I5 2400 vs i5 2500k: Intel Core i5-2400 vs i5-2500K

Intel Core i5-2400 vs Intel Core i5-2500K: What is the difference?

32points

Intel Core i5-2400

36points

Intel Core i5-2500K

Comparison winner

vs

64 facts in comparison

Intel Core i5-2400

Intel Core i5-2500K

Why is Intel Core i5-2400 better than Intel Core i5-2500K?

Why is Intel Core i5-2500K better than Intel Core i5-2400?

  • 9.68% faster CPU speed?
    4 x 3.4GHzvs4 x 3.1GHz
  • 10.1% higher PassMark result?
    6387vs5801
  • 0.3GHz higher turbo clock speed?
    3.7GHzvs3.4GHz
  • Has an unlocked multiplier?
  • 8.75% higher PassMark result (single)?
    1864vs1714
  • 20.32% higher PassMark result (overclocked)?
    8113vs6743
  • 16.0 more performance per watt?
    96.0vs80.0
  • 2 higher clock multiplier?
    33vs31

Which are the most popular comparisons?

Intel Core i5-2400

vs

Intel Core i5-3470

Intel Core i5-2500K

vs

Intel Core i5-3470

Intel Core i5-2400

vs

Intel Core i3-6100

Intel Core i5-2500K

vs

Intel Core i5-2500

Intel Core i5-2400

vs

Intel Core i3-3220

Intel Core i5-2500K

vs

Intel Core i7-3770K

Intel Core i5-2400

vs

Intel Core i3-4130

Intel Core i5-2500K

vs

Intel Core i7-3770

Intel Core i5-2400

vs

Intel Core i7-3770

Intel Core i5-2500K

vs

Intel Core i5-3570

Intel Core i5-2400

vs

Intel Core i7-2600

Intel Core i5-2500K

vs

Intel Core i5-2500S

Intel Core i5-2400

vs

Intel Core i5-4570

Intel Core i5-2500K

vs

Intel Core i5-6500

Intel Core i5-2400

vs

Intel Core i3-10100

Intel Core i5-2500K

vs

Intel Core i7-2600

Intel Core i5-2400

vs

Intel Core i3-3240

Intel Core i5-2500K

vs

Intel Core i5-2550K

Intel Core i5-2400

vs

Intel Core i5-3570

Price comparison

User reviews

Overall Rating

Intel Core i5-2400

3 User reviews

Intel Core i5-2400

5. 3/10

3 User reviews

Intel Core i5-2500K

1 User reviews

Intel Core i5-2500K

9.0/10

1 User reviews

Features

Value for money

6.7/10

3 votes

10.0/10

1 votes

Gaming

2.0/10

3 votes

10.0/10

1 votes

Performance

4.0/10

3 votes

10.0/10

1 votes

Reliability

4.7/10

3 votes

10.0/10

1 votes

Energy efficiency

5.0/10

3 votes

10.0/10

1 votes

Performance

1.CPU speed

4 x 3.1GHz

4 x 3.4GHz

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

2.CPU threads

More threads result in faster performance and better multitasking.

3.turbo clock speed

3.4GHz

3.7GHz

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

4.Has an unlocked multiplier

✖Intel Core i5-2400

✔Intel Core i5-2500K

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

5.L2 cache

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

6.L3 cache

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

7.L1 cache

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

8. L2 core

0.25MB/core

0.25MB/core

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

9.L3 core

1.5MB/core

1.5MB/core

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

Memory

1.RAM speed

1333MHz

1333MHz

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

2.maximum memory bandwidth

21GB/s

21GB/s

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

3.DDR memory version

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

4.memory channels

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

5. maximum memory amount

The maximum amount of memory (RAM) supported.

6.bus transfer rate

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

7.Supports ECC memory

✖Intel Core i5-2400

✖Intel Core i5-2500K

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

8.eMMC version

Unknown. Help us by suggesting a value. (Intel Core i5-2400)

Unknown. Help us by suggesting a value. (Intel Core i5-2500K)

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

9.bus speed

Unknown. Help us by suggesting a value. (Intel Core i5-2400)

Unknown. Help us by suggesting a value. (Intel Core i5-2500K)

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

Benchmarks

1.PassMark result

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

2.PassMark result (single)

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

3.Geekbench 5 result (multi)

Unknown. Help us by suggesting a value. (Intel Core i5-2500K)

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

4.Cinebench R20 (multi) result

Unknown. Help us by suggesting a value. (Intel Core i5-2400)

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

5.Cinebench R20 (single) result

Unknown. Help us by suggesting a value. (Intel Core i5-2400)

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

6.Geekbench 5 result (single)

Unknown. Help us by suggesting a value. (Intel Core i5-2500K)

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

7.Blender (bmw27) result

Unknown. Help us by suggesting a value. (Intel Core i5-2400)

Unknown. Help us by suggesting a value. (Intel Core i5-2500K)

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

8.Blender (classroom) result

Unknown. Help us by suggesting a value. (Intel Core i5-2400)

Unknown. Help us by suggesting a value. (Intel Core i5-2500K)

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

9.performance per watt

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

Features

1.uses multithreading

✖Intel Core i5-2400

✖Intel Core i5-2500K

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

2.Has AES

✔Intel Core i5-2400

✔Intel Core i5-2500K

AES is used to speed up encryption and decryption.

3. Has AVX

✔Intel Core i5-2400

✔Intel Core i5-2500K

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

4.SSE version

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

5.Has F16C

✖Intel Core i5-2400

✖Intel Core i5-2500K

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

6.bits executed at a time

Unknown. Help us by suggesting a value. (Intel Core i5-2400)

Unknown. Help us by suggesting a value. (Intel Core i5-2500K)

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

7.Has MMX

✔Intel Core i5-2400

✔Intel Core i5-2500K

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

8.Has TrustZone

✖Intel Core i5-2400

✖Intel Core i5-2500K

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

9.front-end width

Unknown. Help us by suggesting a value. (Intel Core i5-2400)

Unknown. Help us by suggesting a value. (Intel Core i5-2500K)

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

Price comparison

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Which are the best CPUs?

i5-2400 vs i5-2500K — Fortnite Battle Royale with GTX 1050 Benchmarks 1080p, 1440p, Ultrawide, 4K Comparison

GTX 1050 with

Intel Core i5-2400 @ 3.10GHz

Fortnite Battle Royale

GTX 1050 with

Intel Core i5-2500K @ 3.30GHz


i5-2400
i5-2500K

Multi-Thread Performance

5953 Pts

6477 Pts

Single-Thread Performance

1747 Pts

1897 Pts

Fortnite Battle Royale

i5-2400 vs i5-2500K in Fortnite Battle Royale using GTX 1050 — CPU Performance comparison at Ultra, High, Medium, and Low Quality Settings with 1080p, 1440p, Ultrawide, 4K resolutions

i5-2400
i5-2500K


Ultra Quality
Resolution Frames Per Second
1080p

22. 6 FPS

1080p

24.2 FPS

1440p

14.7 FPS

1440p

15.8 FPS

2160p

7.9 FPS

2160p

8.4 FPS

w1440p

12.1 FPS

w1440p

12.9 FPS

High Quality
Resolution Frames Per Second
1080p

44.0 FPS

1080p

46.7 FPS

1440p

30.2 FPS

1440p

32.2 FPS

2160p

17.5 FPS

2160p

18.4 FPS

w1440p

25.5 FPS

w1440p

26.9 FPS

Medium Quality
Resolution Frames Per Second
1080p

65. 4 FPS

1080p

69.2 FPS

1440p

45.7 FPS

1440p

48.6 FPS

2160p

27.0 FPS

2160p

28.5 FPS

w1440p

38.8 FPS

w1440p

41.0 FPS

Low Quality
Resolution Frames Per Second
1080p

108.2 FPS

1080p

114.3 FPS

1440p

76.7 FPS

1440p

81.3 FPS

2160p

46.1 FPS

2160p

48.5 FPS

w1440p

65.5 FPS

w1440p

69.0 FPS

i5-2400
    i5-2500K

      Compare i5-2400 vs i5-2500K specifications

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      Intel Core i5-2400 Benchmarks — Geekbench Browser

      Intel Core i7-2600K

      3. 4 GHz (4 cores)

      3121

       

      Intel Core i7-2700K

      3.5 GHz (4 cores)

      3031

       

      Intel Core i5-2550K

      3.4 GHz (4 cores)

      2916

       

      Intel Xeon E3-1290

      3.6 GHz (4 cores)

      2845

       

      Intel Xeon E3-1270

      3.4 GHz (4 cores)

      2802

       

      Intel Core i7-2600

      3.4 GHz (4 cores)

      2737

       

      Intel Xeon E3-1245

      3.3 GHz (4 cores)

      2650

       

      Intel Core i5-2500K

      3.3 GHz (4 cores)

      2622

       

      Intel Xeon E3-1235

      3.2 GHz (4 cores)

      2611

       

      Intel Xeon E3-1240

      3.3 GHz (4 cores)

      2609

       

      Intel Xeon E3-1230

      3.2 GHz (4 cores)

      2556

       

      Intel Core i7-2960XM

      2. 7 GHz (4 cores)

      2496

       

      Intel Core i7-2600S

      2.8 GHz (4 cores)

      2329

       

      Intel Core i7-2920XM

      2.5 GHz (4 cores)

      2267

       

      Intel Core i7-2860QM

      2.5 GHz (4 cores)

      2255

       

      Intel Core i5-2500

      3.3 GHz (4 cores)

      2211

       

      Intel Xeon E3-1265L

      2.4 GHz (4 cores)

      2187

       

      Intel Core i7-2820QM

      2.3 GHz (4 cores)

      2180

       

      Intel Core i5-2380P

      3.1 GHz (4 cores)

      2180

       

      Intel Core i5-2450P

      3.2 GHz (4 cores)

      2168

       

      Intel Xeon E3-1220

      3.1 GHz (4 cores)

      2157

       

      Intel Xeon E3-1225

      3.1 GHz (4 cores)

      2148

       

      Intel Core i7-2760QM

      2. 4 GHz (4 cores)

      2138

       

      Intel Core i5-2400

      3.1 GHz (4 cores)

      2106

       

      Intel Core i5-2320

      3.0 GHz (4 cores)

      2041

       

      Intel Core i5-2310

      2.9 GHz (4 cores)

      1995

       

      Intel Core i7-2720QM

      2.2 GHz (4 cores)

      1994

       

      Intel Xeon E3-1260L

      2.4 GHz (4 cores)

      1974

       

      Intel Core i5-2300

      2.8 GHz (4 cores)

      1956

       

      Intel Core i7-2670QM

      2.2 GHz (4 cores)

      1925

       

      Intel Core i7-2635QM

      2.0 GHz (4 cores)

      1874

       

      Intel Core i7-2630QM

      2.0 GHz (4 cores)

      1870

       

      Intel Core i5-2405S

      2.5 GHz (4 cores)

      1848

       

      Intel Core i5-2500T

      2. 3 GHz (4 cores)

      1832

       

      Intel Core i7-2675QM

      2.2 GHz (4 cores)

      1807

       

      Intel Core i5-2400S

      2.5 GHz (4 cores)

      1782

       

      Intel Core i5-2500S

      2.7 GHz (4 cores)

      1694

       

      Intel Core i3-2125

      3.3 GHz (2 cores)

      1372

       

      Intel Core i3-2130

      3.4 GHz (2 cores)

      1295

       

      Intel Core i7-2640M

      2.8 GHz (2 cores)

      1277

       

      Intel Core i5-2390T

      2.7 GHz (2 cores)

      1259

       

      Intel Core i3-2120

      3.3 GHz (2 cores)

      1257

       

      Intel Core i7-2620M

      2.7 GHz (2 cores)

      1253

       

      Intel Core i5-2540M

      2.6 GHz (2 cores)

      1210

       

      Intel Core i3-2100

      3. 1 GHz (2 cores)

      1200

       

      Intel Core i3-2105

      3.1 GHz (2 cores)

      1165

       

      Intel Core i5-2520M

      2.5 GHz (2 cores)

      1159

       

      Intel Xeon E3-1220L

      2.2 GHz (2 cores)

      1135

       

      Intel Core i5-2435M

      2.4 GHz (2 cores)

      1130

       

      Intel Core i5-2450M

      2.5 GHz (2 cores)

      1119

       

      Intel Core i5-2430M

      2.4 GHz (2 cores)

      1084

       

      Intel Core i5-2410M

      2.3 GHz (2 cores)

      1067

       

      Intel Core i3-2100T

      2.5 GHz (2 cores)

      1047

       

      Intel Core i5-2415M

      2.3 GHz (2 cores)

      1041

       

      Intel Core i3-2120T

      2.6 GHz (2 cores)

      1036

       

      Intel Core i7-2710QE

      2. 1 GHz (4 cores)

      984

       

      Intel Pentium G850

      2.9 GHz (2 cores)

      975

       

      Intel Pentium G870

      3.1 GHz (2 cores)

      962

       

      Intel Core i7-2637M

      1.7 GHz (2 cores)

      961

       

      Intel Core i7-2677M

      1.8 GHz (2 cores)

      954

       

      Intel Pentium G860

      3.0 GHz (2 cores)

      954

       

      Intel Pentium G645

      2.9 GHz (2 cores)

      940

       

      Intel Pentium G840

      2.8 GHz (2 cores)

      937

       

      Intel Core i5-2557M

      1.7 GHz (2 cores)

      899

       

      Intel Core i3-2370M

      2.4 GHz (2 cores)

      895

       

      Intel Core i7-2617M

      1.5 GHz (2 cores)

      871

       

      Intel Core i3-2350M

      2. 3 GHz (2 cores)

      852

       

      Intel Pentium G640

      2.8 GHz (2 cores)

      850

       

      Intel Pentium G630

      2.7 GHz (2 cores)

      847

       

      Intel Pentium G620

      2.6 GHz (2 cores)

      827

       

      Intel Celeron G550

      2.6 GHz (2 cores)

      826

       

      Intel Core i3-2312M

      2.1 GHz (2 cores)

      826

       

      Intel Core i3-2348M

      2.3 GHz (2 cores)

      818

       

      Intel Core i3-2330M

      2.2 GHz (2 cores)

      817

       

      Intel Pentium G645T

      2.5 GHz (2 cores)

      806

       

      Intel Core i3-2328M

      2.2 GHz (2 cores)

      804

       

      Intel Core i3-2310M

      2.1 GHz (2 cores)

      795

       

      Intel Pentium G630T

      2. 3 GHz (2 cores)

      795

       

      Intel Celeron G530

      2.4 GHz (2 cores)

      781

       

      Intel Pentium G620T

      2.2 GHz (2 cores)

      777

       

      Intel Core i5-2467M

      1.6 GHz (2 cores)

      762

       

      Intel Celeron G540T

      2.1 GHz (2 cores)

      758

       

      Intel Celeron G540

      2.5 GHz (2 cores)

      750

       

      Intel Pentium B970

      2.3 GHz (2 cores)

      737

       

      Intel Pentium G640T

      2.4 GHz (2 cores)

      737

       

      Intel Pentium B980

      2.4 GHz (2 cores)

      735

       

      Intel Core i5-2537M

      1.4 GHz (2 cores)

      669

       

      Intel Pentium B960

      2.2 GHz (2 cores)

      666

       

      Intel Pentium B950

      2. 1 GHz (2 cores)

      659

       

      Intel Pentium B940

      2.0 GHz (2 cores)

      628

       

      Intel Core i3-2377M

      1.5 GHz (2 cores)

      618

       

      Intel Celeron B840

      1.9 GHz (2 cores)

      597

       

      Intel Core i3-2375M

      1.5 GHz (2 cores)

      594

       

      Intel Core i3-2365M

      1.4 GHz (2 cores)

      573

       

      Intel Celeron B830

      1.8 GHz (2 cores)

      570

       

      Intel Core i3-2367M

      1.4 GHz (2 cores)

      560

       

      Intel Celeron B820

      1.7 GHz (2 cores)

      550

       

      Intel Core i3-2357M

      1.3 GHz (2 cores)

      523

       

      Intel Celeron B810

      1.6 GHz (2 cores)

      522

       

      Intel Celeron B815

      1. 6 GHz (2 cores)

      514

       

      Intel Celeron 887

      1.5 GHz (2 cores)

      501

       

      Intel Celeron B800

      1.5 GHz (2 cores)

      489

       

      Intel Celeron 877

      1.4 GHz (2 cores)

      442

       

      Intel Pentium 997

      1.6 GHz (2 cores)

      438

       

      Intel Pentium 987

      1.5 GHz (2 cores)

      428

       

      Intel Pentium 967

      1.3 GHz (2 cores)

      427

       

      Intel Celeron G465

      1.9 GHz (1 core)

      413

       

      Intel Celeron G460

      1.8 GHz (1 core)

      385

       

      Intel Celeron 847

      1.1 GHz (2 cores)

      338

       

      Intel Celeron 847E

      1.1 GHz (2 cores)

      338

       

      Sandy Bridge, Part 4: Core i5-2400, i5-2500K and i7-2600K CPUs

      The Core i5-2400, i5-2500K, and i7-2600K are the top models in Intel’s new Sandy Bridge CPU lineup. We compare them against other current Intel offerings as well as AMD’s best quad and hex core chips. Our analysis shows they how compare in performance, cost, and energy efficiency.

      January 24, 2011 by Lawrence Lee

      Product

      Core i5-2400
      LGA1155 Processor

      Core i5-2500K
      LGA1155 Processor

      Core i7-2600K
      LGA1155 Processor

      Manufacturer

      Intel

      Street Price

      US$195

      US$225

      US$330

      In previous articles we discussed Intel’s Sandy Bridge architecture, the new integrated graphics chip, and the budget H67 and enthusiast P67 chipset/motherboards. Today we take a look at the real stars of the show, the CPUs themselves. We have three quad cores under scrutiny, the Core i5-2400, i5-2500K, and the flagship i7-2600K, with street prices of US$195, US$225, and US$330 respectively. The i7-2600K is a bit of a departure for Intel in that its price isn’t ridiculously inflated. In the past when new Intel chips were released, the fastest model would usually be priced two to three times higher than the next chip down the line.

      The main differences between the three chips are that the “K” series feature a fully unlocked multiplier for easy overclocking, and the i7 has Hyper-threading (eight threads total rather than four). All of them support Turbo Boost, which by default overclocks by 100 MHz when all four cores are active and 400 MHz when only one core is at work. So none of these CPUs ever actually run at their rated clock speed. AMD has a similar featured called “Turbo Core” on their Phenom II X6 line.

      Desktop CPU Comparison (US$160~$350)

      Model

      Speed

      L3
      Cache

      TDP

      Features

      Street Price

      Phenom II X4
      965 BE

      3. 4 GHz

      6MB

      125W

      UL

      $165

      Phenom II X6
      1055T

      2.8 GHz

      6MB

      125W

      TC

      $180

      Phenom II X4
      970 BE

      3.5 GHz

      6MB

      125W

      TC,UL

      $185

      Phenom II X4
      975 BE

      3.6 GHz

      6MB

      125W

      UL

      $195

      Phenom II X6
      1075T

      3. 0 GHz

      6MB

      125W

      TC

      $200

      Phenom II X6
      1090T BE

      3.2 GHz

      6MB

      125W

      TC,UL

      $230

      Phenom II X6
      1100T BE

      3.3 GHz

      6MB

      125W

      TC,UL

      $270

      Core i5-661

      3.33 GHz

      4MB

      87W

      HT,TB

      $200

      Core i5-660

      3. 33 GHz

      4MB

      73W

      HT,TB

      $220

      Core i5-680

      3.6 GHz

      4MB

      73W

      HT,TB

      $300

      Core i5-750

      2.66 GHz

      8MB

      95W

      TB

      $200

      Core i5-760

      2.8 GHz

      8MB

      95W

      TB

      $205

      Core i7-870

      2. 93 GHz

      8MB

      95W

      HT,TB

      $290

      Core i5-2300

      2.8 GHz

      6MB

      95W

      TB

      $185

      Core i5-2400

      3.1 GHz

      6MB

      95W

      TB

      $195

      Core i5-2500

      3.3 GHz

      8MB

      95W

      TB

      $210

      Core i5-2500K

      3. 3 GHz

      8MB

      95W

      TB,UL

      $225

      Core i5-2600

      3.4 GHz

      8MB

      95W

      TB

      $300

      Core i7-2600K

      3.4 GHz

      8MB

      95W

      HT,TB,UL

      $330

      Core i7-950

      3.06 GHz

      8MB

      130W

      HT,TB

      $295

      Core i7-965 XE

      3. 2 GHz

      8MB

      130W

      HT,TB

      N/A

      Tested processors are in bold.
      UL = unlocked multiplier, HT = Hyper-threading,
      TB = Turbo Boost, TC = Turbo Core

      So where do the new processors fall in the big scheme of things? If you take into account CPU pricing alone, it appears that the i5-2400 is destined to do battle with AMD’s slower hex cores and fastest quads, and Intel’s own Core i5-750/760. The i5-2500K isn’t much more expensive, hanging with the same crowd plus the Phenom II X6 1090T Black Edition, which also has an unlocked multiplier. The i7-2600K is in the same league as LGA1156’s i7-870 and the low end offerings for LGA1366.

      To give you a better idea of what the different CPUs will actually cost you, we added the prices of a typical motherboard to the processors we’re comparing today. The prices were taken from all compatible Intel/Asus/Gigabyte/MSI DDR3 microATX and ATX motherboards at Newegg and averaged out to US$103 for AM3, US$117 for LGA1156, and US$147 for LGA1155. Adding this cost changes things up a bit. For example, as a platform, the X4 975 is actually on average US$44 cheaper than the i5-2400. Keep this in mind later on when we judge the value of each Sandy Bridge CPU.

      TEST METHODOLOGY

      Common Test Platform:

      • Asus EN9400GT Silent Edition
        graphics card – 512MB
      • Western Digital VelociRaptor
        hard drive – 300GB, 10,000RPM, 16MB cache
      • Seasonic
        SS-400ET
        ATX power supply
      • Microsoft
        Windows 7
        operating system – Ultimate, 64-bit
      • Nvidia
        Forceware 266.58
        graphics driver
      • Scythe Kabuto
        CPU cooler – stock fan at 800RPM

      Intel LGA1156:

      • Intel Core i5-870
        processor – 2. 93 GHz, 45nm, 95W
      • Intel Core i5-750
        processor – 2.66 GHz, 45nm, 95W
      • Intel Core i5-661 processor
        – 3.33 GHz, 32nm, 87W
      • Asus P7H55D-M EVO motherboard
        – H55 chipset
      • Corsair
        XMS3
        memory 2x2GB, DDR3-1600 @ 1333MHz, 9-9-9-24

      Intel LGA1366:

      • Intel Core i7-965 Extreme Edition
        processor – 3.20 GHz, 45nm, 130W
      • ASUS P6X58D Premium motherboard
        – X58 chipset
      • Corsair
        Dominator
        memory 3x2GB, DDR3-1600 @ 1333MHz, 9-9-9-24

      Intel LGA1155:

      • Intel Core i5-2400
        processor – 3.1 GHz, 32nm, 95W
      • Intel Core i5-2500K
        processor – 3.3 GHz, 32nm, 95W
      • Intel Core i7-2600K processor
        – 3.4 GHz, 32nm, 95W
      • Asus P8P67 motherboard
        – P67 chipset
      • Corsair
        XMS3
        memory 2x2GB, DDR3-1600 @ 1333MHz, 9-9-9-24

      AMD AM3:

      • AMD Phenom II X4 965 Black Edition
        processor – 3. 4 GHz, 45nm, 125W
      • AMD Phenom II X4 975 Black Edition
        processor – 3.6 GHz, 45nm, 125W
      • AMD Phenom II X6 1100T Black Edition
        processor – 3.3 GHz, 45nm, 125W
      • Asus M4A78T-E motherboard
        – 790GX chipset
      • Corsair
        XMS3
        memory 2x2GB, DDR3-1600 @ 1333MHz, 9-9-9-24

      Measurement and Analysis Tools

      • CPU-Z
        to monitor CPU frequency and voltage.
      • SpeedFan
        to monitor CPU temperatures.
      • Real Temp
        to monitor CPU temperatures.
      • CPUBurn
        processor stress software.
      • Prime95
        processor stress software.
      • Media Player
        Classic – Home Cinema
        to play x264/MKV video using DXVA.
      • Adobe
        Photoshop CS2
        as an image manipulation benchmark.
      • Eset NOD32 as
        an anti-virus benchmark.
      • WinRAR as an
        archiving benchmark.
      • iTunes
        an audio encoding benchmark.
      • TMPGEnc
        Xpress
        as a video encoding benchmark.
      • HandBrake as a
        video encoding benchmark
      • Seasonic
        Power Angel
        AC power meter, used to measure the power consumption
        of the system.
      • Custom-built, four-channel variable DC power supply, used to power
        and regulate the CPU fan.

      Timed Benchmark Test Details

      • NOD32: In-depth virus scan of a folder containing 32 files of varying
        size with many RAR and ZIP archives.
      • WinRAR: Archive creation with a folder containing 68 files of varying
        size (less than 50MB).
      • iTunes: Conversion of an MP3 file to AAC.
      • TMPGEnc: Encoding a XVID AVI file with VC-1.
      • HandBrake: Encoding a XVID AVI file with H.264.
      • Photoshop: Image manipulation using a variety of filters, a derivation
        of Driver Heaven’s Photoshop
        Benchmark V3 (test image resized to 4500×3499).

      1080p | 24fps | ~14mbps

      x264 1080p: Spaceship is a 1080p x264 clip encoded from the
      Blu-ray version of an animated short film. It features a hapless robot
      trying to repair a lamp on a spaceship.

      Testing Procedures

      Our main test procedure is a series of benchmarks, timed tests of real-world applications. System power consumption (AC) is measured with a Seasonic Power Angel during these tests (an average of the first 10~15 seconds) as well as at idle, during playback of a 1080p H.264 encoded clip, and during full CPU load. To stress the CPU we use either Prime95 (large FFTs setting) or CPUBurn depending on which
      produces higher system power consumption. The AC system power is then later converted to DC.

      Certain services and features like Superfetch and System Restore are disabled
      to prevent them from affecting our results. Aero glass is left enabled if supported.
      We also make note if energy saving features like Cool’n’Quiet and SpeedStep
      do not function properly.

      Estimating DC Power

      The following power efficiency figures were obtained for the
      Seasonic SS-400ET used in our test system:

      Seasonic SS-400ET Test Results

      DC Output (W)

      21. 2

      41.6

      60.2

      81.9

      104.7

      124.1

      145.2

      AC Input (W)

      32.0

      58.0

      78.0

      102.0

      128.0

      150.0

      175.0

      Efficiency

      66.3%

      71.7%

      77.1%

      80.3%

      81.8%

      82.8%

      83.0%

      This data is enough to give us a very good estimate of DC demand in our
      test system. We extrapolate the DC power output from the measured AC power
      input based on this data. We won’t go through the math; it’s easy enough
      to figure out for yourself if you really want to.

      Operating Voltages

      Before we jump into our test results, please note the operating voltages
      of the processors tested today as sort of a disclaimer. Different samples of
      the same processor often run at slightly different operating voltages which
      can affect energy efficiency. Different motherboard models do not apply the exact same core voltage either.

      TEST RESULTS

      System Power

      Our first test is low load system power consumption, at idle and during video playback. While some users work their systems hard, many PCs are often left idling or used for mundane tasks like watching video or surfing the web for hours on end.

      In his area, Sandy Bridge shows a slight improvement over Lynnfield/Clarkdale chips, using about 4W less than most of the LGA1156 lineup idling, and about the same power when playing video.

      Power consumption on a theoretical full load was also impressive, about equivalent to that of the Core i5-750 and only cleanly beaten by the i5-661 and i5-680, a pair of dual core processors.

      Thermals

      For our thermal test, each CPU was paired with the Scythe Kabuto with its stock
      fan spinning at ~800 rpm. AMD temperatures were taken using the motherboard’s
      sensor via SpeedFan and Intel temperatures were taking with RealTemp.

      *Direct temperature comparisons between Intel and AMD processors should not be made.

      Given their superb energy efficiency we are hardly surprised to find that the 2400/2500K/2600K all run much cooler than the LGA1156 and LGA1366 Core i7’s.

      PERFORMANCE

      To test performance, we pit the processors against one another in a short series of timed tasks using real world applications. Power consumption was measured when applicable.

      Not content to take the energy efficiency crown, the Sandy Bridge processors dominated Photoshop by a more than a healthy margin. The dual core Clarkdale i5-680 chip did very well in this test, as did Nehalem’s Core i7-965, but both were felled by the new arrivals.

      The NOD32 isn’t a threaded test, favoring high clock speeds, but with Turbo Boost, the newcomers edge out the competition. The Phenom II X4 975 and X6 1100T put up a fairly good fight, but with unflattering power consumption. They pulled 50~60% more wattage than Sandy Bridge.

      In WinRAR, Sandy Bridge beat out all comers once again, and did so with power consumption close to that of dual core i5-661/680.

      Our iTunes encoding test favored the high speed Core i5 dual core chips and yet the Sandy Bridge offerings still won out in the end.

      Video Encoding

      Our video encoding benchmarks are representative of how well the CPUs respond to multithreaded applications. This is where quad and hex core processors typically shine.

      In TMPGEnc, Sandy Bridge pulled out yet another victory, but with slimmer margins in both time to completion and energy efficiency.

      In our last test, the three new high-end Sandy Bridge chips finally met some stiff competition from AMD. HandBrake is one of the few applications that utilizes all of the 1100T’s six threads, giving very good results. Unfortunately, it also used about 50W more power.

      Overall Performance

      The Core i5-2400, i5-2500K, and i7-2600K dominated all portions of our test suite, an impressive feat considering there were both threaded and unthreaded tasks involved. The three completed our test suite in 74~82% of the time required by AMD’s flagship Phenom II X6 1100T.

      The total power consumed running our test suite was even more impressive than the pure performance. They were effectively twice as efficient as the Phenom II’s and the i7-965.

      SPCR Score

      In our opinion, CPU selection should be based on a combination of performance, cost, and energy efficiency. With this in mind we created a weighted scoring system, with each aspect having equal worth. The best performing processor in each category received 33.33 points and the rest scored proportionally. The perfect CPU would ideally have a total score of 100. For the energy efficiency portion of score, we assumed that half of its operating life would be at low load (the average of idle and video playback consumption) and the other half at high load (the average consumption during our timed tests).

      When all three aspects are taken into account, the i5-2400 and i5-2500K seem to be the best all-around CPUs on the market. The i7-2600K doesn’t pack as much of a punch for its higher price, but it still scores very well. The Core i5-750 and dual core Core i5-661 are solid choices, depending on your usage pattern. Multitasking and threaded-applications obviously favor the quad core i5-750. As for AMD, they were struggling to remain competitive before the launch of Sandy Bridge, and now they’ve fallen further behind.

      Not all of our readers will agree with our weighting system, but it gives you a good starting point. If you care more about performance, pad the score of the Sandy Bridge processors and the i7-870. If you believe energy efficiency is more important, knock the Phenom II’s down a peg or two. If cost is an issue, bump the AMD chips up instead, as well as the LGA1156 chips.

      FINAL THOUGHTS

      With Sandy Bridge, Intel has set new standards in both performance and power consumption. Not only is the new hardware faster and more efficient, it is also not that expensive. These LGA1155 chips obliterate their comparably priced competition, with the Core i5-2400 and i5-2500K offering the best overall value. The i7-2600K offers a slight clock speed bump and Hyper-threading, but with most applications, the performance boost is generally not worth the US$100 extra over the i5-2500K. However as premium Intel processors go, the markup is fairly low. Also note that the “K” series reportedly overclocks very well.

      With all this goodness, end-users will rejoice, but there are also those who will be ticked off. Enthusiasts who bet on LGA1366 (and paid a healthy premium doing so) are now stuck with hardware that is worth significantly less than what they invested. LGA1366 motherboards and processors still start at about US$170 and US$300 respectively, but LGA1155 has made the platform almost dead in the water unless serious price cuts are enacted. The only LGA1366 processors that haven’t yet been cannibalized by Sandy Bridge are the uber-expensive six core/twelve thread models. Ultimately, however, even deep price cuts are not likely to help, nor are the likely to be in Intel’s plans — the replacement for socket 1366 is scheduled to appear in Q3 this year.

      Meanwhile AMD fans are seeing their horse fall even further behind in the race. The top-of-the-line Phenom II’s can’t touch Sandy Bridge’s speed, nor can they compete in energy efficiency. There is a possible light at the end of the tunnel as AMD is slated to launch the new processor, Bulldozer, this summer. But given the prowess of Sandy Bridge, AMD has to knock it out of the park. This is especially true as Intel has yet another CPU line coming out in Q3 for socket LGA2011, the official successor to LGA1366. Currently, AMD on the desktop seems advisable only if you’re on a tight budget.

      Our thanks to Intel and AMD
      and for Core i5/i7 and Phenom II X4/X6 samples used in this review.

      * * *

      Articles of Related Interest
      Sandy Bridge, Part 3: Gigabyte P67A-UD4 & Intel DP67BG P67 Motherboards
      Sandy Bridge, Part 2: Intel DH67BL & Asus P8H67-M EVO H67 Motherboards
      Sandy Bridge, Part 1: Intel GMA HD 3000/2000 Graphics
      AMD Athlon II X3: Affordable Compromise
      Athlon II X4 610e & Phenom II X4 910e: 45W & 65W Quad Cores
      Intel Core i5-661: A 32nm CPU with Integrated Graphics

      * * *

      Discuss
      this article in the SPCR forums.

      Intel Core i5-2500K Review: Sandy Bridge’s Best Value?

      After the Intel Core i7-2600K review, quite a few comments came in regarding the chip’s much less expensive Sandy Bridge cousin, the Core i5-2500K. This article will discuss the Core i5-2500K which sheds a few features from the Core i7-2600K while gaining a price advantage. As mentioned in the Core i7-2600K piece, the Sandy Bridge platform is ideal for HTPCs and low power servers, especially if one will not be satisfied by the performance of very low power Intel Atom and AMD E series Fusion APU solutions.

      Again, with Cougar Point’s current “bugged” nature, it is difficult to find a compatible motherboard at the moment, but those are in the works. Furthermore, using existing 6.0gbps ports one can totally avoid the bug until replacement boards arrive.

      Test Configuration

      For this piece, I am using both the ASUS P8H67-M EVO (H67 mATX form factor) again. Expect overclocking results, with an ASUS P8P67 Pro and the i5-2500K in the near future. Again for reference here are the main chip set differences:

      Intel Sandy Bridge Launch Chipsets
      H67 P67
      Multiplier Overclockable? No Yes
      Allows PCIe x16 split to two x8? No Yes
      Utilizes ondie GPU? Yes No
      Allows for Intel RAID? Yes Yes

      The configuration being used will be:

      1. CPU: Intel Core i5-2500K
      2. Motherboard: ASUS P8H67-M EVO
      3. Memory: 4GB 1600MHz CL9 DDR3 (4x2GB)
      4. Hard Drive: OCZ Agility 2 120GB
      5. Additional NICs: Intel Gigabit CT PCIe x1 network adapter
      6. Enclosure: Supermicro SC731i-300B
      7. Power Supply: PicoPSU 150XT

      One word of warning, I would again STRONGLY advise against getting an unlocked multiplier CPU (denoted as a “K” series CPU in the model number) for the H67 platform. You cannot utilized the unlocked multiplier with the H67 chipset. One does get the benefit of the GMA 3000 graphics, but contrary to what one may assume given glowing reviews elsewhere (at low resolutions), the GMA 3000 is not a satisfying gaming GPU and the GMA 2000 is competent for a HTPC. Overclocking wise, and a bit of a teaser, the K series Sandy Bridge CPUs are very overclockable!

      Also, the chip set bug in the currently shipping H67 and P67 Cougar Point motherboards can render the four onboard SATA 3.0gbps ports unusable. Most motherboard manufacturers have replacement programs so for some users, this may present a near term adoption issue.

      The Qualitative take on the Intel Core i5-2500K

      Intel, unlike AMD, is not biased towards providing ECC support on consumer platforms.  Of course, in short order Intel will be launching the Xeon parts, and C200 series chip sets that will have ECC support enabled for a price premium over the desktop counterparts. This part of Intel’s segmentation strategy is successful in the x86 space, but users that demand ECC are limited by the lack of support from Intel in the desktop space.

      One important thing to note is that the Intel Core i5-2500K, like the i7-2600K does NOT support Intel VT-d, but it does support VT-x. Although one may be relatively safe in the assumption that the desktop uses for VT-d are limited (since this is primarily for passing through add-in cards to virtual machines) it turns out the non-“K” variants of the Sandy Bridge desktop line do in fact support VT-d. I have noticed that all of the Sandy Bridge boards I have seen thus far do not have VT-x virtualization technologies (in this case VT-x) enabled by default in the EFI BIOS. This is a simple change of a setting that will enable the virtualization support most users need. Again here is the feature break-down:

      New Core i5 and I7 Sandy Bridge CPUs
      VT-x VT-d AES-NI Trusted Exec.  Tech
      Intel Core i7-2600K Yes No Yes No
      Intel Core i7-2600 Yes Yes Yes Yes
      Intel Core i5-2500K Yes No Yes No
      Intel Core i5-2500 Yes Yes Yes Yes
      Intel Core i5-2400 Yes Yes Yes Yes
      Intel Core i5-2300 Yes No Yes No

      The AES-NI inclusion is a great feature for those that utilize compatible encryption on their storage. One example would be Oracle Solaris Express 11 where the included ZFS v31 can utilize Intel’s AES-NI accelerator. I was fairly surprised that Intel Trusted Execution Technology (TXT) was left out of the flagship Core i7 part along with the K series i5 part, the i5-2500K, but TXT and VT-d are fairly closely related so this makes sense.

      Finally, the H.264 encoding engine which is a big feature of the new Sandy Bridge CPUs is great… provided you shell out $40 for an application that can use Intel Quick Sync, and you use a H67 motherboard. I will not be using this for the performance numbers since there are plenty of reviews that show it adds 40% or more to encoding speeds. For most users, purchasing something like an i5-2400 for H.264 encoding makes a lot of sense because it is no longer clock speed bound. Personally, I prefer the image quality of the CPU path over the Quick Sync image, but a lot of people may disagree here. As a bonus, the Core i5-2400 supports VT-d making it better for an ESXi or Xen installation once Sandy Bridge is fully supported.

      Performance

      Given it is 2011, I have done a slight tweak to the x264 test from 2010. First, Handbrake 0.9.5 was released, so I will be switching to the new version for future reviews. Also, since DVD quality video is not as exciting as it once was, with 200+ FPS encoding performance of today’s chips, I decided to change the test over to 1080p source video to iPhone 4 presets in Handbrake. Other than that, the WEI component will remain.

      Windows Experience Index

      This is a quick Windows 7 benchmark that allows a user to get a decent gauge of how fast a CPU is from the built-in benchmarking functionality. It should be noted that WEI is not linear in scoring so the difference between a 3.0 and a 4.0 is not equivalent to a 6.5 to 7.5 jump. Two notes here. First, the CPU score is nothing to balk at. Even at stock clocks the Core i7-2500K is really fast… actually yielding the same WEI score as the i7-2600K. It seems like the near identical clock speed is more important than 2MB less L2 cache and a lack of hyper-threading.

      Core i5-2500K WEI Score

      Again, let me just say that the integrated GPU and the Core i5-2500K is plenty for movie playback. What it is not is a viable gaming platform. Despite the game benchmarks found on other sites, the gaming experience is more akin to a circa 2000 gaming console (that cannot maintain 30+ fps on many modern games let alone 60fps). Moving detail way down, reducing resolution to sub-native for most modern LCD’s with 1920×1080 or better being “standard”, overclocking the GPU on the H67 chip set and lowering expectations and in the vast majority of games would probably still leave many users less than excited. Bottom line, for general computing the i5-2500K is awesome. For basic media player capabilities it is also great. For other applications, it is less than impressive.

      Handbrake 0.9.4 and 0.9.5 Performance

      This is a favorite of readers, but may eventually be replaced by technology like Quick Sync. For the below tests the Blu-Ray Quality to iPhone 4 Handbrake presets were done on Handbrake 0. 9.5 while the legacy DVD quality tests were done on Handbrake 0.9.4. Unfortunately I was unable to tests every CPU under the new scenario, but one should get the idea from the below graph.

      x264 Handbrake Encodes (0.9.4 and 0.9.5)
      DVD Quality Blu-Ray to iPhone 4 Quality
      CPU fps fps
      Atom N330/ION 21
      Atom D510 23
      Sempron 140 29
      Athlon II X2 260 62 9
      Q6600 84 13
      Core i3-530 90
      Athlon II X3 445 93
      Core i5-650 97
      Athlon II X4 640 126 18
      Phenom II X4 955 BE 151 23
      Xeon X3440 155 24
      Phenom II X4 965 BE 160
      Xeon X3460 179 27
      Core i7 920 179 28
      Core i7 940 212 33
      Core i5-2500K 258 40
      Core i7-2600K 263 40

      As one can see, the Core i5-2500K is a great value for this type of encoding. Handbrake is known to be less than responsive to Hyper-Threading so it is little surprise that the i5-2500K and the i7-2600K are very close, and much better than many previous generation CPUs. Also, for the sub-$230 street price of the Intel Core i5-2500K it is really competitive in the high-performance segment. On the other hand, for $150 less one can purchase a quad core Athlon II X4 which is undoubtedly much slower, but also much cheaper. What I would say at this point is that if one can afford the $150 price bump, the i5-2500K is a strong contender… and even more so if one overclocks the chip on a P67 system. Frankly, unless there is a need for the bigger CPU L3 cache and hyper-threading, the Core i5-2500K is a prudent choice over the Core i7-2600K

      For those still on LGA 775 platforms or basic AM2 platforms with older Athlon II or Phenom I based CPUs, the i5-2500K does provide compelling performance improvements at this point alongside very low idle and overall platform power consumption.

      Power Consumption

      With all of the ASUS motherboard’s power saving technologies like the EPU turned on and only a SSD installed, the max power consumption I saw from the platform was 122w from the i5-2500K which was the exact same as the i7-2600K. Like the Core i7-2600K, the Core i5-2500K can be powered by a PicoPSU 150XT if one uses a 150w power brick, not anything smaller.

      Core i5-2500K Power Consumption Load

      In most home server environments though, a new quad core Sandy Bridge CPU will spend most of its time at idle. After getting 122w at load, I tried the PicoPSU and then the Supermicro SC731i-300B’s 300w bronze PSU and got 30w on the PicoPSU and 32w on the Supermicro PSU, just like the i7-2600K.

      Core i5-2500K Power Consumption Idle

      It was interesting to see all three numbers line up exactly, but then again, the CPU is very similar, the same test bed was used for each system, and the Kill-A-Watt was the same unit. I would guess that one could probably find a way to set something up to get a 2w difference, but just watching the chips over a few weeks they seem to be very similar in power consumption. With power consumption very similar to Clarkdale and a bit better than Lynnfield and multiple generations better than the Core 2 Quads, the power and efficiency of the Sandy Bridge CPUs make re-using an old CPU a cheap short term, expensive long term solution.

      Conclusion

      The Intel Core i5-2500K is very similar in terms of performance and power consumption to the Core i7-2600K. Unless one is running applicaitons that require more than four cores, and that also work well with hyper-threading (Handbrake is an example that does not) the Core i5-2500K is a superior value to the Core i7-2600K. At over $100 less than the Core i7-2600K, most users would be just as well off with the Core i5-2500K except that they would have $100 to spend on other items for a HTPC or home server build. The two major issues with the Sandy Bridge platform right now are that one pays for having some of the fastest chips out there, and the Sandy Bridge chip set’s Cougar Point PCH is currently bugged to the point that Intel has recalled every board. This will change in the coming months making that point moot, as would running 1-2 SSDs in the Sandy Bridge system and having spindle drives on another controller or in a NAS system. One may wish to wait for the Z68 and Q67 consumer boards to come out for home servers or HTPC’s, which look like they will have some advantages, including the fixed chipset. Also waiting in the wings is the Intel C200 series chip sets awaiting the Sandy Bridge Xeon debut. From what I have been told, it will not be long until the Xeon platform rolls out, but the early C200 series chips were impacted by the bug.

      As a personal aside, I will most likely be using my refund on the P67 and H67 boards and purchase a Z68 board or two when it comes out. Even if there are a few weeks of downtime while Sandy Bridge’s new chip set arrives, with all files on the NAS the MacBook Air and a Windows 7 Professional virtual machine on the home server will do the job for any bridge period.

      Intel Core i5-2500K Review (Page 2 of 11)

      Page 2 — Intel Core i5-2500K Architecture; Test System

      The first thing you will notice about the latest iteration of code-named Sandy Bridge processors from Intel, is the second generation Core i3/i5/i7 CPUs is housed in a new socket yet again. Ever since the release of Nehalem and Lynnfield core processors in 2008 and 2009, respectively, the company essentially segregated the market into two different distinct segments — where owners of mainstream products are left with a dead end upgrade path; compared to the preceding Core 2 family, which uses a single socket in conjunction with universal chipset compatibility. To put it in simple terms in how this actually affects you, if you are considering upgrading to Sandy Bridge right now, you will need to cough up some cash for a new motherboard in addition to the CPU itself. The only bit of good news I have is LGA 1156 compatible aftermarket heatsinks will work without modifications on LGA 1155 motherboards. But do keep in mind Sandy Bridge processors in LGA 1155 are only mainstream to mainstream-performance units. Further down the road are LGA 2011 based Sandy Bridge processors to be released in Q3 or Q4 this year. Main difference? Like Lynnfield core processors, chips such as the Intel Core i5-2500K we are reviewing today utilizes an updated version of DMI (Direct Media Interface) to connect to the Platform Controller Hub; aptly called DMI 2. 0. DMI 2.0 doubles the transfer rate to 21Gb/s with a x4 link from DMI 1.0. LGA 1155 CPUs also retain the integrated dual channel DDR3-1333 memory controller found on Lynnfield core processors. LGA 2011 Sandy Bridge processors will feature QuickPath Interconnect (QPI) 4.8 GT/s to 6.4 GT/s, along with an upgraded native quad channel DDR3-1600 memory controller.

      The current family of Intel Sandy Bridge desktop processors include:

      Core i7: i7-2600K, i7-2600S, i7-2600
      Core i5: i5-2500K, i5-2500S, i5-2500T, i5-2500, i5-2400, i5-2400S, i5-2390T, i5-2300
      Core i3: i3-2120, i3-2100, i3-2100T

      The ‘K’ suffix denotes unlocked multiplier, ‘S’ for a low power processor, and ‘T’ for an ultra low power processor.

      One of the biggest highlights to the latest processors from Intel is an integrated GPU for the entire product line. While Intel has done so already for first generation Nehalem CPUs with the Clarkdale core, it was limited to products in the value segment only; and in practice it was just a 45nm GPU and 32nm CPU core consolidated into a single chip package. Sandy Bridge takes on a much more elegant approach from an engineering perspective. Intel merged these two parts together on the die, with both the CPU and GPU created using their 32nm fabrication process. Since all Sandy Bridge CPUs now come with a ‘free’ GPU, it is up to the chipset and motherboard manufacturer to enable this feature. We will cover that in just a short moment. Some companies like to say The Future is Fusion. In my opinion, AMD’s got that right. For Intel.

      Along with the added features, this monolithic piece of silicon now packs 995 million transistors under the hood — up from 774 million from last generation Lynnfield core processors. Combined with Intel’s High-K metal gate technology, everything is packed into a die size of only 216mm². This brings us to the diagram above, which gives a nice microscopic view into the physical layout of Sandy Bridge CPUs. 32KB of 8-way cache for both data and instruction makes up the 64KB L1 cache; followed by 256KB of 8-way L2 cache per core for a total of 1024KB combined. The 12-way L3 «Smart Cache» is pooled in the middle so it can be used by both the processor cores and the integrated graphics core as aforementioned simultaneously. Sandy Bridge Core i5 processors such as the 2500K we are reviewing today have 6MB cache; while Core i3s and Core i7s carry 3MB and 8MB, respectively.

      Before we move on any further into the details of what’s going on inside the CPU, let’s get the bad news out of the way first. Intel uses a single clock generator to control the speed of all electrical buses in all Sandy Bridge processors. Overclocking in the past decade or so involved raising your CPU’s FSB/base clock/whatever to squeeze extra clock cycles out of it. You can’t do that anymore with Sandy Bridge, because by raising the base clock, you are overclocking every other component inside the chip — and many parts are not very overclockable at all. Fortunately, the good news is, as I have mentioned in the introduction of this article, is Intel will happily sell you an enthusiast K-series chip like the Intel Core i5-2500K we are reviewing today with an unlocked multiplier up to 57x. This creates a theoretical ceiling of 5700MHz (57*100), but you’ll hit your physical limit way before that happens. If you don’t have a K-series CPU, your maximum overclock will pretty much be limited to whatever your processor’s Turbo Boost multiplier is able to provide. We’ll cover this later on in this review. How much would it cost? About $10 extra over a regular i5-2500 at press time. The catch? You will business oriented features such as Intel TXT and Intel VT-d — but for people like you and I, personally I’d take the unlocked multiplier any day of the week.

      Other than the Core i5-2390T, all Core i5 and i7s will have four physical execution cores. Meanwhile, second generation Core i3s will have two physical cores with Hyper-Threading. Like previous generation Nehalem processors, the main difference between Core i5 and i7s, other than quantity of cache, is that the latter supports Hyper-Threading for up to eight simultaneous threads (Four physical cores and four logical cores). Media related multithreaded applications optimized for Hyper-Threading will benefit the most from this technology, but in many other cases, the lack of such will not affect performance to a significant degree.

      All Sandy Bridge processors feature an integrated memory controller as first introduced in Nehalem, along with an updated version of Turbo Boost. The first iteration of Turbo Boost dynamically overclocks the entire processor beyond specification to attain higher performance, limited either by current temperature or capped by its maximum multiplier. With the GPU now integrated onto the same die on the CPU, Turbo Boost 2.0 takes on a more dynamic approach. Depending on CPU core and graphics core loadings, each core can run above its advertised speed independent of each other, along with capabilities of providing a little more juice to either the CPU or GPU depending on needs. Therefore, the integrated GPU will also benefit from this; as it can run from its stock 850 MHz up to a maximum 1350 MHz. Additionally, the processor can now exceed its TDP value of 95W for a short period of time if the rest of the system is relatively cool. Translating this to numbers, our Intel Core i5-2500K’s stock speed of 3.3GHz (33*100) can be taken up to 3.7GHz (37*100) automatically with Turbo Boost enabled. However, because of the variations in accuracy with regards to running Turbo Mode on in benchmarking, we disabled it when obtaining our test results. Generally speaking, our results were obtained with no Turbo Boost kicking in, yo. Just good old constant clock speed for maximum accuracy.

      The AVX (Advanced Vector Extensions) instruction set on Sandy Bridge is the last thing I want to talk about before moving onto its on-die graphics processor. You will need the upcoming Windows 7 Service Pack 1 along with compatible applications to take advantage of its incredible performance increase in this area due to a change of format from XMM to YMM. AVX is basically an advanced version of the Streaming SIMD Extension (SSE) instruction set. Not only does it take the chip’s SIMD vector register data path width from 128 bit to 256 bit, and increase its operand instruction limit from two to three — Intel claims the AVX extension will execute non-native instructions faster as well.

      Since Intel Sandy Bridge CPUs have an integrated graphics processor inside, let’s talk about it in a little more detail. This IGP is called the Intel Graphics Media Accelerator HD; which unsurprisingly is based off existing Intel graphics solutions — but with numerous improvements. The Intel Graphics Media Accelerator HD is a DirectX 10.1 (Sorry guys, no DX11) compatible GPU with 6 execution units per core. Intel’s Graphics Media Accelerator HD 2000 will have one core, while the Core i5-2500K we are reviewing today has Intel’s Graphics Media Accelerator HD 3000 IGP with two cores for a total of 12 execution units. Each execution unit is able to handle twice the amount of work per clock cycle compared to the IGP found in Clarkdale processors.

      Do keep in mind that while it is faster than previous generation integrated graphics, don’t expect to dump your expensive AMD or NVIDIA cards and expect decent framerates in return anytime soon. This is an entry-level gaming solution at best; but Intel would like you to consider it as a media processor rather than a gaming solution. Where it really shines is its video processing capabilities. With its dedicated logic for video encoding and decoding tasks, playback wise, thanks to its HDMI 1.4a implementation, it is very good for Blu-ray and even stereoscopic 3D. Transcoding wise, it is fully performed in hardware with a fixed function multi-format codec architecture to speed up video processing performance.

      Two chipsets designed for Sandy Bridge processors are available to consumers at press time. Codenamed Cougar Point, the H67 is aimed at mainstream consumers who are not interested in overclocking, but want to take advantage of the integrated graphics. Enthusiasts who want to overclock or use multi-GPU configurations will need to buy motherboards based off the P67 chipset. The Intel Z68 will consolidate the best of both worlds into one later on this year. Common to both the H67 and P67 UEFI support — pretty much the first time this has hit mainstream with desktop PCs. The biggest advantage to UEFI motherboards are 3TB+ HDD support, more flexible network booting, and much nicer GUIs for the setup screen. As with first generation Core family CPUs, what was previously known as the Southbridge now takes care of the standard connection interfaces such as providing up to 14 USB ports and 6 SATA ports (Of which two of them are SATA 6Gb/s), as well as providing eight additional PCI Express lanes for PCIe based devices such as Ethernet. There is no native USB 3.0 support, so it will still go through a third party controller. Because many Northbridge functions are now on the CPU itself as aforementioned, the P67 chipset doesn’t do nearly as much as it did in the past — thus, Intel has resolved to call it the Platform Controller Hub, or PCH, just like the P55.

      With regards to the Cougar Point recall, one of the transistors inside the Serial ATA 3Gb/s ports in B2 stepping of the chipsets are receiving more voltage than it should, and will degrade over time. The SATA 6Gb/s ports are not affected. Users with high I/O workloads on their SATA 3Gb/s ports will speed up this problem. The degradation will come in the form of increased data transfer error rates; eventually resulting in complete device connection loss. Intel claims that this problem will only affect 5% of users over 3 years, but the has issued a recall on January 31st, 2011 and all major motherboard and computers manufacturers have then stopped shipping motherboards with the faulty chipset. All motherboards have disappeared pretty much within hours from retail on the same day. This is why you will need to wait until B3 stepping P67 chipsets to start shipping before you can make get Sandy Bridge CPUs — or at least make use of them, unless you know how to work a CPU without a motherboard.

      Our test configuration as follows:

      CPU Cooling: Noctua NH-D14
      RAM: G.SKILL Ripjaws F3-12800CL7D-8GBRH 2x4GB @ DDR3-1333 7-8-7-24 (Reduced frequency @ stock latencies)
      Graphics: Gigabyte Radeon HD 6850 1GB
      Chassis: Cooler Master 690 II Advanced NVIDIA Edition (Noctua NF-S12B FLX, NZXT Sleeved LED Kit)
      Storage OCZ Vertex 2 60GB; Western Digital Caviar Blue AAKS 500GB
      Power: NZXT HALE90 750W
      Sound: Auzentech X-Fi HomeTheater HD
      Optical Drive: LiteOn iHAS224-06 24X DVD Writer
      Operating System: Microsoft Windows 7 Professional x64

      Compared Hardware
      — Intel Core i5-750 @ 2. 66 GHz (Stock speed, Turbo Boost disabled) on ASUS P7P55D-E Premium
      Intel Core i5-2500K @ 3.33 GHz (Stock speed, Turbo Boost disabled) on Gigabyte P67A-UD5


      Page Index

      1. Introduction and Specifications
      2. Intel Core i5-2500K Architecture; Test System
      3. Benchmark: AIDA64 CPU
      4. Benchmark: AIDA64 FPU
      5. Benchmark: AIDA64 Memory
      6. Benchmark: BAPCo SYSmark 2007
      7. Benchmark: PCMark Vantage
      8. Benchmark: 3DMark 11
      9. Benchmark: PassMark PerformanceTest 7.0
      10. Benchmark: SuperPI 1M, Cinebench R11.5
      11. Overclocking, Power Consumption, and Conclusion

      Intel Core i5-2400 vs Intel Core i5-2500K: What is the difference?

      32 BALLLA

      Intel Core i5-2400

      36 Ballla

      Intel Core i5-2500K

      Winter when comparing

      VS

      64 Facts compared to

      Intel Core i5-2400 9000 Why is Intel Core i5-2400 better than Intel Core i5-2500K?

      Why is Intel Core i5-2500K better than Intel Core i5-2400?

      • 9. 68% higher CPU speed?
        4 x 3.4GHz vs 4 x 3.1GHz
      • 10.1% higher PassMark score?
        6387 vs 5801
      • 0.3GHz higher turbo clock speed?
        3.7GHz vs 3.4GHz
      • Has an unlocked multiplier?
      • 8.75% higher PassMark score (single)?
        1864 vs 1714
      • 20.32% higher PassMark result (overclocked)?
        8113 vs 6743
      • 16.0 higher performance per watt?
        96.0 vs 80.0
      • 2 hour multiplier higher?
        33 vs 31

      Which comparisons are the most popular?

      Intel Core i5-2400

      VS

      Intel Core i5-3470

      Intel Core i5-2500K

      VS

      Intel Core i5-3470

      I5-2400

      VS

      000 Core 6100

      Intel Core i5-2500k

      VS

      Intel Core i5-2500

      Intel Core i5-2400

      Intel Core i3-3220

      VS

      9000 INTEL Intel Core 3770K

      Intel Core i5-2400

      VS

      Intel Core i3-4130

      Intel Core i5-2500K

      VS

      Intel Core I7-3770

      Intel Core I5-2400

      VS 9000 9000 9000 9000 -3770

      Intel Core i5-2500K

      VS

      Intel Core i5-3570

      Intel Core i5-2400

      VS

      Intel Core i7-2600

      Intel Core i5-2500K

      VS

      Intel Core I5-2500S

      2400

      VS

      Intel Core i5-4570

      Intel Core i5-2500K

      VS

      Intel Core i5-6500

      Intel Core i5-2400

      VS

      Intel Core 9000 9000 9000 9000 9000 -2500K

      vs

      Intel Core i7-2600

      Intel Core i5-2400

      VS

      Intel Core i3-3240

      Intel Core i5-2500K

      VS

      I5-2550K 9000 vs

      Intel Core i5-3570

      Complexation prices

      Users reviews

      General rating

      Intel Core i5-2400

      3 Reviews Users

      Intel Core i5-2400 9000 9000 9000 9000 9000 9000 9000 9000 9000

      3 reviews of users

      Intel Core i5-2500K

      1 Reviews of users

      Intel Core i5-2500K

      /10

      1 Reviews of users

      9000 10

      3 Votes

      10. 0 /10

      1 Votes

      Games

      2.0 /10

      3 Votes

      10.0 /10

      1 VOTES

      performance

      4.0 /10

      3 Votes

      10.0210 /10

      1 Votes

      Reliability

      4.7 /10

      9000 3 VOTES

      9000 10.0 /10 9000 9000 9000 9000 /10

      Energy efficiency

      5.0 /10

      3 votes

      10.0 /10

      1 votes

      1 CPU speed

      10003

      4 x 3.1GHz

      4 x 3.4GHz

      CPU speed indicates how many processing cycles per second a processor can perform, given all its cores (processors). It is calculated by adding the clock speeds of each core or, in the case of multi-core processors, each group of cores.

      2nd processor thread

      More threads result in better performance and better multitasking.

      3.speed turbo clock

      3. 4GHz

      3.7GHz

      When the processor is running below its limits, it can jump to a higher clock speed to increase performance.

      4. Unlocked

      ✖Intel Core i5-2400

      ✔Intel Core i5-2500K

      Some processors come with an unlocked multiplier and can be easily overclocked for better performance in games and other applications.

      5.L2 cache

      More L2 scratchpad memory results in faster results in CPU and system performance tuning.

      6.L3 cache

      More L3 scratchpad memory results in faster results in CPU and system performance tuning.

      7.L1 cache

      More L1 cache results in faster results in CPU and system performance tuning.

      8.core L2

      0.25MB/core

      0.25MB/core

      More data can be stored in the L2 scratchpad for access by each processor core.

      9.core L3

      1.5MB/core

      1.5MB/core

      More data can be stored in L3 scratchpad memory to access each processor core.

      Memory

      1.RAM speed

      1333MHz

      1333MHz

      Can support faster memory which speeds up system performance.

      2.max memory bandwidth

      21GB/s

      21GB/s

      This is the maximum rate at which data can be read from or stored in memory.

      3. DDR version

      DDR (Dynamic Dynamic Random Access Memory Double Data Rate) is the most common type of RAM. New versions of DDR memory support higher maximum speeds and are more energy efficient.

      4.Memory channels

      More memory channels increase the speed of data transfer between memory and processor.

      5.maximum memory capacity

      Maximum memory capacity (RAM).

      6.bus baud rate

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

      7. Supports Memory Error Code

      ✖Intel Core i5-2400

      ✖Intel Core i5-2500K

      Memory Error Code can detect and repair data corruption. It is used when necessary to avoid distortion, such as in scientific computing or when starting a server.

      8.eMMC version

      Unknown. Help us offer a price. (Intel Core i5-2400)

      Unknown. Help us offer a price. (Intel Core i5-2500K)

      The newer version of eMMC — built-in flash memory card — speeds up the memory interface, has a positive effect on device performance, for example, when transferring files from a computer to internal memory via USB.

      9.bus frequency

      Unknown. Help us offer a price. (Intel Core i5-2400)

      Unknown. Help us offer a price. (Intel Core i5-2500K)

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

      Geotagging

      1. PassMark result

      This test measures processor performance using multi-threading.

      2. PassMark result (single)

      This test measures processor performance using a thread of execution.

      3.Geekbench 5 result (multi-core)

      Unknown. Help us offer a price. (Intel Core i5-2500K)

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

      4. Cinebench R20 result (multi-core)

      Unknown. Help us offer a price. (Intel Core i5-2400)

      Cinebench R20 is a benchmark that measures the performance of a multi-core processor by rendering a 3D scene.

      5. Cinebench R20 result (single core)

      Unknown. Help us offer a price. (Intel Core i5-2400)

      Cinebench R20 is a test to evaluate the performance of a single core processor when rendering a 3D scene.

      6.Geekbench 5 result (single core)

      Unknown. Help us offer a price. (Intel Core i5-2500K)

      Geekbench 5 is a cross-platform test that measures the single-core performance of a processor. (Source: Primate Labs, 2022)

      7. Blender test result (bmw27)

      Unknown. Help us offer a price. (Intel Core i5-2400)

      Unknown. Help us offer a price. (Intel Core i5-2500K)

      Blender benchmark (bmw27) measures CPU performance by rendering a 3D scene. More powerful processors can render a scene in a shorter time.

      8.Blender result (classroom)

      Unknown. Help us offer a price. (Intel Core i5-2400)

      Unknown. Help us offer a price. (Intel Core i5-2500K)

      Blender (classroom) benchmark measures CPU performance by rendering a 3D scene. More powerful processors can render a scene in a shorter time.

      9.performance per watt

      This means that the processor is more efficient, giving more performance per watt of power used.

      Functions

      1.uses multithreading

      ✖Intel Core i5-2400

      ✖Intel Core i5-2500K

      Multithreading technology (such as Intel’s Hyperthreading or AMD’s Simultaneous Multithreading) provides higher performance by dividing each physical processor core into logical cores, also known as like streams. Thus, each core can run two instruction streams at the same time.

      2. Has AES

      ✔Intel Core i5-2400

      ✔Intel Core i5-2500K

      AES is used to speed up encryption and decryption.

      3. Has AVX

      ✔Intel Core i5-2400

      ✔Intel Core i5-2500K

      AVX is used to help speed up calculations in multimedia, scientific and financial applications, and to improve the performance of the Linux RAID program.

      4.Version SSE

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

      5. Has F16C

      ✖Intel Core i5-2400

      ✖Intel Core i5-2500K

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

      6.bits transmitted at the same time

      Unknown. Help us offer a price. (Intel Core i5-2400)

      Unknown. Help us offer a price. (Intel Core i5-2500K)

      NEON provides faster media processing such as MP3 listening.

      7. Has MMX

      ✔Intel Core i5-2400

      ✔Intel Core i5-2500K

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

      8. Has TrustZone

      ✖Intel Core i5-2400

      ✖Intel Core i5-2500K

      The technology is integrated into the processor to ensure device security when using features such as mobile payments and streaming video using digital rights management technology ( DRM).

      9.interface width

      Unknown. Help us offer a price. (Intel Core i5-2400)

      Unknown. Help us offer a price. (Intel Core i5-2500K)

      The processor can decode more instructions per clock (IPC), which means the processor performs better

      Price comparison

      Cancel

      Which CPUs are better?

      Intel Core i5-2400S vs Intel Core i5-2500: What is the difference?

      32 points

      Intel Core i5-2400S

      33 BALLLA

      Intel Core i5-2500

      Winter with

      VS

      64 Facts compared to

      Intel Core i5-2400S

      Intel Core I5-2500

      why Intel Core i5-2400S is better than I5-2400S i5-2500?

      • 30W below TDP?
        65W vs 95W
      • 16.0 higher performance per watt?
        101.0 vs 85.0

      Why is Intel Core i5-2500 better than Intel Core i5-2400S?

      • 36% higher CPU speed?
        4 x 3. 4GHz vs 4 x 2.5GHz
      • 28.66% higher PassMark score?
        6254 vs 4861
      • 0.4GHz higher turbo clock speed?
        3.7GHz vs 3.3GHz
      • 18.67% higher PassMark score (single)?
        1856 vs 1564
      • 18.11% higher PassMark result (overclocked)?
        7068 vs 5984
      • 8 higher hour multiplier?
        33 vs 25

      Which comparisons are the most popular?

      Intel Core i5-2400S

      VS

      Intel Core i5-2400

      Intel Core i5-2500

      Intel Core i5-3470

      VS 9000-000. 2500S

      Intel Core i5-2500

      vs

      Intel Core i5-2500K

      Intel Core i5-2400S

      VS

      Intel Core i3-2100

      Intel Core i5-2500

      VS

      Intel Core i3-3240

      Intel Core i5-2400S

      Intel Core i5-6500t

      2500

      VS

      Intel Core i3-2130

      Intel Core i5-2400S

      VS

      Intel Core i3-3220

      Intel Core i5-2500

      VS

      000

      000 9000 -2400S

      vs

      Intel Core i5-3470

      Intel Core i5-2500

      VS

      Intel Core i5-2500S

      Intel Core i5-2400S

      VS

      AMD Phenom II X4 980

      INTEL Core INTEL CORE INTEL CORE INTEL CORE INTEL CORE

      Intel Core i5-3570

      Intel Core i5-2400S

      VS

      AMD Ryzen 5 3500u

      Intel Core i5-2500

      VS

      9000

      Intel Core i3-7100

      Intel Core i5-2500

      VS

      Intel Core i3-2100

      Costs of prices

      Users Reviews

      Production

      1. Sparrow of central processor

      4 X 2.5GHZ

      4 X 3.4GHZ

      9000 cpu shows how many processing cycles per second the processor can perform, given all its cores (processors). It is calculated by adding the clock speeds of each core or, in the case of multi-core processors, each group of cores.

      2nd processor thread

      More threads result in better performance and better multitasking.

      3.speed turbo clock

      3.3GHz

      3.7GHz

      When the processor is running below its limits, it can jump to a higher clock speed to increase performance.

      4. Has unlocked multiplier

      ✖Intel Core i5-2400S

      ✖Intel Core i5-2500

      Some processors come with an unlocked multiplier and are easier to overclock, allowing for better performance in games and other applications.

      5.L2 Cache

      More L2 scratchpad memory results in faster results in CPU and system performance tuning.

      6.L3 cache

      More L3 scratchpad memory results in faster results in CPU and system performance tuning.

      7.L1 cache

      More L1 cache results in faster results in CPU and system performance tuning.

      8.core L2

      0.25MB/core

      0.25MB/core

      More data can be stored in the L2 scratchpad for access by each processor core.

      9.core L3

      1.5MB/core

      1.5MB/core

      More data can be stored in L3 scratchpad memory to access each processor core.

      Memory

      1.RAM speed

      1333MHz

      1333MHz

      Can support faster memory which speeds up system performance.

      2.max memory bandwidth

      21GB/s

      21GB/s

      This is the maximum rate at which data can be read from or stored in memory.

      3rd DDR memory version

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      DDR (Double Data Rate Synchronous Dynamic Random Access Memory) is the most common type of RAM. New versions of DDR memory support higher maximum speeds and are more energy efficient.

      4 memory channels

      More memory channels increase the speed of data transfer between memory and processor.

      5.maximum memory capacity

      Maximum memory capacity (RAM).

      6.bus baud rate

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

      7. Supports Memory Error Code

      ✖Intel Core i5-2400S

      ✖Intel Core i5-2500

      Memory Error Code can detect and repair data corruption. It is used when necessary to avoid distortion, such as in scientific computing or when starting a server.

      8.eMMC version

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      Unknown. Help us offer a price. (Intel Core i5-2500)

      The newer version of eMMC — Built-in Flash Memory Card — speeds up the memory interface, has a positive effect on device performance, for example, when transferring files from a computer to internal memory via USB.

      9.bus frequency

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      Unknown. Help us offer a price. (Intel Core i5-2500)

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

      Geotagging

      1. PassMark result

      This test measures processor performance using multi-threading.

      2. PassMark result (single)

      This test measures processor performance using a thread of execution.

      3. Geekbench 5 result (multi-core)

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      Unknown. Help us offer a price. (Intel Core i5-2500)

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

      4. Cinebench R20 result (multi-core)

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      Unknown. Help us offer a price. (Intel Core i5-2500)

      Cinebench R20 is a test that measures the performance of a multi-core processor by rendering a 3D scene.

      5.Cinebench R20 result (single core)

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      Unknown. Help us offer a price. (Intel Core i5-2500)

      Cinebench R20 is a test to evaluate the performance of a single core processor when rendering a 3D scene.

      6.Geekbench 5 result (single core)

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      Unknown. Help us offer a price. (Intel Core i5-2500)

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

      7. Blender test result (bmw27)

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      Unknown. Help us offer a price. (Intel Core i5-2500)

      Blender benchmark (bmw27) measures CPU performance by rendering a 3D scene. More powerful processors can render a scene in a shorter time.

      8.Blender result (classroom)

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      Unknown. Help us offer a price. (Intel Core i5-2500)

      The Blender (classroom) benchmark measures CPU performance by rendering a 3D scene. More powerful processors can render a scene in a shorter time.

      9.performance per watt

      This means that the processor is more efficient, giving more performance per watt of power used.

      Features

      1.uses multithreading

      ✖Intel Core i5-2400S

      ✖Intel Core i5-2500

      physical processor core into logical cores, also known as threads. Thus, each core can run two instruction streams at the same time.

      2. Has AES

      ✔Intel Core i5-2400S

      ✔Intel Core i5-2500

      AES is used to speed up encryption and decryption.

      3. Has AVX

      ✔Intel Core i5-2400S

      ✔Intel Core i5-2500

      AVX is used to help speed up calculations in multimedia, scientific and financial applications, and to improve the performance of the Linux RAID program.

      4.Version SSE

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

      5. Has F16C

      ✖Intel Core i5-2400S

      ✖Intel Core i5-2500

      F16C is used to speed up tasks such as image contrast adjustment or volume control.

      6.bits transmitted at the same time

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      Unknown. Help us offer a price. (Intel Core i5-2500)

      NEON provides faster media processing such as MP3 listening.

      7. Has MMX

      ✔Intel Core i5-2400S

      ✔Intel Core i5-2500

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

      8. Has TrustZone

      ✖Intel Core i5-2400S

      ✖Intel Core i5-2500

      The technology is integrated into the processor to ensure device security when using features such as mobile payments and streaming video using digital rights management technology ( DRM).

      9.interface width

      Unknown. Help us offer a price. (Intel Core i5-2400S)

      Unknown. Help us offer a price. (Intel Core i5-2500)

      The processor can decode more instructions per clock (IPC), which means that the processor performs better

      Price comparison

      Cancel

      Which CPUs are better?

      Comparison of Intel Core i5-2400 and Intel Core i5-2500

      Comparative analysis of Intel Core i5-2400 and Intel Core i5-2500 processors by all known characteristics in the categories: General Information, Performance, Memory, Graphics, Graphical Interfaces, Compatibility, Peripherals, Security and Reliability, Technology, Virtualization.
      Analysis of processor performance by benchmarks: PassMark — Single thread mark, PassMark — CPU mark, Geekbench 4 — Single Core, Geekbench 4 — Multi-Core, 3DMark Fire Strike — Physics Score, 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 i5-2400

      versus

      Intel Core i5-2500

      Advantages

      Reasons to choose Intel Core i5-2500

      • CALLED FRISTITION: 3.70 GHZ VS
      • Production in PassMark barcam-SINGLEAD MARK SINGLEMARK 8% more: 1710 vs 1579
      • PassMark — CPU mark about 7% more performance: 4108 vs 3848
      • Approximately 7% increase in Geekbench 4 — Single Core performance: 712 vs 665
      • Approximately 6% increase in Geekbench 4 — Multi-Core performance: 2283 vs 2147
      • 6% more: 2388 vs 2247
      • Performance in CompuBench 1. 5 Desktop — Face Detection (mPixels/s) about 1% more: 3.022 vs 2.995
      • Performance in CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) 6.1 times bigger: 57.075 vs 9.378
      • Performance in CompuBench 1.5 Desktop — T-Rex (Frames/s) about 2% better: 0.373 vs 0.364
      • Performance in CompuBench 1.5 Desktop — Video Composition (Frames/s) about 3% better: 1.772 vs 1.721
      • Performance in CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) about 8% higher: 4.47 vs 4.139
      Max frequency 3.70 GHz vs 3.40 GHz
      PassMark — Single thread mark 1710 vs 1579
      PassMark — CPU mark 4108 vs 3848
      Geekbench 4 — Single Core 712 vs 665
      Geekbench 4 — Multi Core 2283 vs 2147
      3DMark Fire Strike — Physics Score 2388 vs 2247
      CompuBench 1. 5 Desktop — Face Detection (mPixels/s) 3.022 vs 2.995
      CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) 57.075 vs 9.378
      CompuBench 1.5 Desktop — T-Rex (Frames/s) 0.373 vs 0.364
      CompuBench 1.5 Desktop — Video Composition (Frames/s) 1.772 vs 1.721
      CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) 4.47 vs 4.139

      Benchmark comparison

      CPU 1: Intel Core i5-2400
      CPU 2: Intel Core i5-2500

      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
      3DMark Fire Strike — Physics Score
      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
      57.075
      CompuBench 1.5 Desktop — T-Rex (Frames/s)
      CPU 1
      CPU 2
      CompuBench 1. 5 Desktop — Video Composition (Frames/s)
      CPU 1
      CPU 2
      CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s)
      CPU 1
      CPU 2
      Name Intel Core i5-2400 Intel Core i5-2500
      PassMark — Single thread mark 1579 1710
      PassMark — CPU mark 3848 4108
      Geekbench 4 — Single Core 665 712
      Geekbench 4 — Multi-Core 2147 2283
      3DMark Fire Strike — Physics Score 2247 2388
      CompuBench 1. 5 Desktop — Face Detection (mPixels/s) 2.995 3.022
      CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) 9.378 57.075
      CompuBench 1.5 Desktop — T-Rex (Frames/s) 0.364 0.373
      CompuBench 1.5 Desktop — Video Composition (Frames/s) 1.721 1.772
      CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) 4.139 4.47

      Feature comparison

      configuration

      Intel Core i5-2400 Intel Core i5-2500
      Architecture name Sandy Bridge Sandy Bridge
      Production date January 2011 January 2011
      Price at first issue date $60 $85
      Place in the ranking 1969 1833
      Price now $83. 99 $88.99
      Processor Number i5-2400 i5-2500
      Series Legacy Intel® Core™ Processors Legacy Intel® Core™ Processors
      Status Launched Discontinued
      Price/performance ratio (0-100) 20.89 20.95
      Applicability Desktop Desktop
      Support 64 bit
      Base frequency 3. 10 GHz 3.30 GHz
      Bus Speed ​​ 5 GT/s DMI 5 GT/s DMI
      Crystal area 216 mm 216 mm
      Level 1 cache 64 KB (per core) 64 KB (per core)
      Level 2 cache 256 KB (per core) 256 KB (per core)
      Level 3 cache 6144 KB (shared) 6144 KB (shared)
      Process 32nm 32nm
      Maximum core temperature 72. 6°C 72.6°C
      Maximum frequency 3.40 GHz 3.70 GHz
      Number of cores 4 4
      Number of threads 4 4
      Number of transistors 1160 million 1160 million
      Maximum number of memory channels 2 2
      Maximum memory bandwidth 21 GB/s 21 GB/s
      Maximum memory size 32GB 32GB
      Supported memory types DDR3 1066/1333 DDR3 1066/1333
      Device ID 0x102 0x102
      Graphics base frequency 850MHz 850MHz
      Graphics max dynamic frequency 1. 10 GHz 1.10 GHz
      Maximum GPU clock 1.1 GHz 1.1 GHz
      Intel® Clear Video Technology HD
      Intel® Flexible Display Interface (Intel® FDI)
      Intel® InTru™ 3D Technology
      Intel® Quick Sync Video
      Integrated graphics Intel® HD Graphics 2000 Intel® HD Graphics 2000
      Maximum number of monitors supported 2 2
      WiDi support
      Low Halogen Options Available
      Maximum number of processors in 1 1
      Package Size 37. 5mm x 37.5mm 37.5mm x 37.5mm
      Supported sockets LGA1155 LGA1155
      Power Demand (TDP) 95 Watt 95 Watt
      Number of PCI Express lanes 16 16
      PCI Express revision 2.0 2.0
      Execute Disable Bit (EDB)
      Intel® Identity Protection Technology
      Intel® Trusted Execution Technology (TXT)
      Enhanced Intel SpeedStep® Technology
      Flexible Display interface (FDI)
      Idle States
      Extended Instructions Intel® SSE4. 1, Intel® SSE4.2, Intel® AVX Intel® SSE4.1, Intel® SSE4.2, Intel® AVX
      Intel 64
      Intel® Advanced Vector Extensions (AVX)
      Intel® AES New Instructions
      Intel® Fast Memory Access
      Intel® Flex Memory Access
      Intel® Hyper-Threading Technology
      Intel® Turbo Boost Technology
      Intel® vPro™ Platform Eligibility
      Thermal Monitoring
      Intel® Virtualization Technology (VT-x)
      Intel® Virtualization Technology for Directed I/O (VT-d)
      Intel® VT-x with Extended Page Tables (EPT)

      Testing three Intel Sandy Bridge processors.

      Evolution or revolution? / Processors and memory

      The current situation on the processor market is rather unambiguous, Intel holds a leading position in most segments, but AMD has firmly fixed its position in the mainstream segment, offering the buyer fairly “cheap” six-core processors, which, however, can only compete with competitor’s quad-core processors. The release of AMD’s highest-clocked six-core processor, Phenom II 1100, did not change this alignment of forces. With the advent of processors based on the new Sandy Bridge architecture, the competitor will most likely have to further reduce the price of its products.

      In the new year, Intel decided to strengthen its positions not only in terms of processors, but also in the segment of integrated video adapters. Here the company plans to conquer the most massive segment of video solutions — the integrated segment. In general, more than 50% of sales of graphic chips already accounted for Intel, but now the company expects to compete with ATI and NVIDIA in the lower price segment.

      ⇡#A bit of theory

      Despite the apparent similarity with the previous Nehalem and Westmere architectures, Sandy Bridge has a lot of features and innovations, which can be found in detail in our article on Sandy Bridge microarchitecture, part I. Briefly dwell on the most important of them.

      First of all, it is worth noting the appearance of a completely new ring 256-bit intercomponent bus ( Ring Interconnect ) , which serves to exchange data between the main processor units: four main cores, graphics core, system agent and L3 cache. The ring bus performance at 3 GHz is in the order of 96 GB/s between each of the connected units. Such a throughput with a margin provides the needs of the main elements of the core, which in turn contributes to a fairly simple scaling of the number of computing units in the future.

      The next thing to pay attention to is the appearance of the so-called System Agent ( System Agent ). This module contains a DDR3 memory controller, a power control unit (Power Control Unit, PCU), PCI-Express 2.0, DMI controllers, and a video output unit. Like all main processor blocks, the system agent is also connected to the high-speed ring bus and is located on the same chip with four x86 CPU cores. The memory controller that “moved” to the main chip became a two-channel one again — a three-channel controller, according to Intel, turned out to be redundant for desktop systems. The PCI-Express 2.0 controller provides 16 PCI-E lanes, which, when using systems with several discrete video adapters, can be distributed according to the scheme 8 + 8 when using two slots or 8 + 4 + 4 when using three PCI-E x16 slots.

      An interesting part of the system agent is the power management controller ( PCU ). It is responsible for dynamically changing the supply voltages and frequencies of all the main processor blocks, and for the processor cores and the graphics core, control occurs separately.

      Such a “close” location of the power controller to the processor made it possible to significantly improve the technology algorithm Turbo Boost . Now, depending on the load, the processor and graphics cores can be overclocked to a level that significantly exceeds TDP.

      In addition to a deep modification of the “binding” of computing cores, the cores themselves have also undergone major changes, which made it possible to call Sandy Bridge a truly new architecture. You can read about this in detail in the second part of a review article on the Sandy Bridge microarchitecture.

      Last on our list, but by no means the least, is the improved graphics subsystem Intel HD Graphics (Intel Sandy Bridge Microarchitecture Part III). The video core is integrated into the processor, however, unlike Clarkdale, where the graphics chip was connected via the QPI bus and was a separate “crystal” made according to a process technology different from the main core (45 nm), it is located on the same chip with the main processor cores and is made according to 32 nm process technology. In addition to being close to the cores, the “video chip” is located next to the L3 cache memory of the CPU and has direct access to it via the ring bus. Of course, this fact means that the video subsystem will give an additional “load” to the processor, but this rather contributes to an increase in performance in 3D, since a fast L3 cache will be useful to the video core, and when using an accelerator of such a class as Intel HD Graphics , the processor is simply «idle (resting)» most of the time.

      Enough theory, there’s already been a lot of it, let’s move on to real processors.

      ⇡#Platform

      We have already published a complete list of processors and their characteristics, you can see it at this link. The platform that Intel gave us for testing includes the new LGA 1155, Intel DP67BG and Intel DH67BL motherboards based on the Intel P67 and Intel H67 chipsets, respectively, and the new Intel Core i5-2400, Intel Core i5 processors -2500K, Intel Core i7-2600K. The name of the processor now contains a four-digit number, where the first digit indicates belonging to the 2nd generation Core family, and the “K” index indicates whether the processor has an unlocked multiplier.

      In addition to processors and motherboards, we also got boxed cooling systems for the Core i5 and Core i7.

      The cooler for the new Core i5 is absolutely identical to the cooling system of the previous generation processors on the LGA 1156 — the same small cylindrical aluminum radiator and 80mm fan.

      But the cooling for the Core i7-2600K looks much more serious. By design, the cooling system resembles a boxed cooler from the extreme Core i7-980x.

      However, there are differences. The new cooler is slightly inferior in size to its twin under LGA 1366, the total dissipated area is reduced by about one and a half times, to a greater extent due to the increased distance between the heat distribution plates, however, this fact contributes to improved radiator ventilation, which was badly lacking in the cooling system under LGA 1366 Also, the number of heat-conducting pipes in the new cooler has been reduced from eight to six. Looking ahead, it is worth noting that this cooling system with a margin provides heat dissipation from the Core i7-2600K processor.

      The table shows the main characteristics of the processors:

      Core i5-2400

      Core i5-2500K

      Core i7-2600K

      Process technology cores CPU, GPU, System Agent, nm

      32

      32

      32

      Number of CPU cores/executable threads, pcs.

      4/4

      4/4

      4/8

      L3 cache size, MB

      6

      6

      8

      Rated CPU frequency, GHz

      3. 1

      3.3

      3.4

      CPU Speed ​​with Turbo Boost (maximum, within TDP GHz)

      3.4

      3.7

      3.8

      Unlocked multiplier (up)

      +

      +

      GPU frequency (maximum, within TDP ), MHz

      1100

      1100

      1350

      HT support

      +

      Intel VT-x Technology

      +

      +

      +

      AES-NI instruction set

      +

      +

      +

      Intel AVX

      +

      +

      +

      TDP, W

      95

      95

      95

      Socket

      LGA 1155

      LGA 1155

      LGA 1155

      Wholesale price (in a lot of 1000 pieces), USD

      184

      216

      317

      And here are the processors themselves:

      Intel Core i5-2400

      Intel Core i5-2500K

      3 5003 Intel Core i5-760

      Externally, Sandy Bridge processors are slightly different from their relatives under LGA 1156. On the front side, the difference is observed in the number of control contacts (testpoints). At the back, the difference lies in the layout of the central part of the processor with elements and the absence of one contact in the area of ​​\u200b\u200bthe right lock, and the locks themselves are slightly shifted to the top so that especially inquisitive people do not “shove” the new processor into the old 1156 socket. It points to absolute incompatibility between LGA 1155 and LGA 1156 .

      Intel Core i7-2600K and Intel Core i5-2500K

      External differences between the new Core i5 and Core i7 are minimal and consist only in markings.

      Intel motherboards based on P67 and H67 chipsets

      The Intel DP67BG motherboard is made in the ATX form factor. Externally, the board looks quite restrained and without frills. It is made on black textolite, diluted with blue connectors and radiators of the cooling system. It is in this color design that Intel has recently presented its «top» boards. However, there are still a couple of points that can distinguish the board from others:

      So, Intel’s favorite technological image of the «skull» now winks at us with its LED «eyes» to the beat of the hard drive, and the inscription Intel Desktop Board, applied to the heatsink, is effectively illuminated by blue LEDs.

      The rear panel does not boast a large number of connectors, but the entire “standard” set is present here.

      It’s worth paying attention to the fact that the USB 3.0 controller on the board is still implemented on a third-party NEC D7200200F1 chip, contrary to expectations that it will be integrated into the system logic on motherboards with new Intel chipsets.

      Of the additional «chips» we can note the presence on the board of the POST code indicator, start and reset buttons, as well as LED indicators that display the stages of system startup.

      In general, the motherboard is made quite well, the wiring is implemented using solid capacitors and shielded inductors, dressed in neat cases.

      During the practical tests, we will use the Intel DP67BG motherboard to test processors at nominal and under «overclocking» above TDP using Turbo Boost technology. Since this board with the latest Beta-BIOS at the time of testing does not allow manually raising the processor multiplier, we used the Gigabyte P67A-UD4 board for manual overclocking.

      The second board, Intel DH67BL, is made in Micro-ATX format. Externally, the board does not stand out in any way, the PCB is made on a blue textolite, which makes it look like other Micro-ATX boards from Intel under LGA 1156.

      The board also has a USB 3.0 interface implemented using NEC D7200200F1, a SATA 3 controller (6 Gb / s), implemented through system logic.

      Since the board has graphics adapter wiring and has video outputs (DVI and HDMI) on the rear panel, we will test the graphics core built into Intel Sandy Bridge processors on it. The board also allows you to change the maximum frequency of the graphics core and set its supply voltage.

      It’s time to move on to practical tests.

      Test bench configuration

      Motherboards

      Intel DP67BG; Intel DH67BL; Gigabyte P67A-UD4; MSI 890GXM-G65; ASUS Maximus III Extreme; Gigabyte GA-H55N-USB3

      Processors

      Intel Core i5-2400; Intel Core i5-2500K; Intel Core i7-2600K; Intel Core i5-760; Intel Core i7-870 and 875; AMD Phenom II 1100

      CPU cooling systems

      Intel BOX Cooler DHX-B and DHX-A; Thermalright Silver Arrow

      RAM

      2 x 1024 MB DDR-3 Apacer

      Video adapters

      Intel HD Graphics 3000 Core i5-2500K (1100 MHz GPU, 1333 MHz RAM)

      Intel HD Graphics 3000 Core i7-2600K (1350 MHz GPU, 1333 MHz RAM)

      Intel HD Graphics Core i5-661K (733 MHz GPU, 1333 MHz RAM)

      AMD Sapphire Radeon HD 5570 (GPU 650 MHz, RAM 1800 MHz),
      NVIDIA ZOTAC GT 430 (GPU 700 MHz, RAM 1800 MHz, SD 1400 MHz)

      Hard disk

      Seagate barracuda 10 750 GB (ACHI Mode)

      Power supply

      IKONIK Vulcan 1200W

      Housing

      Cooler Master test bench 1. 0

      Operating system

      Windows 7 Ultimate x64

      First, let’s look at the operation of Turbo Boost technology using the Intel Core i5-2400 processor as an example. To do this, we will alternately load one, two, three and four processor cores and monitor its frequency.

      As you can see from the screenshots, the maximum frequency reaches the declared 3.4 GHz, this scenario is implemented when one core is loaded. The use of two cores allows you to “overclock” up to 3.3 GHz, and when three and four cores are fully loaded, the frequency rises only one step, up to 3.2 GHz. Let’s see how the situation will change when we “push back” the TDP frames using the settings in the BIOS. Instead of the nominal 95 W, we will set the value to 150 W, and for each core we will change the maximum multiplier value for the Turbo Boost mode. For greater reliability, we will increase the voltage of the processor core by two points.

      As you can see from the results, the situation has changed a lot. Now loading one core raises its frequency to 3.8 GHz. Two and three loaded cores operate at frequencies of 3.7 GHz, and when all four cores are loaded, their frequency was 3.6 GHz.

      A further increase in the maximum TDP value and multipliers for the Turbo Boost mode did not lead to an additional increase in frequencies, therefore, we reached the maximum frequency value in the “Over TDP” Turbo Boost mode.

      For Core i5-2400, same as for any processor Sandy Bridge which does not have “ K” in the name Sandy Bridge is difficult.

      The figure shows the maximum value of the base frequency at which the system behaved stably — 105 MHz. With the change of the processor to the Core i7-2600K, the situation has not changed.

      We are dealing with architectural features, so is the only left by Intel, the way to overclock the processor lies through changing its multiplier .

      First, let’s test processors at nominal frequency with Turbo Boost technology enabled (Turbo Core for AMD).

      Core i5-2400, 3.1 GHz, TB

      Core i5-2500K, 3.3 GHz, TB

      Core i5-760, 2.8 GHz, TB

      Core i7-870, 2.93 GHz, TB

      Core i7-2600K, 3.4 GHz, TB

      AMD Phenom II 1100T, 3.3 GHz, TC

      Core i7-980X, 3.3 GHz, TB

      Everest, memory read

      15964

      16020

      12266

      15644

      16227

      8560

      13243

      Everest, memory write

      16980

      17536

      9681

      10892

      18475

      7080

      13243

      Everest, memory copy

      15667

      18020

      13632

      15601

      19200

      11078

      12869

      Everest, Memory latency

      54. 4

      54.0

      55.7

      52.2

      53.4

      51.1

      62.1

      Everest, CPU Queen

      30099

      38624

      24416

      36735

      43256

      32455

      52611

      Everest, PhotoWorxx

      40957

      42150

      30718

      35695

      43488

      26238

      41706

      Everest, Zlib

      118037

      67918

      101694

      142501

      131576

      165674

      Everest, AES

      324119

      330508

      22407

      25525

      341214

      35728

      352754

      Everest, Julia

      12245

      14018

      11521

      13431

      15481

      14226

      21325

      Everest, Mandel

      6795

      7321

      6036

      7296

      8208

      8208

      11157

      Everest, SinJulia

      3873

      4837

      3615

      5989

      6352

      4318

      9732

      Super PI, from

      11. 357

      10.265

      14.196

      12.277

      10.077

      19.969

      11.918

      WinPrime 32M, with

      10.062

      9.377

      11.073

      8.443

      7.692

      8.488

      5.35

      WinPrime 1024M, with

      306.338

      287.054

      343.045

      255.211

      221.052

      251. 129

      148.56

      Fritz

      9524

      10142

      8563

      11719

      13056

      11250

      12716

      CineBench 10

      19233

      20012

      14747

      18630 ​​

      23034

      18836

      28341

      7zip

      13369

      14073

      11652

      18614

      19842

      17963

      24667

      WinRar x64

      3010

      3073

      2895

      3194

      3324

      2857

      3669

      x264, FPS

      90. 36

      96.39

      71.49

      74.18

      88.03

      75.34

      88.2

      As expected, the Core i5-2400, Core i5-2500K and Core i7-2600K processors were significantly faster than their “relatives” with the old architecture in all tests we conducted. We also see AMD’s six-core processor lagging behind the quad-core Core i7-2600K in all of our tests. In some tests, the new Core i7-2600K outperforms even the extreme Core i7-980x! This is partly due to the higher clock speeds of the processors, partly to the more efficient operation of Turbo Boost technology, and partly to the efficiency of the new architecture. To reveal the impact of the new architecture on performance, it is necessary to know the “efficiency” of one megahertz of new processors compared to their predecessors. To do this, we will conduct tests with strictly fixed frequencies:

      Core i5-2400, 3.1 GHz, NoTB

      Core i5-760, 2.8 GHz, NoTB

      Change in performance per 1 MHz, relative to Core i5-760, %

      Core i7-2600K, 3.4 GHz, NoTB

      Core i7-875, @3.4 GHz, NoTB

      Change in performance per 1 MHz, relative to Core i7-875, %

      Everest, memory read

      15641

      13898

      1.6

      15981

      16275

      -1. 8

      Everest, memory write

      15735

      12308

      15.4

      16987

      14366

      18.2

      Everest, memory copy

      15374

      14832

      -6.3

      19080

      17992

      6.0

      Everest, Memory latency

      56.3

      55.5

      -8.3

      55.1

      50.2

      9. 8

      Everest, CPU Queen

      29187

      23291

      13.2

      42039

      38940

      8.0

      Everest, PhotoWorxx

      40382

      30056

      21.4

      43203

      37415

      15.5

      Everest, Zlib

      63414

      34.5

      138783

      107610

      29. 0

      Everest, AES

      340776

      21401

      1338.2

      324398

      27054

      1099.0

      Everest, Julia

      11866

      11001

      -2.6

      15096

      14253

      5.9

      Everest, Mandel

      6602

      5760

      3.5

      7946

      7699

      3.2

      Everest, SinJulia

      3765

      3440

      -1. 1

      6203

      6358

      -2.4

      Super PI, with

      12.137

      14.836

      10.4

      11.029

      12.262

      10.1

      WinPrime 32M, from

      10.467

      11.917

      2.8

      7.736

      7.704

      -0.4

      WinPrime 1024M, with

      315.056

      359.237

      3. 0

      227.338

      226.525

      -0.4

      Fritz

      9150

      8227

      0.5

      12762

      12485

      2.2

      CineBench 10

      18426

      14229

      17.0

      22657

      19959

      13.5

      7zip

      13024

      10984

      7.1

      18961

      19613

      -3. 3

      WinRar x64

      2965

      2745

      -2.4

      3270

      3257

      0.4

      x264, FPS

      86.71

      67.77

      15.6

      87.7

      76.46

      14.7

      As for the Core i5 processors, in general, 1 MHz of the Sandy Bridge processor is faster than 1 MHz of the Nahalem processor in almost all tests, only in a number of tests there is a slight lag. Average gain rating (excluding AES test) is 6.95 %. We observe almost the same picture for the Core i7, the average growth rate was 7. 12%

      NVIDIA GTX 580 graphics card

      Core i5-2400, 3.1 GHz, TB

      Core i5-2500K, 3.3 GHz, TB

      Core i7-870, 2.93 GHz, TB

      Core i7-2600K, 3.4 GHz, TB

      AMD Phenom II 1100T, 3.3 GHz, TC

      FarCry 2 (1280×1024; VeryHigh; NoFSAA; DX10)

      min FPS

      83.05

      83.11

      73.16

      86.79

      57.45

      avg FPS

      116. 89

      117.53

      108.48

      123.6

      81.95

      max FPS

      167.09

      167.01

      160.93

      176.18

      120.22

      FarCry 2 (1920×1080; UltraHigh; FSAA8x)

      min FPS

      74.13

      76.15

      74.85

      76.17

      58.50

      avg FPS

      97.69

      98. 81

      99.97

      101.33

      84.89

      max FPS

      147.9

      147.85

      149.97

      153.87

      114.60

      Resident Evil 5

      1280×1024; high; NoFSAA, FPS

      123.9

      124.9

      128.6

      133.8

      88.6

      1920×1080; high; FSAA 16xq, FPS

      109.4

      115. 8

      113.4

      121.2

      81.8

      Crysis

      1280×1024; high; DX10; NoFSAA; TOD=12, FPS

      84.22

      96.45

      85.02

      98.79

      66.99

      1920×1080; Very High; DX10; FSAA 16xq; TOD=12, FPS

      37.54

      37.49

      33.37

      37.45

      36.34

      Dirt 2 (1280×1024; NoFSAA; NoAF)

      min FPS

      78. 6

      81.47

      99.63

      104.51

      45.274

      avg FPS

      101.35

      105.45

      123.3

      125

      56.88

      Dirt 2 (1920×1080; FSAA 4x; AF 16x)

      min FPS

      73.31

      77.16

      76.45

      78.29

      42.07

      avg FPS

      88.66

      93. 58

      98.55

      95.92

      51.02

      3DMark Vantage

      GPU score

      24158

      24086

      23494

      24416

      21667

      CPU score

      16339

      17353

      19831

      23662

      16888

      Overall score

      21625

      21956

      22457

      24223

      20236

      3D Mark 2011

      GPU score

      5568

      5551

      5686

      5597

      5453

      PHY score

      6132

      6383

      6562

      7556

      5335

      Overall score

      5568

      5664

      5731

      5842

      5281

      In 3D tests, the situation repeats itself: the Core i5-2500 processor almost catches up with the Core i7-870, which, in turn, noticeably loses to the Core i7-2600K. The AMD Phenom II 1100T processor is the worst, it loses quite a lot to all test participants, only in Crysis at high graphics settings it is on an equal footing, but this is due to the fact that in this mode the video card was the limiting factor.

      Energy consumption of the entire system in various operating modes:

      System Power* W

      Core i5-2400, 3.1 GHz, TB

      Core i5-2500K, 3.3 GHz, TB

      Core i7-870, 2.93 GHz, TB

      Core i7-2600K, 3.4 GHz, TB

      AMD Phenom II 1100T, 3.3 GHz, TC

      Idle

      63

      65

      110

      67

      104

      OCCT

      116

      124

      206

      133

      239

      FarCry 1280×1024

      234

      239

      280

      221

      290

      FarCry 1920×1080

      251

      256

      308

      256

      330

      Crysis 1280×1024

      245

      260

      318

      249

      307

      Crysis 1920×1080

      262

      278

      325

      258

      340

      7zip

      110

      115

      180

      122

      195

      WinRAR x64

      96

      100

      150

      102

      156

      X264

      110

      116

      183

      126

      206

      *
      Video card NVIDIA GTX 580

      Everything is quite transparent here, systems based on Sandy Bridge processors consume much less power than systems based on Core i7-870. The processor from AMD is again an outsider.

      Now here are the test results for overclocked systems:

      Core i5-2400, 3.1 GHz, TB

      Core i5-2400, 3.1 GHz, Over TB (3.6-3.8 GHz)

      Core i5-2500K, 3.3 GHz, TB

      Core i5-2500K, 3.3 GHz, Over TB (4.1-4.5 GHz)

      Core i5-2500K @4.6 GHz, NoTB

      Core i7-2600K, 3.4 GHz, TB

      Core i7-2600K, 3.4 GHz, Over TB (4.2-4.4 GHz)

      Everest, memory read

      15964

      16038

      16020

      16177

      16218

      16227

      16648

      Everest, memory write

      16980

      17400

      17536

      19030

      19196

      18475

      19932

      Everest, memory copy

      15667

      16524

      18020

      18240

      15596

      19200

      21284

      Everest, Memory latency

      54. 4

      53.9

      54.0

      53.7

      53.8

      53.4

      52.2

      Everest, CPU Queen

      30099

      37632

      38624

      39980

      41456

      43256

      51770

      Everest, PhotoWorxx

      40957

      42433

      42150

      41045

      42694

      43488

      45646

      Everest, Zlib

      10212

      118037

      120067

      130043

      142501

      167312

      Everest, AES

      324119

      328843

      330508

      333243

      329708

      341214

      324648

      Everest, Julia

      12245

      14264

      14018

      14310

      14893

      15481

      18224

      Everest, Mandel

      6795

      7520

      7321

      7580

      7644

      8208

      9583

      Everest, SinJulia

      3873

      4930

      4837

      5227

      5783

      6352

      7472

      Super PI, with

      11. 357

      10.03

      10.265

      8.315

      8.19

      10.077

      8.487

      WinPrime 32M, with

      10.062

      8.968

      9.377

      7.689

      7.005

      7.692

      6.443

      WinPrime 1024M, with

      306.338

      271.11

      287.054

      232.484

      221.224

      221.052

      188. 917

      Fritz

      9524

      10911

      10142

      12306

      13414

      13056

      15246

      CineBench 10

      19233

      21551

      20012

      25021

      26013

      23034

      26837

      7zip

      13369

      15364

      14073

      17057

      18282

      19842

      22302

      WinRar x64

      3010

      3238

      3073

      3325

      3353

      3324

      3535

      x264, FPS

      90. 36

      102.82

      96.39

      112.73

      113.84

      88.03

      102.14

      Here, too, everything is quite natural. Overclocking with Turbo Boost when TDP is exceeded allows you to get an additional performance boost, this mode will be most in demand for processors with a locked multiplier. Manual overclocking of processors with an unlocked multiplier allows you to noticeably increase system performance.

      ⇡#Power consumption of overclocked systems

      System W

      Core i5-2400, 3.1 GHz, TB

      Core i5-2400, 3.1 GHz, Over TB (3. 6-3.8 GHz)

      Core i5-2500K, 3.3 GHz, TB

      Core i5-2500K, 3.3 GHz, Over TB (4.1-4.5 GHz)

      Core i5-2500K @4.6GHz, NoTB

      Core i7-2600K, 3.4 GHz, TB

      Core i7-2600K, 3.4 GHz, Over TB (4.2-4.4 GHz)

      Core i7-2600K @4.8GHz, NoTB

      Idle

      63

      65

      65

      79

      101

      67

      80

      93

      OCCT

      116

      135

      124

      155

      161

      133

      151

      196

      FarCry 1280×1024

      234

      255

      239

      260

      265

      221

      213

      280

      FarCry 1920×1080

      251

      264

      256

      280

      292

      256

      277

      300

      Crysis 1280×1024

      245

      258

      260

      298

      306

      249

      280

      307

      Crysis 1920×1080

      262

      266

      278

      302

      310

      258

      280

      301

      7zip

      110

      116

      115

      147

      158

      122

      140

      179

      WinRAR x64

      96

      106

      100

      132

      140

      102

      114

      133

      X264

      110

      122

      116

      143

      151

      126

      149

      185

      Analyzing the data given in the table, we can conclude that manual overclocking and overclocking through Turbo Boost significantly increase the power consumption of the system, however, the absolute value remains quite small, and any “honest” 350 W power supply will be enough for the operation of the Intel Sandy Bridge platform together with the NVIDIA Geforce GTX 580 video card. Another question is that there are practically no “honest” 350 W blocks in nature.

      ⇡#Testing the video subsystem

      Due to the fact that Intel aims to conquer the pedestal of mass video solutions, cards from this segment from graphics giants NVIDIA and AMD were chosen for comparison. They were Zotac GeForce GT 430 and AMD Radeon HD 5570. Also, in order to visually see the progress of Intel in the video adapter segment, we compared the new graphics core of the Sandy Bridge platform with the “old, battered” Clarkdale.

      Below are the core and memory frequencies of the video adapters that took part in our tests:

      i5-2500K Intel HD Graphics 3000

      i7-2600K Intel HD Graphics 3000

      Zotac NVIDIA GT 430

      AMD Radeon HD 5570

      i5-665 Intel HD Graphics

      Core, MHz

      1100

      1350

      700

      650

      733

      Core (after overclocking), MHz

      1800

      2200

      1100

      Memory, MHz

      1333

      1333

      1800

      1800

      1333

      Test results are shown in the summary table.

      HD Graphics

      Performance

      Intel Core i5-2500K+ Intel HD Graphics

      @1.1GHz

      Intel Core i5-2500K+ Intel HD Graphics

      @1.8GHz

      Intel Core i5-2500K+ NVIDIA GT 430

      Intel Core i5-2500K+ AMD 5570

      Intel Core i7-2600K+ Intel HD Graphics

      @1.35 Ghz

      Intel Core i7-2600K+ Intel HD Graphics

      @2.2 Ghz

      Intel Core i5-655K+ Intel HD Graphics

      @733 Mhz

      Intel Core i5-655K+ Intel HD Graphics

      @1. 1Ghz

      FarCry2 (1280×1024; VeryHigh; NoFSAA; DX9)

      min FPS

      11.4

      15.43

      30.83

      29.94

      13.12

      15.57

      4.58

      7.80

      avg FPS

      13.45

      18.64

      36.27

      37.29

      15.86

      19.05

      6.87

      9.29

      max FPS

      18. 56

      26.45

      50.52

      50.81

      21.78

      26.8

      9.33

      12.74

      FarCry 2 (1024×768; High; NoFSAA; DX9)

      min FPS

      19.99

      21.65

      49.29

      50.17

      21.83

      22.32

      11.22

      13.14

      avg FPS

      26.33

      30.43

      59. 11

      63.04

      30.01

      31.88

      13.57

      17.21

      max FPS

      38.11

      45.72

      81.54

      89.22

      44.06

      48.17

      18.95

      24.4

      FarCry 2 (1024×768; High; NoFSAA; DX10)

      min FPS

      12.25

      16.13

      45.59

      45.31

      14. 99

      17.12

      4.49

      6.36

      avg FPS

      16.14

      22.45

      53.53

      53.66

      19.17

      23.23

      6.24

      8.77

      max FPS

      22.63

      34.1

      77.87

      106.94

      27.32

      34.57

      8.53

      11.75

      Resident Evil 5

      1280×1024; NoFSAA; DX10, FPS

      19. 6

      25

      45.9

      50.4

      22.9

      25.7

      9.6

      13

      1024×768; NoFSAA; DX10, FPS

      26.1

      28.1

      63.2

      68.7

      29.1

      29.3

      13

      16.8

      Crysis

      1280×1024; high; DX9; NoFSAA; TOD=12, FPS

      9.83

      13.68

      23. 1

      26.55

      11.22

      13.92

      4.69

      6.46

      1024×768; high; DX9; NoFSAA; TOD=12, FPS

      13.35

      17.56

      33

      38.27

      16.08

      20.15

      6.8

      8.56

      1024×768; medium; DX9; NoFSAA, FPS

      24.33

      36.57

      59.79

      70.39

      29.34

      37. 15

      11.43

      15.51

      Dirt 2 (1280×1024; NoFSAA; NoAF)

      min FPS

      12.61

      16.97

      19.72

      21.11

      15.18

      17.93

      12.5

      12.5

      avg FPS

      15.68

      20.22

      25.43

      26.61

      18.66

      21.54

      13.1

      13.1

      Dirt 2 (1024×768; NoFSAA; NoAF)

      min FPS

      15. 93

      20.13

      24.96

      26.79

      19.43

      21.29

      12.5

      12.5

      avg FPS

      19.46

      24.04

      31.73

      33.13

      23.03

      25.76

      13.1

      13.1

      3DMark Vantage

      GPU score

      1306

      2095

      3675

      3585

      1629

      2112

      243

      384

      CPU score

      16991

      16938

      17362

      17388

      23273

      23128

      9216

      9286

      Overall score

      1698

      2683

      4577

      4473

      2123

      2733

      321

      505

      Looking at the results, we can definitely say right away that Intel has seriously worked on the graphics part of its processors. Without overclocking, the new graphics solutions are more than twice as fast as the Clarkdale GPU in almost all tests. At the same time, after overclocking, Intel HD Graphics 3000 in some tests gets close enough to NVIDIA GT430, however, in most tests, the junior NVIDIA accelerator still outperforms the integrated Sandy Bridge graphics by almost two times.

      ⇡#Power consumption

      It was also interesting to see how energy efficient the new platform turned out to be. To do this, we measured the power consumption of the entire system in typical tasks in various configurations.

      Power consumption, W

      Intel Core i5-2500K+ Intel HD Graphics

      @1.1GHz

      Intel Core i5-2500K+ Intel HD Graphics

      @1. 8GHz

      Intel Core i5-2500K+ NVIDIA GT 430

      Intel Core i5-2500K+ AMD 5570

      Intel Core i7-2600K+ Intel HD Graphics @1.35 GHz

      Intel Core i7-2600K+ Intel HD Graphics @2.2 GHz

      Intel Core i5-655K+ Intel HD Graphics

      @733 Mhz

      Intel Core i5-655K+ Intel HD Graphics

      @1.1Ghz

      Idle

      36

      37

      39

      37

      36

      37

      56

      57

      OCCT

      91

      96

      94

      97

      104

      112

      102

      103

      FarCry 1024×768

      67

      83

      98

      83

      70

      85

      92

      97

      FarCry 1280×1024

      67

      84

      100

      84

      78

      86

      91

      99

      crysis 1024×768

      65

      80

      92

      76

      75

      86

      92

      96

      Crysis 1280×1024

      68

      80

      94

      77

      76

      87

      97

      99

      7zip

      73

      78

      76

      80

      89

      93

      87

      92

      WinRAR x64

      62

      67

      65

      71

      69

      78

      79

      82

      X264

      82

      85

      85

      88

      96

      106

      92

      93

      As can be seen from the results, when using integrated video solutions, the maximum energy efficiency of the entire system is achieved. This, in turn, will be useful for extending the battery life of mobile devices.

      In conclusion, it is worth saying a few words about the temperature regime of Intel Sandy Bridge processors. Looking at the results of measuring the power consumption of the new platform, we can safely assume that the new processors will be much colder than their predecessors. And there is. In nominal operating conditions, the heatsinks of the cooling system of the Core i5 2400, Core i5-2500K and Core i7-2600K processors were barely warm to the touch even at full load.

      For clarity, let’s test the heat dissipation of the Core i5-2400 processor using a passive cooling system (without airflow).

      For this we use a heatsink from the Thermalright Silver Arrow cooler.

      When loading all four cores with WPrime, the processor temperature slowly rose and reached a steady state with a maximum temperature of 69 degrees, while the room temperature was approximately equal to 26 degrees Celsius.

      As soon as the test ended, all the cores were unloaded and the processor temperature began to drop quite quickly.

      In the absence of any airflow, this is a pretty impressive result. To dissipate the heat generated by the Core i5-2400 processor, only the convection effect is enough. Quad-core Core i5 processors of the previous generation could not afford this.

      ⇡#Conclusions

      Well, it’s time to sum it up. Once again, let’s weigh the main results and try to answer the main question: «Intel Sandy Bridge — a revolution or an evolution?». Of course, in terms of performance “per megahertz”, we did not get a revolutionary increase in our tests, as was the case with the Conroe core after the NetBurst microarchitecture. Intel Sandy Bridge processors are simply faster and more efficient than their predecessors in terms of performance per watt in most cases — the next evolutionary step.

      However, there are still small revolutionary inclinations. Firstly, this is a completely new switching system between processor components, which, with its bandwidth, leaves a reserve for the future for scaling the number and processing power of processor units. Secondly, the graphics subsystem, showing a revolutionary increase in performance with reduced power consumption compared to the previous generation of Intel HD Graphics. In general, we got a solid energy-efficient processor, which will show itself quite well when used in a home PC, and the presence of good integrated graphics makes the Sandy Bridge architecture a good help for mobile computer manufacturers.

      Core i5-2400 vs Core i5-2500

      add one more processor to this comparison
      Select the processor ..Amd A10 Micro-6700TAMD A10 Pro-7350BAMD A10-4600MAMD A10-46555MAMD A10-4657MAMD A10-5745MAMD A10-5750MAMD A10-5800KAMD A10-6700AMD A10-6700TAMD A10-6700TAMD A10-6700TAMD A10-6700TAMD A10 -6800BAMD A10-6800KAMD A10-7300AMD A10-7350BAMD A10-7400PAMD A10-7700KAMD A10-7800AMD A10-7850KAMD A10-7860kAMD A10-7870KAMD A10-7890KAMD A10-8700PAMD A10-

      PAMD620PAMD A10-9700AMD A10-9700EAMD A12-9700PAMD A12-9720PAMD A12-9800AMD A12-9800EAMD A4 Micro-6400TAMD A4-1200AMD A4-1250AMD A4-1350AMD A4-3300AMD A4-3300MAMD A4-3305MAMD A4-3310MXAMD A4-3320MAMD A4-3330MXAMD A4-4300AMD 6300BAMD A4-6320AMD A4-7210AMD A4-7300AMD A4-9120AMD A4-9120CAMD A6 PRO-70550BAMD A6-3400MAMD A6-3410MXAMD A6-3430MXAMD A6-3500AMD A6-3600AMD A6-360020AMD A6-3600201 A6-4400MAMD A6-4455MAMD A6-5200AMD A6-5350MAMD A6-5357MAMD A6-5400BAMD A6-5400KAMD A6-6310AMD A6-6400KAMD A6-6420KAMD 8500PAMD A6-9120AMD A6-9120CAMD A6-9210AMD A6-9220AMD A6-9220CAMD A6-9225AMD A6-9500AMD A6-9500EAMD A8-3500MAMD A8-3520MAMD A8-3530MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD A8-3550MXAMD -3870KAMD A8-4500MAMD A8-4555MAMD A8-5500AMD A8-5500BAMD A8-5545MAMD A8-5550MAMD A8-5557MAMD A8-5600KAMD A8-6410AMD A8-6500AMD A8-6500TAMD A8-6600KAMD A8-7100AMD A8-7150BAMD A8-7200PAMD A8-7410AMD A8-7600AMD A8-7650KAMD A8-7670KAMD A8-7680AMD A8-8600PAMD A8-9600AMD A9-9410AMD A9-9420AMD A9-9420eAMD A9-9425AMD Athlon 200GEAMD Athlon 220GEAMD Athlon 240GEAMD Athlon 3000GAMD Athlon 300UAMD Athlon 5150AMD Athlon 5350AMD Athlon 5370AMD Athlon 64 2000+ AMD Athlon 64 2600+AMD Athlon 64 2800+AMD Athlon 64 3000+AMD Athlon 64 3200+AMD Athlon 64 3300+AMD Athlon 64 3400+AMD Athlon 64 3500+AMD Athlon 64 3600+AMD Athlon 64 3700+AMD 64 AMD Athlon 64 4000+AMD Athlon 64 FX-51AMD Athlon 64 FX-53AMD ​​Athlon 64 FX-55AMD Athlon 64 FX-57AMD Athlon 64 FX-60AMD Athlon 64 FX-62AMD Athlon 64 FX-72AMD Athlon 6 4 FX-74AMD Athlon 64 TF-20AMD Athlon 64 X2 3600+AMD Athlon 64 X2 3800+AMD Athlon 64 X2 4000+AMD Athlon 64 X2 4200+AMD Athlon 64 X2 4400+AMD Athlon 64 X2 4600+AMD Athlon 64 X2 AMD Athlon 64 X2 5000+AMD Athlon 64 X2 5200+AMD Athlon 64 X2 5400+AMD Athlon 64 X2 5600+AMD Athlon 64 X2 5800+AMD Athlon 64 X2 6000+AMD Athlon 64 X2 FX-60AMD Athlon 64 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Atom 330Intel Atom C2350Intel Atom C2530Intel Atom C2550Intel Atom C2730Intel Atom C2750Intel Atom C3538Intel Atom C3558Intel Atom C3858Intel Atom C3955Intel Atom C3958Intel Atom D2500Intel Atom D2550Intel Atom D2560Intel Atom D2700Intel Atom D410Intel Atom D425Intel Atom D510Intel Atom D525Intel Atom E3805Intel Atom E3815Intel Atom E3825Intel Atom E3826Intel Atom E3827Intel Atom E3845Intel Atom E660Intel Atom E680Intel Atom N2600Intel Atom N270Intel Atom N280Intel Atom N2800Intel Atom N435Intel Atom N450Intel Atom N455Intel Atom N470Intel Atom N475Intel Atom N550Intel Atom N570Intel Atom S1220Intel Atom S1240Intel Atom S1260Intel Atom Z2760Intel Atom Z3460Intel Atom Z3735DIntel Atom Z3735EIntel Atom Z3735FIntel Atom Z3735GIntel Atom Z3736FIntel Atom Z3736GIntel Atom Z3740Intel Atom Z3740DIntel Atom Z3745Intel Atom Z3745DIntel Atom Z3770Intel Atom Z3770DIntel Atom 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 4205UIntel Celeron 430Intel Celeron 440Intel Celeron 450Intel Celeron 5205UIntel Celeron 807Intel Celeron 807UEIntel Celeron 827EIntel Celeron 847Intel Celeron 847EIntel Celeron 857Intel Celeron 867Intel Celeron 877Intel Celeron 887Intel Celeron B710Intel Celeron B720Intel Celeron B800Intel Celeron B810Intel Celeron B815Intel Celeron B820Intel Celeron B830Intel Celeron B840Intel Celeron D 352Intel Celeron Dual-Core SU2300Intel Celeron Dual-Core T1400Intel Celeron Dual-Core T1500Intel Celeron Dual-Core T1600Intel Intel Celeron Dual-Core T1700Intel Celeron Dual-Core T3000Intel Celeron Dual-Core T3100Intel Celeron Dual-Core T3300Intel Celeron Dual-Core T3500Intel Celeron E1200Intel Celeron E1400Intel Celeron E1500Intel Celeron E1600Intel Celeron E3200Intel Celeron E3300Intel Celeron E3400Intel Celeron E3500Intel Celeron G1101Intel Celeron G1610Intel Celeron G1610TIntel Celeron G1620Intel Celeron G1620TIntel Celeron G1630Intel Celeron G1820Intel Celeron G1820TIntel Celeron G1820TEIntel Celeron G1830Intel Celeron G1840Intel Celeron G1840TIntel Celeron G1850Intel Celeron G3900Intel Celeron G3900EIntel Celeron G3900TIntel Celeron G3900TEIntel Celeron G3920Intel Celeron G3930Intel Celeron G3930TIntel Celeron G3930TEIntel Celeron G3950Intel Celeron G440Intel Celeron G460Intel Celeron G465Intel Celeron G470Intel Celeron G4900Intel Celeron G4900TIntel Celeron G4920Intel Celeron G4930Intel Celeron G530Intel Celeron G530TIntel Celeron G540Intel Celeron G540TIntel Celeron G550Intel Celeron G550TIntel Celeron G555Intel Celeron J1750Intel Celeron J1800 Intel Celeron J1850 Intel Celeron J1900Intel Celeron J3060Intel Celeron J3160Intel Celeron J3355Intel Celeron J3455Intel Celeron J4005Intel Celeron J4025Intel Celeron J4105Intel Celeron J4125Intel Celeron M 340Intel Celeron M 353Intel Celeron M 360Intel Celeron M 370Intel Celeron M 380Intel Celeron M 390Intel Celeron M 410Intel Celeron M 420Intel Celeron M 430Intel Celeron M 440Intel Celeron M 450Intel Intel Celeron M 520 Intel Celeron M 530 Intel Celeron M 540 Intel Celeron M 550 Intel Celeron M 560 Intel Celeron M 575 Intel Celeron M 58500Intel Celeron M P4500Intel Celeron M P4600Intel Celeron M U3400Intel Celeron N2805Intel Celeron N2806Intel Celeron N2807Intel Celeron N2808Intel Celeron N2810Intel Celeron N2815Intel Celeron N2820Intel Celeron N2830Intel Celeron N2840Intel Celeron N2910Intel Celeron N2920Intel Celeron N2930Intel Celeron N2940Intel Celeron N3000Intel Celeron N3010Intel Celeron N3050Intel Celeron N3060Intel Celeron N3150Intel Celeron N3160Intel Celeron N3350Intel Celeron N3450Intel Celeron N4000Intel Celeron N4020Intel Celeron N4100Intel Celeron N4120Intel Celeron P4500Intel Celeron P4505Intel Celeron P4600Intel Celeron U3400Intel Celeron U3405Intel Celeron U3600Intel Core 2 Duo E4300Intel Core 2 Duo E4400Intel Core 2 Duo E4500Intel Core 2 Duo E4600Intel Core 2 Duo E4700Intel Core 2 Duo E6300Intel Core 2 Duo E6320Intel Core 2 Duo E6400Intel Core 2 Duo E6420Intel Core 2 Duo E6540Intel Core 2 Duo E6550Intel Core 2 Duo E6600Intel Core 2 Duo E6700Intel Core 2 Duo E6750Intel Core 2 Duo E6850Intel Core 2 Duo E7200Intel Core 2 Duo E7300Intel Core 2 Duo E7400Intel Core 2 Duo E7500Intel Core 2 Duo E7600Intel Core 2 Duo E8190Intel Core 2 Duo E8200Intel Core 2 Duo E8300Intel Core 2 Duo E8400Intel Core 2 Duo E8500Intel Core 2 Duo E8600Intel Core 2 Duo L7100Intel Core 2 Duo L7300Intel Core 2 Duo L7500Intel Core 2 Duo L7700Intel Core 2 Duo P7350Intel Core 2 Duo P7370Intel Core 2 Duo P7450Intel Core 2 Duo P7550Intel Core 2 Duo P7570Intel Core 2 Duo P8400Intel Core 2 Duo P8600Intel Core 2 Duo P8700Intel Core 2 Duo P8800Intel Core 2 Duo P9500Intel Core 2 Duo P9600Intel Core 2 Duo P9700Intel Core 2 Duo SL9400Intel Core 2 Duo SL9600Intel Core 2 Duo SP7500Intel Core 2 Duo SP9300Intel Core 2 Duo SP9400Intel Core 2 Duo SP9600Intel Core 2 Duo SU7300Intel Core 2 Duo SU9300Intel Core 2 Duo SU9400Intel Core 2 Duo T5200Intel Core 2 Duo T5250Intel Core 2 Duo T5270Intel Core 2 Duo T5300Intel Core 2 Duo T5450Intel Core 2 Duo T5470Intel Core 2 Duo T5500Intel Core 2 Duo T5550Intel Core 2 Duo T5600Intel Core 2 Duo T5670Intel Core 2 Duo T5750Intel Core 2 Duo T5800Intel Core 2 Duo T5850Intel Core 2 Duo T5870Intel Core 2 Duo T5900Intel Core0 200 Dutel Core T64 2 Dutel Core T64 T6570Intel Core 2 Duo T6600Intel Core 2 Duo T6670Intel Core 2 Duo T7100Intel Core 2 Duo T7200Intel Core 2 Duo T7250Intel Core 2 Duo T7300Intel Core 2 Duo T7400Intel Core 2 Duo T7500Intel Core 2 Duo T7600Intel Core 2 Duo T7700Intel Core 2 Duo T7800Intel Core 2 Duo T8100Intel Core 2 Duo T8300Intel Core 2 Duo T9300Intel Core 2 Duo T9400Intel Core 2 Duo T9500Intel Core 2 Duo T9550Intel Core 2 Duo T9600Intel Core 2 Duo T9800Intel Core 2 Duo T9900Intel Core 2 Duo U7500Intel Core 2 Duo U7600Intel Core 2 Duo U7700Intel Core 2 Extreme QX6700Intel Core 2 Extreme QX6800Intel Core 2 Extreme QX6850Intel Core 2 Extreme QX9300Intel Core 2 Extreme QX9650Intel Core 2 Extreme QX9770Intel Core 2 Extreme QX9775Intel Core 2 Extreme X6800Intel Core 2 Extreme X7800Intel Core 2 Extreme X7900Intel Core 2 Extreme X9000Intel Core 2 Extreme X995W 2 Quad Q9400Intel Core 2 Quad Q9400SIntel Core 2 Quad Q9450Intel Core 2 Quad Q9505Intel Core 2 Quad Q9505SIntel Core 2 Quad Q9550Intel Core 2 Quad Q9550SIntel Core 2 Quad Q9650Intel Core 2 Solo SU3300Intel Core 2 Solo SU3500Intel Core 2 Solo U2100Intel Core 2 Solo U2200Intel Core Duo L2300Intel Core Duo L2400Intel Core Duo L2500Intel Core Duo T2050Intel Core Duo T2250Intel Core Duo T2300Intel Core Duo T2350Intel Core Duo T2400Intel Core Duo T2450Intel Core Duo T2500Intel Core Duo T2600Intel Core Duo T2700Intel Core Duo U2400Intel Core Duo U2500Intel Core M-5Y10Intel Core M-5Y10aIntel Core M- 5Y10cIntel Core M-5Y31Intel Core M-5Y51Intel Core M-5Y70Intel Core M-5Y71Intel Core Solo T1200Intel Core Solo T1300Intel Core S olo T1350Intel Core Solo T1400Intel Core Solo U1300Intel Core Solo U1400Intel Core Solo U1500Intel Core i3-1000G1Intel Core i3-1000G4Intel Core i3-1005G1Intel Core i3-10100Intel Core i3-10110UIntel Core i3-10110YIntel Core i3-10300Intel Core i3-10320Intel Core i3-11100Intel 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i7-3740QMIntel Core i7-3770Intel Core i7-3770KIntel Core07-3 Core07 3770TIntel Core i7-3820Intel Core i7-3820QMIntel Core i7-3840QMIntel Core i7-3920XMIntel Core i7-3930KIntel Core i7-3940XMIntel Core i7-3960XIntel Core i7-3960X Extreme EditionIntel Core i7-3970XIntel Core i7-3970X Extreme EditionIntel Core i7-4500UIntel Core i7-4510UIntel Core i7-4550UIntel Core i7-4558UIntel Core i7-47UI i7-4600MIntel Core i7-4600UIntel Core i7-4610MIntel Core i7-4610YIntel Core i7-4650UIntel Core i7-4700EQIntel Core i7-4700HQIntel Core i7-4700MQIntel Core i7-4702HQIntel Core i7-4702MQIntel Core i7-4710HQIntel Core i7-4710MQIntel Core i7- 4712HQIntel Core i7-4712MQIntel Core i7-4720HQIntel Core i7-4722HQIntel Core i7-4750HQIntel Core i7-4760HQIntel Core i7-4765TIntel Core i7-4770Intel Core i7-4770HQIntel Core i7-4770KIntel Core i7-4770RIntel Core i7-4770SIntel Core i7-4770TIntel Core i7-4770TEIntel Core i7-4771Intel Core i7-4785TIntel Core i7-4790 Intel Core i7-4790K i7-4930KIntel Core i7-4930MXIntel Core i7-4940MXIntel Core i7-4950HQIntel Core i7-4960HQIntel Core i7-4960XIntel Core i7-4960X Extreme EditionIntel Core i7-4980HQIntel Core i7-5500UIntel Core i7-5550UIntel Core i7-5557UIntel Core06 i7-5650UIntel Core i7-5700HQIntel Core i7-5750HQIntel Core i7-5775CIntel Core i7-5775RIntel Core i7-5820KIntel Core i7-5850EQIntel Core i7-5850HQIntel Core i7-5930KIntel Core i7-5950HQIntel Core i7-5960XIntel Core i7-610EIntel Core i7-620LMIntel Core i7-620MIntel Core i7-620UMIntel Core i7-640LMIntel Core i7-640MIntel Core i7-640UMIntel Core i7-6498DUIntel Core i7-6500UIntel Coreintel i7-65 i7-6567UIntel Core i7-6600UIntel Core i7-660UMIntel Core i7-6650UIntel Core i7-6700Intel Core i7-6700HQIntel Core i7-6700KIntel Core i7-6700TIntel Core i7-6700TEIntel Core i7-6770HQIntel Core i7-6785RIntel Core i7-Intel0 Core i7-6807 680UMIntel Core i7-6820EQIntel Core i7-6820HKIntel Core i7-6820HQIntel Core i7-6822EQIntel Core i7-6850KIntel Core i7-6870HQIntel Core i7-6900KIntel Core i7-6920HQIntel Core 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i7-930Intel Core i7-940Intel Core i7- 940XMIntel Core i7-950Intel Core i7-960Intel Core i7-965 Intel Core i7-965 Extreme Edition Intel Core i7-970 Intel Core i7-9700 Intel Core i7-9700 F 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 i9-7900XIntel 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 i90 -9920XIntel Core i9-9940XIntel Core i9-9960XIntel Core i9-9980HKIntel Core 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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 T4500Pentel Pentium Dual-Core E2140Intel Pentium Dual-Core E2160 DualIntel Pent20 -Core E2200Intel Pentium Dual-Core E2210Intel Pentium Dual-Core E2220Intel Pentium E2140Intel Pentium E2160Intel Pentium E2180Intel Pentium E2200Intel Pentium E2220Intel Pentium E5200Intel 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 G3025 tium 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 Intel 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-2186 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-2276ML2Intel X8 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 E3-1220LIIntel Xeon E3-1220L v2Intel XeonL v2Intel Xeon E3-1222 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 E3-124 -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 V5-Intel 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 Xeon50 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 v5 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 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 Xeonn E5-2420V2Intel Xeonn E5-2430Intel Xeon E5-2430 Intel Xeon E5-2430V2Intel Xeon E5-2440Intel Xeon E5-2440 v2Intel Xeon E5-2440V2Intel Xeon E5-2450Intel Xeon E5-2450LIntel Xeon E5-2450V2 Intel 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 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 V2 -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 Xeon34 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 V3Intel Xeon E5-2650 V4 -2650LIntel Xeon E5-2650L V2Intel Xeon E5-2650L V3Intel Xeon E5-2650L V4Intel Xeon E5-2658Intel Xeon E5-2658 V3Intel Xeon E5-2658 v4Intel X eon E5-2660Intel Xeon E5-2660 V2Intel Xeon E5-2660 V3Intel Xeon E5-2660 V4Intel Xeon E5-2665Intel Xeon E5-2667Intel Xeon E5-2667 V2Intel Xeon E5-2667 V3Intel Xeon E5-2667 v4Intel Xeon E5-2670Intel Xeon E5-2660 V2Intel Xeon E5-2670 V3Intel Xeon E5-2673 v4Intel Xeon E5-2679v4Intel Xeon E5-2680Intel Xeon E5-2680 V2Intel Xeon E5-2680 V3Intel Xeon E5-2680 V4Intel Xeon E5-2682 v4Intel Xeon E5-2683 V3Intel Xeon E5-2683 V4Intel Xeon E5-2685 V3Intel Xeon E5-2686 v4Intel Xeon87WIntel X5-26 E5-2687W V2Intel Xeon E5-2687W V3Intel Xeon E5-2687W V4Intel Xeon E5-2689 v4Intel Xeon E5-2690Intel Xeon E5-2690 V2Intel Xeon E5-2690 V3Intel Xeon E5-2690 V4Intel Xeon E5-2692 v2Intel Xeon E5-2695 V2 -2695 V3Intel Xeon E5-2695 V4Intel Xeon E5-2696 v4Intel Xeon E5-2697 V2Intel Xeon E5-2697 V3Intel Xeon E5-2697 V4Intel 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 E5-4620 -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 v28Intel Xeon E7-8893 v2Intel Xeon Gold 5115Intel Xeon Gold 5117Intel Xeon Gold 5117FIntel Xeon Gold 5118Intel Xeon Gold 5119TIntel Xeon Gold 5120Intel Xeon Gold 5120TIntel Xeon Gold 5122Intel Xeon Gold 5215Intel Xeon Gold 5215LIntel Xeon Gold 5215MIntel Xeon Gold 5217Intel Xeon Gold 5218Intel Xeon Gold 5218BIntel Xeon Gold 5218NIntel Xeon Gold 5218RIntel Xeon Gold 5218TIntel Xeon Gold 5219YIntel Xeon Gold 5220Intel Xeon Gold 5220RIntel Xeon Gold 5220SIntel Xeon Gold 5220TIntel Xeon Gold 5222Intel Xeon Gold 6126Intel Xeon Gold 6126FIntel Xeon Gold 6126TIntel Xeon Gold 6128Intel Xeon Gold 6130Intel Xeon Gold 6130FIntel Xeon Gold 6130TIntel Xeon 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      Specifications Intel Core i5-2400 Sandy Bridge, price, test, competitors

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      • 7759 Core i5-2400

      Core i5-2400 Processor Marked by the manufacturer as: BX80623I52400.

      Number of cores — 4, manufactured according to 32 nm process technology, Sandy Bridge architecture.

      Core i5-2400 base frequency — 3.1 GHz. The maximum frequency in Intel Turbo Boost mode reaches 3.4 GHz. Please note that the Intel Core i5-2400 cooler must cool processors with a TDP of at least 95W at stock frequencies. When overclocked, the requirements increase.

      With integrated Intel® HD Graphics 2000, the computer can run without a discrete graphics card because the monitor is connected to the video output on the motherboard.

      Price in Russia

      Do you want to buy a Core i5-2400 cheaply? Look at the list of stores that already sell the processor in your city.

      Family

      • Core i5-2400S
      • Core i5-2405S

      Benchmarks Intel Core i5-2400

      Game Speed ​​

      Performance in games and similar applications.

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

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

      Speed ​​in office use

      Performance in everyday work such as browsers and office applications.

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

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

      Speed ​​in heavy applications

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

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

      At the same time, some 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

      Simple household tasks

      Minimum Average Maximum
      75 Memory: 87 93

      Memory

      92

      69 1 core: 83 89

      1 core

      40. 5

      133 2 cores: 163 173

      2 cores

      40.4

      Demanding games and tasks

      Minimum Average Maximum
      206 4 cores: 302 337

      4 cores

      38

      217 8 cores: 305 337

      8 cores

      19. 8

      Extreme

      Minimum Average Maximum
      224 All cores: 308 340

      All cores

      5.5

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

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

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

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

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

      Benchmarks

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

      Cinebench R23 Single Core

      Intel Core i7-3520M

      621

      Intel Core i7-3615QM

      612

      Intel Core i7-2760QM

      607

      Intel Core i5-8265U

      606

      Intel Core i5-2400S

      601

      Intel Core i5-2400

      601

      Intel Core i5-2400S

      601

      Intel Core i5-2450M

      582

      AMD FX-8350 -8130U

      556

      AMD Athlon II X4 860K

      517

      Cinebench R23 Multi Core

      AMD Athlon 3000G

      2163

      Intel Core i7-2720QM

      2137

      Intel Celeron G3900

      2011

      AMD Phenom II X4 955

      1967

      Intel Core i5-2400S

      1965

      Intel Core i5-2400

      Intel Core i5-2400S

      Intel Core I5-7200U

      0004 1927

      Intel Core i7-6500U

      1858

      Intel Core i5-6300U

      1834

      Intel Core i5-5287U

      1827

      Cinebench R20 Single Core

      Intel Core i5-2500K

      262

      Intel Core i7-4700HQ

      261

      Intel Core i7-4500U

      261

      Intel Pentium G4560

      259 9000

      Intel i3-3220

      254

      9000 INTEC0003

      Intel Core M5-6Y54

      250

      Intel Core i7-2820qm

      249

      Intel Core i5-5200u

      248

      Intel Core22 22 22 22

      Intel Core INTEL COREN

      Cinebench R20 Multi Core

      Intel Core i3-6100

      916

      AMD Phenom II X6 1055T

      913

      Intel Core i5-2500K

      894

      AMD Athlon 3000G

      887

      Intel Xeon X3440

      885

      Intel Core i5-2400

      863

      AMD FX-6300

      854

      AMD Athlon 240GE

      841

      Intel Pentium G4600

      838

      Intel Pentium G4560

      824

      AMD Athlon 220GE

      804

      Geekbench 3 Single Core

      Intel Pentium G3450

      2778

      Intel Core i5-4300U

      Intel Celeron G39003

      2758

      0003

      2748

      Intel Core M3-7Y30

      2746

      Intel Core i5-2400

      2729

      Intel Core i3-3250

      2725

      I3-4130TEL

      2714

      0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002 0002

      2710

      Intel Core i5-4258U

      2690

      Intel Core M-5Y51

      2688

      Geekbench 3 Multi Core

      Intel Core i5-7260U

      7659

      Intel Pentium G4560

      759

      Intel Core i3-7300t

      7599

      Intel Core i5287U

      7442

      Intel Core i3-7100T

      7381

      9000 9000 9000 9000 9000 9000 9000 core CE 7145

      Intel Core i7-5557U

      7113

      Intel Xeon X3440

      7107

      Intel Core i3-8145U

      7086

      Intel Core i3-8130U

      7070

      Passmark

      Intel Core i5-7260U

      3965

      AMD Ryzen 3 3200U

      3958

      Intel Core i7-7560U

      3939

      AMD FX-6120 Six-Core

      9000 9000-9-000 3861

      2400

      3819

      Intel Pentium G4620

      3818

      Intel Core i7-6567U

      3817

      Intel Core i3-8145U

      3815

      Intel Core i7-2670QM

      3808

      Intel Core i5-3330S

      3807

      Tests in games

      FPS measured by us in popular games on Intel Core i5-2400 and compliance with system requirements. Please note that the official requirements of developers in games do not always match the data of real tests. Also, the result is strongly influenced by the overclocking of the system and the graphic settings in the game. We test at high settings in FullHD resolution to get numbers close to real gameplay.

      On average for all gaming tests, the processor scored 5

    • GeForce GT 710

    RAM

    • No data

    SSD

  • A400 120GB
  • A400 240GB

9000 9000 9000 9000 9000 9000 9000 base Core i5-2400. Also with these components, the best results in tests and stable operation are achieved.

Most popular config: motherboard for Intel Core i5-2400 — Dell OptiPlex 790, graphics card — FirePro V4900, SSD — A400 120GB.

Characteristics

The data is not yet filled in, so the tables may lack information or existing functions may be omitted.

Basic

Manufacturer Intel
DescriptionInformation about the processor, taken from the official website of the manufacturer. Intel® Core™ i5-2400 Processor (6M Cache, up to 3.40 GHz)
ArchitectureCode name for the microarchitecture generation. Sandy Bridge
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. 32 nm
Release dateMonth and year of the processor’s availability. 09-2013
Model Official name. i5-2400
Cores The number of physical cores. 4
ThreadsNumber of threads. The number of logical processor cores that the operating system sees. 4
Multi-Threading Technology With Intel’s Hyper-threading and AMD’s SMT technology, one physical core is recognized as two logical cores by the operating system, thereby increasing processor performance in multi-threaded applications. 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. 3.1 GHz
Turbo frequency The maximum frequency of one processor core in turbo mode. Manufacturers allow modern processors to independently increase the frequency of one or more cores under heavy load, due to which performance is noticeably increased. It may depend on the nature of the load, the number of loaded cores, temperature and the specified limits. Significantly affects the speed in games and applications that are demanding on the frequency of the CPU. 3.4 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. 6 MB
Instructions 64-bit
Extended instruction set Allows you to speed up calculations, processing and execution of certain operations. Also, some games require instruction support. SSE4.1/4.2, AVX
Embedded Options Available Two housing versions. Standard and designed for mobile devices. In the second version, the processor can be soldered on the motherboard. Yes
Bus frequency The speed of communication with the system. 5 GT/s DMI
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. 95W

Video core

Integrated graphics core Allows you to use your computer without a discrete graphics card. The monitor is connected to the video output on the motherboard. If earlier integrated graphics made it possible to simply work at a computer, today it can replace budget video accelerators and makes it possible to play most games at low settings. Intel® HD Graphics 2000
GPU base clockFrequency in 2D and idle. 850 MHz
Max GPU ClockMaximum 3D clock. 1100 MHz
Intel® Wireless Display (Intel® WiDi) Supports Wireless Display technology using the Wi-Fi 802.11n standard. Thanks to it, a monitor or TV equipped with the same technology does not require a cable to connect. No data
Supported monitorsThe maximum number of monitors that can be connected to the integrated video core at the same time. 2

RAM

Maximum RAM Amount of RAM that can be installed on the motherboard with this processor. 32 GB
Supported type of RAM The type of RAM determines its frequency and timings (speed), availability, price. DDR3 1066/1333
RAM Channels The multi-channel memory architecture increases data transfer speed. On desktop platforms, two-channel, three-channel and four-channel modes are available. 2
Memory bandwidth 21 GB/s

PCI

PCI-E The PCI Express computer bus version. The bandwidth and power limit depend on the version. There is backward compatibility. 2
Number of PCI lanes 16

Data Protection

AES-NI The AES command set extension speeds up applications that use appropriate encryption.

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