefore, its power consumption is higher than necessary. Naturally, the battery is consumed faster. An example is the previous generation MacBook Pro. It had just a Core i9 installed.. And the laptop barely lived 12 hours with only one browser turned on.

In the case of Intel Core i9-10900F, i7-10750H and i5-10400F, autonomy is bad. These stones were designed for use in desktops that are permanently connected to the mains. Therefore, no one thought about saving energy; a lot of energy is required to power them: from 45 to 65 watts. This TDP is normal for desktop PCs, but it is impossible to imagine the same performance in mobile PCs.

Intel Core i9-12900KF is a desktop stone, so when designing it, we did not think about autonomy. The processor consumes a huge amount of energy, which is noticeable even when working with a classic electrical network. In terms of autonomy, the Intel Core i9-12900KF processor is not the best choice.

Since the Apple A12Z Bionic is a mobile processor, it is the best in terms of impact on the autonomy of the gadget. Bypasses even M1. After all, it is important for smartphones and tablets to work as long as possible on a single battery charge. Therefore, engineers have tried to maximize the energy efficiency of the Apple A12Z Bionic. When using it, iPads live for about 10 hours. Regardless of the degree of load. Therefore, it is likely that the iPhone M1 will not appear soon.

Apple M1 is made using 5 nm process technology. This allowed to significantly reduce power consumption and increase productivity. And the numbers are impressive. For example, take the same MacBook Pro. But the current generation. Since the M1 was installed in it, its autonomy has increased to 20 hours. This is an absolute record among top-level laptops. And all this thanks to the new processor. Of course, macOS Big Sur also plays a role. But the previous generation Mac also had macOS installed. It didn’t help him much.

The new M1 Pro and M1 Max only have a positive effect on autonomy. It is thanks to them that it was possible to extend the life of the 14-inch MacBook Pro to 17 hours. And the 16-inch model is completely capable of showing an incredible result in 21 hours. Another significant feature of the new processor: when running on battery power does not drop. Therefore, the user can engage in serious tasks even without being connected to the mains.

The Apple M1 Ultra processor was created with an emphasis on mobile platforms (like laptops), so the manufacturer made sure that the processor had minimal impact on autonomy (as far as possible with its power). In addition, Apple cares about the environment, so the processor was designed to reduce harmful emissions into the environment.

In terms of autonomy, Apple processors have always been ahead of the rest. So it remained with the release of new CPUs.

Interface support

The processor from Intel is capable of working with USB 3.1 and USB 3.1 (Gen2) interfaces. At the moment, these are the most common interfaces in the classic PC segment. Dual-band Wi-Fi ac, Bluetooth 5.0, Gigabit Ethernet, and more are also supported. This is the standard set. But not for the top processor. The top is now completely different technologies. And their support in Core i9unfortunately not provided.

The Apple A12Z Bionic only supports interfaces that are specific to mobile devices. So it provides the highest data transfer speed for Lightning and USB Type-C. Also in the iPad Pro, this processor is capable of supporting data transfer via the Thunderbolt interface. Of course, in terms of interface support, this chip loses to products from Intel and the M1 chip.

Intel Core i9-10900HK, i7-10750H, i5-10400F support USB 3.1, 3.0, 2.0, Wi-Fi 5 and Bluetooth 5.0 wireless adapters. 16-lane PCI Express 3.0 interface is also supported (only used in PC). Naturally, support for such interfaces would be of little use in a laptop.

The Intel Core i9 chipset finally gets 12 native PCI Express 4.0 lanes, as well as up to 16 PCI Express 3.0 lanes. An accelerated DMI 4.0 x8 channel is now used to communicate with the processor. The new PCH also integrates the logical part of the Wi-Fi 6E controller, but for a full implementation, physical binding with the corresponding CNVi module is required. The pool of USB 3.2 Gen 2×2 connectors can be expanded up to four ports with a throughput of up to 20 Gb / s. The implementation of support for a cable network connection using the Ethernet 2.5G protocol has been simplified.

But the M1 is full of openwork in this regard. The processor can work with USB 4, Thunderbolt and DisplayPort interfaces of the latest generation. There is support for the latest Wi-Fi 6 transmitter of the ah standard, as well as ports with data transfer rates up to 40 Gb / s. This is truly a real breakthrough. Support for such technologies has made Apple’s new processor the coolest in the world. But in ordinary PCs you can’t see it.

The use of the M1 processor in the new iMac 2021 allowed the introduction of support for the fourth generation Thunderbolt interface. It is characterized by an increased data transfer rate (up to 40 Gigabits per second). This has never happened before on the iMac. It is worth noting that Apple engineers have implemented support for the same interface in the updated version of the iPad Pro. And again, thanks to the installation of the Apple M1 chip.

M1 Ultra, M1 Pro and M1 Max support all modern interfaces. These include Thunderbolt 4, USB 3.2, 3.1, 3.0 and so on. The processor can work with Wi-Fi 6 (ax) and Bluetooth 5. 2 wireless adapters. That is why there are no compatibility problems. As with connecting to laptops on these processors of modern devices. It is also worth noting that with this processor, the speed of the same Thunderbolt 4 interface increases significantly. The same applies to other interfaces (including rare ones).

Definitely in terms of interface support, the new chips from Apple will give odds to all other processors.

Additional options

Intel has one interesting feature — Hyper-Threading technology. It allows the processor to use RAM more efficiently and speed up its work. Features such as Intel Volume Management Device (VMD), Intel Control-Flow Enforcement, Intel VT-x with Extended Page Tables (EPT), Intel Boot Guard, Intel Virtualization Technology (VT-x), Intel Standard Manageability ( ISM), Intel Speed Shift and so on. Thanks to this Intel Core i9-12900KF fits the bill. The

Intel Core i9-12900KF supports useful features such as Intel Volume Management Device (VMD), Intel Control-Flow Enforcement, Intel VT-x with Extended Page Tables (EPT). These are only the main functions of the CPU, there are many more in the list on the official website. And yet, in terms of performance, it is still far from the V1 Ultra, since all of the listed options are good for gaming and virtualization.

Apple A12Z Bionic has a special machine learning Neural Engine. It allows you to process complex tasks faster and, in some cases, anticipates possible user actions. Also, this block is activated when working with cameras in the iPhone and iPad. Hence the artificial intelligence during the shooting. The block operates at a fairly high speed. But it cannot be compared with the same block in M1. Probably because it has a much smaller number of working cores.

M1 also has a special machine learning unit called the Neural Engine. It is responsible for mathematical calculations and has 16 cores. In addition, the block is responsible for the operation of artificial intelligence, and it is thanks to it that a very remarkable MacOS option works, which allows you to predict future user actions. Another very useful thing is Secure Eclave. In fact, it is a password manager at the hardware level. This is where biometric data, passwords and face scan results are stored. The vault is securely protected by hardware encryption.

Another very useful thing is Secure Eclave. In fact, it is a password manager at the hardware level. This is where biometric data, passwords and face scan results are stored. The vault is securely protected by hardware encryption. Therefore, it is almost impossible to hack it. And security holes in Intel processors are known to everyone. In this regard, the M1 looks more interesting again.

It is thanks to the installation of M1 in the new iMac of 2021 that it was possible to implement password storage and Touch ID on the all-in-one keyboard. Such a solution became possible just because of the presence of a hardware password storage in the chip itself (the same Secure Enclave). This implementation has taken iMac 2021 security and privacy to a whole new level. And again, thanks to the M1 chip.

The Apple M1 Ultra is capable of supporting up to 128 GB of RAM soldered onto the motherboard. In addition, the processor has a Neural Engine block with 16 cores, which is responsible for machine learning. Also, Apple’s new CPU is capable of supporting up to 64 GB of unified video memory for the integrated video chip. This makes it ideal for solving professional tasks of any level of complexity.

The M1 Pro and M1 Max have exactly the same list of additional options as the classic M1. Therefore, Apple processors can be considered the most advanced and secure.

Verdict

So, we have compared the top processors from Intel and Apple. What can be said about this? The Cupertino company managed to defeat the legendary blue brand on its own field with just one blow. The ultra-modern and innovative M1 processor tears almost all representatives of Intel Core to shreds in all directions. Not to mention the fresh M1 Pro and M1 Max, which are significantly faster than all the top-end CPUs from Intel and AMD.

In this regard, Apple has no competitors. And AMD, all the more, will not be able to compete with the company from Cupertino. So we have a new leader in the production of processors for laptops. Therefore, Apple produced 120,000 chips per month in the second half of 2020, and in 2021 the company produced 140,000 to 150,000 chips per month from the second to fourth quarter of the year. The number of M1 Pro and M1 Max chips produced remains in doubt, Apple will publish this information soon.

Apple M1 processors are already used in devices such as Apple IMAC 24 2021 , new Mac mini

0, iPad Pro , MacBook AIR LATE

0,

. But M1 Pro and Max can be found in MacBook Pro 2021 , M1 Pro with a display on 14 and 16 inch , and M1 Max was installed only in top MacBook 16 inch version , but custom 14″ version can be ordered with M1 Max . All future laptops will use these chips. It is likely that the updated iMac and iMac Pro will also be equipped with them. But it is still impossible to say anything about this for sure.

If you need a truly powerful processor to solve the most complex professional tasks, and in this regard you do not accept compromises, then your choice is definitely the Apple M1 Ultra. This CPU has incredible performance, supports all current interfaces and is good at almost any task (except for computer games).

M2 in its standard version is extremely good for laptops, as it has a moderate heat pack, unsurpassed performance and support for all modern standards and interfaces. We can safely say that this processor is the future. And soon Apple will transfer all its significant devices to this platform.

If your priority is gaming, then your choice is the latest Intel Core i9-12900KF with support for all the necessary functions. However, it is worth recalling that Macs were not created for games and it is not entirely correct to compare them. In general, the latest Intel Core is the best solution for a classic PC, and the M1 Ultra is the best solution for a Mac.

It remains only to wait a bit and see what processors Apple will introduce for its macbooks from the pro 14 and 15 line. It is also possible that a new leader in the desktop segment will appear M2 Pro, M2 Max, M2 Ultra. So far, Intel products are holding the lead there, and AMD is on the heels of it. But with the release of the new MacBook Pro 14 and 16, the balance of power could change dramatically. however, that is a completely different story. and we will tell it some other time.

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Comparison of laptop processors (AMD and Intel)

This article will compare laptop processors from two leading semiconductor manufacturers — Intel and AMD. The products of the first of them are equipped with an improved processor part and have a higher level of performance in this regard. In turn, AMD solutions boast a more productive graphics subsystem.

Niche division

Comparison of AMD and Intel laptop processors will be most optimally performed in three niches:

Budget-class processors (they are also the most affordable).

Mid-range CPUs that combine high performance with acceptable power efficiency.

Chips with the highest level of performance. In this case, speed, autonomy and energy efficiency fade into the background.

If in the first two cases AMD can provide a worthy alternative to Intel, then the premium segment has been dominated by the latter company for quite a long time. The only hope in this regard is new processor solutions based on the Zen architecture, which AMD should introduce next year.

Intel products for the entry level

Until recently, this niche from Intel was occupied by products of the Atom line. But now the situation has changed and entry-level laptops are now based on Celeron or Pentium processors. The most modest products of this class include only 2 cores, and the most advanced ones — 4. The following models are relevant for the 3rd quarter of 2016, which are shown in Table 1.

Table 1 — Actual CPU models from Intel for entry-level mobile PCs.

2

14

2

1,1-2,4

6

107

500

2.

Celeron N3450

4

1,1-2,2

500

3.

Pentium N4200

1,1-2, 5

161

505

There are essentially no fundamental differences between these CPU models. They are aimed at solving the most simple tasks and have a minimum level of performance. Also, this manufacturer of semiconductor solutions has a strong point in the processor part, but the integrated graphics subsystem is very weak. Another strength of these products is the high degree of energy efficiency and thus improved autonomy.

Intel’s mid-range solutions

Core i3 and Core i5 are Intel’s mid-range notebook processors. Comparison of their characteristics indicates that the first family is closer to entry-level solutions, and the second — under certain circumstances, can compete with the most productive chips from this company. Detailed specifications of the specified family of products are given in Table 2.

Table 2 — Parameters of processors from Intel for mid-level laptops.

No. p

Name of Model

The number of nuclei/

Logical flows, pcs

8

Kesh 3rd.

Frequency, GHC

Power, W

GRAPHICS

1.

I3 — 7100U 9000U 9000U 9000U 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u 9000u

111

2 / 4

14

3

2,4

15

620

2.

i5 — 7200U

3,1

3.

i5 — 754

4

3,2

7

615

The characteristics of the CPUs of this class are almost identical. The key difference is the improved energy saving of the 7U54. As a result, autonomy in this case will also be better. Otherwise, there are no significant differences between these processors. The price of all chips of this family is the same — $281.

Intel Premium Notebook Processors

Comparison of the latest generation of Intel notebook processors indicates that the i7 family of CPUs is among the highest performing solutions. Moreover, in architectural terms, they practically do not differ from middle-class products. Even the models of video cards in this case are the same. But a higher level of performance compared to mid-range processors is provided by higher clock frequencies and an increased size of volatile memory of the 3rd level. The main parameters of the chips of this family are shown in Table 3.

Table 3 — Main characteristics of i7 family CPUs.

No. P

Chip Name

Frequency range, GHC

3rd level of cache, MB

, $

HD Graphics Model

1.

i7 — 7500U

2,7-3,5

4

2 / 4

393

620

2.

i7 — 775

1.3-3.6

615

The difference between these two products is that the latter is more energy efficient, but the performance will eventually be slower.

AMD Entry-Level Mobile Processors

Comparison of mobile laptop processors from the two leading manufacturers of these products indicates that Intel, as noted earlier, has a better processor part, while AMD has an integrated graphics subsystem. If an improved video system is a priority in a new laptop, then it is better to pay attention to laptops from a second manufacturer. Specific chip models technical specifications are shown in Table 4.

Table 4 — The latest AMD processors for entry-level laptops.

146
114
R5

No. p

Name of Model

Frequency range, GHC

Kesh 2nd level, MB

Teplovaya Pacete, VT 9000 PART pcs

Integrated graphics

0003

2,0-2,2

1

10-15

2

R2

2.

6-9210

2.4-2.8

r4

3.

A9-9410
9000 3.5-2.9 9000 9000

Most of these chips have almost identical technical parameters. The key difference here is only in the frequency range and the model of the integrated built-in accelerator. It is based on these parameters that you need to make a choice. If you need maximum autonomy, then choose products with lower performance. If autonomy comes to the fore, then you will have to sacrifice dynamism for this.

AMD chips for organizing mid-level laptops

FX-9XXXP and A1X-9XXXP are AMD’s main notebook processors. Comparison of their characteristics with entry-level products indicates that they already have 4 computing units versus 2 that are available in entry-level products. Also, the built-in video card in this case can compete with entry-level discrete accelerators. But the weak processor part is the factor today, which significantly reduces the performance of laptops based on these chips. Therefore, you can look in their direction only when, at the minimum cost of a mobile computer, you need the fastest graphics subsystem. The main specifications of this CPU family are shown in Table 5. 9

2.

FX-9800P

2.7-3.6
9000 R7

-15

00 3.000 9000. 9000.2107 9000.2107 9000.214000 9000.210ET 9730 rub

2.8-3.5

R7

25-45

4.

9000

R7

12-15

5.

10-9630

2,6-3,3

R5

25-45

6 .

A10-9600R

2.4-3.3

R5

11108

-15
28

Recommended model of laptops for each segment of the segment is the most complex. for laptops in the entry-level product segment. On the one hand, Intel solutions in this case have a lower cost and an improved processor part.

In turn, AMD offers mobile PCs with an improved graphics subsystem. It is based on the last parameter that it is recommended to buy when choosing an entry-level laptop Pavilion 15-AW006UR from HP. Other things being equal, with competing solutions, the video card in this case will have a certain performance margin, and the processor does not lose much to the CPU from Intel. As a mid-level mobile PC, it is recommended to choose the Aspire E5 — 774 — 50SY from Acer. It has an i5 — 7200U chip installed, which is only slightly inferior to the flagship products. Yes, and other technical specifications are at an acceptable level, as for a middle-class laptop. Comparison of laptop processors in the niche of the highest performance solutions indicated that it is best to purchase mobile computers based on 7th generation i7 chips. The most affordable, but at the same time very equipped version of the laptop, is the IdeaPad 510-15 IKB from Lenovo. It is he who is recommended to buy when choosing the most productive mobile PC. At the same time, the price is quite democratic for such a class of devices, and the equipment is excellent.

Results

Comparison of processors for laptops of two leading chip manufacturers today clearly and clearly indicates that the leading positions in most cases are occupied by products from Intel. AMD, in turn, is significantly behind its direct competitor. The only market segment where parity is still maintained is entry-level mobile products, where AMD has a worthy alternative. In all other cases, it would be more correct to purchase laptops based on the CPU from Intel. The current situation can be drastically changed by the release of processors based on the Zen architecture in 2017. But whether AMD can do it, time will tell. Now, in the niche of mid-range and premium mobile PCs, it is most correct to rely on solutions from Intel. Although they are somewhat overpriced, the level of performance more than compensates for this shortcoming.

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