Pentium dual core e5200 vs core 2 duo: Intel Pentium E5200 @ 2.50GHz vs Intel Core2 Duo E8400 @ 3.00GHz [cpubenchmark.net] by PassMark Software

Intel Pentium E5200 vs Intel Core 2 Duo E8400








Intel Pentium E5200 vs Intel Core 2 Duo E8400

Comparison of the technical characteristics between the processors, with the Intel Pentium E5200 on one side and the Intel Core 2 Duo E8400 on the other side. The first is dedicated to the desktop sector, It has 2 cores, 2 threads, a maximum frequency of 2,5GHz. The second is used on the desktop segment, it has a total of 2 cores, 2 threads, its turbo frequency is set to 3,0 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.

Note: Commissions may be earned from the links above.

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Specifications:

Processor

Intel Pentium E5200

Intel Core 2 Duo E8400
Market (main)

Desktop

Desktop
ISA

x86-64 (64 bit)

x86-64 (64 bit)
Microarchitecture

Penryn

Penryn
Core name

Wolfdale-3M

Wolfdale
Family

Pentium 5000

Core 2 Duo 8000
Part number(s), S-Spec

BX80571E5200,

BXC80571E5200,

EU80571PG0602M,

EU80571PG0602M,

QFHQ, SLAY7, SLB9T

BX80570E8400,

BXC80570E8400,

BX80570E8400A,

AT80570PJ0806M,

EU80570PJ0806M,

SLB9J

Release date

Q3 2008

Q1 2008
Lithography

45 nm

45 nm
Transistors

228. 000.000

410.000.000
Cores

2

2
Threads

2

2
Base frequency

2,5 GHz

3,0 GHz
Turbo frequency


Cache memory

2 MB

6 MB
Max memory capacity

8 GB

8 GB
Memory types

DDR3-800

DDR2-800
Max PCIe lanes

16

16
TDP

65 W

65 W
Suggested PSU

600W ATX Power Supply

600W ATX Power Supply
GPU integrated graphics

None

None
Socket

LGA775

LGA775
Compatible motherboard

Socket LGA 775 Motherboard 

Socket LGA 775 Motherboard 
Maximum temperature

74. 1°C

72.4°C
CPU-Z single thread

204

258
CPU-Z multi thread

401

525
Cinebench R15 single thread

79

101
Cinebench R15 multi-thread

142

175
PassMark single thread

994

1.233
PassMark CPU Mark

832

1.151
(Windows 64-bit)
Geekbench 4 single core

1.529

1.831
(Windows 64-bit)
Geekbench 4 multi-core

2. 446

3.028
(SGEMM)
GFLOPS performance

26,24 GFLOPS

28,9 GFLOPS
(Multi-core / watt performance)
Performance / watt ratio

38 pts / W

47 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.

Suggested PSU: We assume that we have An ATX computer case, a high end graphics card, 16GB RAM, a 512GB SSD, a 1TB HDD hard drive, a Blu-Ray drive. We will have to rely on a more powerful power supply if we want to have several graphics cards, several monitors, more memory, etc.

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 2 Duo E8400 is bigger, that their respective TDP are of the same order. Both were produced in the same year.

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 2 Duo E8400

258

525
Intel Pentium E5200

204

401

In single core, the difference is 26%. In multi-core, the difference in terms of gap is 31%.

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 2 Duo E8400

101

175
Intel Pentium E5200

79

142

In single core, the difference is 28%. In multi-core, the difference in terms of gap is 23%.

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.





PassMark — CPU Mark & single thread
Intel Core 2 Duo E8400

1.233

1.151
Intel Pentium E5200

994

832

In single core, the difference is 24%. In multi-core, the difference in terms of gap is 38%.

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 2 Duo E8400

1.831

3.028
Intel Pentium E5200

1.529

2.446

In single core, the difference is 20%. In multi-core, the difference in terms of gap is 24%.

On Linux 64-bit:





Geekbench 4 — Multi-core & single core score — Linux 64-bit
Intel Core 2 Duo E8400

2.106

3.124
Intel Pentium E5200

1.589

2.406

In single core, the difference is 33%. In multi-core, the difference in terms of gap is 30%.

On Mac OS X 64-bit:





Geekbench 4 — Multi-core & single core score — Mac OS X 64-bit
Intel Core 2 Duo E8400

2.089

3.425
Intel Pentium E5200

1.595

2.533

In single core, the difference is 31%. In multi-core, the difference in terms of gap is 35%.

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.

Equivalence:

Intel Pentium E5200 AMD equivalentIntel Core 2 Duo E8400 AMD equivalent

Intel Pentium E5200 vs Intel Core 2 Duo E4400


Comparative analysis of Intel Pentium E5200 and Intel Core 2 Duo E4400 processors for all known characteristics in the following categories: Essentials, Performance, Memory, Compatibility, Security & Reliability, Advanced Technologies, Virtualization.
Benchmark processor performance analysis: PassMark — Single thread mark, PassMark — CPU mark, Geekbench 4 — Single Core, Geekbench 4 — Multi-Core, CompuBench 1.5 Desktop — Face Detection (mPixels/s), CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s), CompuBench 1.5 Desktop — T-Rex (Frames/s).

Intel Pentium E5200

Buy on Amazon


vs

Intel Core 2 Duo E4400

Buy on Amazon

 

Differences

Reasons to consider the Intel Pentium E5200

  • CPU is newer: launch date 1 year(s) 1 month(s) later
  • Around 25% higher clock speed: 2.5 GHz vs 2 GHz
  • A newer manufacturing process allows for a more powerful, yet cooler running processor: 45 nm vs 65 nm
  • 2x more L1 cache, more data can be stored in the L1 cache for quick access later
  • Around 32% better performance in PassMark — Single thread mark: 1005 vs 760
  • Around 33% better performance in PassMark — CPU mark: 867 vs 650
  • Around 16% better performance in Geekbench 4 — Single Core: 296 vs 255
  • Around 17% better performance in Geekbench 4 — Multi-Core: 514 vs 440









Launch date August 2008 vs July 2007
Maximum frequency 2. 5 GHz vs 2 GHz
Manufacturing process technology 45 nm vs 65 nm
L1 cache 64 KB (per core) vs 64 KB
PassMark — Single thread mark 1005 vs 760
PassMark — CPU mark 867 vs 650
Geekbench 4 — Single Core 296 vs 255
Geekbench 4 — Multi-Core 514 vs 440

Compare benchmarks


CPU 1: Intel Pentium E5200
CPU 2: Intel Core 2 Duo E4400





PassMark — Single thread mark

CPU 1
CPU 2


PassMark — CPU mark

CPU 1
CPU 2


Geekbench 4 — Single Core

CPU 1
CPU 2


Geekbench 4 — Multi-Core

CPU 1
CPU 2







Name Intel Pentium E5200 Intel Core 2 Duo E4400
PassMark — Single thread mark 1005 760
PassMark — CPU mark 867 650
Geekbench 4 — Single Core 296 255
Geekbench 4 — Multi-Core 514 440
CompuBench 1. 5 Desktop — Face Detection (mPixels/s) 0.277
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) 10.446
CompuBench 1.5 Desktop — T-Rex (Frames/s) 0.059

Compare specifications (specs)









































Intel Pentium E5200 Intel Core 2 Duo E4400
Architecture codename Wolfdale Conroe
Launch date August 2008 July 2007
Launch price (MSRP) $99
Place in performance rating 2527 2396
Price now $89. 95 $49.99
Processor Number E5200 E4400
Series Legacy Intel® Pentium® Processor Legacy Intel® Core™ Processors
Status Discontinued Discontinued
Value for money (0-100) 4.87 6.81
Vertical segment Desktop Desktop
64 bit support
Base frequency 2. 50 GHz 2.00 GHz
Bus Speed 800 MHz FSB 800 MHz FSB
Die size 82 mm2 111 mm2
L1 cache 64 KB (per core) 64 KB
L2 cache 2048 KB (shared) 2048 KB
Manufacturing process technology 45 nm 65 nm
Maximum core temperature 74.1°C L2=61.4°C, M0=73.3°C
Maximum frequency 2. 5 GHz 2 GHz
Number of cores 2 2
Transistor count 228 million 167 million
VID voltage range 0.8500V-1.3625V 0.8500V-1.5V
Supported memory types DDR1, DDR2, DDR3 DDR1, DDR2, DDR3
Low Halogen Options Available
Max number of CPUs in a configuration 1 1
Package Size 37. 5mm x 37.5mm 37.5mm x 37.5mm
Sockets supported LGA775 LGA775
Thermal Design Power (TDP) 65 Watt 65 Watt
Execute Disable Bit (EDB)
Intel® Trusted Execution technology (TXT)
Enhanced Intel SpeedStep® technology
FSB parity
Idle States
Intel 64
Intel® AES New Instructions
Intel® Demand Based Switching
Intel® Hyper-Threading technology
Intel® Turbo Boost technology
Thermal Monitoring
Intel® Virtualization Technology (VT-x)
Intel® Virtualization Technology for Directed I/O (VT-d)

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Comparison Intel Pentium E5200 vs Intel Core 2 Duo T9600 what is better?

Home / CPU / Intel Pentium E5200 vs Intel Core 2 Duo T9600

Intel Pentium E5200

1%

DeviceList score

vs

Intel Core 2 Duo T9600

11%

DeviceList score

We compared the characteristics of Intel Pentium E5200 and Intel Core 2 Duo T9600 and compiled a list of advantages and a comparison table for you. Find out which one to choose in 2022 year.

Intel Pentium E5200 benefits

Start price

99 USD

-217 USD (-68.7%) better

vs

316 USD

Maximum core temperature

74 °C

-31 °C (-29.5%) better

vs

105 °C

Intel Core 2 Duo T9600 benefits

Winner in comparison

Maximum frequency

2.8 GGz

0.3 GGz (12%) better

vs

2.5 GGz

Transistor count

410 million

182 million (79.8%) better

vs

228 million

Price-quality ratio

36. 8 %

25.9 % (237.6%) better

vs

10.9 %

TXT


vs


Power Consumption (TDP)

35 Wt

-30 Wt (-46.2%) better

vs

65 Wt

Passmark

1045

220 (26.7%) better

vs

825

























General information

Type

Architecture codename

Wolfdale Penryn

Number of cores

A large number of cores improves performance in multithreaded applications.
At the moment, increasing the number of processor cores is one of the priorities for increasing performance.

2 2

Number of threads

More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases).

2 2

Manufacturing process technology

45 nm 45 nm

Crystal size

82 2 107 2

Transistor count

228 million 410 million

182 million (79.8%) better

Maximum frequency

Processors with high clock speeds perform more calculations per second and thus provide better performance.

2.5 GGz 2.8 GGz

0.3 GGz (12%) better

64 bit support

Max number of CPUs in a configuration

1 no data

Socket

LGA775 BGA479, PGA478

Series

no data Intel Core 2 Duo

Start price

99 USD

-217 USD (-68.7%) better

316 USD

Price-quality ratio

The sum of all the advantages of the device divided by its price. The higher the%, the better the quality per unit price in comparison with all analogues.

10.9 % 36.8 %

25.9 % (237.6%) better

Bus

no data 1066

Maximum core temperature

74 °C

-31 °C (-29.5%) better

105 °C

TXT

Intel Trusted Execution Technology for hardware protection against malware. For each protected program, the processor allocates its own isolated section of RAM.

Demand Based Switching

FSB

L1 Cache

More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases).

64 ( ) no data

L2 Cache

2 () 6

Power Consumption (TDP)

The calculated heat output shows the average heat output in operation under load,
the larger the value — the more the requirements for cooling and energy consumption increase.

65 Wt 35 Wt

-30 Wt (-46.2%) better

EDB

+ +

Permissible core voltage

0.85V-1.3625V 1.05V-1.2125V





Benchmarks

Passmark

825 1045

220 (26. 7%) better

Cinebench 10 32-bit single-core

no data 3107

Cinebench 10 32-bit multi-core

no data 5801

3DMark06 CPU

no data 2517






Technologies and extensions

Turbo Boost

Idle States

Enhanced SpeedStep (EIST)

More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases).

Thermal Monitoring

Hyper-Threading

More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases).


RAM parameters

Supported memory types

DDR1, DDR2, DDR3 no data



Virtualization technologies

VT-x

VT-d

Intel’s virtualization technology allows devices on the PCI bus to be forwarded to the guest operating system so that it can work with them using its standard tools.

Graphics specifications

Core 2 Duo E6550 vs Pentium E5200 Review


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FX-9800PAMD FX-9830PAMD G-T16RAMD G-T24LAMD G-T30LAMD G-T40EAMD G-T40NAMD G-T40RAMD G-T44RAMD G-T48EAMD G-T48LAMD G-T48NAMD G-T52RAMD G-T56EAMD G-T56NAMD Mobile Athlon 64 2700+AMD Mobile Athlon 64 2800+AMD Mobile Athlon 64 3000+AMD Mobile Athlon 64 3200+AMD Mobile Athlon 64 3400+AMD Mobile Athlon 64 3700+AMD Mobile Athlon 64 4000+AMD Mobile Sempron 210UAMD Mobile Sempron 2600+AMD Mobile Sempron 2800+AMD Mobile Sempron 3000+AMD Mobile Sempron 3100+AMD Mobile Sempron 3200+AMD Mobile Sempron 3300+AMD Mobile Sempron 3400+AMD Mobile Sempron 3500+AMD Mobile Sempron 3600+AMD Mobile Sempron 3800+AMD Mobile Sempron M100AMD Mobile Sempron SI-40AMD Mobile Sempron SI-42AMD Opteron 140AMD Opteron 142AMD Opteron 144AMD Opteron 146AMD Opteron 148AMD Opteron 150AMD Opteron 152AMD Opteron 154AMD Opteron 246AMD Opteron 248AMD Opteron 250AMD Opteron 252AMD Opteron 254AMD Opteron 3280AMD Opteron 3320 EEAMD Opteron 3350 HEAMD Opteron 3380AMD Opteron 4332 HEAMD Opteron 4334AMD Opteron 4386AMD Opteron 6272AMD Opteron 6274AMD Opteron 6276AMD Opteron 6282 SEAMD Opteron 6320AMD Opteron 6328AMD Opteron 6344AMD Opteron 6366 HEAMD Opteron 6376AMD Opteron 6378AMD Opteron 6380AMD Opteron 6386 SEAMD PRO A12-9800BAMD PRO A8-9600BAMD Phenom II 42 TWKR Black EditionAMD Phenom II X2 511AMD Phenom II X2 521AMD Phenom II X2 545AMD Phenom II X2 550AMD Phenom II X2 550 BlackAMD Phenom II X2 555AMD Phenom II X2 555 BlackAMD Phenom II X2 560AMD Phenom II X2 560 BlackAMD Phenom II X2 565AMD Phenom II X2 565 BlackAMD Phenom II X2 B53AMD Phenom II X2 B55AMD Phenom II X2 B57AMD Phenom II X2 B59AMD Phenom II X2 N620AMD Phenom II X2 N640AMD Phenom II X2 X640 BEAMD Phenom II X3 700eAMD Phenom II X3 705eAMD Phenom II X3 710AMD Phenom II X3 715AMD Phenom II X3 715 BlackAMD Phenom II X3 720AMD Phenom II X3 720 BlackAMD Phenom II X3 740AMD Phenom II X3 740 BlackAMD Phenom II X3 B73AMD Phenom II X3 B75AMD Phenom II X3 B77AMD Phenom II X3 N830AMD Phenom II X3 N850AMD Phenom II X3 N870AMD Phenom II X3 P820AMD 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Z3775Intel Atom Z3775DIntel Atom Z3785Intel Atom Z3795Intel Atom Z510Intel Atom Z515Intel Atom Z520Intel Atom Z530Intel Atom Z540Intel Atom Z550Intel Atom Z670Intel Atom x5-E3930Intel Atom x5-E8000Intel Atom x5-Z8300Intel Atom x5-Z8330Intel Atom x5-Z8350Intel Atom x5-Z8500Intel Atom x5-Z8550Intel Atom x7-E3950Intel Atom x7-Z8700Intel Atom x7-Z8750Intel Celeron 1000MIntel Celeron 1005MIntel Celeron 1007UIntel Celeron 1017UIntel Celeron 1019YIntel Celeron 1020EIntel Celeron 1020MIntel Celeron 1037UIntel Celeron 1047UEIntel Celeron 2. 10Intel Celeron 2.20Intel Celeron 2.30Intel Celeron 2.40Intel Celeron 2.60Intel Celeron 2.70Intel Celeron 2.80Intel Celeron 220Intel Celeron 2950MIntel Celeron 2955UIntel Celeron 2957UIntel Celeron 2961YIntel Celeron 2970MIntel Celeron 2980UIntel Celeron 2981UIntel Celeron 3205UIntel Celeron 3215UIntel Celeron 3755UIntel Celeron 3765UIntel Celeron 3855UIntel Celeron 3865UIntel Celeron 3955UIntel Celeron 3965UIntel Celeron 3965YIntel Celeron 420Intel Celeron 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i5-4330MIntel Core i5-4340MIntel Core i5-4350UIntel Core i5-4360UIntel Core i5-4400EIntel Core i5-4402EIntel Core i5-4430Intel Core i5-4430SIntel Core i5-4440Intel Core i5-4440SIntel Core i5-4460Intel Core i5-4460SIntel Core i5-4460TIntel Core i5-450MIntel Core i5-4570Intel Core i5-4570RIntel Core i5-4570SIntel Core i5-4570TIntel Core i5-4570TEIntel Core i5-4590Intel Core i5-4590SIntel Core i5-4590TIntel Core i5-460MIntel Core i5-4670Intel Core i5-4670KIntel Core i5-4670RIntel Core i5-4670SIntel Core i5-4670TIntel Core i5-4690Intel Core i5-4690KIntel Core i5-4690SIntel Core i5-4690TIntel Core i5-470UMIntel Core i5-480MIntel Core i5-5200UIntel Core i5-520MIntel Core i5-520UMIntel Core i5-5250UIntel Core i5-5257UIntel Core i5-5287UIntel Core i5-5300UIntel Core i5-5350HIntel Core i5-5350UIntel Core i5-540MIntel Core i5-540UMIntel Core i5-5575RIntel Core i5-560MIntel Core i5-560UMIntel Core i5-5675CIntel Core i5-5675RIntel Core i5-580MIntel Core i5-6198DUIntel Core i5-6200UIntel Core 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i7-2617MIntel Core i7-2620MIntel Core i7-2630QMIntel Core i7-2635QMIntel Core i7-2637MIntel Core i7-2640MIntel Core i7-2655LEIntel Core i7-2657MIntel Core i7-2670QMIntel Core i7-2675QMIntel Core i7-2677MIntel Core i7-2700KIntel Core i7-2710QEIntel Core i7-2715QEIntel Core i7-2720QMIntel Core i7-2760QMIntel Core i7-2820QMIntel Core i7-2840QMIntel Core i7-2860QMIntel Core i7-2920XMIntel Core i7-2960XMIntel Core i7-3517UIntel Core i7-3517UEIntel Core i7-3520MIntel Core i7-3537UIntel Core i7-3540MIntel Core i7-3555LEIntel Core i7-3610QEIntel Core i7-3610QMIntel Core i7-3612QEIntel Core i7-3612QMIntel Core i7-3615QEIntel Core i7-3615QMIntel Core i7-3630QMIntel Core i7-3632QMIntel Core i7-3635QMIntel Core i7-3667UIntel Core i7-3687UIntel Core i7-3689YIntel Core i7-3720QMIntel Core i7-3740QMIntel Core i7-3770Intel Core i7-3770KIntel Core i7-3770SIntel Core i7-3770TIntel Core i7-3820Intel Core i7-3820QMIntel Core i7-3840QMIntel Core i7-3920XMIntel Core i7-3930KIntel Core i7-3940XMIntel Core 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Core i7-6870HQIntel Core i7-6900KIntel Core i7-6920HQIntel Core i7-6950XIntel Core i7-6970HQIntel Core i7-720QMIntel Core i7-740QMIntel Core i7-7500UIntel Core i7-7560UIntel Core i7-7567UIntel Core i7-7600UIntel Core i7-7660UIntel Core i7-7700Intel Core i7-7700HQIntel Core i7-7700KIntel Core i7-7700TIntel Core i7-7740XIntel Core i7-7800XIntel Core i7-7820EQIntel Core i7-7820HKIntel Core i7-7820HQIntel Core i7-7820XIntel Core i7-7920HQIntel Core i7-7Y75Intel Core i7-8086KIntel Core i7-820QMIntel Core i7-840QMIntel Core i7-8500YIntel Core i7-8550UIntel Core i7-8557UIntel Core i7-8559UIntel Core i7-8565UIntel Core i7-8569UIntel Core i7-860Intel Core i7-860SIntel Core i7-8650UIntel Core i7-8665UIntel Core i7-870Intel Core i7-8700Intel Core i7-8700BIntel Core i7-8700KIntel Core i7-8700TIntel Core i7-8705GIntel Core i7-8706GIntel Core i7-8709GIntel Core i7-870SIntel Core i7-8750HIntel Core i7-875KIntel Core i7-880Intel Core i7-8809GIntel Core i7-8850HIntel Core i7-920Intel Core i7-920XMIntel Core i7-930Intel Core i7-940Intel Core i7-940XMIntel Core i7-950Intel Core i7-960Intel Core i7-965Intel Core i7-965 Extreme EditionIntel Core i7-970Intel Core i7-9700Intel Core i7-9700FIntel Core i7-9700KIntel Core i7-9700KFIntel Core i7-9700TIntel Core i7-975Intel Core i7-975 Extreme EditionIntel Core i7-9750HIntel Core i7-9750HFIntel Core i7-980Intel Core i7-9800XIntel Core i7-980XIntel Core i7-980X EEIntel Core i7-980X Extreme EditionIntel Core i7-9850HIntel Core i7-990XIntel Core i7-990X EEIntel Core i7-990X Extreme EditionIntel Core i9-10875HIntel Core i9-10900Intel Core i9-10900FIntel Core i9-10900KIntel Core i9-10900KFIntel Core i9-10900XIntel Core i9-10920XIntel Core i9-10940XIntel Core i9-10980HKIntel Core i9-10980XEIntel Core i9-11900Intel Core i9-11900KIntel Core i9-12900KIntel Core i9-13900KIntel Core i9-7900XIntel Core i9-7920XIntel Core i9-7940XIntel Core i9-7960XIntel Core i9-7980XEIntel Core i9-8950HKIntel Core i9-9800XIntel Core i9-9820XIntel Core i9-9880HIntel Core i9-9900Intel Core i9-9900KIntel Core i9-9900KFIntel Core i9-9900KSIntel Core i9-9900TIntel Core i9-9900XIntel Core i9-9920XIntel Core i9-9940XIntel Core i9-9960XIntel Core i9-9980HKIntel Core i9-9980XEIntel Core m3-6Y30Intel Core m3-7Y30Intel Core m3-7Y32Intel Core m3-8100YIntel Core m5-6Y54Intel Core m5-6Y57Intel Core m7-6Y75Intel Core2 Duo E6700Intel Mobile Pentium 4 2. 40Intel Mobile Pentium 4 2.66Intel Mobile Pentium 4 2.80Intel Mobile Pentium 4 3.06Intel Mobile Pentium 4 520Intel Mobile Pentium 4 532Intel Mobile Pentium 4 552Intel Pentium 2020MIntel Pentium 2030MIntel Pentium 2117UIntel Pentium 2127UIntel Pentium 2129YIntel Pentium 3550MIntel Pentium 3556UIntel Pentium 3558UIntel Pentium 3560MIntel Pentium 3560YIntel Pentium 3805UIntel Pentium 3825UIntel Pentium 4 1.80Intel Pentium 4 2.26Intel Pentium 4 2.4 GHzIntel Pentium 4 2.40Intel Pentium 4 2.53Intel Pentium 4 2.60Intel Pentium 4 2.66Intel Pentium 4 2.80Intel Pentium 4 560Intel Pentium 4 630Intel Pentium 4 660Intel Pentium 4 P4 3.0Intel Pentium 4-M P4-M 1,7Intel Pentium 4405UIntel Pentium 4405YIntel Pentium 4415UIntel Pentium 957Intel Pentium 967Intel Pentium 977Intel Pentium 987Intel Pentium 997Intel Pentium B940Intel Pentium B950Intel Pentium B960Intel Pentium B970Intel Pentium B980Intel Pentium D 820Intel Pentium D 830Intel Pentium D 915Intel Pentium D 940Intel Pentium D 950Intel Pentium D 960Intel Pentium Dual Core SU4100Intel Pentium Dual Core T2060Intel Pentium Dual Core T2080Intel Pentium Dual Core T2130Intel Pentium Dual Core T2310Intel Pentium Dual Core T2330Intel Pentium Dual Core T2370Intel Pentium Dual Core T2390Intel Pentium Dual Core T2410Intel Pentium Dual Core T3200Intel Pentium Dual Core T3400Intel Pentium Dual-Core T4200Intel Pentium Dual-Core T4300Intel Pentium Dual-Core T4400Intel Pentium Dual-Core T4500Intel Pentium Dual-Core E2140Intel Pentium Dual-Core E2160Intel Pentium Dual-Core E2180Intel Pentium Dual-Core E2200Intel Pentium Dual-Core E2210Intel Pentium Dual-Core E2220Intel Pentium E2140Intel Pentium E2160Intel Pentium E2180Intel Pentium E2200Intel Pentium E2220Intel Pentium E5300Intel Pentium E5400Intel Pentium E5500Intel Pentium E5700Intel Pentium E5800Intel Pentium E6300Intel Pentium E6500Intel Pentium E6600Intel Pentium E6700Intel Pentium E6800Intel Pentium G2010Intel Pentium G2020Intel Pentium G2020TIntel Pentium G2030Intel Pentium G2100TIntel Pentium G2120Intel Pentium G2130Intel Pentium G2140Intel Pentium G3220Intel Pentium G3220TIntel Pentium G3240Intel Pentium G3240TIntel Pentium G3250Intel Pentium G3250TIntel Pentium G3258Intel Pentium G3260Intel Pentium G3420Intel Pentium G3420TIntel Pentium G3430Intel Pentium G3440Intel Pentium G3440TIntel Pentium G3450Intel Pentium G3450TIntel Pentium G3460Intel Pentium G3470Intel Pentium G4400Intel Pentium G4400TIntel Pentium G4400TEIntel Pentium G4500Intel Pentium G4500TIntel Pentium G4520Intel Pentium G4560Intel Pentium G4560TIntel Pentium G4600Intel Pentium G4600TIntel Pentium G4620Intel Pentium G550Intel Pentium G620Intel Pentium G620TIntel Pentium G630Intel Pentium G630TIntel Pentium G640Intel Pentium G640TIntel Pentium G645Intel Pentium G645TIntel Pentium G6950Intel Pentium G6951Intel Pentium G6960Intel Pentium G840Intel Pentium G850Intel Pentium G860Intel Pentium G870Intel Pentium Gold 4410YIntel Pentium Gold 4415UIntel Pentium Gold 4415YIntel Pentium Gold 4417UIntel Pentium Gold 4425YIntel Pentium Gold 5405UIntel Pentium Gold 6405UIntel Pentium Gold G5400Intel Pentium Gold G5400TIntel Pentium Gold G5420Intel Pentium Gold G5420TIntel Pentium Gold G5500Intel Pentium Gold G5500TIntel Pentium Gold G5600Intel Pentium Gold G5620Intel Pentium III 1133Intel Pentium III 1200Intel Pentium III 1266SIntel Pentium III 1400Intel Pentium III 1400SIntel Pentium J2850Intel Pentium J2900Intel Pentium J3710Intel Pentium J4205Intel Pentium M 1. 30Intel Pentium M 1.40Intel Pentium M 1.50Intel Pentium M 1.60Intel Pentium M 1.70Intel Pentium M 1300Intel Pentium M 705Intel Pentium M 710Intel Pentium M 715Intel Pentium M 718Intel Pentium M 725Intel Pentium M 730Intel Pentium M 735Intel Pentium M 738Intel Pentium M 740Intel Pentium M 745Intel Pentium M 750Intel Pentium M 753Intel Pentium M 758Intel Pentium M 760Intel Pentium M 765Intel Pentium M 770Intel Pentium M 780Intel Pentium N3510Intel Pentium N3520Intel Pentium N3530Intel Pentium N3540Intel Pentium N3700Intel Pentium N3710Intel Pentium N4200Intel Pentium P6000Intel Pentium P6100Intel Pentium P6200Intel Pentium P6300Intel Pentium SU2700Intel Pentium SU4100Intel Pentium Silver J5005Intel Pentium Silver J5040Intel Pentium Silver N5000Intel Pentium Silver N5030Intel Pentium U5400Intel Pentium U5600Intel Xeon 2.66Intel Xeon 3.06Intel Xeon 3.20Intel Xeon 5110Intel Xeon 5120Intel Xeon 5130Intel Xeon 5140Intel Xeon 5148Intel Xeon 5150Intel Xeon 5160Intel Xeon Bronze 3104Intel Xeon Bronze 3106Intel Xeon D-1518Intel Xeon D-1520Intel Xeon D-1521Intel Xeon D-1528Intel Xeon D-1531Intel Xeon D-1537Intel Xeon D-1539Intel Xeon D-1540Intel Xeon D-1541Intel Xeon D-1548Intel Xeon D-1557Intel Xeon D-1559Intel Xeon D-1567Intel Xeon D-1587Intel Xeon D-2123ITIntel Xeon D-2141IIntel Xeon D-2143ITIntel Xeon D-2146NTIntel Xeon D-2183ITIntel Xeon E-2104GIntel Xeon E-2124Intel Xeon E-2124GIntel Xeon E-2126GIntel Xeon E-2134Intel Xeon E-2136Intel Xeon E-2144GIntel Xeon E-2146GIntel Xeon E-2174GIntel Xeon E-2176GIntel Xeon E-2176MIntel Xeon E-2186GIntel Xeon E-2186MIntel Xeon E-2224Intel Xeon E-2224GIntel Xeon E-2226GIntel Xeon E-2236Intel Xeon E-2244GIntel Xeon E-2246GIntel Xeon E-2274GIntel Xeon E-2276GIntel Xeon E-2276MIntel Xeon E-2276MEIntel Xeon E-2276MLIntel Xeon E-2278GIntel Xeon E-2286GIntel Xeon E-2286MIntel Xeon E-2288GIntel Xeon E3-1220Intel Xeon E3-1220 V2Intel Xeon E3-1220 V3Intel Xeon E3-1220 V5Intel Xeon E3-1220 V6Intel Xeon E3-1220LIntel Xeon E3-1220L v2Intel Xeon E3-1220L v3Intel Xeon E3-1225Intel Xeon E3-1225 V2Intel Xeon E3-1225 V3Intel Xeon E3-1225 V5Intel Xeon E3-1225 V6Intel Xeon E3-1226 V3Intel Xeon E3-1230Intel Xeon E3-1230 V2Intel Xeon E3-1230 V3Intel Xeon E3-1230 V5Intel Xeon E3-1230 V6Intel Xeon E3-1230L v3Intel Xeon E3-1231 V3Intel Xeon E3-1235Intel Xeon E3-1235L V5Intel Xeon E3-1240Intel Xeon E3-1240 V2Intel Xeon E3-1240 V3Intel Xeon E3-1240 V5Intel Xeon E3-1240 V6Intel Xeon E3-1240L V5Intel Xeon E3-1241 V3Intel Xeon E3-1245Intel Xeon E3-1245 V2Intel Xeon E3-1245 V3Intel Xeon E3-1245 V5Intel Xeon E3-1245 V6Intel Xeon E3-1246 V3Intel Xeon E3-1260LIntel Xeon E3-1260L V5Intel Xeon E3-1265L V2Intel Xeon E3-1265L V3Intel Xeon E3-1268L v5Intel Xeon E3-1270Intel Xeon E3-1270 V2Intel Xeon E3-1270 V3Intel Xeon E3-1270 V5Intel Xeon E3-1270 V6Intel Xeon E3-1271 V3Intel Xeon E3-1275Intel Xeon E3-1275 V2Intel Xeon E3-1275 V3Intel Xeon E3-1275 V5Intel Xeon E3-1275 V6Intel Xeon E3-1276 V3Intel Xeon E3-1280Intel Xeon E3-1280 V5Intel Xeon E3-1280 V6Intel Xeon E3-1280 v2Intel Xeon E3-1280 v3Intel Xeon E3-1285 V6Intel Xeon E3-1285 v3Intel Xeon E3-1285 v4Intel Xeon E3-1285L v3Intel Xeon E3-1290Intel Xeon E3-1290 v2Intel Xeon E3-1505L v5Intel Xeon E3-1505L v6Intel Xeon E3-1505M v5Intel Xeon E3-1505M v6Intel Xeon E3-1515M v5Intel Xeon E3-1535M v5Intel Xeon E3-1535M v6Intel Xeon E3-1545M v5Intel Xeon E3-1575M v5Intel Xeon E3-1585 v5Intel Xeon E3-1585L v5Intel Xeon E5-1410Intel Xeon E5-1603 v4Intel Xeon E5-1607 v4Intel Xeon E5-1620Intel Xeon E5-1620 V2Intel Xeon E5-1620 V3Intel Xeon E5-1620 V4Intel Xeon E5-1630 V3Intel Xeon E5-1630 V4Intel Xeon E5-1650Intel Xeon E5-1650 V2Intel Xeon E5-1650 V3Intel Xeon E5-1650 V4Intel Xeon E5-1660Intel Xeon E5-1660 V2Intel Xeon E5-1660 V3Intel Xeon E5-1660 v4Intel Xeon E5-1680 V3Intel Xeon E5-1680 v4Intel Xeon E5-2403Intel Xeon E5-2403 v2Intel Xeon E5-2407Intel Xeon E5-2407 v2Intel Xeon E5-2418LIntel Xeon E5-2420Intel Xeon E5-2420 v2Intel Xeon E5-2420V2Intel Xeon E5-2430Intel Xeon E5-2430 v2Intel Xeon E5-2430LIntel Xeon E5-2430V2Intel Xeon E5-2440Intel Xeon E5-2440 v2Intel Xeon E5-2440V2Intel Xeon E5-2450Intel Xeon E5-2450LIntel Xeon E5-2450V2Intel Xeon E5-2470Intel Xeon E5-2470 v2Intel Xeon E5-2470V2Intel Xeon E5-2603Intel Xeon E5-2603 V2Intel Xeon E5-2603 V3Intel Xeon E5-2603 V4Intel Xeon E5-2608L v3Intel Xeon E5-2609Intel Xeon E5-2609 V2Intel Xeon E5-2609 V3Intel Xeon E5-2609 V4Intel Xeon E5-2618L v3Intel Xeon E5-2618L v4Intel Xeon E5-2620Intel Xeon E5-2620 V2Intel Xeon E5-2620 V3Intel Xeon E5-2620 V4Intel Xeon E5-2622 V3Intel Xeon E5-2623 V3Intel Xeon E5-2623 v4Intel Xeon E5-2628L v3Intel Xeon E5-2628L v4Intel Xeon E5-2630Intel Xeon E5-2630 V2Intel Xeon E5-2630 V3Intel Xeon E5-2630 V4Intel Xeon E5-2630LIntel Xeon E5-2630L V2Intel Xeon E5-2630L V3Intel Xeon E5-2630L v4Intel Xeon E5-2637Intel Xeon E5-2637 V2Intel Xeon E5-2637 V3Intel Xeon E5-2637 v4Intel Xeon E5-2640Intel Xeon E5-2640 V2Intel Xeon E5-2640 V3Intel Xeon E5-2640 V4Intel Xeon E5-2643Intel Xeon E5-2643 V2Intel Xeon E5-2643 V3Intel Xeon E5-2643 V4Intel Xeon E5-2648LIntel Xeon E5-2648L v3Intel Xeon E5-2648L v4Intel Xeon E5-2650Intel Xeon E5-2650 V2Intel Xeon E5-2650 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Xeon E5-2697A v4Intel Xeon E5-2698 V3Intel Xeon E5-2698 V4Intel Xeon E5-2699 V3Intel Xeon E5-2699 V4Intel Xeon E5-4603Intel Xeon E5-4610Intel Xeon E5-4617Intel Xeon E5-4620Intel Xeon E5-4627 v4Intel Xeon E5-4640Intel Xeon E5-4650Intel Xeon E5-4650LIntel Xeon E5-4669 v4Intel Xeon E5502Intel Xeon E5503Intel Xeon E5504Intel Xeon E5506Intel Xeon E5507Intel Xeon E5520Intel Xeon E5530Intel Xeon E5540Intel Xeon E5603Intel Xeon E5606Intel Xeon E5607Intel Xeon E5620Intel Xeon E5630Intel Xeon E5640Intel Xeon E5645Intel Xeon E5649Intel Xeon E7-2850 v2Intel Xeon E7-2870 v2Intel Xeon E7-2880 v2Intel Xeon E7-2890 v2Intel Xeon E7-4809 v2Intel Xeon E7-4820 v2Intel Xeon E7-4830 v2Intel Xeon E7-4850 v2Intel Xeon E7-4860 v2Intel Xeon E7-4870 v2Intel Xeon E7-4880 v2Intel Xeon E7-4890 v2Intel Xeon E7-8850 v2Intel Xeon E7-8857 v2Intel Xeon E7-8870 v2Intel Xeon E7-8880 v2Intel Xeon E7-8880L v2Intel Xeon E7-8890 v2Intel Xeon E7-8891 v2Intel Xeon E7-8893 v2Intel Xeon Gold 5115Intel Xeon Gold 5117Intel Xeon 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8160FIntel Xeon Platinum 8160MIntel Xeon Platinum 8160TIntel Xeon Platinum 8164Intel Xeon Platinum 8168Intel Xeon Platinum 8170Intel Xeon Platinum 8173MIntel Xeon Platinum 8175MIntel Xeon Platinum 8176Intel Xeon Platinum 8268Intel Xeon Silver 4108Intel Xeon Silver 4109TIntel Xeon Silver 4110Intel Xeon Silver 4112Intel Xeon Silver 4114Intel Xeon Silver 4116Intel Xeon Silver 4208Intel Xeon Silver 4210Intel Xeon Silver 4214Intel Xeon Silver 4215Intel Xeon Silver 4216Intel Xeon W-2102Intel Xeon W-2104Intel Xeon W-2123Intel Xeon W-2125Intel Xeon W-2133Intel Xeon W-2135Intel Xeon W-2140BIntel Xeon W-2145Intel Xeon W-2150BIntel Xeon W-2155Intel Xeon W-2170BIntel Xeon W-2175Intel Xeon W-2191BIntel Xeon W-2195Intel Xeon W-2223Intel Xeon W-2225Intel Xeon W-2235Intel Xeon W-2245Intel Xeon W-2255Intel Xeon W-2265Intel Xeon W-2275Intel Xeon W-2295Intel Xeon W-3175XIntel Xeon W-3235Intel Xeon W-3265Intel Xeon W3503Intel Xeon W3505Intel Xeon W3520Intel Xeon W3530Intel Xeon W3540Intel Xeon W3550Intel Xeon W3565Intel Xeon W3570Intel Xeon W3580Intel Xeon W3670Intel Xeon W3680Intel Xeon W3690Intel Xeon W5580Intel Xeon W5590Intel Xeon X5550Intel Xeon X5560Intel Xeon X5570Intel Xeon X5647Intel Xeon X5650Intel Xeon X5660Intel Xeon X5667Intel Xeon X5670Intel Xeon X5672Intel Xeon X5675Intel Xeon X5677Intel Xeon X5680Intel Xeon X5687Intel Xeon X5690Intel Xeon X5698


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CPU-Z Benchmark for Pentium E5200 (2T)

Best CPU performance — 64-bit — October 2022

Pentium E5200 (2T)

Back to validation

Intel Celeron G5905

Intel Pentium G4400

Intel Pentium G3260

Intel Pentium G3258

Intel Pentium G3420

Intel Pentium G3250

AMD Athlon Silver 3050U

Intel Celeron G4900

Intel Pentium G3240

Intel Pentium G3220

Intel Pentium G2130

Intel Celeron G3930

Intel Celeron G3900

Intel Core 2 Duo E6750

Intel Celeron G1840

Intel Pentium G2030

Intel Pentium G860

Intel Pentium G2020

Intel Core 2 Duo E8600

Intel Celeron G1820

Intel Pentium G645

Intel Pentium G2010

Intel Pentium G850

Intel Core 2 Duo E8500

Intel Pentium G840

Intel Celeron G1620

Intel Pentium G640

Pentium E5800

Intel Pentium G630

Pentium E6700

Intel Celeron G1610

Intel Core 2 Duo E7600

Pentium E6600

Intel Core 2 Duo E6850

Pentium E5700

Intel Pentium G620

Intel Celeron G550

Intel Core 2 Duo E7500

Pentium E6500

Intel Pentium 2020M

Intel Core 2 Duo E8400

Intel Celeron G540

AMD 3020e

Intel Core 2 Duo E7400

Pentium E5500

Intel Core 2 Duo T9600

Intel Celeron G530

Intel Pentium B980

Pentium E5400

Intel Core 2 Duo E8200

Intel Core 2 Duo E7300

Intel Core 2 Duo T9400

Pentium E5300

Intel Core 2 Duo T9300

Intel Celeron E3400

Intel Celeron N4020

(YOU) Pentium E5200

Intel Core 2 Duo P8700

Intel Celeron J4005

Intel Celeron E3300

Pentium E5200

Intel Core 2 6600

Intel Core 2 Duo P8600

Intel Celeron 4205U

Intel Core 2 Duo E4600

Intel Celeron 3865U

AMD A6-9500 RADEON R5; 8 COMPUTE CORES 2C+6G

Intel Celeron N4000

Intel Core 2 Duo T8300

Intel Core 2 Duo E6550

AMD A6-7480

Intel Pentium Dual E2220

Pentium E6300

Intel Core 2 Duo E7200

AMD A4-7300

AMD A6-6400K

Intel Core 2 Duo P8400

Intel Pentium B940

Intel Celeron 1005M

Pentium T4500

Intel Pentium P6200

AMD A6-7400K

AMD A4-6300

Intel Core 2 Duo T6670

Intel Core 2 Duo T7500

Intel Core 2 Duo T6600

Intel Celeron 3205U

Intel Pentium 2117U

Intel Celeron 1000M

Intel Pentium 3558U

Intel Core 2 Duo E4500

Pentium T4400

Intel Pentium Dual E2200

Intel Core 2 Duo T6570

Intel Celeron 1037U

AMD A6-5400K

Intel Pentium B960

Intel Core 2 Duo T8100

Intel Core 2 6400

Intel Celeron B830

Celeron T3500

Intel Pentium P6100

Pentium T4300

AMD A9-9420 RADEON R5; 5 COMPUTE CORES 2C+3G

Intel Pentium Dual T3400

AMD A4-5300B

AMD A4-5300

Intel Core 2 Duo P7350

Intel Pentium B950

Intel Core 2 Duo T6500

Intel Celeron N3350

Intel Core 2 Duo T6400

Intel Core 2 T7200

Pentium T4200

Intel Core 2 Duo T7250

Intel Core 2 Duo T5870

Intel Core 2 4400

Intel Core 2 Duo E4400

AMD Athlon II X2 270

Intel Celeron B820

Intel Pentium Dual E2180

Intel Pentium Dual T3200

Intel Core 2 Duo T5750

AMD A9-9425 RADEON R5; 5 COMPUTE CORES 2C+3G

Intel Celeron B815

Intel Core 2 6300

Intel Pentium Dual T2390

AMD A4-4000

AMD Phenom II X2 555

AMD Athlon II X2 260

Intel Celeron 2957U

Intel Celeron 1007U

AMD Phenom II X2 550

Intel Core 2 Duo T5800

AMD Athlon II X2 255

Intel Core 2 4300

Intel Celeron B800

AMD Athlon II X2 250

AMD Athlon II X2 B24

AMD A6-9225 RADEON R4; 5 COMPUTE CORES 2C+3G

AMD Athlon II X2 245

AMD A6-4400M

AMD Athlon II X2 240

AMD Athlon II X2 220

AMD A6-9220 RADEON R4; 5 COMPUTE CORES 2C+3G

AMD A4-3400

AMD Athlon II X2 215

AMD A4-4300M

AMD A4-9125 RADEON R3; 4 COMPUTE CORES 2C+2G

AMD Athlon 7750

AMD A4-9120 RADEON R3; 4 COMPUTE CORES 2C+2G

AMD A4-3300

AMD Athlon 64 X2 6000+

Intel Pentium D 3. 40GHz

AMD A4-3330MX

AMD Athlon 64 X2 5600+

AMD E2-9000 RADEON R2; 4 COMPUTE CORES 2C+2G

Intel Celeron 847

AMD Athlon 64 X2 5200+

Intel Celeron N2840

AMD A4-3305M

Intel Celeron J1800

AMD Athlon 64 X2 5000+

Intel Pentium D 3.00GHz

AMD Athlon II P320

AMD Athlon 64 X2 4800+

AMD Athlon 64 X2 4600+

Intel Celeron N3060

Intel Celeron J3060

Intel Celeron N2830

Intel Pentium D 2.80GHz

AMD Athlon 64 X2 4400+

AMD E2-9000e RADEON R2; 4 COMPUTE CORES 2C+2G

AMD Athlon 64 X2 4200+

AMD E1-2500

Intel Celeron N3050

AMD E1-6010

AMD Athlon 64 X2 4000+

AMD Athlon 64 X2 3800+

AMD E2-1800

Intel Pentium 4 3.20GHz

Intel Pentium 4 3.00GHz

AMD E-450

AMD E-350

AMD E1-2100

AMD E1-1500

Intel Pentium 4 2.80GHz

AMD E1-1200

AMD C-60

AMD E-300

AMD C-70

AMD C-50

Intel Atom N450

Intel Atom N455

Intel Pentium Dual-Core E5200 – Techgage

Intel’s Core i7 processors have now been available for close to a month-and-a-half, but for those looking to spend as little as possible for a new rig, i7 shouldn’t be the first choice for reasons we laid out in our launch article early last month. Though i7 offers stellar performance, it requires a new motherboard, RAM and CPU cooler. While most people who pick up the E5200 might be in the same situation, the parts are much more affordable all-around.

While browsing an e-tailer a few weeks ago, I stumbled on Intel’s Pentium E5200, a dual-core offering that I had forgotten all about. It was launched this past August to virtually no fanfare, and thanks to a few things that were going on at the time (IDF, NVISION), I never thought about it since. I did want to get one in though, because although it carries a few caveats, it’s still a Wolfdale chip, and at under $100, I figured it might very-well be a steal.

Intel currently offers two Pentium models based on the 45nm process, the E5300 and E5200. The differences between them are a mere $2 (per 1,000) and 100MHz. We chose to bring the E5200 in for the simple fact that it’s the least expensive model out there from Intel, at least of which uses their latest technologies, such as 45nm.

The Pentium Dual-Core chips do have two primary drawbacks, though, which include 2MB of L2 Cache and absolutely no part of Intel’s SSE4.x instruction set. What that means is that more expensive chips (even the E7200), will have the ability to recode video that utilizes these instructions much, much faster. For those who don’t encode video all-too-often, the loss won’t be noticed.

Another drawback could be the low Front-Side Bus speed of 800MHz. That equates to a raw value of 200MHz, which means the maximum memory speed supported at stock is DDR3-800. Considering that no memory manufacturer produces kits with only that speed supported, it goes to show just how lacking that is. As we’ll see later, overclocking is a super-quick fix to this issue.

Intel Core i7-965 Extreme Edition

4

3. 20GHz

8MB

3200MHz

150W

$999

Intel Core i7-940

4

2.93GHz

8MB

2400MHz

130W

$562

Intel Core i7-920

4

2.66GHz

8MB

2400MHz

130W

$284

Intel Core 2 Extreme QX9775

4

3.20GHz

2 x 6MB

1600MHz

150W

$1,499

Intel Core 2 Extreme QX9770

4

3.20GHz

2 x 6MB

1600MHz

136W

$1,399

Intel Core 2 Extreme Q9650

4

3.00GHz

2 x 6MB

1333MHz

130W

$530

Intel Core 2 Quad Q9550

4

2. 83GHz

2 x 6MB

1333MHz

95W

$316

Intel Core 2 Quad Q9400

4

2.66GHz

2 x 3MB

1333MHz

95W

$266

Intel Core 2 Quad Q9300

4

2.50GHz

2 x 3MB

1333MHz

95W

$266

Intel Core 2 Quad Q8200

4

2.33GHz

2 x 2MB

1333MHz

95W

$193

The least-expensive Quad-Core to purchase right now is $193, and that’s at lower frequencies than the Pentium we’re looking at here, but with the same cache. The FSB is higher, but our E5200 is looking like a great value from these specs alone. The Pentium Dual-Core models are both well under $100, with the next-step up being the E7200, at $113 (per 1,000). That chip has the advantage of being 30MHz faster, inclusion of the SSE4 instructions and also an extra dash of cache.

Intel Core 2 Duo E8600

2

3.33GHz

6MB

1333MHz

65W

$266

Intel Core 2 Duo E8500

2

3.16GHz

6MB

1333MHz

65W

$183

Intel Core 2 Duo E8400

2

3.00GHz

6MB

1333MHz

65W

$163

Intel Core 2 Duo E8300

2

2. 83GHz

6MB

1333MHz

65W

$163

Intel Core 2 Duo E7400

2

2.80GHz

3MB

1066MHz

65W

$133

Intel Core 2 Duo E7300

2

2.66GHz

3MB

1066MHz

65W

$113

Intel Core 2 Duo E7200

2

2.53GHz

3MB

1066MHz

65W

$113

Intel Pentium Dual-Core E5300

2

2.60GHz

2MB

800MHz

65W

$86

Intel Pentium Dual-Core E5200

2

2.50GHz

2MB

800MHz

65W

$84

There isn’t too much more that can be said about this chip, but that’s a good thing. It’s quite similar overall to previous Wolfdale chips. It lacks the SSE4 instructions, but to some, that might not matter. It also lacks as much cache as the next-step-up, but again, that might not matter to those who don’t use multi-media applications often.

Even without looking at the benchmarks, for $80, it’s likely hard to go wrong with this CPU, as long as your needs aren’t too intensive. Even if they are, overclocking might provide the extra boost you will need, and as we’ll see later, this chip is pretty-much begging to be overclocked, thanks to it’s 12.5x multiplier.

So let’s get right to finding out this chip’s weaknesses and strengths! But first, a quick review of our testing methodology is in order, and then we’ll jump right into our results, starting off with SYSmark 2007.

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Comparison Intel Pentium E5200 vs Intel Core 2 Duo E8400 which is better?

General

Type

Desktop Desktop

Architecture code name

Wolfdale Wolfdale

Cores

A large number of cores improves performance in multi-threaded applications.
At the moment, increasing the number of processor cores is one of the priorities for increasing performance.

2 2

Threads

More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases).

2 2

Process

45 nm 45 nm

Chip size

82 mm2 104 mm2

Number of transistors

228 million 410 million

182 million (79. 8%) better than

Maximum frequency

Faster clocked processors perform more calculations per second and thus provide better performance.

2.5GHz 3 GHz

0.5 GHz (20%) better than

Support 64 bit

Max. number of processors per configuration

1 1

Socket

LGA775 LGA775

Release price

99 $ n/a

Value for money

The sum of all the advantages of the device divided by its price. The more%, the better the quality per unit price in comparison with all analogues.

0.0072150072% 96.7%

96.6

9928% (1340162%) better than

Maximum core temperature

74 °C 72°C

-2 °C (-2. 7%) better than

TXT

Intel Trusted Execution Technology for hardware-based malware protection. For each protected program, the processor allocates its own isolated section of RAM.

Demand Based Switching

FSB parity

Level 1 Cache

The fastest level of cache that works directly with the core. The larger the cache, the better the performance.

64 KB (per core) 64K (per core)

Level 2 cache

2 MB (total) 6 MB (total)

Maximum case temperature (TCase)

n/a 72 °C

Power Demand (TDP)

Calculated thermal power shows the average heat dissipation in load operation,
the larger the value, the more the requirements for cooling and power consumption increase.

65 W 65 W

EDB

+ +

Permissible core voltage

0.85V-1.3625V 0.85V-1.3625V
Technology and additional instructions

Turbo Boost

Idle States

Enhanced SpeedStep (EIST)

Technology from Intel that allows the processor to slow down to a minimum frequency to save power when the processor is idle.

Thermal Monitoring

Hyper-Threading

Intel hardware technology that allows multiple threads to be processed on each processor core. For server applications, the performance improvement is up to 30%.

Virtualization Technologies

VT-x

VT-d

Intel virtualization technology allows you to forward devices on the PCI bus to the guest operating system so that it can work with them using its standard tools.

Comparison Intel Pentium E5200 vs Intel Core 2 Duo E6550 which is better?

General

Type

Desktop Desktop

Architecture code name

Wolfdale Conroe

cores

A large number of cores improves performance in multi-threaded applications.
At the moment, increasing the number of processor cores is one of the priorities for increasing performance.

2 2

Threads

More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases).

2 2

Process

45 nm

-20 nm (-30.8%) better than

65 nm

Chip size

82 mm2 143 mm2

Number of transistors

228 million 291 million

63 million (27.6%) better than

Maximum frequency

Faster clocked processors perform more calculations per second and thus provide better performance.

2. 5GHz

Better than

at 0.17 GHz (7.3%)

2.33 GHz

Support 64 bit

Max. number of processors per configuration

1 1

Socket

LGA775 PLGA775

Release price

99 $ n/a

Value for money

The sum of all the advantages of the device divided by its price. The more%, the better the quality per unit price in comparison with all analogues.

0.0072150072% 92%

91.9

9928% (1275020%) better than

Maximum core temperature

74 °C 72°C

-2 °C (-2.7%) better than

TXT

Intel Trusted Execution Technology for hardware-based malware protection. For each protected program, the processor allocates its own isolated section of RAM.

Demand Based Switching

FSB parity

Level 1 Cache

The fastest level of cache that works directly with the core. The larger the cache, the better the performance.

64 KB (per core) 64 Kb

Level 2 cache

2 MB (total) 4 Mb

Power Demand (TDP)

Calculated thermal power shows the average heat dissipation in load operation,
the larger the value, the more the requirements for cooling and power consumption increase.

65W 65 W

EDB

+ +

Permissible core voltage

0. 85V-1.3625V 0.85V-1.5V
Technology and additional instructions

Turbo Boost

Idle States

Enhanced SpeedStep (EIST)

Technology from Intel that allows the processor to slow down to a minimum frequency to save power when the processor is idle.

Thermal Monitoring

Hyper-Threading

Intel hardware technology that allows multiple threads to be processed on each processor core. For server applications, the performance improvement is up to 30%.

Virtualization Technologies

VT-x

VT-d

Intel virtualization technology allows you to forward devices on the PCI bus to the guest operating system so that it can work with them using its standard tools.

Comparison of Intel Core 2 Duo E7500 and Intel Pentium E5200

Comparative analysis of Intel Core 2 Duo E7500 and Intel Pentium E5200 processors according to all known characteristics in the categories: General information, Performance, Memory, Compatibility, Security and reliability, Technologies, Virtualization.
Analysis of processor performance by benchmarks: PassMark — Single thread mark, PassMark — CPU mark, Geekbench 4 — Single Core, Geekbench 4 — Multi-Core, CompuBench 1.5 Desktop — Face Detection (mPixels/s), CompuBench 1.5 Desktop — Ocean Surface Simulation ( Frames/s), CompuBench 1.5 Desktop — T-Rex (Frames/s), CompuBench 1.5 Desktop — Video Composition (Frames/s), CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s).

Intel Core 2 Duo E7500

versus

Intel Pentium E5200

Advantages

reasons to choose the Intel Core 2 Duo E7500

  • Release Dates 5 MONTH (S)
  • % more so much more

  • Approximately 50% larger L2 cache, which means more data can be stored in it for quick access
  • PassMark — Single thread mark performance approximately 20% higher: 1204 vs 1005
  • Approximately 28% increase in PassMark — CPU mark performance: 1107 vs 867
  • Approximately 30% increase in Geekbench 4 — Single Core performance: 386 vs 296
  • Approx. 31% more: 671 vs 514
  • Performance in CompuBench 1.5 Desktop — Face Detection (mPixels/s) about 27% more: 0.352 vs 0.277
  • Performance in CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) 78% more: 18.591 vs 10.446
  • Performance in CompuBench 1.5 Desktop — T-Rex (Frames/s) about 37% better: 0.081 vs 0.059
Release date January 2009 vs August 2008
Maximum frequency 2.93 GHz vs 2.5 GHz
Level 2 cache 3072 KB vs 2048 KB (shared)
PassMark — Single thread mark 1204 vs 1005
PassMark — CPU mark 1107 vs 867
Geekbench 4 — Single Core 386 vs 296
Geekbench 4 — Multi-Core 671 vs 514
CompuBench 1. 5 Desktop — Face Detection (mPixels/s) 0.352 vs 0.277
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) 18.591 vs 10.446
CompuBench 1.5 Desktop — T-Rex (Frames/s) 0.081 vs 0.059

Reasons to choose Intel Pentium E5200

  • L1 cache is 2 times larger, which means more data can be stored in it for quick access
L1 cache 64 KB (per core) vs 64 KB

Benchmark comparison

CPU 1: Intel Core 2 Duo E7500
CPU 2: Intel Pentium E5200

PassMark — Single thread mark
CPU 1
CPU 2
PassMark — CPU mark
CPU 1
CPU 2
Geekbench 4 — Single Core
CPU 1
CPU 2
Geekbench 4 — Multi-Core
CPU 1
CPU 2
CompuBench 1. 5 Desktop — Face Detection (mPixels/s)
CPU 1
CPU 2
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s)
CPU 1
CPU 2
18.591
10.446
CompuBench 1.5 Desktop — T-Rex (Frames/s)
CPU 1
CPU 2
Name Intel Core 2 Duo E7500 Intel Pentium E5200
PassMark — Single thread mark 1204 1005
PassMark — CPU mark 1107 867
Geekbench 4 — Single Core 386 296
Geekbench 4 — Multi-Core 671 514
CompuBench 1. 5 Desktop — Face Detection (mPixels/s) 0.352 0.277
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) 18.591 10.446
CompuBench 1.5 Desktop — T-Rex (Frames/s) 0.081 0.059
CompuBench 1.5 Desktop — Video Composition (Frames/s) 0.602
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) 2.351

Feature comparison

Core2 Duo E7200

33. 8 (+7.4%)

Pentium E5200

31.3

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

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

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

Office Speed ​​

Core2 Duo E7200

37.2 (+4.3%)

Pentium E5200

35.6

Performance in day-to-day activities such as browsers and office applications.

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

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

Speed ​​in heavy applications

Core2 Duo E7200

16.4 (+4.3%)

Pentium E5200

15.7

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

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

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

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

Intel Core 2 Duo E7500 Intel Pentium E5200
Architecture name Wolfdale Wolfdale
Production date January 2009 August 2008
Place in the ranking 2500 2527
Price now $14. 99 $89.95
Processor Number E7500 E5200
Series Legacy Intel® Core™ Processors Legacy Intel® Pentium® Processor
Status Discontinued Discontinued
Price/performance ratio (0-100) 36.85 4.87
Applicability Desktop Desktop
Price at first issue date $99
Support 64 bit
Base frequency 2. 93 GHz 2.50 GHz
Bus Speed ​​ 1066 MHz FSB 800 MHz FSB
Crystal area 82 mm2 82 mm2
Level 1 cache 64KB 64 KB (per core)
Level 2 cache 3072KB 2048 KB (shared)
Process 45nm 45nm
Maximum case temperature (TCase) 74 °C
Maximum core temperature 74. 1°C 74.1°C
Maximum frequency 2.93 GHz 2.5 GHz
Number of cores 2 2
Number of transistors 228 million 228 million
Permissible core voltage 0.8500V-1.3625V 0.8500V-1.3625V
Supported memory types DDR1, DDR2, DDR3 DDR1, DDR2, DDR3
Low Halogen Options Available
Maximum number of processors in configuration 1 1
Package Size 37. 5mm x 37.5mm 37.5mm x 37.5mm
Supported sockets LGA775 LGA775
Power consumption (TDP) 65 Watt 65 Watt
Execute Disable Bit (EDB)
Intel® Trusted Execution Technology (TXT)
Enhanced Intel SpeedStep® Technology
Parity FSB
Idle States
Intel 64
Intel® AES New Instructions
Intel® Demand Based Switching
Intel® Hyper-Threading Technology
Intel® Turbo Boost Technology
Thermal Monitoring
Intel® Virtualization Technology (VT-x)

Simple household tasks

Core2 Duo E7200

33.3 (+5.7%)

Pentium E5200

31.4

Demanding games and tasks

Core2 Duo E7200

7.3 (+4.1%)

Pentium E5200

7

Extreme

Core2 Duo E7200

1. 4

Pentium E5200

1.4

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 computer. 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 Core2 Duo E7200

942 (+10.4%)

Intel Pentium E5200

844

Features

Main

Manufacturer Intel Intel
DescriptionInformation about the processor, taken from the official website of the manufacturer. Intel® Core™2 Duo Processor E7200 (3M Cache, 2.53 GHz, 1066 MHz FSB)
ArchitectureCode name for the microarchitecture generation. Wolfdale
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. 45 No data
Release dateMonth and year of the processor’s availability. 10-2016 10-2016
Model Official name. E7200
Cores The number of physical cores. 2 2
ThreadsNumber of threads. The number of logical processor cores that the operating system sees. 2 2
Multi-Threading Technology With Intel’s Hyper-threading and AMD’s SMT technology, one physical core is recognized by the operating system as two logical cores, thereby increasing processor performance in multi-threaded applications. Missing 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. 2.53 GHz 2.5 GHz
Turbo frequencyThe 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. 2.4 GHz 2.5 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. 3 No data
Instructions 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 the 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. 65 No data
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.
GPU base clockFrequency of 2D and idle operation. No data No data
Maximum GPU frequencyMaximum 3D frequency. No data 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.
Supported monitorsThe maximum number of monitors that can be connected to the integrated video core at the same time.

RAM

Maximum RAM Amount of RAM that can be installed on the motherboard with this processor. No data No data
Supported type of RAM The type of RAM determines its frequency and timings (speed), availability, price.
RAM Channels The multi-channel memory architecture increases data transfer speed. On desktop platforms, two-channel, three-channel and four-channel modes are available.
RAM bandwidth
ECC memory Support for error-correcting memory, which 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

PCI-E Computer bus version of PCI Express. The bandwidth and power limit depend on the version. There is backward compatibility. No data No data
PCI configuration options
Number of PCI lanes No data

Data Security

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

Dimensions No data No data
Supported sockets No data No data
Maximum processors per motherboard No data No data

Which is better

Intel Core2 Duo E7200

  • On average, gaming performance is 3% better.
  • Office applications and browsers are 2% faster.
  • Price lower by $50
  • Base clock higher by 0. 03 GHz.

How they are similar

  • In complex multi-threaded applications, they are approximately equal.
  • The number of physical cores is equal.
  • The number of threads is equal.

Intel plans declassified. unprecedented 1.4 nm processors are just around the corner

Feature comparison

Intel Pentium E5200 Intel Pentium Dual-Core E2180
Architecture name Wolfdale Conroe
Production date August 2008 August 2007
Price at first issue date $99
Place in the ranking 2420 2306
Price now $89.95
Processor Number E5200 E2180
Series Legacy Intel Pentium Processor Legacy Intel Pentium Processor
Status Discontinued Discontinued
Price/performance ratio (0-100) 4. 87
Applicability Desktop Desktop
Support 64 bit
Base frequency 2.50 GHz 2.00 GHz
Bus Speed ​​ 800 MHz FSB 800 MHz FSB
Crystal area 82 mm2 77 mm2
Level 1 cache 64 KB (per core) 64 KB (per core)
Level 2 cache 2048 KB (shared) 1024 KB (shared)
Process 45nm 65nm
Maximum core temperature 74.1°C 73.3°C
Maximum frequency 2.5 GHz 2 GHz
Number of cores 2 2
Number of transistors 228 million 105 million
Permissible core voltage 0. 8500V-1.3625V 0.8500V-1.5V
Supported memory types DDR1, DDR2, DDR3 DDR1, DDR2, DDR3
Low Halogen Options Available
Maximum number of processors per configuration 1 1
Package Size 37.5mm x 37.5mm 37.5mm x 37.5mm
Supported sockets LGA775 LGA775
Power consumption (TDP) 65 Watt 65 Watt
Execute Disable Bit (EDB)
Intel Trusted Execution Technology (TXT)
Enhanced Intel SpeedStep Technology
Parity FSB
Idle States
Intel 64
Intel AES New Instructions
Intel Demand Based Switching
Intel Hyper-Threading Technology
Intel Turbo Boost Technology
Thermal Monitoring
Intel Virtualization Technology (VT-x)
Intel Virtualization Technology for Directed I/O (VT-d)

Benefits

Reasons to choose Intel Pentium E5200

  • Newer processor, release date difference 5 month(s)
  • Approximately 4% higher clock speed: 2. 5 GHz vs 2.4 GHz
  • Approximately 1% higher max core temperature: 74.1°C vs 73.3°C
  • A newer manufacturing process for the processor allows it to be more powerful, but with lower power consumption: 45 nm vs 65 nm
  • L2 cache is 2 times larger, which means more data can be stored in it for quick access
  • Performance in PassMark — Single thread mark about 13% better: 1005 vs 892
  • Performance in PassMark benchmark — CPU mark approximately 7% higher: 846 vs 793
  • Geekbench 4 — Multi-Core performance about 1% better: 514 vs 507
  • CompuBench 1.5 Desktop — Face Detection (mPixels/s) about 7% faster performance: 0.277 vs 0.258
  • CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) approximately 26% faster performance: 10.446 vs 8.304
Features
Production date August 2008 vs March 2008
Maximum frequency 2. 5 GHz vs 2.4 GHz
Maximum core temperature 74.1°C vs 73.3°C
Process 45 nm vs 65 nm
Level 2 cache 2048 KB (shared) vs 1024 KB (shared)
Benchmarks
PassMark — Single thread mark 1005 vs 892
PassMark — CPU mark 846 vs 793
Geekbench 4 — Multi-Core 514 vs 507
CompuBench 1.5 Desktop — Face Detection (mPixels/s) 0.277 vs 0.258
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) 10.446 vs 8.304

Reasons to choose Intel Pentium Dual-Core E2220

  • About 1% better performance in Geekbench 4 — Single Core: 299 vs 296
  • CompuBench 1.5 Desktop — T-Rex (Frames/s) about 19% faster performance: 0.07 vs 0.059
Benchmarks
Geekbench 4 — Single Core 299 vs 296
CompuBench 1. 5 Desktop — T-Rex (Frames/s) 0.07 vs 0.059

Tests in games

FPS measured by us in popular games on Intel Pentium E5200 and system requirements

Compare

Forced performance increase

The Core i7 860 boasted good overclocking potential. The power of the first should be at the level of 800 or more watts. But the motherboard is necessarily designed to provide the flexibility to change the parameters of the PC. The algorithm for increasing the clock frequency is as follows:

  • We decrease the values ​​of all multipliers in the system, except for the processor (RAM, for example).
  • Increase the voltage on the CPU.
  • Increasing the system bus frequency.
  • If ​​necessary (if the system stops working stably), we disable the Turboboost technology (allows you to automatically increase the frequency) and Hyper Trading (we leave only 4 physical computing modules in operation).

As practice shows, even on a standard cooling system, you can get 4 GHz (CPU multiplier 20 and system bus frequency 200 MHz or CPU multiplier 21 and the frequency is already 190 MHz). In this case, the frequency of the semiconductor crystal is 72 degrees. To reduce the temperature of the CPU, it is recommended to use a dedicated cooling system. It can be both air (with improved heat dissipation) and liquid.

Benchmarks Intel Pentium E5200

Gaming speed

35.2

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

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

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

Speed ​​in office use

40.1

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

15. 7

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

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

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

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

Performance comparison

Intel Core 2 Duo E6600 Intel Pentium E5200
Architecture name Conroe Wolfdale
Production date Q3’06 August 2008
Place in the ranking 2075 2420
Processor Number E6600 E5200
Series Legacy Intel Core Processors Legacy Intel Pentium Processor
Status Discontinued Discontinued
Applicability Desktop Desktop
Price at first issue date $99
Price now $89. 95
Price/performance ratio (0-100) 4.87
Support 64 bit
Base frequency 2.40 GHz 2.50 GHz
Bus Speed ​​ 1066 MHz FSB 800 MHz FSB
Crystal area 143 mm2 82 mm2
Process 65nm 45nm
Maximum core temperature 60.1°C 74.1°C
Number of cores 2 2
Number of transistors 291 million 228 million
Permissible core voltage 0.8500V-1.5V 0.8500V-1.3625V
Level 1 cache 64 KB (per core)
Level 2 cache 2048 KB (shared)
Maximum frequency 2. 5 GHz
Low Halogen Options Available
Package Size 37.5mm x 37.5mm 37.5mm x 37.5mm
Scenario Design Power (SDP) 0 W
Supported sockets PLGA775 LGA775
Power consumption (TDP) 65 Watt 65 Watt
Maximum number of processors in configuration 1
Execute Disable Bit (EDB)
Intel Trusted Execution Technology (TXT)
Enhanced Intel SpeedStep Technology
Parity FSB
Idle States
Intel 64
Intel AES New Instructions
Intel Demand Based Switching
Intel Hyper-Threading Technology
Intel Turbo Boost Technology
Thermal Monitoring
Intel Virtualization Technology (VT-x)
Intel Virtualization Technology for Directed I/O (VT-d)
Supported memory types DDR1, DDR2, DDR3

Forward to a bright future

Intel’s roadmap begins in 2019, in which, after years of labor, it mastered 10nm manufacturing standards. The next item is 7 nanometers, and the chipmaker intends to reach this technology by 2021, simultaneously with the introduction of EUV technology — lithography with ultra-hard ultraviolet radiation.

Intel’s very optimistic plans for the next 10 years

In fact, Intel continues to profess the observation made in 1965 by its founder Gordon Moore (Gordon Moore) and later called «Moore’s Law». It states that the number of transistors placed on an integrated circuit chip doubles every 24 months or every two years.

Intel is going to switch to a new process technology every two years for the whole decade and simultaneously introduce new types of lithography, the details of which are kept secret. So, in 2023, she wants to master 5 nanometers, in 2025 — 3 nm, in 2027 — 2 nm, and in 2029 to achieve her goal of 1.4 nanometers. How exactly she plans to do all this is still unknown, but judging by the current pace of development of the Intel processor business, the chances of success are not very high yet.

Benefits

Reasons to choose Intel Core 2 Duo E6600

  • Performance in PassMark — CPU mark about 3% higher: 873 vs 846
  • Geekbench 4 — Single Core performance about 5% better: 310 vs 296
  • Geekbench 4 — Multi-Core performance about 4% better: 533 vs 514
Benchmarks
PassMark — CPU mark 873 vs 846
Geekbench 4 — Single Core 310 vs 296
Geekbench 4 — Multi-Core 533 vs 514

Reasons to choose Intel Pentium E5200

  • About 23% more maximum core temperature: 74.1°C vs 60.1°C
  • A newer manufacturing process for the processor allows it to be more powerful, but with lower power consumption: 45 nm vs 65 nm
  • Performance in PassMark — Single thread mark about 6% better: 1005 vs 948
Features
Maximum core temperature 74. 1°C vs 60.1°C
Process 45 nm vs 65 nm
Benchmarks
PassMark — Single thread mark 1005 vs 948

What about games

Fans of computer entertainment can run almost any game released before 2013 on a computer with this processor. This microchip provides good performance in the following projects:

  • S.T.A.L.K.E.R.
  • The Witcher 2.
  • GTA 4.
  • Fallout New Vegas.
  • Several others.

At the same time, of course, the user must have a high-quality video card installed. If a person needs to process video or graphic files from time to time, then the presented processor will also do an excellent job with this task. For professional work with audiovisual information, of course, it is better to look for a more modern and productive CPU.

Overclocking and unlocking an unused computing module

With a high-quality motherboard and an improved cooling system, it was not difficult to overclock the AMD Phenom X3 8450 to 3 GHz. (from 650 W and more) and faster DDR3 RAM (motherboard with an AM3 processor socket for computer enthusiasts).

An ambiguous situation in this case was with a blocked computing module on the CPU. In theory, this chip was based on a more advanced 4-core model from this manufacturer. The last, fourth module was blocked at the program level when passing tests. That is, when identifying the slightest problems with any computing module, it simply turned off. With a «happy» set of circumstances, it was possible to put it back into operation and get it already in the 4-core processor solution AMD Phenom X3 8450.

Unlocking 4 cores could only be done on some models of motherboards from manufacturers such as AsRock and Biostar. To do this, it was enough to enable the ACC option in the BIOS (Advanced Clock Calibration). In theory, this parameter made it possible to more aggressively increase the frequency of the chip. But in practice, its activation sometimes led to the inclusion of an unused computing unit. For other manufacturers, this element functioned as expected. If it was possible to unlock the fourth module in this CPU, then only from the two manufacturers listed earlier.

Benchmark comparison

CPU 1: Intel Pentium E5200CPU 2: Intel Pentium Dual-Core E2180

PassMark — Single thread mark
CPU 1
CPU 2
PassMark — CPU mark
CPU 1
CPU 2
Geekbench 4 — Single Core
CPU 1
CPU 2
Geekbench 4 — Multi-Core
CPU 1
CPU 2
Name Intel Pentium E5200 Intel Pentium Dual-Core E2180
PassMark — Single thread mark 1005 742
PassMark — CPU mark 846 664
Geekbench 4 — Single Core 296 242
Geekbench 4 — Multi-Core 514 423
CompuBench 1. 5 Desktop — Face Detection (mPixels/s) 0.277
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s)

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

Speed ​​in office use

Athlon 64 X2 Dual Core 5600+
46.6 (+13.9%)

Pentium E5200
40.1

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

Athlon 64 X2 Dual Core 5600+
18.2 (+13.7%)

Pentium E5200
15.7

Performance in resource-intensive tasks loading up to 8 cores.

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

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

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

The main competitors of the processor Intel Core I7 860 Lynnfield

The main competitors of the processor in question are models from Intel: Core I7 880 and Core I7 2600. The TDP indicator for all models is 95 W. Each of these microchips provides fairly high performance for basic tasks. The junior model is the I7 860. The characteristics of this processor, however, allow it to compete with the older CPUs in the product line in solving some problems.

Thus, when working with 3D packages in interactive mode, the 860 processor is only 11 points behind the 880 modification (129 versus 140). A similar picture is observed when performing scientific and mathematical calculations (156 for the I7 860 processor versus 170 for the I7 880 chip). It is unlikely that the owners of the older version of the CPU in practice will feel a significant advantage in time. The results are much more significant for the Core I7 2600 processor, which works with the LGA1155 socket and is built using 32 nm technology (competitors have 45 nm). When performing mathematical calculations, this processor scored 194 points, noticeably ahead of all opponents.

Cache and its amount

Typical by today’s standards is equipped with a three-level cache «Core i7 860». Its characteristics are practically no different from modern flagship CPUs. The first level is divided into 4 parts, each of which is assigned to a strictly defined computing module. The latter, in turn, is divided into 2 parts. One of them was intended for storing instructions (its size was equal to 32 kb), and the second was for data (it is also equal to 32 kb). As a result, we get (32 x 4) + (32 x 4) = 256 kb — the total size of the first level cache in this chip.

The second level was also divided into 4 parts assigned to a certain computing module, but it was no longer divided into parts for data and instructions. Each of its components was equal to 256 kb, and the total size was 1 Mb. The third cache level was shared. Its size is 8 MB. The main feature of the cache is that it is a very fast memory that is integrated into the CPU and operates at its frequency. This allows you to get a significant performance boost.

Benefits

Reasons to choose Intel Pentium E5200

  • Newer processor, release date difference 10 month(s)
  • Approximately 4% higher clock speed: 2.5 GHz vs 2.4 GHz
  • Approximately 1% higher max core temperature: 74.1°C vs 73.3°C
  • A newer manufacturing process for the processor allows it to be more powerful, but with lower power consumption: 45 nm vs 65 nm
  • L1 cache is 2 times larger, which means more data can be stored in it for quick access
  • Performance in PassMark — Single thread mark about 10% better: 1005 vs 911
  • Performance in PassMark benchmark — CPU mark about 8% higher: 846 vs 785
  • Approximately 6% better performance in Geekbench 4 — Single Core: 296 vs 279
  • Geekbench 4 — Multi-Core performance about 5% better: 514 vs 491
Features
Issue date August 2008 vs October 2007
Maximum frequency 2. 5 GHz vs 2.4 GHz
Maximum core temperature 74.1°C vs 73.3°C
Process 45 nm vs 65 nm
Level 1 cache 64 KB (per core) vs 64 KB
Benchmarks
PassMark — Single thread mark 1005 vs 911
PassMark — CPU mark 846 vs 785
Geekbench 4 — Single Core 296 vs 279
Geekbench 4 — Multi-Core 514 vs 491

Technological process

At the time of the release of «Phenom X3 8450» the technological process was considered advanced, which corresponded to the tolerance standards of 65 nm. It was according to these requirements that this semiconductor crystal was made. Against the background of today’s 14 nm, 65 nm is not impressive. It was the manufacturing process that ultimately was the factor that contributed to the increased thermal package of this quad-core solution compared to its current counterparts.

An ambiguous situation was with the fast memory system integrated in the AMD Phenom X3 8450. The characteristics indicated the presence of a three-level cache, and this was an indisputable advantage of this CPU model. But only its last level was very «small», even by the standards of that time — only 2 MB of total address space for CPU instructions and program data.

The second level has already been divided into 3 equal parts of 512 KB each (in total we get 1.5 MB), which were tied to a specific computing module. The lower level was also divided into 3 equal parts of 128Kb each. Moreover, in the latter case, there was also specialization regarding the type of information stored. Half of the first level cache (64 KB) stored the instructions of the central processing unit, and half the data. Its total volume was equal to 192 Kb.

Test results

In conditions of limited financial resources, one of the main factors in the purchase is the cost of the proposed product. With this in mind, let’s analyze the results and highlight the most interesting devices in several price groups. The data in the presented diagrams is sorted in ascending order of the cost of the CPU.

$40–70

When analyzing current AMD offers for desktop systems, a small number of current positions in general and a very modest range of the most affordable CPUs with a retail price of up to $70 attract attention. In fact, only the single-core Sempron 140 and Athlon II X2 240 are present here, as well as the Athlon II X2 215, which by chance got into the test

The latter is mostly intended for OEM customers, and therefore is not included in AMD’s general price list, but you can still buy it if you want, although it will be more of a tray package, so you will need to buy the cooler separately.

For a home system, choosing a single-core processor is not justified, except in a situation where $ 10-20 is not enough to buy a much more powerful CPU, and there is no way to find them. If we still evaluate the single-core offers of both manufacturers, then at an equal cost, the new Sempron 140 provides noticeably faster performance, and is not inferior to the Celeron 450 in efficiency. The Celeron E3200 looks very worthy in this price group — an excellent option to spend $55 on a processor.

$70-100. The Pentium Dual-Core E6x00 processors complement rather than replace the E5x00 models, which are still somewhat cheaper. The operating frequency of the cores and FSB has increased, which made it more powerful, besides, the presence of virtualization technology, in the light of the possibility of using it to good use in Windows 7, can tip the scales in the direction of the E6300. In this price category, we should note the good performance of the Athlon II X2.

$100-150. AMD solutions have a total advantage in this group. It would be logical for Intel to strengthen the position currently occupied by the Core 2 Duo E7x00. Against the background of 3- and even 4-core AMD models offered for similar money, these processors no longer look so convincing both in multi-threaded computing tasks and in gaming applications.

$150-250

If you plan to spend just over $150, consider Core 2 Quad Q8200 or Phenom II X4 810. With a limited budget, it makes sense to look towards Athlon II X4 620 — a truly popular quad-core
The

Core 2 Duo E8400/E8500 still show very good results in games, but when it comes to rendering or video encoding, they can no longer compete with quad-core chips. On the LGA775 platform, the Core 2 Quad Q9 proved to be worthy550, Q9400, although cheaper, has less cache memory, which is noticeable in games. If you already decide to buy a new LGA1156 platform, then the Core i5-750 will be an excellent choice. And although the older models of AMD Phenom II X4 do not let him break away from himself in computing tasks, they are no match for him in games.

$250-1100. The patrimony of Intel, where AMD does not set foot. There is no intrigue here. Due to a misunderstanding, the Core 2 Duo E8600, which got into this group, can only compete with the rest of its members in terms of power consumption. Although it must be admitted that in Crysis he is on a short footing with the Core 2 Quad Q9650.

The Core i7-860 should be singled out as an exception. At almost half the cost, it is not so much inferior to the Core i7-870 in terms of performance.

Now a few words about the measured CPU power consumption. As expected, the largest bars, symbolizing the maximum values, belong to the top Core i7 for LGA1366. «Eats for three, works for seven.» Not the most economical X58 chipset with a three-channel memory controller also made its contribution

Let’s pay attention to the fact that models for LGA1156 are already noticeably more economical than older brothers and at the same time practically do not differ in speed. AMD processors tend to have higher power consumption in their categories

Dual-core Athlon II X2 chips are already close to Intel chips in this indicator, but they are still slightly behind them.

The positional struggle between the two competitors does not stop, although the overall rate of increase in processor performance is not very impressive. This is eloquently evidenced by the fact that, for example, the Intel Core i7-920, announced a year ago, is still among the leaders of today’s testing. 2009 may not have been the best period for revolutionary changes, but next year we expect manufacturers to seriously increase the speed of the CPU. At least we would love to.

Intel pentium e5200 overclocking • Web cheat sheet for internet entrepreneurs!

Table of Contents

  • 1 Overclocking Low Cost AMD and Intel Processors: THG Guide
    • 1.1 Overclocking Intel Pentium E5200
    • 1.2 Performance and efficiency of Pentium E5200 after overclocking
    • 1.3 Recommended reading

models. Recently, an interesting inexpensive Intel Pentium Dual-Core E5200 processor has appeared on sale. Unlike its predecessors from the Pentium Dual-Core family, this CPU is the first to be made using 45 nm technology and has a second-level cache increased to 2 MB. Such changes actually equate it to the Core 2 Duo E4xxx models, and the Pentium Dual-Core E5200 can be considered as a replacement for these processors.

High overclocking results of older Core 2 Duo E8 on the same Wolfdale core inspire hopes for similar results in 45nm Pentium DC. We will try to find out whether this is true by comparing the overclocking results of three different instances of this processor with air cooling. Let’s also compare this CPU with its predecessor — Core 2 Duo E4400. Since the frequencies for both products are different, at the same time, comparative testing of processors at the same operating frequency will be carried out. Moreover, this will also solve another more global issue, having seen what kind of increase in the performance of the Wolfdale core relative to the old Allendale with the same parameters.

Pentium Dual-Core E5200

So far, the Pentium Dual-Core E5200 is the youngest model based on the 45nm Wolfdale core. Compared to the old Pentium E, its cache memory is exactly twice as large. But the bus remained the same — 800 MHz. The multiplier is quite high at 12. 5, which gives a final frequency of 2500 MHz. Compared to other models based on Wolfdale, this processor is also distinguished by the lack of support for SSE4 instructions.

We received three OEM processors, that is, without any equipment. For buyers of the BOX version, we note that the native cooler is quite simple, however, like other models based on the “cool” Wolfdale core. A similar aluminum radiator has been used since the first Celeron 4xx.

The first processor we had to deal with was made in Costa Rica.

When energy-saving technologies are enabled, the processor’s idle multiplier is reduced to x6, resulting in a total frequency of only 1200 MHz.

But the processor is already at its nominal value:

Overclocking was carried out on the Gigabyte P35-S3 motherboard, the Thermalright Ultra-120 eXtreme cooler with a 120 mm fan was used as cooling. The very first attempt to overclock this instance of the processor was discouraging. Even for 3 GHz, it was already necessary to raise the voltage to almost 1.3 V. And the limit at which the processor somehow started was 3.7 GHz. But, there was no talk of any stable work. A stable maximum, which was achieved, was only a mark of 3.65 GHz. And even for this, it was necessary to raise the voltage above 1.45 V, which is fraught with gradual degradation of the processor. According to the CPU-Z readings, the voltage under load was 1.456 V.

Frankly speaking, the result is not impressive. As it turned out later, even in this mode, the processor could not function for a long time. With such tension, it was enough for literally one day — for this material, after which problems with stability began. Since it was necessary to carry out one more test, the processor frequency had to be reduced first by 50 MHz at a constant voltage. But, after passing S&M and a couple more necessary tests, the processor again began to please with BSODs and other delights of unstable operation. Here is such an instant degradation just before our eyes.

A similar bad experience with this processor forced us to try a few more copies. I couldn’t believe that all Pentium DC E5200s are so terrible in overclocking, but, fortunately, it turned out not to be so.

The other two processors we tested were made in Malaysia.

The first thing that caught our attention was that these specimens had a lower VID. If the unsuccessful processor had 1.15 V, then the CPU data already has 1.1125 V. Both processors easily earned at a frequency of 4 GHz at a voltage of 1.355-1.36 V (according to CPU-Z 1.328 V under load).

But this was not the limit. Both processors reached a threshold of almost 4.2 GHz (4187 MHz) with a supply voltage of 1.45625 V. However, the CPU-Z utility showed slightly lower values ​​- 1.408 V and 1.392 V under load. By the way, the voltage spread in the readings of the utility and those set from the BIOS on this motherboard, as you can see, is large. But at low voltages, this difference is minimal. When the voltage rises, the board does not set discrete voltage values ​​in accordance with the values ​​in the BIOS. This is easy to notice when overclocking and checking for stability in operation. Changing the voltage value by several divisions sometimes leads to some increase in it only with the fourth or fifth step from the voltage table. But, again, judging by the observations, it depends on many factors — both on the processor in the system, and even on the ambient temperature. CPU-Z clearly captures obvious changes in the delta of the supply voltage, and therefore, although it cannot be completely trusted, it can be safely asserted that the voltage is less than 1.45 V.

Of course, three processors are not a global indicator, but, as you can see, the spread of overclocking potential for processors of different batches is quite large. The unsuccessful copy was marked 3814B021 on the cover, and the two successful copies were marked Q827B259, while differing only in the number on the substrate.

If we take a look at modern Core 2 Duo, we can see that the older models initially work on the 333 MHz FSB, even with a CPU frequency of less than 3 GHz. We, at a frequency above 4 GHz, reached only 335 MHz on the bus. Won’t FSB throughput become a bottleneck? For this purpose, we tried overclocking with a lower multiplier in order to achieve a higher bus frequency. But it turned out that these processors have a low FSB Wall. The first copy did not start at all already from 360 MHz, for the other two processors this process started from 390 MHz. With the DDR2 800 MHz memory used, very low multipliers for such processors can no longer be set. It was possible to find out that the FSB Wall is maintained up to 450 MHz. If it is possible to run a processor on a higher bus, then this requires very good memory and a motherboard, and the price of these components will already be several times higher than the cost of the Pentium E5200, which makes no sense. For tests, we settled on a configuration of 11. 5 x 364 MHz, which results in 4186 MHz.

Core 2 Duo E4400

For comparison, a Core 2 Duo E4400 with a nominal frequency of 2 GHz was selected. FSB frequency 200 MHz, L2 cache size — 2 MB.

The maximum overclock of this processor is 3.35 GHz, but for stable operation at this frequency, we had to use a cooler with a 2000 rpm fan with good case ventilation. I used Arctic Cooling MX-2 thermal paste.

Overclocking Intel Pentium E5200

As in the case of AMD, the manufacturing technology of Intel processors is well understood, so the limitations of most CPU samples are also known. For 45nm processors on the Core 2 microarchitecture, 1.45V CPU voltage is considered the maximum that the processor can withstand for many weeks or several months. We’ve already seen a «office» system that, after overclocking at 1.45V, lost most of its overclocking potential after three months. This line of processors continues to scale well even at higher voltage levels, but comes with cooling and longevity issues.

We wanted our overclock to last at least a few months (let’s hope we get 1-3 years of reliable operation), so we chose 1.40V under CPU full load and 1.43V idle . Again, we knew the recommended maximum voltage level, so we didn’t go with the typical practice of increasing the voltage in small increments until the system was stable at a desired frequency that was otherwise unstable.

The screenshot below shows our final settings: P45 Diamond users should be warned that these memory settings require a jumper change, which we’ll talk about a bit later.

With the exception of Extreme Edition processors, Intel does not allow you to increase the multiplier above the standard one. Our processor used a 12. 5x multiplier with a 200 MHz FSB (FSB-800 due to QDR technology), which gave 2.50 GHz, with the only way to overclock was to increase the FSB frequency. Knowing that the Pentium E5200 can be overclocked to 3.60 GHz with air cooling, we first tried to set the next standard FSB frequency of 266 MHz Intel processors (FSB-1066). The system booted normally and passed the 40-minute stress test with Utility Prime95 v25.8 build 4 . According to CPU-Z, the CPU voltage dropped to 1.38 V under load, so we increased the BIOS setting “CPU Voltage (V)” (second screenshot from the top) to 1.4132 V. As a result, we got 1.424 V at idle and 1.408 In under full load. The

MSI P45 Diamond supports most of the FSB settings, but we knew that the chipset would be most stable at close to the stock Intel FSB frequencies. Our next attempt at FSB-1333 (333 MHz) resulted in the loss of normal boot, i.e. either a black screen or a system reset after a POST test. We had a successful boot most of the time at 320MHz FSB, so we began to believe that the problem was with bootstrap.

The P45 Diamond board does not have a «bootstrap» setting in the BIOS, but there are two jumpers to change the detected bus frequency. Judging by the documentation, moving both jumpers from position 1-2 to position 2-3 would allow a processor with a 200 MHz FSB to be identified as a version with a 333 MHz FSB. We followed the instructions and then solved the problem with the memory multiplier and boot failures.

The system now booted at 333 MHz, but extended stress tests showed that it was not completely stable. To keep the system running at close to the standard 333 MHz FSB, we lowered the CPU multiplier to 12x.

The 12 x 333 MHz CPU frequency was found to be stable — the system withstood the Prime 95 test for more than an hour. We slightly increased the FSB frequency to 338 MHz, after which we also got stable operation. We kept increasing the FSB and testing the stability of the system until we found that the maximum stable CPU frequency was 4.1 GHz at 12 x 342 MHz FSB.

We set the memory voltage to 1.65, recommended by the manufacturer, after which we decided to squeeze the maximum out of its performance with an impressive CPU overclock of 64%. However, Intel’s 2x memory multiplier limit on the FSB meant that we couldn’t set the clock above 684 MHz, which is the efficient mode of operation for DDR3-1368.

We started looking for minimum memory latency to improve response time. We used the CD version of Memtest86+ v1.70 to test stability in the same way that Prime95 used to test CPU stability. Since the memory controller is part of the northbridge, we experimented with increasing its “MCH Voltage” (second screenshot from the top) until we found that increasing the voltage above 1.352V did not provide further improvements.

Pentium E5200 performance and efficiency after overclocking

Pentium E5200 test configuration
Normal mode Overclocking
CPU Intel Pentium E5200 2. 50 GHz, 2 MB L2 cache, 1.26 V 4.11 GHz, (12x 342 MHz), 1.40V
Memory DDR3-800 CAS 6-6-6-15, 1.50V DDR3-1368 CAS 5-5-5-12, 1.65V
Motherboard MSI P45 Diamond LGA-775, P45/ICh20R, BIOS 1.5 (10/10/2009)
Video card Zotac GeForce GTX260², 576MHz GPU, 999MHz Shaders, 896MB GDDR3-2484
Hard disk Western Digital VelociRaptor WD30000HLFS, 300 MB, 10,000 rpm, 16 MB cache
Sound card Integrated HD Audio
Network Embedded 1 Gbps
Software
Operating system Microsoft Windows Vista Ultimate x64 SP1
Video card GeForce 182. 08 Desktop

Overclocking the CPU by 64% resulted in a 63% and 64% improvement in Sandra’s arithmetic and multimedia tests, respectively.

Optimized memory settings resulted in improved memory bandwidth Sandra Memory Bandw >

At 1.40 V, an overclocked Pentium E5200 resulted in a 34% increase in power consumption.

A 64% increase in performance with an average increase in power consumption of 34%, the overclocked E5200 improved efficiency by 22% over stock frequencies.

CONTENTS
Overclocking has long allowed owners of cheap processors to get performance at the level of more expensive models for free. Indeed, it is quite pleasant to buy a processor of the lower price level, and then enjoy top-end performance. We decided to take cheap dual-core and quad-core processors from AMD and Intel, and then overclock them to the limit, while at the same time ensuring a fairly long service life. Of course, we have described everything in detail, so our guide will be useful for beginner overclockers.
  • Introduction
  • Assessing Risks
  • Understanding terminology
  • Accessories
  • Cooling
  • General accessories
  • Overclocking AMD Phenom II X2 550
  • Phenom II X2 550 performance and efficiency overclocked
  • Overclocking AMD Phenom II X4 955
  • Phenom II X4 955 performance and efficiency overclocked
  • Overclocking Intel Pentium E5200
  • Pentium E5200 performance and efficiency after overclocking
  • Overclocking Intel Core 2 Quad Q8200
  • Performance and efficiency of Core 2 Quad Q8200 overclocked
  • Recommendations

Reviews of overclocking AMD and Intel processors in the THG Expert Club [ 38 reviews]

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Boxed processor Intel Pentium Dual-Core E5200 was purchased at mindfactory.de for 63 Euros. This is currently the cheapest 45nm Intel processor.

* Processor: Intel Pentium Dual-Core E5200 (M0)
* Motherboards — Gigabyte GA-EG31m-S2 rev.1.0 (BIOS F1) & XFX MG-630I-7109;
* Memory — 2×1024 MB MDT PC6400;
* Video card — Sapphire AMD Radeon HD3870;
* Hard drive — Samsung HD250HJ;
* Power supply — BeQuiet P5 470W (470W).

Cooling system:
* CPU waterblock: 1A-Cooling HV2;
* XFX motherboard water block MG-630I-7109: EK NF4 rev 1.1;
* CBO Radiator: Alphacool 240mm
* Pump — Laing DDC;
* Thermal grease — Zalman CSL850;

The first start on the XFX MG-630I-7109 went without problems, the processor was correctly recognized, even despite the old BIOS version.

At the default voltage of 1.136 Volts, the E5200 mastered 3177 MHz, while the maximum temperatures of both cores were 50 ° C / 49°C after 20 minutes OCCT v2.0.0a as measured by monitoring. I am usually guided by the following opinion regarding the nominal voltage of processors, it is based on the fact that the lower the nominal voltage, the better the overclocking potential. I also hoped for a high multiplier and low FSB, I thought that in this way, I would exclude the possibility that I would be «stuck» in the capabilities of the motherboard, memory or FSB Wall.

. but unfortunately the trouble came from where it was not expected. both motherboards that I had at my disposal did not work correctly with an increase in voltage to the central processor, i.e. with _any_ voltage change in the direction different from the default one, the system did not stupidly start. This was the end of the run. I hope that manufacturers will fix this bug in new BIOS versions. On the whole, I liked the E5200 much more than the slightly cheaper E2160, which barely managed 3GHz at 1.