Intel core 2 duo p7350 v pentium n4200: Intel Core2 Duo P7350 vs Pentium N4200

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Intel Pentium N4200 vs Intel Core 2 Duo P7350

Intel Pentium N4200 vs Intel Core 2 Duo P7350

Comparison of the technical characteristics between the processors, with the Intel Pentium N4200 on one side and the Intel Core 2 Duo P7350 on the other side. The first is dedicated to the entry-level notebook sector, It has 4 cores, 4 threads, a maximum frequency of 2,5GHz. The second is used on the mid-range laptop segment, it has a total of 2 cores, 2 threads, its turbo frequency is set to 2,0 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.

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Specifications:

Processor		Intel Pentium N4200				Intel Core 2 Duo P7350
Market (main)		Entry-level notebook				Mid-range laptop
ISA		x86-64 (64 bit)				x86-64 (64 bit)
Microarchitecture		Goldmont				Penryn
Core name		Apollo Lake				Penryn-3M
Family		Pentium 4000				Core 2 Duo 7000
Part number(s), S-Spec		FH8066802979703, SR2Y9, SR2Z5				AW80576GH0413M, AW80577SH0413M, QJUS, SLB53, SLGF6
Release date		Q3 2016				Q3 2008
Lithography		14 nm				45 nm
Transistors		—				410. 000.000
Cores		4				2
Threads		4				2
Base frequency		1,1 GHz				2,0 GHz
Turbo frequency		2,5 GHz				—
Cache memory		2 MB				3 MB
Max memory capacity		8 GB				8 GB
Memory types		DDR4/LPDDR4				DDR2-800
Max PCIe lanes		6				16
TDP		6 W				25 W
GPU integrated graphics		Intel HD Graphics 505				None
GPU execution units		18				—
GPU shading units		144				—
GPU base clock		200 MHz				—
GPU boost clock		750 MHz				—
GPU FP32 floating point		230,4 GFLOPS				—
Socket		BGA1296				PGA478, BGA479
Maximum temperature		105°C				90°C
Security		—				Execute Disable Bit
CPU-Z single thread		171				126
CPU-Z multi thread		713				227
Cinebench R15 single thread		50				68
Cinebench R15 multi-thread		160				130
Cinebench R20 single thread		110				101
Cinebench R20 multi-thread		370				188
PassMark single thread		840				766
PassMark CPU Mark		2. 133				713
(Windows 64-bit) Geekbench 4 single core		1.498				1.264
(Windows 64-bit) Geekbench 4 multi-core		4.160				2.064
(Windows) Geekbench 5 single core		327				257
(Windows) Geekbench 5 multi-core		1.034				447
(SGEMM) GFLOPS performance		32,8 GFLOPS				20,5 GFLOPS
(Multi-core / watt performance) Performance / watt ratio		693 pts / W				83 pts / W
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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.

The processor Intel Pentium N4200 has more cores, the maximum frequency of Intel Pentium N4200 is greater, that the PDT of Intel Pentium N4200 is lower. The Intel Pentium N4200 was designed earlier.

Performances :

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

In single core, the difference is 36%. In multi-core, the differential gap is 214%.

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.

In single core, the difference is -26%. In multi-core, the differential gap is 23%.

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.

In single core, the difference is 9%. In multi-core, the differential gap is 97%.

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.

In single core, the difference is 10%. In multi-core, the differential gap is 199%.

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:

In single core, the difference is 19%. In multi-core, the differential gap is 102%.

On Linux 64-bit:

	Geekbench 4 — Multi-core & single core score — Linux 64-bit
Intel Pentium N4200	1. 505 3.880
Intel Core 2 Duo P7350	1.380 2.137

In single core, the difference is 9%. In multi-core, the differential gap is 82%.

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 Pentium N4200	327 1. 034
Intel Core 2 Duo P7350	257 447

In single core, the difference is 27%. In multi-core, the differential gap is 131%.

On Linux:

In single core, the difference is 23%. In multi-core, the differential gap is 156%.

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:

Intel Pentium N4200 AMD equivalentIntel Core 2 Duo P7350 AMD equivalent

0050

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

Speed ​​in office use

Pentium N3540

33.1

Core2 Duo P7570

35.6 (+7%)

Performance in everyday work such as browsers and office programs.

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

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

Speed ​​in heavy applications

Pentium N3540

17 (+7.6%)

Core2 Duo P7570

15. 7

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

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

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

Speed ​​of numerical operations

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

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

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

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

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

Benchmarks

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

Passmark

Intel Pentium N3540

1210 (+38.3%)

Intel Core2 Duo P7570

747

Specifications

Basic

Manufacturer	Intel	Intel
DescriptionInformation about the processor, taken from the official website of the manufacturer.	Intel® Pentium® Processor N3540 (2M Cache, up to 2.66 GHz)	Intel® Core™2 Duo Processor P7570 (3M Cache, 2.26 GHz, 1066 MHz FSB)
ArchitectureCode name for the microarchitecture generation.	Bay Trail	Penryn
Process The manufacturing process, measured in nanometers. The smaller the technical process, the more perfect the technology, the lower the heat dissipation and power consumption.	22 nm	45 nm
Date of Issue The month and year the processor was released.	11-2017	11-2016
Model Official name.	N3540	P7570
Cores The number of physical cores.	4	2
ThreadsNumber of threads. The number of logical processor cores that the operating system sees.	4	2
Multi-Threading Technology With Intel’s Hyper-threading and AMD’s SMT technology, one physical core is recognized as two logical cores in the operating system, thereby increasing processor performance in multi-threaded applications.	Missing	Missing
Base frequencyGuaranteed frequency of all processor cores at maximum load. Performance in single-threaded and multi-threaded applications and games depends on it. It is important to remember that speed and frequency are not directly related. For example, a new processor at a lower frequency may be faster than an old one at a higher one.	2.16 GHz	2.26 GHz
Turbo frequency The maximum frequency of one processor core in turbo mode. Manufacturers allow modern processors to independently increase the frequency of one or more cores under heavy load, due to which performance is noticeably increased. It may depend on the nature of the load, the number of loaded cores, temperature and the specified limits. Significantly affects the speed in games and applications that are demanding on the frequency of the CPU.	2.65 GHz	2.25 GHz
L3 cache size The third level cache acts as a buffer between the computer’s RAM and the processor’s level 2 cache. Used by all cores, the speed of information processing depends on the volume.	2 MB	3 MB
Instructions	64-bit	64-bit
Extended instruction set Allows you to speed up calculations, processing and execution of certain operations. Also, some games require instruction support.
Embedded Options Available Two enclosure versions. Standard and designed for mobile devices. In the second version, the processor can be soldered on the motherboard.	No	No
Bus frequency The speed of communication with the system.		1066 MHz FSB
Number of QPI links
TDPThermal Design Power is an indicator that determines heat dissipation in standard operation. The cooler or water cooling system must be rated for a larger value. Remember that with a factory bus or manual overclocking, TDP increases significantly.	7. 5 W	25 W
Cooling system specifications

Video core

Integrated graphics core Allows you to use your computer without a discrete graphics card. The monitor is connected to the video output on the motherboard. If earlier integrated graphics made it possible to simply work at a computer, today it can replace budget video accelerators and makes it possible to play most games at low settings.	Intel® HD Graphics
GPU base clockFrequency in 2D and idle.	313	No data
Maximum GPU FrequencyMaximum 3D frequency.	896	No data
Intel® Wireless Display (Intel® WiDi) Supports Wireless Display technology using the Wi-Fi 802. 11n standard. Thanks to it, a monitor or TV equipped with the same technology does not require a cable to connect.	No data
Supported monitorsThe maximum number of monitors that can be connected to the integrated video core at the same time.	2

RAM

Maximum RAM Amount of RAM that can be installed on the motherboard with this processor.	8	No data
Supported type of RAM The type of RAM depends on its frequency and timings (speed), availability, price.	DDR3L 1333
RAM Channels The multi-channel memory architecture increases data transfer speed. On desktop platforms, two-channel, three-channel and four-channel modes are available.	2
Memory bandwidth	21.32GB/s
ECC memory Support for error-correcting memory that is used in servers. Usually more expensive than usual and requires more expensive server components. However, second-hand server processors, Chinese motherboards and ECC memory sticks, which are sold relatively cheaply in China, have become widespread.	No data	No data

PCI

Data Protection

AES-NI The AES command set extension speeds up applications that use appropriate encryption.	No data	No data
Intel® Secure Key An RDRAND instruction that allows you to create a high performance random number generator.	No data	No data

Decoration

Which is better

Intel Pentium N3540

• On average, gaming performance is 1% better.
• In complex multi-threaded applications, faster and 1% better.
• The number of physical cores is 2 more.
• The number of threads is 2 more.

Intel Core2 Duo P7570

• The speed of work in office applications and browsers is 3% faster.
• The base frequency is 0.1 GHz higher.

What are the similarities

• Prices for new processors are approximately equal.

Intel Pentium N4200 — 85 secret facts, review, specifications, reviews.

Top specifications and features

• PassMark CPU score
• Cinebench score21.5 (single)
• Heat dissipation (TDP)
• Processor RAM
• Technological process

PassMark CPU score

Intel Pentium N4200:
2262
Best score:
89379

Test results for

Intel Pentium N4200:
18367
Best score:

Technologies

Intel Pentium N4200:
3000
Best score:

Performance

Intel Pentium N4200:
2628
Best score:

Memory specification

Intel Pentium N4200:
1393
Best score:

Description

The Intel Pentium N4200 processor runs at 1. 1 Hz. 4 cores available. Power consumption at peak times can reach 6 watts.

The maximum number of threads that Intel Pentium N4200 can work with is 4.

Intel Pentium N4200 works on 14 nm architecture.

Regarding the memory specification. The Intel Pentium N4200 processor supports DDR4. The frequency of RAM is 2400. The maximum supported volume is 8 MB. Number of memory channels supported 2.

If we talk about the integrated graphics of the Intel Pentium N4200, then the Intel HD Graphics 505 core is installed here. The base frequency of the graphics system is 200 MHz.

Now about the Intel Pentium N4200 tests. According to PassMark, the processor scored 2262 of the possible points. Based on the analysis of more than 4000 processors, Intel Pentium N4200 took 1235th place in the ranking of the best.

Why Intel Pentium N4200 is better than others

• Thermal Dissipation (TDP) 6 W. This parameter is lower than 97%
• Technological process 14 nm. This parameter is lower than 89%

• PassMark CPU 2262 score. This parameter is lower than 31%
• Cinebench score21.5 (single) 2 . This parameter is lower than that of 11%
• Processor RAM 8 GB. This parameter is lower than 9%
• Number of cores 4 . This parameter is lower than 55%
• Number of threads 4 . This setting is lower than 64%
• L2 cache size 2 MB. This parameter is lower than that of 33%

Review Intel Pentium N4200

Test results

Technology

Performance

Memory specification

Interfaces and communications

Main characteristics

Intel Pentium N4200 Review: Highlights

PassMark CPU score

The PassMark benchmark considers read speed, write speed, and seek time when testing SSD performance.
Show all

2262

max 89379

Average: 6033. 5

89379

Cinebench21.5 score (single)

A benchmark that measures processor performance using a thread of execution.

2

max 51

Average: 5.6

51

3DMark06 test score

2757

max 18628

Average: 3892.6

18628

Test score Cinebench R11.5 /64bit (Multi-Core)

2.0328

max 45.3622

Average: 5.3

45.3622

Cinebench R15 test score (Multi-Core)

168

max 4614

Average: 638.4

4614

Cinebench R15 test score (Single-Core)

56

max 276

Average: 128. 5

276

AES

Yes

Thermal Control Technologies

Yes

Intel Privacy Protection Technology

Yes

Function Execute override bit

Yes

Intel Trusted Execution Technology

No

Anti-Theft Technology

No

Number of threads

The more threads, the higher the performance of the processor, and it will be able to perform several tasks at the same time.
Show all

four

max 256

Average: 10.7

256

L2 Cache Size

L2 cache with large scratchpad memory can increase processor speed and overall system performance.
Show all

2MB

max 512

Average: 4. 5 MB

512MB

Number of cores

four

max 72

Mean: 5.8

72

Processor base clock speed

1.1GHz

max 4.7

Average: 2.5 GHz

4.7GHz

Max. number of PCI Express lanes

6

max 64

Average: 22.7

64

PCI Express Configurations

1×4 + 1×2 or 4×1 or 2×1+1×2 + 1×2

Idle States

Yes

Graphics

Intel HD Graphics 505

Number of PCI-Express lanes

6

Max. number of processors in the configuration

one

Mean: 1. 3

8

DDR version

four

Mean: 3.5

5

Memory frequency

The RAM can be faster to improve system performance.
Show all

2400MHz

max 4800

Average: 2106.2 MHz

4800MHz

Max. number of memory channels

The greater their number, the higher the data transfer rate from memory to processor

2

max 16

Mean: 2.9

16

Max. memory size

The largest amount of RAM memory.

8GB

max 6000

Average: 404. 4 GB

6000GB

Memory support ECC

Memory debugging code is used when it is necessary to avoid data corruption during scientific computing or server startup. It finds possible errors and repairs data corruption.
Show all

No

Processor RAM

8GB

max 128

Average: 34.8 GB

128GB

Number of USB ports

eight

max 14

Average: 5.5

14

USB version

3

max 3.2

Mean: 2.9

3.2

Total number of SATA ports

2

max 16

Mean: 4. 6

16

vPro

No

Enhanced SpeedStep (EIST)

Yes

OpenCL

0

max 4.6

Average: 4.1

4.6

Intel® AES-NI Commands

AES is required to speed up encryption and decryption.

Yes

Hyper-Threading Technology

Many Intel processors use state-of-the-art hyper-threading technology. Thus, each processor core works simultaneously on two threads, which significantly increases performance. Most processors work on the principle: one thread per core, therefore, their performance is lower.
Show all

No

socket

FCBGA1296

Thermal Monitoring

Yes

SIPP

No

Smart Response

No

TXT

No

EDB

Yes

Secure Key

Yes

MPX

Yes

Identity Protection

Yes

OS Guard

Yes

VT-d

Yes

VT-x

Yes

EPT

Yes

Quick Sync Video

Yes

Clear Video

Yes

Clear Video HD

Yes

InTru 3D

No

eDP

Yes

DisplayPort

Yes

HDMI

Yes

Process technology

The small size of the semiconductor means it is a new generation chip.

14 nm

Average: 36.8 nm

5nm

Thermal Dissipation (TDP)

Thermal Dissipation Requirements (TDP) is the maximum amount of energy that can be dissipated by the cooling system. The lower the TDP, the less power will be consumed.
Show all

6W

Average: 67.6 W

0.025W

PCI Express Revision

2

Mean: 2.9

5

Status

Launched

Release date

07/01/2016

Embedded options available

Yes

Case size

24mm x 31mm

Device ID

0x5A84

GPU base clock

The graphics processing unit (GPU) has a high clock speed.

200MHz

max 2400

Average: 535.8 MHz

2400MHz

Supports 64-bit system

A 64-bit system can support more than 4 GB of RAM, unlike a 32-bit system. This increases productivity. It also allows you to run 64-bit applications.
Show all

Yes

Maximum processor temperature

If the maximum temperature at which the processor operates is exceeded, a reset may occur.
Show all

105°C

max 110

Average value: 96 °C

110°C

Support for monitors

Multiple monitors can be connected to the device, which makes it easier to work by increasing the working space.
Show all

3

Mean: 2.