Intel sr0xl: Intel SR0XL — 1.80Ghz 5GT/s 3MB BGA1023 Intel Core i5-3337U Dual Core CPU Processor

3 мая, 2020

Intel Core i5-3337U Specs — GadgetVersus

Intel Core i5-3337U Specs

Specifications of the Intel Core i5-3337U processor dedicated to the laptop sector, it has 2 cores, 4 threads, a maximum frequency of 2,7GHz. The table below makes it possible to observe well the lithography, the number of transistors (if present), the offered cache memory, the maximum capacity of RAM memory that we can get, the type of compatible memory, the release date, the maximum number of PCIe lanes, the values obtained in the Passmark platform, Cinebench R23 and Geekbench 5.

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Specifications:

Processor

Intel Core i5-3337U
Market (main)

Laptop
ISA

x86-64 (64 bit)
Microarchitecture

Ivy Bridge
Family

Core i5-3000
Part number(s), S-Spec

AV8063801129900,

SR0XL
Release date

Q1 2013
Lithography

22 nm
Transistors

1.200.000.000
Cores

2
Threads

4
Base frequency

1,8 GHz
Turbo frequency

2,7 GHz
Bus speed

5 GT/s
Cache memory

3 MB
Max memory capacity

32 GB
Memory types

DDR3/L/-RS 1333/1600
Max # of memory channels

2
Max memory bandwidth

25,6 GB/s
Max PCIe lanes

16
TDP

17 W
GPU integrated graphics

Intel HD Graphics 4000 Mobile
GPU execution units

16
GPU shading units

128
GPU base clock

350 MHz
GPU boost clock

1. 100 MHz
GPU FP32 floating point

256 GFLOPS
Socket

BGA1023
Maximum temperature

105°C
CPU-Z single thread

228
CPU-Z multi thread

619
Cinebench R15 single thread

94
Cinebench R15 multi-thread

206
PassMark single thread

1.287
PassMark CPU Mark

2.097
(Windows 64-bit)
Geekbench 4 single core

2.392
(Windows 64-bit)
Geekbench 4 multi-core

4.521
(Windows)
Geekbench 5 single core

505
(Windows)
Geekbench 5 multi-core

1. 077
(SGEMM)
GFLOPS performance

48,7 GFLOPS
(Multi-core / watt performance)
Performance / watt ratio

266 pts / W
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Note: Commissions may be earned from the links above.

Performances :

Performance comparison between this processor and those of equivalent power, for this we consider the results generated on benchmark softwares such as Geekbench 4.

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

Performance comparison on the CPU-Z benchmark software for IT processors:













CPU-Z — Multi-thread & single thread score

Intel Pentium Gold 4415U

247

666

Intel Pentium Gold 4417U

248

652

Intel Core i3-7020U

211

648

Intel Pentium Gold 5405U

228

636

AMD A10-9620P

193

622

Intel Core i5-3337U

228

619

Intel Core i5-L16G7

204

611

Intel Core i5-8200Y

229

576

AMD 3020e

276

556

AMD Ryzen 3 2300U

322

556

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

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

Performance comparison on the Cinebench R15 benchmark platform for IT devices:













Cinebench R15 — Multi-thread & single thread score

AMD Athlon Silver 3050U

98

223

AMD A10-9620P

63

221

Intel Celeron N4100

72

219

Intel Core m3-8100Y

107

214

Intel Core i5-3337U

94

206

Intel Celeron 5205U

77

206

Intel Celeron N4505

107

201

Intel Celeron N4120

82

195

AMD 3020e

80

187

AMD PRO A6-7350B

57

166

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

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

Performance comparison on the Passmark benchmark platform for computing machines:













PassMark — CPU Mark

Intel Core i5-8200Y

1.363

2.297

Intel Pentium Gold 5405U

1.328

2.271

Intel Celeron 6305

1. 218

2.237

Intel Pentium Gold 4417U

1.303

2.222

Intel Pentium Gold 4415U

1.249

2.166

Intel Core i5-3337U

1.287

2.097

Intel Celeron N4500

1.402

1.955

AMD PRO A6-7350B

1.524

1.688

Intel Pentium Gold 4425Y

919

1.609

Intel Celeron N4020

1.188

1.578

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

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

On Windows: performance comparison in Geekbench 4 with Windows operating system.













Geekbench 4 — Multi-core & single core score — Windows 64-bit

Intel Pentium Gold 4415U

2.529

4.860

Intel Pentium Gold 5405U

2.520

4.836

AMD 3015e

2.352

4.723

Intel Celeron 6305

2.802

4.636

Intel Core i5-11320H

1. 384

4.541

Intel Core i5-3337U

2.392

4.521

AMD 3020e

2.556

4.300

AMD A10-9620P

1.824

4.275

Intel Pentium Gold 4425Y

2.102

4.187

Intel Celeron 5205U

2.357

3.982

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

On Linux: performance comparison in Geekbench 4 with Linux operating system.













Geekbench 4 — Multi-core & single core score — Linux 64-bit

AMD Athlon Silver 3050U

3. 299

6.172

AMD Ryzen 5 3500U

2.765

6.011

Intel Core i7-7660U

3.575

5.733

Intel Core i7-8559U

3.193

5.670

Intel Core i5-11320H

1.575

5.425

Intel Core i5-3337U

2.849

5.131

AMD Ryzen 3 3200U

2.946

5.082

Intel Core i5-8200Y

3.240

4.964

Intel Pentium Gold 4415U

2.748

4.888

Intel Core i3-7130U

3. 075

4.601

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

On MAC OS X: performance comparison in Geekbench 4 with MAC OS X operating system.









Geekbench 4 — Multi-core & single core score — Mac OS X 64-bit

Intel Core i3-8130U

3.423

6.517

Intel Core i3-7130U

3.280

6.357

Intel Core m3-8100Y

3.731

6.148

Intel Core i7-8500Y

4.093

6.058

Intel Core i3-7020U

2. 902

5.395

Intel Core i5-3337U

2.469

4.563

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

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

On Windows: performance comparison in Geekbench 5 with Windows operating system.













Geekbench 5 — Multi-core & single core score — Windows

AMD A10-9620P

410

1. 154

Intel Celeron 6305

602

1.140

AMD Athlon Silver 3050U

632

1.111

Intel Pentium Gold 4415U

496

1.106

Intel Celeron N4500

598

1.093

Intel Core i5-3337U

505

1.077

AMD 3020e

540

972

Intel Pentium Gold 4425Y

390

927

AMD 3015e

497

905

Intel Celeron 5205U

439

900

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

On Linux: performance comparison in Geekbench 5 with Linux operating system.













Geekbench 5 — Multi-core & single core score — Linux

Intel Core i5-7260U

323

1.266

AMD Athlon Silver 3050e

704

1.240

AMD 3020e

678

1.231

AMD A10-9620P

488

1.179

Intel Core i5-8257U

595

1.160

Intel Core i5-3337U

577

1.150

AMD 3015Ce

574

1. 099

AMD Athlon Gold 3150U

698

1.079

Intel Pentium Gold 4417U

565

1.048

Intel Core i3-7130U

503

970

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

On Android: performance comparison in Geekbench 5 with Android operating system.













Geekbench 5 — Multi-core & single core score — Android

AMD 3015Ce

539

1.090

Intel Core i7-7660U

729

1. 087

Intel Celeron 6305

535

1.041

Intel Pentium Gold 5405U

495

1.030

Intel Pentium Gold 4417U

545

1.026

Intel Core i5-3337U

484

1.016

Intel Pentium Gold 4425Y

403

908

MediaTek MT8183C

261

908

Intel Celeron N4020

469

867

Intel Celeron 5205U

451

826

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

On macOS: performance comparison in Geekbench 5 with macOS operating system.










Geekbench 5 — Multi-core & single core score — macOS

Intel Core i3-8145U

866

1.801

Intel Core i3-7130U

666

1.571

Intel Core m3-8100Y

669

1.356

Intel Pentium Gold 4415U

557

1.307

Intel Core i5-7Y57

572

1.045

Intel Core i5-3337U

425

944

AMD A6-9225

272

276

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

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

List of comparisons:

AllwinnerAMDAMD A10AMD A12AMD A4AMD A6AMD A8AMD A9AMD AthlonAMD Athlon 64AMD Athlon 64 X2AMD Athlon GoldAMD Athlon SilverAMD EPYCAMD JaguarAMD OpteronAMD PhenomAMD RyzenAMD Ryzen 1000AMD Ryzen 2000AMD Ryzen 3AMD Ryzen 3 1000AMD Ryzen 3 2000AMD Ryzen 3 3000AMD Ryzen 3 4000AMD Ryzen 3 5000AMD Ryzen 3000AMD Ryzen 4000AMD Ryzen 5AMD Ryzen 5 1000AMD Ryzen 5 2000AMD Ryzen 5 3000AMD Ryzen 5 4000AMD Ryzen 5 5000AMD Ryzen 5000AMD Ryzen 6000AMD Ryzen 7AMD Ryzen 7 1000AMD Ryzen 7 2000AMD Ryzen 7 3000AMD Ryzen 7 4000AMD Ryzen 7 5000AMD Ryzen 7000AMD Ryzen 9AMD Ryzen 9 3000AMD Ryzen 9 4000AMD Ryzen 9 5000AMD Ryzen ThreadripperAMD Ryzen Threadripper 1000AMD Ryzen Threadripper 2000AMD Ryzen Threadripper 3000AMD Ryzen Threadripper 5000AMD ZenAMD Zen 2AMD Zen 3AMD Zen+AmlogicAppleARMARM CortexARM Cortex-A15ARM Cortex-A17ARM Cortex-A35ARM Cortex-A5ARM Cortex-A53ARM Cortex-A55ARM Cortex-A57ARM Cortex-A7ARM Cortex-A72ARM Cortex-A73ARM Cortex-A75ARM Cortex-A76ARM Cortex-A77ARM Cortex-A78ARM Cortex-A8ARM Cortex-A9ARM Cortex-X1ARM920TAutoChipsBroadcomDeca coreDodeca coreDual AMDDual AMD EPYCDual AMD OpteronDual coreDual Intel XeonDual Intel Xeon PlatinumHexa coreHexadeca coreHiSiliconHiSilicon KirinIcosi coreIngenicIntelIntel AtomIntel BroadwellIntel Cascade LakeIntel Cascade Lake-XIntel CeleronIntel Celeron NIntel Coffee LakeIntel Comet LakeIntel CoreIntel Core 1000Intel Core 10000Intel Core 1100Intel Core 11000Intel Core 1200Intel Core 12000Intel Core 13000Intel Core 2 DuoIntel Core 2 QuadIntel Core 3000Intel Core 4000Intel Core 7000Intel Core 8000Intel Core 9000Intel Core i3Intel Core i3-1000Intel Core i3-10000Intel Core i3-1100Intel Core i3-11000Intel Core i3-1200Intel Core i3-12000Intel Core i3-3000Intel Core i3-4000Intel Core i3-6000Intel Core i3-7000Intel Core i3-8000Intel Core i3-9000Intel Core i5Intel Core i5-1000Intel Core i5-10000Intel Core i5-1100Intel Core i5-11000Intel Core i5-1200Intel Core i5-12000Intel Core i5-3000Intel Core i5-4000Intel Core i5-6000Intel Core i5-7000Intel Core i5-8000Intel Core i5-9000Intel Core i7Intel Core i7-1000Intel Core i7-10000Intel Core i7-1100Intel Core i7-11000Intel Core i7-1200Intel Core i7-12000Intel Core i7-3000Intel Core i7-4000Intel Core i7-6000Intel Core i7-7000Intel Core i7-8000Intel Core i7-9000Intel Core i9Intel Core i9-10000Intel Core i9-11000Intel Core i9-12000Intel Core i9-7000Intel Core i9-8000Intel Core i9-9000Intel Core m3Intel Core XIntel HaswellIntel Ice LakeIntel Ivy BridgeIntel Kaby LakeIntel PentiumIntel Pentium 4Intel Pentium GoldIntel Pentium IIIntel Pentium IIIIntel Pentium SilverIntel Rocket LakeIntel Sandy BridgeIntel SkylakeIntel Skylake-XIntel Tiger LakeIntel XeonIntel Xeon BronzeIntel Xeon E5Intel Xeon GoldIntel Xeon PlatinumIntel Xeon WJLQLGA1150LGA1151MarvellMediaTekMediaTek DimensityMediaTek Helio GMicrosoftMono coreNvidiaNvidia TegraNXPNXP i. MXNXP i.MX 8NXP i.MX 8MNXP i.MX 8XOcta coreOcta Intel XeonOctodeca coreQuad coreQuad Intel XeonQualcommQualcomm Kryo 260Qualcomm Kryo 468Qualcomm Kryo 585Qualcomm Kryo 670Qualcomm SnapdragonQualcomm Snapdragon 700RealtekRockchipSamsungSamsung ExynosSamsung Exynos 7Samsung Exynos 7 OctaSamsung Exynos 9Samsung Exynos 9 OctaSonyTessaradeca coreTexas InstrumentsUnisocUnisoc TigerXiaomiProcessors groups

List of benchmarks:

CPU-ZCinebench R15Geekbench 4 on LinuxGeekbench 4 on Mac OS XGeekbench 4 on WindowsGeekbench 5 on AndroidGeekbench 5 on LinuxGeekbench 5 on macOSGeekbench 5 on WindowsPassMarkGFLOPS performance

Equivalence:

Intel Core i5-3337U AMD equivalent

Specs Intel Core i5-3337U processor 1.8 GHz 3 MB Smart Cache Processors (AV8063801129900)

Processor

Processor manufacturer
*

Intel

Processor generation

3rd gen Intel® Core™ i5

Processor model
*

i5-3337U

Processor base frequency
*

1. 8 GHz

Processor family
*

Intel® Core™ i5

Processor cores
*

2

Processor socket
*

BGA 1023

Component for

Notebook

Processor lithography
*

22 nm

Processor series

Intel Core i5-3300 Mobile series

Processor threads

4

System bus rate

5 GT/s

Processor operating modes
*

64-bit

Processor boost frequency

2. 7 GHz

Processor cache

3 MB

Processor cache type

Smart Cache

Thermal Design Power (TDP)

17 W

Box
*

Cooler included
*

Generation

3rd Generation

Compatible chipsets

Intel® HM75 Express, Intel HM76 Express, Intel HM77 Express, Intel® QM77 Express, Intel® QS77 Express, Intel UM77 Express

Stepping

L1

Bus type

DMI

CPU multiplier (bus/core ratio)

18

Memory bandwidth supported by processor (max)

25.6 GB/s

Processor codename

Ivy Bridge

Processor code

SR0XL

Processor ARK ID

72055

Memory

Maximum internal memory supported by processor

32 GB

Memory types supported by processor

DDR3-SDRAM, DDR3L-SDRAM, DDR3L-RS-SDRAM

Memory clock speeds supported by processor

1333,1600 MHz

Memory channels
*

Dual-channel

ECC

Graphics

On-board graphics card
*

On-board graphics card model
*

Intel® HD Graphics 4000

On-board graphics card outputs supported

DisplayPort, Embedded DisplayPort (eDP), HDMI, Serial Digital Video Out (SDVO), VGA (D-Sub)

On-board graphics card base frequency

350 MHz

On-board graphics card dynamic frequency (max)

1100 MHz

Number of displays supported (on-board graphics)

3

On-board graphics card ID

0x166

Features

Execute Disable Bit

Idle States

Thermal Monitoring Technologies

Integrated 4G WiMAX

Market segment

Mobile

Maximum number of PCI Express lanes

16

PCI Express slots version

2. 0

PCI Express configurations

1×16, 2×8, 1×8, 2×4

Supported instruction sets

AVX

CPU configuration (max)

1

Embedded options available

Graphics & IMC lithography

22 nm

PCI Express CEM revision

2.0

Harmonized System (HS) code

8542310001

Export Control Classification Number (ECCN)

3A991

Commodity Classification Automated Tracking System (CCATS)

NA

Processor special features

Disable access to missing laptops
Giving users access to corporate data and application through remote laptops boosts productivity, but it can also leave IT vulnerable to hackers and misplaced laptops. Intel® Anti-Theft Technology is built into the laptop hardware, helping IT administrators outwit thieves, even when they attempt to reimage the OS, change the boot order, or install a new hard drive. When laptops with Intel® Anti-Theft Technology (Intel® AT) become lost or stolen, they can be remotely disabled. If the laptop is recovered, it can be quickly reactivated to normal operation.»> Intel® Anti-Theft Technology (Intel® AT)

Processor special features

Improved Performance for Threaded Software
Intel® Hyper-Threading Technology (Intel® HT Technology) makes efficient use of processor resources, enabling multiple threads to run on each core and increasing processor throughput. Available on Intel® Core™ and Intel® Xeon® processors, Intel HT Technology helps run demanding applications simultaneously, protect and manage systems, and provide headroom for business growth.»>Intel® Hyper Threading Technology (Intel® HT Technology)

Protect Your Identity and Business
Intel® Identity Protection Technology (Intel® IPT) protects enterprises from being penetrated by stolen credentials and online user account access with an added layer of hardware-based security and authentication as well as a multifactor authentication framework to manage different authentication methods. «>Intel® Identity Protection Technology (Intel® IPT)

Intel® My WiFi Technology (Intel® MWT)

Higher Performance When You Need It Most
Intel® Turbo Boost Technology 2.0 accelerates processor and graphics performance by increasing the operating frequency when operating below specification limits. The maximum frequency varies depending on workload, hardware, software, and overall system configuration.»>Intel® Turbo Boost Technology

2.0

Create, Edit, and Share Video in a Flash
Intel® Quick Sync Video uses the dedicated media processing capabilities of Intel® Graphics Technology to make video encoding tasks—such as creating DVDs or Blu-ray discs, creating and editing 3D videos, converting 2D video files into 3D, and converting video for portable media players and social networking sites—faster and easier.»>Intel® Quick Sync Video Technology

Intel® InTru™ 3D Technology

Connect to TV Wirelessly
With a few clicks, Intel® Wireless Display expands your screen’s potential, linking mobile devices and laptops to TV screens wirelessly. Stream family favorites and view personal experiences while turning your device’s small screen into a superior, sharable experience.»>Intel® Wireless Display (Intel® WiDi)

Intel FDI Technology

See the World More Vividly
Intel® Clear Video HD Technology delivers cleaner, sharper images, more natural, accurate, and vivid colors. View images as they were meant to be seen on devices featuring Intel® Core™ processors with Intel® Graphics Technology.»>Intel® Clear Video HD Technology (Intel® CVT HD)

Intel Dual Display Capable Technology

Intel® Insider™

Intel Fast Memory Access

Intel Flex Memory Access

Improve Responsiveness with Faster Data Access
With Intel® Smart Cache on the Intel® Core™ i5 processor, the shared cache is dynamically allocated to each processor core, based on workload. This efficient, dual-core-optimized implementation increases the probability that each core can access data from the fast cache, significantly reducing latency to frequently used data and improving performance. «>Intel® Smart Cache

Added Security with Faster Data Encryption
The Intel® Advanced Encryption Standard New Instructions (Intel® AES-NI) enable fast and secure data encryption and decryption for better performance and less risk from timing and cache-based attacks than table-based software implementations. Intel AES-NI supports usages such as standard key lengths, standard modes of operation, and even some nonstandard or future variants.»>Intel® AES New Instructions (Intel® AES-NI)

Enhanced Intel SpeedStep Technology

Intel Trusted Execution Technology

Intel® Turbo Boost Technology 2.0 frequency

2.7 GHz

Intel Enhanced Halt State

Intel VT-x with Extended Page Tables (EPT)

Intel Demand Based Switching

Generate Cryptographic Security Protocols
Intel® Secure Key is a security hardware-based random number generator that can generate high-quality keys for cryptographic (encryption and decryption) protocols. These keys provide quality entropy that is highly sought after in the cryptography world for added security. «>Intel® Secure Key

Intel 64

Intel Identity Protection Technology version

1.00

Intel Secure Key Technology version

1.00

Simplify Virtualization and Reduce Overheads
Intel® Virtualization Technology (Intel® VT) helps make virtualization practical by eliminating performance overheads, reducing complexity, and improving security with hardware assistance. Virtualization allows multiple workloads to share a common set of resources so that a variety of workloads can co-locate while maintaining full isolation from each other.»>Intel Virtualization Technology (VT-x)

Simplify Virtualization and Reduce Overheads
Intel® Virtualization Technology (Intel® VT) helps make virtualization practical by eliminating performance overheads, reducing complexity, and improving security with hardware assistance. Virtualization allows multiple workloads to share a common set of resources so that a variety of workloads can co-locate while maintaining full isolation from each other. «>Intel Virtualization Technology for Directed I/O (VT-d)

Conflict-Free processor

Intel® vPro™ Platform Eligibility

Operational conditions

Tjunction

105 °C

Technical details

Born on date

Q1’13

Bus bandwidth

5

Bus type units

GT/s

Graphics max dynamic frequency

1.10 GHz

Launch date

Q1’13

Processor cache

3072 KB

Product name

Intel Core i5-3337U (3M Cache, up to 2.70 GHz)

Product type

Processor

Status

Launched

Maximum memory

32 GB

Processor brand name

Intel Core i5
Intel Core i5 Processor

Supported memory types

DDR3-SDRAM, DDR3L-SDRAM, DDR3L-RS-SDRAM

Last change

63903513

Product family

3rd Generation Intel Core i5 Processors

Bus speed

5 GT/s

Processor ID

0x166

Weight & dimensions

Processor package size

31mm x 24mm

Other features

Simplify Virtualization and Reduce Overheads
Intel® Virtualization Technology (Intel® VT) helps make virtualization practical by eliminating performance overheads, reducing complexity, and improving security with hardware assistance. Virtualization allows multiple workloads to share a common set of resources so that a variety of workloads can co-locate while maintaining full isolation from each other.»>Intel® Virtualization Technology (Intel® VT)

VT-d, VT-x

Maximum internal memory

32 GB

Maximum internal memory

32768 MB

Graphics output

eDP/DP/HDMI/SDVO/CRT

Cache memory

3 MB

Download — 3rd Generation Intel Core (Ivy Bridge)

This section lists the CPU-optimized Funtoo Linux builds currently available for download for intel64-ivybridge. The intel64-ivybridge subarch specifically supports processors based on Intel’s Ivy Bridge microarchitecture and AVX instructions. These processors are branded as 3rd Generation Intel Core i3, Core i5, and Core i7 Processors.

The following settings are applied to all stages for this subarch via Funtoo subarch profiles:

The Funtoo CPU Database shows that this subarch is recommended for the following processors:

The intel64-ivybridge subarch specifically supports processors based on Intel’s Ivy Bridge microarchitecture with AVX instructions. Desktop processors are branded as 3th Generation Intel Core i3, Core i5, and Core i7. Many of the released processors (desktop and mobile variants) are APUs, containing integrated Intel graphics support, and include the Core i7-4800 and 4900 Series Processors. Ivy Bridge Xeon processors include the Xeon E5 v2, E7 v2 and Pentium 1400 Series v2 Families.

Intel AVX instructions require operating system support and have been in the Linux kernel since 2.6.30. Additionally, they require slightly more power to execute. When executing these instructions, the processor may run at less than the marked frequency to maintain thermal design power (TDP) limits.

This subarch does not support non-AVX Ivy Bridge processors, such as the Pentium G and Celeron G series. For these CPUs, use the Corei7 subarch.

codename name platform launch_date spec_codes core_count thread_count base_clock max_clock lithography
Ivy Bridge EP Intel® Xeon® Processor E5-4610 v2 (16M Cache, 2. 30 GHz) Server 2014-03-03 SR19L 8 16 2.30 GHz 2.70 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-4620 v2 (20M Cache, 2.60 GHz) Server 2014-03-03 SR1AA 8 16 2.60 GHz 3.00 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-4627 v2 (16M Cache, 3.30 GHz) Server 2014-03-03 SR1AD 8 8 3.30 GHz 3.60 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-4640 v2 (20M Cache, 2.20 GHz) Server 2014-03-03 SR19R 10 20 2.20 GHz 2.70 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-4650 v2 (25M Cache, 2.40 GHz) Server 2014-03-03 SR1AG 10 20 2.40 GHz 2.90 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-4657L v2 (30M Cache, 2. 40 GHz) Server 2014-03-03 SR19F 12 24 2.40 GHz 2.90 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-4603 v2 (10M Cache, 2.20 GHz) Server 2014-03-03 SR1B6 4 8 2.20 GHz 2.20 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-4607 v2 (15M Cache, 2.60 GHz) Server 2014-03-03 SR1B4 6 12 2.60 GHz 2.60 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-4624L v2 (25M Cache, 1.90 GHz) Embedded 2014-03-03 SR1A1 10 20 1.90 GHz 2.50 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-2850 v2 (24M Cache, 2.30 GHz) Server 2014-02-18 12 24 2.30 GHz 2.80 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-2870 v2 (30M Cache, 2. 30 GHz) Server 2014-02-18 SR1GR 15 30 2.30 GHz 2.90 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-2880 v2 (37.5M Cache, 2.50 GHz) Server 2014-02-18 SR1GQ 15 30 2.50 GHz 3.10 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-2890 v2 (37.5M Cache, 2.80 GHz) Server 2014-02-18 SR1GV 15 30 2.80 GHz 3.40 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-4809 v2 (12M Cache, 1.90 GHz) Server 2014-02-18 SR1FD 6 12 1.90 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-4820 v2 (16M Cache, 2.00 GHz) Server 2014-02-18 SR1H0 8 16 2.00 GHz 2.50 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-4830 v2 (20M Cache, 2. 20 GHz) Server 2014-02-18 SR1GU 10 20 2.20 GHz 2.70 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-4850 v2 (24M Cache, 2.30 GHz) Server 2014-02-18 SR1GP 12 24 2.30 GHz 2.80 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-4860 v2 (30M Cache, 2.60 GHz) Server 2014-02-18 SR1GX 12 24 2.60 GHz 3.20 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-4870 v2 (30M Cache, 2.30 GHz) Server 2014-02-18 SR1GN 15 30 2.30 GHz 2.90 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-4890 v2 (37.5M Cache, 2.80 GHz) Server 2014-02-18 SR1GL 15 30 2.80 GHz 3.40 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-8850 v2 (24M Cache, 2. 30 GHz) Server 2014-02-18 SR1GK 12 24 2.30 GHz 2.80 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-8857 v2 (30M Cache, 3.00 GHz) Server 2014-02-18 SR1GT 12 12 3.00 GHz 3.60 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-8870 v2 (30M Cache, 2.30 GHz) Server 2014-02-18 SR1GJ 15 30 2.30 GHz 2.90 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-8880L v2 (37.5M Cache, 2.20 GHz) Server 2014-02-18 SR1GS 15 30 2.20 GHz 2.80 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-8880 v2 (37.5M Cache, 2.50 GHz) Server 2014-02-18 SR1GH 15 30 2.50 GHz 3.10 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-8890 v2 (37. 5M Cache, 2.80 GHz) Server 2014-02-18 SR1ET 15 30 2.80 GHz 3.40 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-8891 v2 (37.5M Cache, 3.20 GHz) Server 2014-02-18 SR1GW 10 20 3.20 GHz 3.70 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-8893 v2 (37.5M Cache, 3.40 GHz) Server 2014-02-18 SR1GZ 6 12 3.40 GHz 3.70 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-4880 v2 (37.5M Cache, 2.50 GHz) Server 2014-02-18 SR1GM 15 30 2.50 GHz 3.10 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E7-8895 v2 (37.5M Cache, 2.80 GHz) Server 2014-02-18 15 30 2.80 GHz 3.60 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2440 v2 (20M Cache, 1. 90 GHz) Server 2014-01-09 SR19T 8 16 1.90 GHz 2.40 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2450 v2 (20M Cache, 2.50 GHz) Server 2014-01-09 SR1A9 8 16 2.50 GHz 3.30 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2450L v2 (25M Cache, 1.70 GHz) Server 2014-01-09 SR19U 10 20 1.70 GHz 2.10 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2470 v2 (25M Cache, 2.40 GHz) Server 2014-01-09 SR19S 10 20 2.40 GHz 3.20 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-1410 v2 (10M Cache, 2.80 GHz) Server 2014-01-09 4 8 2.80 GHz 3.20 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-1428L v2 (15M Cache, 2. 20 GHz) Embedded 2014-01-09 SR1B9 6 12 2.20 GHz 2.70 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2407 v2 (10M Cache, 2.40 GHz) Server 2014-01-09 SR1AK 4 4 2.40 GHz 2.40 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2418L v2 (15M Cache, 2.00 GHz) Embedded 2014-01-09 SR1AV 6 12 2.00 GHz 2.00 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2420 v2 (15M Cache, 2.20 GHz) Server 2014-01-09 SR1AJ 6 12 2.20 GHz 2.70 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2430 v2 (15M Cache, 2.50 GHz) Server 2014-01-09 SR1AH 6 12 2.50 GHz 3.00 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2430L v2 (15M Cache, 2. 40 GHz) Server 2014-01-09 SR1B2 6 12 2.40 GHz 2.80 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2448L v2 (25M Cache, 1.80 GHz) Embedded 2014-01-09 SR1A3 10 20 1.80 GHz 2.40 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2428L v2 (20M Cache, 1.80 GHz) Embedded 2014-01-09 SR1A4 8 16 1.80 GHz 2.30 GHz 22 nm
Ivy Bridge EN Intel® Xeon® Processor E5-2403 v2 (10M Cache, 1.80 GHz) Server 2014-01-09 SR1AL 4 4 1.80 GHz 1.80 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor 1405 v2 (6M Cache, 1.40 GHz) Embedded 2014-01-09 SR1AW 2 2 1.40 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2673 v2 (25M Cache, 3. 30 GHz) Server 2013-12-16 8 16 3.30 GHz 4.00 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2640 v2 (20M Cache, 2.00 GHz) Server 2013-09-10 SR19Z 8 16 2.00 GHz 2.50 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2643 v2 (25M Cache, 3.50 GHz) Server 2013-09-10 SR19X 6 12 3.50 GHz 3.80 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2650 v2 (20M Cache, 2.60 GHz) Server 2013-09-10 SR1A8 8 16 2.60 GHz 3.40 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2650L v2 (25M Cache, 1.70 GHz) Server 2013-09-10 SR19Y 10 20 1.70 GHz 2.10 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2660 v2 (25M Cache, 2. 20 GHz) Server 2013-09-10 SR1AB 10 20 2.20 GHz 3.00 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2667 v2 (25M Cache, 3.30 GHz) Server 2013-09-10 SR19W 8 16 3.30 GHz 4.00 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2670 v2 (25M Cache, 2.50 GHz) Server 2013-09-10 SR1A7 10 20 2.50 GHz 3.30 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2680 v2 (25M Cache, 2.80 GHz) Server 2013-09-10 SR1A6 10 20 2.80 GHz 3.60 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2690 v2 (25M Cache, 3.00 GHz) Server 2013-09-10 SR1A5 10 20 3.00 GHz 3.60 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2695 v2 (30M Cache, 2. 40 GHz) Server 2013-09-10 SR1BA 12 24 2.40 GHz 3.20 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2697 v2 (30M Cache, 2.70 GHz) Server 2013-09-10 SR19H 12 24 2.70 GHz 3.50 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-1620 v2 (10M Cache, 3.70 GHz) Server 2013-09-10 SR1AR 4 8 3.70 GHz 3.90 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-1650 v2 (12M Cache, 3.50 GHz) Server 2013-09-10 SR1AQ 6 12 3.50 GHz 3.90 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-1660 v2 (15M Cache, 3.70 GHz) Server 2013-09-10 SR1AP 6 12 3.70 GHz 4.00 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2609 v2 (10M Cache, 2. 50 GHz) Server 2013-09-10 SR1AX 4 4 2.50 GHz 2.50 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2618L v2 (15M Cache, 2.00 GHz) Embedded 2013-09-10 SR1B8 6 12 2.00 GHz 2.00 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2620 v2 (15M Cache, 2.10 GHz) Server 2013-09-10 SR1AN 6 12 2.10 GHz 2.60 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2630 v2 (15M Cache, 2.60 GHz) Server 2013-09-10 SR1AM 6 12 2.60 GHz 3.10 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2630L v2 (15M Cache, 2.40 GHz) Server 2013-09-10 SR1AZ 6 12 2.40 GHz 2.80 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2637 v2 (15M Cache, 3. 50 GHz) Server 2013-09-10 SR1B7 4 8 3.50 GHz 3.80 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2603 v2 (10M Cache, 1.80 GHz) Server 2013-09-10 SR1AY 4 4 1.80 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2628L v2 (20M Cache, 1.90 GHz) Embedded 2013-09-10 SR1AF 8 16 1.90 GHz 2.40 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2648L v2 (25M Cache, 1.90 GHz) Embedded 2013-09-10 SR1A2 10 20 1.90 GHz 2.50 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2658 v2 (25M Cache, 2.40 GHz) Embedded 2013-09-10 SR1A0 10 20 2.40 GHz 3.00 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-2687W v2 (25M Cache, 3. 40 GHz) Server 2013-09-10 SR19V 8 16 3.40 GHz 4.00 GHz 22 nm
Ivy Bridge E Intel® Core™ i7-4960X Processor Extreme Edition (15M Cache, up to 4.00 GHz) Desktop 2013-09-10 SR1AS 6 12 3.60 GHz 4.00 GHz 22 nm
Ivy Bridge E Intel® Core™ i7-4930K Processor (12M Cache, up to 3.90 GHz) Desktop 2013-09-10 SR1AT 6 12 3.40 GHz 3.90 GHz 22 nm
Ivy Bridge E Intel® Core™ i7-4820K Processor (10M Cache, up to 3.90 GHz) Desktop 2013-09-10 SR1AU 4 8 3.70 GHz 3.90 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-1607 v2 (10M Cache, 3.00 GHz) Server 2013-09-10 SR1B3 4 4 3.00 GHz 22 nm
Ivy Bridge EP Intel® Xeon® Processor E5-1680 v2 (25M Cache, 3. 00 GHz) Server 2013-09-10 SR1MJ 8 16 3.00 GHz 3.90 GHz 22 nm
Gladden Intel® Xeon® Processor E3-1105C v2 (8M Cache, 1.80 GHz) Embedded 2013-09-10 SR1J1 4 8 1.80 GHz 22 nm
Gladden Intel® Xeon® Processor E3-1125C v2 (8M Cache, 2.50 GHz) Embedded 2013-09-10 SR1J0 4 8 2.50 GHz 22 nm
Gladden Intel® Xeon® Processor E3-1135C v2 (8M Cache, 3.00 GHz) Embedded 2013-09-10 4 8 3.00 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3340 Processor (6M Cache, up to 3.30 GHz) Desktop 2013-09-01 SR0YZ 4 4 3.10 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3340S Processor (6M Cache, up to 3.30 GHz) Desktop 2013-09-01 SR0YH 4 4 2. 80 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor G1630 (2M Cache, 2.80 GHz) Desktop 2013-09-01 SR16A 2 2 2.80 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor G1620T (2M Cache, 2.40 GHz) Desktop 2013-09-01 SR169 2 2 2.40 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor A1018 (1M Cache, 2.10 GHz) Mobile 2013-08-29 SR1C5 2 2 2.10 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor G2120T (3M Cache, 2.70 GHz) Desktop 2013-06-09 SR0YV 2 2 2.70 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor G2140 (3M Cache, 3.30 GHz) Desktop 2013-06-09 SR0YT 2 2 3.30 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor G2030T (3M Cache, 2. 60 GHz) Desktop 2013-06-09 SR164 2 2 2.60 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor G2030 (3M Cache, 3.00 GHz) Desktop 2013-06-09 SR163 2 2 3.00 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor 2127U (2M Cache, 1.90 GHz) Mobile 2013-06-09 SR105 2 2 1.90 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor 1017U (2M Cache, 1.60 GHz) Mobile 2013-06-09 SR10A 2 2 1.60 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor 1005M (2M Cache, 1.90 GHz) Mobile 2013-06-09 SR103 2 2 1.90 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor 1019Y (2M Cache, 1.00 GHz) Mobile 2013-04-01 SR13W 2 2 1. 00 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor G2130 (3M Cache, 3.20 GHz) Desktop 2013-01-20 SR0YU 2 2 3.20 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor G2020T (3M Cache, 2.50 GHz) Desktop 2013-01-20 SR10G 2 2 2.50 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor G2020 (3M Cache, 2.90 GHz) Desktop 2013-01-20 SR10H 2 2 2.90 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor G2010 (3M Cache, 2.80 GHz) Desktop 2013-01-20 SR10J 2 2 2.80 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor G1610 (2M Cache, 2.60 GHz) Desktop 2013-01-20 SR10K 2 2 2.60 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor G1620 (2M Cache, 2. 70 GHz) Desktop 2013-01-20 SR10L 2 2 2.70 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor G1610T (2M Cache, 2.30 GHz) Desktop 2013-01-20 SR10M 2 2 2.30 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3540M Processor (4M Cache, up to 3.70 GHz) Mobile 2013-01-20 SR0X8, SR0X6 2 4 3.00 GHz 3.70 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3380M Processor (3M Cache, up to 3.60 GHz) Mobile 2013-01-20 SR0X9, SR0X7 2 4 2.90 GHz 3.60 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3340M Processor (3M Cache, up to 3.40 GHz) Mobile 2013-01-20 SR0XB, SR0XA 2 4 2.70 GHz 3.40 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3687U Processor (4M Cache, up to 3. 30 GHz) Mobile 2013-01-20 SR0XH 2 4 2.10 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3437U Processor (3M Cache, up to 2.90 GHz) Mobile 2013-01-20 SR0XE 2 4 1.90 GHz 2.90 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor 1020M (2M Cache, 2.10 GHz) Mobile 2013-01-20 SR0ZY, SR13U 2 2 2.10 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor 1037U (2M Cache, 1.80 GHz) Mobile 2013-01-20 SR108 2 2 1.80 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3537U Processor (4M Cache, up to 3.10 GHz) Mobile 2013-01-20 SR0XG 2 4 2.00 GHz 3.10 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3337U Processor (3M Cache, up to 2. 70 GHz) Mobile 2013-01-20 SR0XL 2 4 1.80 GHz 2.70 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3230M Processor (3M Cache, up to 3.20 GHz) BGA Mobile 2013-01-20 SR0WX 2 4 2.60 GHz 3.20 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor 2030M (2M Cache, 2.50 GHz) Mobile 2013-01-20 SR0ZZ 2 2 2.50 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor 1000M (2M Cache, 1.80 GHz) Mobile 2013-01-20 SR102 2 2 1.80 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor 1007U (2M Cache, 1.50 GHz) Mobile 2013-01-20 SR109 2 2 1.50 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3230M Processor (3M Cache, up to 3. 20 GHz) rPGA Mobile 2013-01-20 SR0WY 2 4 2.60 GHz 3.20 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor 1020E (2M Cache, 2.20 GHz) Embedded 2013-01-20 SR0VR, SR10D 2 2 2.20 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor 1047UE (2M Cache, 1.40 GHz) Embedded 2013-01-20 SR10E 2 2 1.40 GHz 22 nm
Ivy Bridge Intel® Celeron® Processor 927UE (1M Cache, 1.50 GHz) Embedded 2013-01-20 SR10F 1 1 1.50 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3339Y Processor (3M Cache, up to 2.00 GHz) Mobile 2013-01-07 SR12S 2 4 1.50 GHz 2.00 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3439Y Processor (3M Cache, up to 2. 30 GHz) Mobile 2013-01-07 SR12Q 2 4 1.50 GHz 2.30 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3689Y Processor (4M Cache, up to 2.60 GHz) Mobile 2013-01-07 SR12R 2 4 1.50 GHz 2.60 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor 2129Y (2M Cache, 1.10 GHz) Mobile 2013-01-07 SR12M 2 2 1.10 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3840QM Processor (8M Cache, up to 3.80 GHz) Mobile 2012-09-30 SR0UT 4 8 2.80 GHz 3.80 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3740QM Processor (6M Cache, up to 3.70 GHz) Mobile 2012-09-30 SR0UV 4 8 2.70 GHz 3.70 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3940XM Processor Extreme Edition (8M Cache, up to 3. 90 GHz) Mobile 2012-09-30 SR0US 4 8 3.00 GHz 3.90 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor 2020M (2M Cache, 2.40 GHz) Mobile 2012-09-30 SR0U1 2 2 2.40 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3632QM Processor (6M Cache, up to 3.20 GHz) rPGA Mobile 2012-09-30 SR0V0 4 8 2.20 GHz 3.20 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3630QM Processor (6M Cache, up to 3.40 GHz) Mobile 2012-09-30 SR0UX 4 8 2.40 GHz 3.40 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3635QM Processor (6M Cache, up to 3.40 GHz) Mobile 2012-09-30 4 8 2.40 GHz 3.40 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor 2117U (2M Cache, 1. 80 GHz) Mobile 2012-09-30 SR0VQ 2 2 1.80 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3632QM Processor (6M Cache, up to 3.20 GHz) BGA Mobile 2012-09-30 4 8 2.20 GHz 3.20 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3330 Processor (6M Cache, up to 3.20 GHz) Desktop 2012-09-02 SR0RQ 4 4 3.00 GHz 3.20 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3330S Processor (6M Cache, up to 3.20 GHz) Desktop 2012-09-02 SR0RR 4 4 2.70 GHz 3.20 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor G2120 (3M Cache, 3.10 GHz) Desktop 2012-09-02 SR0UF 2 2 3.10 GHz 22 nm
Ivy Bridge Intel® Pentium® Processor G2100T (3M Cache, 2. 60 GHz) Desktop 2012-09-02 SR0UJ 2 2 2.60 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3350P Processor (6M Cache, up to 3.30 GHz) Desktop 2012-09-02 SR0WS 4 4 3.10 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3610ME Processor (3M Cache, up to 3.30 GHz) Embedded 2012-06-03 SR0QK, SR0QJ 2 4 2.70 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3555LE Processor (4M Cache, up to 3.20 GHz) Embedded 2012-06-03 SR0T5 2 4 2.50 GHz 3.20 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3517UE Processor (4M Cache, up to 2.80 GHz) Embedded 2012-06-03 SR0T6 2 4 1.70 GHz 2.80 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3520M Processor (4M Cache, up to 3. 60 GHz) Mobile 2012-06-01 SR0MU, SR0MT 2 4 2.90 GHz 3.60 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3360M Processor (3M Cache, up to 3.50 GHz) Mobile 2012-06-01 SR0MV, SR0MW 2 4 2.80 GHz 3.50 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3320M Processor (3M Cache, up to 3.30 GHz) Mobile 2012-06-01 SR0MY, SR0MX 2 4 2.60 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3667U Processor (4M Cache, up to 3.20 GHz) Mobile 2012-06-01 SR0N5 2 4 2.00 GHz 3.20 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3427U Processor (3M Cache, up to 2.80 GHz) Mobile 2012-06-01 SR0N7 2 4 1.80 GHz 2.80 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3475S Processor (6M Cache, up to 3. 60 GHz) Desktop 2012-06-01 SR0PP 4 4 2.90 GHz 3.60 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3570S Processor (6M Cache, up to 3.80 GHz) Desktop 2012-06-01 SR0T9 4 4 3.10 GHz 3.80 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3570 Processor (6M Cache, up to 3.80 GHz) Desktop 2012-06-01 SR0T7 4 4 3.40 GHz 3.80 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3470T Processor (3M Cache, up to 3.60 GHz) Desktop 2012-06-01 SR0RJ 2 4 2.90 GHz 3.60 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3317U Processor (3M Cache, up to 2.60 GHz) Mobile 2012-06-01 SR0N8 2 4 1.70 GHz 2.60 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3210M Processor (3M Cache, up to 3. 10 GHz) BGA Mobile 2012-06-01 SR0N0 2 4 2.50 GHz 3.10 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3517U Processor (4M Cache, up to 3.00 GHz) Mobile 2012-06-01 SR0N6 2 4 1.90 GHz 3.00 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3210M Processor (3M Cache, up to 3.10 GHz, rPGA Mobile 2012-06-01 SR0MZ 2 4 2.50 GHz 3.10 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3470S Processor (6M Cache, up to 3.60 GHz) Desktop 2012-06-01 SR0TA 4 4 2.90 GHz 3.60 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3470 Processor (6M Cache, up to 3.60 GHz) Desktop 2012-06-01 SR0T8 4 4 3.20 GHz 3.60 GHz 22 nm
Gladden Intel® Xeon® Processor E3-1125C (8M Cache, 2. 00 GHz) Embedded 2012-05-31 SR0NU 4 8 2.00 GHz
Gladden Intel® Xeon® Processor E3-1105C (6M Cache, 1.00 GHz) Embedded 2012-05-31 SR0NS 4 8 1.00 GHz
Gladden Intel® Core™ i3-2115C Processor (3M Cache, 2.00 GHz) Embedded 2012-05-31 SR0NV 2 4 2.00 GHz
Gladden Intel® Pentium® Processor B915C (3M Cache, 1.50 GHz) Embedded 2012-05-31 SR0NZ 2 4 1.50 GHz
Gladden Intel® Celeron® Processor 725C (1.5M Cache, 1.30 GHz) Embedded 2012-05-31 SR0NX 1 2 1.30 GHz
Ivy Bridge Intel® Xeon® Processor E3-1290 v2 (8M Cache, 3.70 GHz) Server 2012-05-14 SR0PC 4 8 3. 70 GHz 4.10 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E3-1280 v2 (8M Cache, 3.60 GHz) Server 2012-05-14 SR0P7 4 8 3.60 GHz 4.00 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E3-1275 v2 (8M Cache, 3.50 GHz) Server 2012-05-14 SR0PA 4 8 3.50 GHz 3.90 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E3-1270 v2 (8M Cache, 3.50 GHz) Server 2012-05-14 SR0P6 4 8 3.50 GHz 3.90 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E3-1265L v2 (8M Cache, 2.50 GHz) Server 2012-05-14 SR0PB 4 8 2.50 GHz 3.50 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E3-1245 v2 (8M Cache, 3.40 GHz) Server 2012-05-14 SR0P9 4 8 3. 40 GHz 3.80 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E3-1240 v2 (8M Cache, 3.40 GHz) Server 2012-05-14 SR0P5 4 8 3.40 GHz 3.80 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E3-1230 v2 (8M Cache, 3.30 GHz) Server 2012-05-14 SR0P4 4 8 3.30 GHz 3.70 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E3-1225 v2 (8M Cache, 3.20 GHz) Server 2012-05-14 SR0PJ 4 4 3.20 GHz 3.60 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E3-1220 v2 (8M Cache, 3.10 GHz) Server 2012-05-14 SR0PH 4 4 3.10 GHz 3.50 GHz 22 nm
Ivy Bridge Intel® Xeon® Processor E3-1220L v2 (3M Cache, 2.30 GHz) Server 2012-05-14 SR0R6 2 4 2. 30 GHz 3.50 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3920XM Processor Extreme Edition (8M Cache, up to 3.80 GHz) Mobile 2012-04-29 SR0MH, SR0T2 4 8 2.90 GHz 3.80 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3820QM Processor (8M Cache, up to 3.70 GHz) Mobile 2012-04-29 SR0MK, SR0MJ 4 8 2.70 GHz 3.70 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3720QM Processor (6M Cache, up to 3.60 GHz) Mobile 2012-04-29 SR0MM, SR0ML 4 8 2.60 GHz 3.60 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3610QM Processor (6M Cache, up to 3.30 GHz) Mobile 2012-04-29 SR0MN 4 8 2.30 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3615QM Processor (6M Cache, up to 3. 30 GHz) Mobile 2012-04-29 SR0MP 4 8 2.30 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3612QM Processor (6M Cache, up to 3.10 GHz) BGA Mobile 2012-04-29 SR0MR 4 8 2.10 GHz 3.10 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3450 Processor (6M Cache, up to 3.50 GHz) Desktop 2012-04-29 SR0PF 4 4 3.10 GHz 3.50 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3450S Processor (6M Cache, up to 3.50 GHz) Desktop 2012-04-29 SR0P2 4 4 2.80 GHz 3.50 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3550 Processor (6M Cache, up to 3.70 GHz) Desktop 2012-04-29 SR0P0 4 4 3.30 GHz 3.70 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3550S Processor (6M Cache, up to 3. 70 GHz) Desktop 2012-04-29 SR0P3 4 4 3.00 GHz 3.70 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3570K Processor (6M Cache, up to 3.80 GHz) Desktop 2012-04-29 SR0PM 4 4 3.40 GHz 3.80 GHz 22 nm
Ivy Bridge Intel® Core™ i5-3570T Processor (6M Cache, up to 3.30 GHz) Desktop 2012-04-29 SR0P1 4 4 2.30 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3770K Processor (8M Cache, up to 3.90 GHz) Desktop 2012-04-29 SR0PL 4 8 3.50 GHz 3.90 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3770S Processor (8M Cache, up to 3.90 GHz) Desktop 2012-04-29 SR0PN 4 8 3.10 GHz 3.90 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3770T Processor (8M Cache, up to 3. 70 GHz) Desktop 2012-04-29 SR0PQ 4 8 2.50 GHz 3.70 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3615QE Processor (6M Cache, up to 3.30 GHz) Embedded 2012-04-29 SR0NC 4 8 2.30 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3612QE Processor (6M Cache, up to 3.10 GHz) Embedded 2012-04-29 SR0ND 4 8 2.10 GHz 3.10 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3610QE Processor (6M Cache, up to 3.30 GHz) Embedded 2012-04-29 SR0NP 4 8 2.30 GHz 3.30 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3770 Processor (8M Cache, up to 3.90 GHz) Desktop 2012-04-29 SR0PK 4 8 3.40 GHz 3.90 GHz 22 nm
Ivy Bridge Intel® Core™ i7-3612QM Processor (6M Cache, up to 3. 10 GHz) rPGA Mobile 2012-04-29 SR0MQ 4 8 2.10 GHz 3.10 GHz 22 nm

Core i5-3337U [in 18 benchmarks]


Intel
Core i5-3337U

Buy

  • Interface

  • Core clock speed

  • Max video memory

  • Memory type

  • Memory clock speed

  • Maximum resolution

Summary

Intel started Intel Core i5-3337U sales 25 January 2013 at a recommended price of $225. This is Ivy Bridge architecture notebook processor primarily aimed at office systems. It has 2 cores and 4 threads, and is based on 22 nm manufacturing technology, with a maximum frequency of 2700 MHz and a locked multiplier.

Compatibility-wise, this is FCBGA1023 processor with a TDP of 17 Watt. It supports DDR3/L/-RS 1333/1600 memory.

It provides poor benchmark performance at


2. 07%

of a leader’s which is AMD EPYC 7h22.


Core i5
3337U

vs


EPYC
7h22

General info


Core i5-3337U processor market type (desktop or notebook), architecture, sales start time and pricing.

Place in performance rating 1900
Market segment Laptop
Series Intel Core i5
Architecture codename Ivy Bridge (2012−2013)
Release date 25 January 2013 (9 years ago)
Launch price (MSRP) $225 of 305 (Core i7-870)
Current price $482 (2. 1x MSRP) of 14999 (Xeon Platinum 9282)

Technical specs


Basic microprocessor parameters such as number of cores, number of threads, base frequency and turbo boost clock, lithography, cache size and multiplier lock state. These parameters can generally indicate CPU performance, but to be more precise you have to review its test results.

Physical cores 2 (Dual-core)
Threads 4
Base clock speed 1.8 GHz of 4.7 (FX-9590)
Boost clock speed 2.7 GHz of 5.5 (Core i9-12900KS)
L1 cache 64K (per core) of 1536 (EPYC Embedded 3401)
L2 cache 256K (per core) of 12288 (Core 2 Quad Q9550)
L3 cache 3 MB (shared) of 32 (Ryzen Threadripper 1998)
Chip lithography 22 nm of 5 (Apple M1)
Die size 118 mm2
Maximum core temperature 105 °C of 110 (Atom x7-E3950)
64 bit support +
Windows 11 compatibility
Unlocked multiplier

Compatibility


Information on Core i5-3337U compatibility with other computer components and devices: motherboard (look for socket type), power supply unit (look for power consumption) etc. Useful when planning a future computer configuration or upgrading an existing one.

Note that power consumption of some processors can well exceed their nominal TDP, even without overclocking. Some can even double their declared thermals given that the motherboard allows to tune the CPU power parameters.

Number of CPUs in a configuration 1 of 8 (Opteron 842)
Socket FCBGA1023
Thermal design power (TDP) 17 Watt of 400 (Xeon Platinum 9282)

Technologies and extensions


Technological capabilities and additional instructions supported by Core i5-3337U. You’ll probably need this information if you require some particular technology.

Instruction set extensions Intel® AVX
AES-NI +
AVX +
vPro
Enhanced SpeedStep (EIST) +
Enhanced SpeedStep (EIST) +
My WiFi +
Turbo Boost Technology +
Hyper-Threading Technology +
Idle States +
Thermal Monitoring +
Flex Memory Access +
Demand Based Switching
FDI +
Fast Memory Access +

Security technologies


Processor technologies aimed at improving security, for example, by protecting against hacks.

TXT +
EDB +
Secure Key +
Identity Protection +
Anti-Theft +

Virtualization technologies


Supported virtual machine optimization technologies. Some are specific to Intel only, some to AMD.

VT-d +
VT-x +
EPT +

Memory specs


Types, maximum amount and channel number of RAM supported by Core i5-3337U’s memory controller. Depending on the motherboard, higher memory frequency may be supported.

Supported memory types DDR3/L/-RS 1333/1600 of 5200 (Ryzen 5 7600X)
Maximum memory size 32 GB of 786 (Xeon E5-2670 v3)
Max memory channels 2 of 12 (Xeon Platinum 9221)
Maximum memory bandwidth 25. 6 GB/s of 281.6 (Xeon Platinum 9221)
ECC memory support

Graphics specifications


General parameters of GPU integrated into Core i5-3337U.

Integrated graphics card Intel HD Graphics 4000
Quick Sync Video +
Clear Video HD +
Graphics max frequency 1.1 GHz
InTru 3D +

Graphics interfaces


Available interfaces and connections of Core i5-3337U’s integrated GPU.

Number of displays supported 3
eDP +
DisplayPort +
HDMI +
SDVO +
CRT +

Peripherals


Specifications and connection types of supported peripherals.

PCIe version 2.0 of 5 (Core i9-12900K)
PCI Express lanes 16 of 128 (EPYC 7551P)

Benchmark performance


Single-core and multi-core benchmark results of Core i5-3337U. Overall benchmark performance is measured in points in 0-100 range, higher is better.

Overall score

This is our combined benchmark performance rating. We are regularly improving our combining algorithms, but if you find some perceived inconsistencies, feel free to speak up in comments section, we usually fix problems quickly.


i5-3337U
2.07

  • Passmark

  • GeekBench 5 Single-Core

  • GeekBench 5 Multi-Core

  • Cinebench 10 32-bit single-core

  • Cinebench 10 32-bit multi-core

  • 3DMark06 CPU

  • Cinebench 11. 5 64-bit multi-core

  • Cinebench 15 64-bit multi-core

  • Cinebench 15 64-bit single-core

  • Cinebench 11.5 64-bit single-core

  • TrueCrypt AES

  • x264 encoding pass 2

  • x264 encoding pass 1

  • WinRAR 4.0

  • Geekbench 3 32-bit multi-core

  • Geekbench 3 32-bit single-core

  • Geekbench 2

Passmark

Passmark CPU Mark is a widespread benchmark, consisting of 8 different types of workload, including integer and floating point math, extended instructions, compression, encryption and physics calculation. There is also one separate single-threaded scenario measuring single-core performance.

Benchmark coverage: 68%


i5-3337U
2086

GeekBench 5 Single-Core

GeekBench 5 Single-Core is a cross-platform application developed in the form of CPU tests that independently recreate certain real-world tasks with which to accurately measure performance. This version uses only a single CPU core.

Benchmark coverage: 37%


i5-3337U
479

GeekBench 5 Multi-Core

GeekBench 5 Multi-Core is a cross-platform application developed in the form of CPU tests that independently recreate certain real-world tasks with which to accurately measure performance. This version uses all available CPU cores.

Benchmark coverage: 37%


i5-3337U
1055

Cinebench 10 32-bit single-core

Cinebench R10 is an ancient ray tracing benchmark for processors by Maxon, authors of Cinema 4D. Its single core version uses just one CPU thread to render a futuristic looking motorcycle.

Benchmark coverage: 20%


i5-3337U
3659

Cinebench 10 32-bit multi-core

Cinebench Release 10 Multi Core is a variant of Cinebench R10 using all the processor threads. Possible number of threads is limited by 16 in this version.

Benchmark coverage: 19%


i5-3337U
7678

3DMark06 CPU

3DMark06 is a discontinued DirectX 9 benchmark suite from Futuremark. Its CPU part contains two scenarios, one dedicated to artificial intelligence pathfinding, another to game physics using PhysX package.

Benchmark coverage: 19%


i5-3337U
3145

Cinebench 11.5 64-bit multi-core

Cinebench Release 11.5 Multi Core is a variant of Cinebench R11.5 which uses all the processor threads. A maximum of 64 threads is supported in this version.

Benchmark coverage: 17%


i5-3337U
2

Cinebench 15 64-bit multi-core

Cinebench Release 15 Multi Core (sometimes called Multi-Thread) is a variant of Cinebench R15 which uses all the processor threads.

Benchmark coverage: 14%


i5-3337U
222

Cinebench 15 64-bit single-core

Cinebench R15 (standing for Release 15) is a benchmark made by Maxon, authors of Cinema 4D. It was superseded by later versions of Cinebench, which use more modern variants of Cinema 4D engine. The Single Core version (sometimes called Single-Thread) only uses a single processor thread to render a room full of reflective spheres and light sources.

Benchmark coverage: 13%


i5-3337U
95

Cinebench 11.5 64-bit single-core

Cinebench R11.5 is an old benchmark by Maxon, authors of Cinema 4D. It was superseded by later versions of Cinebench, which use more modern variants of Cinema 4D engine. The Single Core version loads a single thread with ray tracing to render a glossy room full of crystal spheres and light sources.

Benchmark coverage: 13%


i5-3337U
1. 1

TrueCrypt AES

TrueCrypt is a discontinued piece of software that was widely used for on-the-fly-encryption of disk partitions, now superseded by VeraCrypt. It contains several embedded performance tests, one of them being TrueCrypt AES, which measures data encryption speed using AES algorithm. Result is encryption speed in gigabytes per second.

Benchmark coverage: 13%


i5-3337U
1

x264 encoding pass 2

x264 Pass 2 is a slower variant of x264 video compression that produces a variable bit rate output file, which results in better quality since the higher bit rate is used when it is needed more. Benchmark result is still measured in frames per second.  

Benchmark coverage: 12%


i5-3337U
14

x264 encoding pass 1

x264 version 4.0 is a video encoding benchmark uses MPEG 4 x264 compression method to compress a sample HD (720p) video. Pass 1 is a faster variant that produces a constant bit rate output file. Its result is measured in frames per second, which means how many frames of the source video file were encoded per second.  

Benchmark coverage: 12%


i5-3337U
77

WinRAR 4.0

WinRAR 4.0 is an outdated version of a popular file archiver. It contains an internal speed test, using ‘Best’ setting of RAR compression on large chunks of randomly generated data. Its results are measured in kilobytes per second.

Benchmark coverage: 12%


i5-3337U
2378

Geekbench 3 32-bit multi-core

Benchmark coverage: 6%


i5-3337U
4750

Geekbench 3 32-bit single-core

Benchmark coverage: 6%


i5-3337U
2188

Geekbench 2

Benchmark coverage: 5%


i5-3337U
5520

Mining hashrates


Cryptocurrency mining performance of Core i5-3337U. Usually measured in megahashes per second.


Bitcoin / BTC (SHA256) 1.3 Mh/s  

Relative perfomance


Overall Core i5-3337U performance compared to nearest competitors among notebook CPUs.


Intel Pentium 4405U
100.48


Intel Core M-5Y31
100.48


Intel Core i5-2415M
100


Intel Core i5-3337U
100


Intel Core 2 Extreme X9100
99.03


Intel Core i5-2450M
98.55


Intel Core i7-640M
98.07

AMD equivalent


We believe that the nearest equivalent to Core i5-3337U from AMD is 3015Ce, which is faster by 1% and higher by 8 positions in our rating.


3015Ce


Compare


Here are some closest AMD rivals to Core i5-3337U:


AMD Pro A8-8600B
101.45


AMD A10-7400P
101.45


AMD 3015Ce
100.97


Intel Core i5-3337U
100


AMD A10 Pro-7350B
93.24


AMD A10-4600M
92.27


AMD A8-5550M
88.89

Similar processors

Here is our recommendation of several processors that are more or less close in performance to the one reviewed.


Core M
5Y31


Compare


Pentium
4405U


Compare


Core i7
3517U


Compare


Pro A8
8600B


Compare


Core i5
2435M


Compare


Core i5
2450M


Compare

Recommended graphics cards

These graphics cards are most commonly used with Core i5-3337U according to our statistics.


GeForce GT
720M

21.2%


GeForce GT
740M

19.5%


HD
Graphics 4000

17.6%


GeForce
710M

8.8%


GeForce GT
710M

3.3%


GeForce GT
750M

3.2%


GeForce
820M

2.5%


GeForce GT
630M

1. 8%


GeForce
720M

1.7%


Radeon HD
7670M

1.5%

User rating


Here is the rating given to the reviewed processor by our users. Let others know your opinion by rating it yourself.

Questions and comments


Here you can ask a question about Core i5-3337U, agree or disagree with our judgements, or report an error or mismatch.

Please enable JavaScript to view the comments powered by Disqus.

Intel Core i5-3337U review | 64 facts and highlights

39points

Intel Core i5-3337U

Intel Core i5-3337U

Why is Intel Core i5-3337U better than the average?

  • CPU temperature?
    105°Cvs95.74°C
  • Thermal Design Power (TDP)?
    17Wvs46. 75W
  • Performance per watt?
    300.0vs125.8

Which are the most popular comparisons?

Intel Core i5-3337U

vs

Intel Celeron G550

Intel Core i5-3337U

vs

AMD A6-5200

Intel Core i5-3337U

vs

AMD A8-4555M

Intel Core i5-3337U

vs

AMD A6-5400K

Intel Core i5-3337U

vs

Intel Core i5-4200U

Intel Core i5-3337U

vs

Intel Core i3-3110M

Intel Core i5-3337U

vs

Intel Core i7-3667U

Intel Core i5-3337U

vs

Intel Celeron G530

Intel Core i5-3337U

vs

Intel Core i3-3217UE

Intel Core i5-3337U

vs

Intel Celeron N3060

Price comparison

User reviews

Performance

1.CPU speed

2 x 1.8GHz

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

2.CPU threads

More threads result in faster performance and better multitasking.

3.turbo clock speed

2.7GHz

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 i5-3337U

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

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

9.L3 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

1600MHz

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

2.maximum memory bandwidth

25.6GB/s

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

3.DDR memory version

Unknown. Help us by suggesting a value.

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 i5-3337U

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.

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.

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)

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.

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.

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

6.Geekbench 5 result (single)

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

7.Blender (bmw27) result

1770.02seconds

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

5550.39seconds

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 i5-3337U

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 i5-3337U

AES is used to speed up encryption and decryption.

3.Has AVX

✔Intel Core i5-3337U

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 i5-3337U

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.

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

7. Has MMX

✔Intel Core i5-3337U

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

8.Has TrustZone

✖Intel Core i5-3337U

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.

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?

The New Sleep States: S0ix

by Anand Lal Shimpion October 5, 2012 2:45 AM EST

  • Posted in
  • CPUs
  • Intel
  • Haswell

245 Comments
|

245 Comments

Introduction: Stating the ProblemPlatform Retargeting & Platform PowerThe New Sleep States: S0ixOther Power Savings & The Fourth HaswellCPU Architecture Improvements: BackgroundThe Haswell Front EndPrioritizing ILPHaswell’s Wide Execution EngineFeeding the Beast: 2x Cache Bandwidth in HaswellDecoupled L3 CacheTSXHaswell’s GPUHaswell Media Engine: QuickSync the ThirdFinal Words

A bunch of PC makers got together and defined the various operating modes that ACPI PCs can be in. If everyone plays by the same rules there are no surprises, which is good for the entire ecosystem.

System level power states are denoted S0 — S5. Higher S-numbers indicate deeper levels of sleep. The table below helps define the states:

ACPI Sleeping State Definitions
Sleeping State Description
S0 Awake
S1 Low wake latency sleeping state. No system context is lost, hardware maintains all context.
S2 Similar to S1 but CPU and system cache context is lost
S3 All system context is lost except system memory (CPU, cache, chipset context all lost).
S4 Lowest power, longest wake latency supported by ACPI. Hardware platform has powered off all devices, platform context is maintained.
S5 Similar so S4 except OS doesn’t save any context, requires complete boot upon wake.

S0 is an operational system, while S1/S2 are various levels of idle that are transparent to the end user. S3 is otherwise known as Suspend to RAM (STR), while S4 is commonly known as hibernate or Suspend to Disk (this one is less frequently abbreviated for some reason…).

These six sleeping states have served the PC well over the years. The addition of S3 gave us fast resume from sleep, something that’s often exploited when you’re on the go and need to quickly transition between using your notebook and carrying it around. The ultra mobile revolution however gave us a new requirement: the ability to transact data while in an otherwise deep sleep state.

Your smartphone and tablet both fetch emails, grab Twitter updates, receive messages and calls while in their sleep state. The prevalence of always-on wireless connectivity in these devices makes all of this easy, but the PC/smartphone/tablet convergence guarantees that if the PC doesn’t adopt similar functionality it won’t survive in the new world.

The solution is connected standby or active idle, a feature supported both by Haswell and Clovertrail as well as all of the currently shipping ARM based smartphones and tablets. Today, transitioning into S3 sleep is initiated by closing the lid on your notebook or telling the OS to go to sleep. In Haswell (and Clovertrail), Intel introduced a new S0ix active idle state (there are multiple active idle states, e.g. S0i1, S0i3). These states promise to deliver the same power consumption as S3 sleep, but with a quick enough wake up time to get back into full S0 should you need to do something with your device.

If these states sound familiar it’s because Intel first told us about them with Moorestown:

In Moorestown it takes 1ms to get out of S0i1 and only 3ms to get out of S0i3. I would expect Haswell’s wakeup latencies to be similar. From the standpoint of a traditional CPU design, even 1ms is an eternity, but if you think about it from the end user perspective a 1 — 3ms wakeup delay is hardly noticeable especially when access latency is dominated by so many other factors in the chain (e.g. the network).

What specifically happens in these active idle power states? In the past Intel focused on driving power down for all of the silicon it owned: the CPU, graphics core, chipset and even WiFi. In order to make active idle a reality, Intel’s reach had to extend beyond the components it makes.

With Haswell U/ULT parts, Intel will actually go in and specify recommended components for the rest of the platform. I’m talking about everything from voltage regulators to random microcontrollers on the motherboard. Even more than actual component «suggestions», Intel will also list recommended firmwares for these components. Intel gave one example where an embedded controller on a motherboard was using 30 — 50mW of power. Through some simple firmware changes Intel was able to drop this particular controller’s power consumption down to 5mW. It’s not rocket science, but this is Intel’s way of doing some of the work that its OEM partners should have been doing for the past decade. Apple has done some of this on its own (which is why OS X based notebooks still enjoy tangibly longer idle battery life than their Windows counterparts), but Intel will be offering this to many of its key OEM partners and in a significant way.

Intel’s focus on everything else in the system extends beyond power consumption — it also needs to understand the latency tolerance of everything else in the system. The shift to active idle states is a new way of thinking. In the early days of client computing there was a real focus on allowing all off-CPU controllers to work autonomously. The result of years of evolution along those lines resulted in platforms where any and everything could transact data whenever it wanted to.

By knowing how latency tolerant all of the controllers and components in the system are, hardware and OS platform power management can begin to align traffic better. Rather than everyone transacting data whenever it’s ready, all of the components in the system can begin to coalesce their transfers so that the system wakes up for a short period of time to do work then quickly return to sleep. The result is a system that’s more frequently asleep with bursts of lots of activity rather than frequently kept awake by small transactions. The diagram below helps illustrate the potential power savings:

Windows 8 is pretty much a requirement to get the full benefits, although with the right drivers in place you’ll see some improvement on Windows 7 as well. As most of these platform level power enhancements are targeted at 3rd generation Ultrabooks/tablets it’s highly unlikely you’ll see Windows 7 ship on any of them.

All of these platform level power optimizations really focus on components on the motherboard and shaving mWs here and there. There’s still one major consumer of power budget that needs addressing as well: the display.

For years Intel has been talking about Panel Self Refresh (PSR) being the holy grail of improving notebook battery life. The concept is simple: even when what’s on your display isn’t changing (staring at text, looking at your desktop, etc…) the CPU and GPU still have to wake up to refresh the panel 60 times a second. The refresh process isn’t incredibly power hungry but it’s more wasteful than it needs to be given that no useful work is actually being done.

One solution is PSR. By including a little bit of DRAM on the panel itself, the display could store a copy of the frame buffer. In the event that nothing was changing on the screen, you could put the entire platform to sleep and refresh the panel by looping the same frame data stored in the panel’s DRAM. The power savings would be tremendous as it’d allow your entire notebook/tablet/whatever to enter a virtual off state. You could get even more creative and start doing selective PSR where only parts of the display are updated and the rest remain in self-refresh mode (e. g. following a cursor, animating a live tile, etc…).

Display makers have been resistant to PSR because of the fact that they now have to increase their bill of materials cost by adding DRAM to the panel. The race to the bottom that we’ve seen in the LCD space made it unlikely that any of the panel vendors would be jumping at the opportunity to make their products more expensive. Intel believes that this time things will be different. Half of the Haswell ULT panel vendors will be enabled with Panel Self Refresh over eDP. That doesn’t mean that we’ll see PSR used in those machines, but it’s hopefully a good indication.

Similar to what we’ve seen from Intel in the smartphone and tablet space, you can expect to see reference platforms built around Haswell to show OEMs exactly what they need to put down on a motherboard to deliver the sort of idle power consumption necessary to compete in the new world. It’s not clear to me how Intel will enforce these guidelines, although it has a number of tools at its disposal — logo certification being the most obvious.

Platform Retargeting & Platform Power
Other Power Savings & The Fourth Haswell
Introduction: Stating the ProblemPlatform Retargeting & Platform PowerThe New Sleep States: S0ixOther Power Savings & The Fourth HaswellCPU Architecture Improvements: BackgroundThe Haswell Front EndPrioritizing ILPHaswell’s Wide Execution EngineFeeding the Beast: 2x Cache Bandwidth in HaswellDecoupled L3 CacheTSXHaswell’s GPUHaswell Media Engine: QuickSync the ThirdFinal Words

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Core i5-3337U [in 18 benchmarks]

Intel
Core i5-3337U

  • Interface
  • Core frequency
  • Video memory size
  • Memory type
  • Memory frequency
  • Maximum resolution

Description

Intel started Intel Core i5-3337U sales on January 25, 2013 at a suggested price of $225. This is an Ivy Bridge architecture notebook processor primarily aimed at office systems. It has 2 cores and 4 threads and is manufactured using 22nm process technology, the maximum frequency is 2700MHz, the multiplier is locked.

In terms of compatibility, this is a processor for the FCBGA1023 socket with a TDP of 17W. It supports DDR3/L/-RS 1333/1600 memory.

It provides poor benchmark performance at

2.07%

from the leader, which is AMD EPYC 7h22.


Core i5
3337U

or


EPYC
7h22

General information

Information about the type (desktop or laptop) and architecture of the Core i5-3337U, as well as when sales started and cost at that time.

9ATH

482 $ (2. 1x)0041

place in performance rating 1900
Type for laptops
Series Intel Core i5
COOD Name of Architecture IVY Bridge (2012-2013)

Price at the time of release $ 225 of 305 (Core i7-870)
Price now of 14999 (Xeon Platinum 9282)

Features

Core i5-3337U quantitative parameters such as number of cores and threads, clock speeds, manufacturing process, cache size and multiplier lock state. They indirectly speak about the performance of the processor, but for an accurate assessment, you need to consider the results of the tests.

of 32 (Ryzen THRIDRIP)

Crystal 9006
Core 2
256K (on the kernel) of 12288 (Core 2 QUAD Q9550)
level 3 level 3 MB (total)
Technological process 22 nm out of 5 (Apple M1)
9005 mm 2
+
My WiFi +
Turbo Boost Technology +
Hyper-Threading Technology +
Idle States0060

Flex Memory Access +
Demand Based Switching
FDI +
Fast Memory Access +

Security Technologies

Technologies built into the Core i5-3337U that improve system security, such as those designed to protect against hacking.

TXT +
EDB +
Secure Key +
Identity Protection 0005

RAM DDR3/l/-RS 1333/1600 of 5200 (Ryzen 5 7600x)
Permissible memory volume (Xeon E5-2670 V3)
The number of memory channels 2 out of 12 (Xeon Platinum 9221)
memory capacity 25.6 GB/ of 281.6 (Xeon Platinum 9221)
ECC -memory support

built -in video

— characteristics
General parameters of the integrated video card in Core i5-3337U.

+ 9005

Overall performance in tests

This is our overall performance rating. We regularly improve our algorithms, but if you find any inconsistencies, feel free to speak up in the comments section, we usually fix problems quickly.

i5-3337U
2.07

  • Passmark
  • GeekBench 5 Single-Core
  • GeekBench 5 Multi-Core
  • Cinebench 10 32-bit single-core
  • Cinebench 10 32-bit multi-core
  • 3DMark06 CPU
  • Cinebench 11.5 64-bit multi-core
  • Cinebench 15 64-bit multi-core
  • Cinebench 15 64-bit single-core
  • Cinebench 11.5 64-bit single-core
  • TrueCrypt AES
  • x264 encoding pass 2
  • x264 encoding pass 1
  • WinRAR 4.0
  • Geekbench 3 32-bit multi-core
  • Geekbench 3 32-bit single-core
  • Geekbench 2
Passmark

Passmark CPU Mark is a widely used benchmark that consists of 8 different tests, including integer and floating point calculations, extended instruction tests, compression, encryption, and game physics calculations. Also includes a separate single-threaded test.

Benchmark coverage: 68%

i5-3337U
2086

GeekBench 5 Single-Core

GeekBench 5 Single-Core is a cross-platform application designed as CPU benchmarks that independently recreate certain real world tasks that can accurately measure performance. This version uses only one processor core.

Benchmark coverage: 37%

i5-3337U
479

GeekBench 5 Multi-Core

GeekBench 5 Multi-Core is a cross-platform application designed as CPU benchmarks that independently recreate certain real world tasks that can accurately measure performance. This version uses all available processor cores.

Benchmark coverage: 37%

i5-3337U
1055

Cinebench 10 32-bit single-core

Cinebench R10 is a very outdated ray tracing benchmark for processors developed by the authors of Cinema 4D — Maxon. The Single-Core version uses a single CPU thread to render a futuristic motorcycle model.

Benchmark coverage: 20%

i5-3337U
3659

Cinebench 10 32-bit multi-core

Cinebench Release 10 Multi Core is a variant of Cinebench R10 that uses all processor threads. The possible number of threads in this version is limited to 16.

Benchmark coverage: 19%

i5-3337U
7678

3DMark06 CPU

3DMark06 is an outdated set of benchmarks based on DirectX 9 by Futuremark. Its processor part contains two tests, one of which calculates the pathfinding of game AI, the other emulates game physics using the PhysX package.

Benchmark coverage: 19%

i5-3337U
3145

Cinebench 11.5 64-bit multi-core

Cinebench Release 11.5 Multi Core is a variant of Cinebench R11.5 that uses all processor threads. This version supports a maximum of 64 threads.

Benchmark coverage: 17%

i5-3337U
2

Cinebench 15 64-bit multi-core

Cinebench Release 15 Multi Core (sometimes referred to as Multi-Thread) is a variant of Cinebench R15 that uses all of the processor threads.

Benchmark coverage: 14%

i5-3337U
222

Cinebench 15 64-bit single-core

Cinebench R15 (Release 15) is a benchmark created by Maxon, the creator of the popular Cinema 4D 3D modeling package. It was superseded by later versions of Cinebench using more modern variants of the Cinema 4D engine. The Single Core version (sometimes referred to as Single-Thread) uses only one CPU thread to render a room full of mirror balls and complexly shaped lights.

Benchmark coverage: 13%

i5-3337U
95

Cinebench 11.5 64-bit single-core

Cinebench R11.5 is an old benchmark developed by Maxon. authors of Cinema 4D. It has been superseded by later versions of Cinebench which use more modern variants of the Cinema 4D engine. The Single Core version loads one CPU thread with ray tracing, rendering a glossy room full of crystal spheres and lights.

Benchmark coverage: 13%

i5-3337U
1.1

TrueCrypt AES

TrueCrypt is a deprecated program that was widely used to encrypt disk partitions on the fly. It contains several built-in benchmarks, one of which is TrueCrypt AES. It measures the speed of data encryption using the AES algorithm. The result of the test is the encryption speed in gigabytes per second.

Benchmark coverage: 13%

i5-3337U
1

x264 encoding pass 2

x264 Pass 2 is a slower MPEG4 x264 video compression benchmark, resulting in a variable bit rate output file. This results in a better quality of the resulting video file, as a higher bit rate is used when it is needed more. The benchmark result is still measured in frames per second.

Benchmark coverage: 12%

i5-3337U
14

x264 encoding pass 1

The x264 benchmark uses the MPEG 4 x264 compression method to encode the HD (720p) sample video. Pass 1 is a faster option that produces an output file at a constant bit rate. Its result is measured in frames per second, that is, how many frames of the source video file were encoded in one second on average.

Benchmark coverage: 12%

i5-3337U
77

WinRAR 4.0

WinRAR 4.0 is an outdated version of the popular archiver. It contains an internal speed test using maximum compression by the RAR algorithm on large amounts of randomly generated data. Results are measured in kilobytes per second.

Benchmark coverage: 12%

i5-3337U
2378

Geekbench 3 32-bit multi-core

Benchmark coverage: 6%

i5-3337U
4750

Geekbench 3 32-bit single-core

Benchmark coverage: 6%

i5-3337U
2188

Geekbench 2

Benchmark coverage: 5%

i5-3337U
5520

Mining hashrates

Core i5-3337U performance in cryptocurrency mining. Usually the result is measured in mhash / s — the number of millions of solutions generated by the video card in one second.

GPU Intel HD Graphics 4000
Quick Sync Video
Bitcoin / BTC (SHA256) 1.3 Mh/s

Relative capacity

Overall performance of the Core i5-3337U compared to its nearest competitor in notebook processors.

Intel Pentium 4405U
100.48

Intel Core M-5Y31
100.48

Intel Core i5-2415M
100

Intel Core i5-3337U
100

Intel Core 2 Extreme X9100
99.03

Intel Core i5-2450M
98.55

Intel Core i7-640M
98.07

AMD competitor

We believe that the nearest equivalent to Core i5-3337U from AMD is 3015Ce, which is 1% faster on average and higher by 8 positions in our rating.


3015ce

Compare

Here are some of AMD’s closest competitors to the Core i5-3337U:

AMD Pro A8-8600B
101.45

AMD A10-7400P
101.45

AMD 3015Ce
100.97

Intel Core i5-3337U
100

AMD A10 Pro-7350B
93.24

AMD A10-4600M
92.27

AMD A8-5550M
88.89

Other processors

Here we recommend several processors that are more or less similar in performance to the reviewed one.


Pentium
4405U

Compare


Core M
5Y31

Compare


Core i7
3517U

Compare


Core i5
2435M

Compare


Core i5
2450M

Compare


Core i7
640M

Compare

Recommended graphics cards

According to our statistics, these graphics cards are most often used with the Core i5-3337U:


GeForce GT
720M

21. 2%


GeForce GT
740M

19.5%


HD
Graphics 4000

17.6%


GeForce
710M

8.8%


GeForce GT
710M

3.3%


GeForce GT
750M

3.2%


GeForce
820M

2.5%


GeForce GT
630M

1.8%


GeForce
720M

1.7%


Radeon HD
7670M

1.5%

User rating

Here you can see the evaluation of the processor by users, as well as put your own rating.

Tips and comments

Here you can ask a question about the Core i5-3337U processor, agree or disagree with our judgements, or report errors or inaccuracies on the site.

Please enable JavaScript to view the comments powered by Disqus.

Intel Core i5-3337U Processor Review: Specifications, Benchmark Tests

The Core i5-3337U processor was released by Intel, release date: January 25, 2013. At the time of release, the processor cost $225. The processor is designed for mobile computers and is built on the Ivy Bridge architecture.

Processor blocked for overclocking. Total number of cores — 2, threads — 4. The maximum clock frequency of the processor is 2.70 GHz. The maximum temperature is 105 °C. Technological process — 22 nm. Cache size: L1 — 128 KB, L2 — 512 KB, L3 — 3072 KB.

Supported memory type: DDR3/L/-RS 1333/1600. Maximum supported memory size: 32 GB.

Supported socket type: FCBGA1023. The maximum number of processors in the configuration is 1. Power consumption (TDP): 17 Watt.

The processor is integrated with Intel® HD Graphics 4000 with the following graphics settings: maximum frequency — 1.1 GHz.

Benchmarks

PassMark
Single thread mark
Top1 CPU
This CPU
PassMark
CPU mark
Top1 CPU
This CPU
118142
Geekbench 4
Single Core
Top1 CPU
This CPU
Geekbench 4
Multi-Core
Top1 CPU
This CPU
CompuBench 1. 5 Desktop
Face Detection
Top1 CPU
This CPU
56.680 mPixels/s
3.464 mPixels/s
CompuBench 1.5 Desktop
Ocean Surface Simulation
Top1 CPU
This CPU
741.453 Frames/s
3.959 Frames/s
CompuBench 1.5 Desktop
T-Rex
Top1 CPU
This CPU
3. 237 Frames/s
0.149 Frames/s
CompuBench 1.5 Desktop
Video Composition
Top1 CPU
This CPU
49.002 Frames/s
0.738 Frames/s
CompuBench 1.5 Desktop
Bitcoin Mining
Top1 CPU
This CPU
218.231 mHash/s
1. 283 mHash/s
GFXBench 4.0
T-Rex
Top1 CPU
This CPU
12887 Frames
2674 Frames
GFXBench 4.0
T-Rex
Top1 CPU
This CPU
12887.000 Fps
2674.000 Fps
Name Meaning
PassMark — Single thread mark 1286
PassMark — CPU mark 2086
Geekbench 4 — Single Core 480
Geekbench 4 — Multi-Core 1049
CompuBench 1. 5 Desktop — Face Detection 3.464 mPixels/s
CompuBench 1.5 Desktop — Ocean Surface Simulation 3.959 Frames/s
CompuBench 1.5 Desktop — T-Rex 0.149 Frames/s
CompuBench 1.5 Desktop — Video Composition 0.738 Frames/s
CompuBench 1.5 Desktop — Bitcoin Mining 1.283 mHash/s
GFXBench 4.0 — T-Rex 2674 Frames
GFXBench 4.0 — T-Rex 2674.000 Fps
Boost Core Clock 1050 MHz
Core frequency 650 MHz
Floating point performance 33. 6 gflops
Process 22nm
Number of shader processors 16
Texturing speed 4.2 GTexel/s
Power consumption (TDP) 45 Watt
Number of transistors 1,200 million

Gaming performance

1. Counter-Strike: GO (2012)
2. Team Fortress 2 (2017)
3. Farming Simulator 17 (2016)
4 Overwatch (2016)
5 Rise of the Tomb Raider (2016)
6. World of Warships (2015)
7. Dota 2 Reborn (2015)
8 Dirt Rally (2015)
9. GTA V (2015)
10 Dragon Age: Inquisition (2014)
11. Far Cry 4 (2014)
12 Assassin’s Creed Unity (2014)
13 Alien: Isolation (2014)
14. Middle-earth: Shadow of Mordor (2014)
15 Wolfenstein: The New Order (2014)
16. The Elder Scrolls Online (2014)
17. Thief (2014)
18.X-Plane 10.25 (2013)
19. Battlefield 4 (2013)
20 Total War: Rome II (2013)
21. Company of Heroes 2 (2013)

22. Metro: Last Light (2013)
23 BioShock Infinite (2013)
24. StarCraft II: Heart of the Swarm (2013)
25 SimCity (2013)
26. Tomb Raider (2013)
27 Crysis 3 (2013)
28 Hitman: Absolution (2012)
29. Call of Duty: Black Ops 2 (2012)
30. World of Tanks v8 (2012)
31. Borderlands 2 (2012)
32. Dirt Showdown (2012)
33. Diablo III (2012)
34 Mass Effect 3 (2012)
35. The Elder Scrolls V: Skyrim (2011)
36. Battlefield 3 (2011)
37. Deus Ex Human Revolution (2011)
38 Starcraft 2 (2010)
39. Metro 2033 (2010)
40 Trackmania Nations Forever (2008)
41. Call of Duty 4 — Modern Warfare (2007)
42. World in Conflict — Benchmark (2007)
43. World of Warcraft (2005)

Counter-Strike: GO (2012)

Low, 1024×768 78.15
Medium, 1366×768 46.80
High, 1366×768 26.70

Team Fortress 2 (2017)

LOW, 1280×720 68.00

Farming Simulator 17 (2016)

Low, 1280×720 430058

Medium, 1366×768 25.10

Overwatch (2016)

Low, 1280×720 25. 60

Rise of the Tomb Raider (2016)

Low, 1024×768 10.00

World of Warships (2015)

9006.0058

LOW, 1366×768 56.70
Medium, 1366×768
High, 1920×1080 17.10

Dota 2 Reborn (2015)

Low, 1280×720 96.00
Medium, 1366×768 40.20
High, 1920×1080 16.90

Dirt Rally (2015)

LOW, 1024×768 72.35
Medium, 1366×768 18.70 900

9005

High, 1920×1080 12.55
Ultra, 1920×1080 12.50

GTA V (2015)

Low, 1024×768 26. 80

Dragon Age: Inquisition (2014)

LOW, 1024×768 18.50
Medium, 1366×768 11.70

FAR CRRY 4 (2014)

LOW,0060

13.20

Assassin’s Creed Unity (2014)

Low, 1024×768 3.00

Alien: Isolation (2014)

Low, 1024×768 28.60
Medium, 1366×768 18.20

Middle-Earth: Shadow of Mordor (2014)

  • 7

    Wolfenstein: The New Order (2014)

    • Low, 1280×720 13.00
    Low, 1280×720 31.00
    Medium, 1280×720 21.90
    High, 1920×1080 9.10

    The Elder Scrolls Online ( 2014)

    LOW, 1024×768 40. 00
    Medium, 1366×768 23.10
    HIIGH, 1366×768 .90 9006

    Ultra, 1920×1080 7.20

    Thief (2014)

    Low, 1024×768 19.00
    Medium, 1366×768 10.90
    High, 1366×768 8.80
    Ultra, 1920×1080 4.30

    X-Plane 10.25 (2013)

    Low, 1024×768 41.85
    Medium, 1366×768 16.35
    High, 1366×768 7.00
    Ultra, 1920×1080 4.55

    Battlefield 4 (2013)

    Low, 1024×768 32.20
    Medium, 1366×768 19.70
    HIGH, 1366×768 12.20
    Ultra, 1920×1080 4. 70

    TETAL WAR: Rome)0021

    Low, 1024×768 27.75
    Medium, 1366×768 20.50

    Company of Heroes 2 (2013)

    Low, 1024×768 9.95
    Medium, 1366×768 11.50
    HIGH, 1366×768 6.25
    Ultra, 1920×1080 2.90

    METRO (LIST)0021

    Low, 1024×768 21.50
    Medium, 1366×768 14.50
    High, 1366×768 8.20
    Ultra, 1920×1080 4.20

    BioShock Infinite (2013 )

    Low, 1280×720 26.80
    Medium, 1366×768 12.65
    HIIIH, 1366×768 10. 80
    Ultra, 1920×1080 3.58

    StarCraft II: Heart of the Swarm (2013)

    Low, 1024×768 108.05
    Medium, 1366×768 28.10
    High, 1366×768 15.45
    Ultra, 1920×1080 7.60

    Simcity (2013)

    Low, 1024×0
    Medium, 1366×768 15.00
    High, 1366×768 11.00
    Ultra, 1920×1080 5.40

    Tomb Raider (2013)

    900 60

    Low, 1024×768 34.30
    Medium, 1366×768 17.00
    HIGH, 1366×768 10.40
    Ultra, 1920×1080

    Crysis 3 (2013)

    Low, 1024×768 22. 00
    Medium, 1366×768 11.20
    High, 1366×768 7.65
    Ultra, 1920×1080 3.20

    Hitman: Absolution (2012)

    059 High, 1366×768

    Low, 1024×768 18.00
    Medium, 13666×768 5.80
    Ultra, 1920×1080 3.00

    Call of Duty: Black Ops 2 (2012)

    Low, 1024×768 31.40
    Medium, 1366×768 20.90
    HIGH, 1366×768 6.60
    Ultra, 1920×1080 6.60

    World of Tanks V8 (2012)

    (2012)0059 Low, 1024×768 48.00 Medium, 1366×768 21.95 High, 1366×768 18.90 Ultra, 1920×1080 8. 40

    Borderlands 2 (2012)

    , 1920×1080
    Low, 1024×768 32.70
    Medium, 1366×768 23.20
    HIGH, 1366×768 15.80
    10.30

    Dirt Showdown (2012)

    Low, 1024×768 52.65
    Medium, 1366×768 27.80
    High, 1366×768 17.20
    Ultra 1920×1080 6.00

    Diablo III (2012)

    Low, 1024×768 46.35
    Medium, 1366×768

    		26.00
    High, 1366×768 21.00
    Ultra, 1920×1080 13.60

    Mass Effect 3 (2012)

    Low, 1280×720 25.40
    High, 1366×768 19. 00
    Ultra, 1920×1080 18.10

    The Elder Skirim (2011)

    LOW, 1280×7200059 27.10
    Medium, 1366×768 13.40
    High, 1366×768 8.80
    Ultra, 1920×1080 5.50

    Battlefield 3 (2011)

    Low, 1024×768 14.0060

    Deus Ex Human Revolution (2011)

    Low, 1024×768 43.80
    High, 1366×768 23.00
    Ultra, 1920×1080 12.80

    StarCraft 2 (2010)

    900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 9009 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 9ATH0060

    LOW, 1024×768 112.50
    Medium, 1360×768 26.50
    HIGH, 1360X768
    Ultra, 1920×1080 10. 90

    Metro 2033 (2010)

    Low, 800×600 30.00
    Medium, 1360×768 17.55
    High, 1600×900 12.00060
    High, 1024×768 37.20
    Ultra, 1920×1080 20.05

    Call of Duty 4 — Modern Warfare (2007)

    Low, 800×600 100.60
    Medium, 1024×768 43.30

    World in Conflict — Benchmark (2007)

    Low, 800×600

    660060

    		27.50
    High, 1024×768 13.00

    World of Warcraft (2005)

    Low, 800×600 99.00
    Medium, 1024×768 64.00
    High 1280×1024 17. 00
    Ultra, 1920×1080 8.00

    Characteristics

    configuration

    Architecture Ivy Bridge
    Production date 25 January 2013
    Price at first issue date $225
    Place in the ranking 2019
    Price now $225
    Processor Number i5-3337U
    Series Legacy Intel® Core™ Processors
    Status Launched
    Price/performance ratio (0-100) 4. 21
    Applicability Mobile
    Support 64 bit
    Base frequency 1.80 GHz
    Bus Speed ​​ 5 GT/s DMI
    Crystal area 118mm
    Level 1 cache 128KB
    Level 2 cache 512KB
    Level 3 cache 3072KB
    Process 22nm
    Maximum core temperature 105 °C
    Maximum frequency 2. 70 GHz
    Number of cores 2
    Number of threads 4
    Maximum number of memory channels 2
    Maximum memory bandwidth 25.6 GB/s
    Maximum memory size 32GB
    Supported memory types DDR3/L/-RS 1333/1600
    Device ID 0x166
    Graphics base frequency 350MHz
    Graphics max dynamic frequency 1. 10 GHz
    Maximum GPU clock 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 4000
    CRT
    DisplayPort
    eDP
    HDMI
    Maximum number of monitors supported 3
    SDVO
    WiDi support
    Low Halogen Options Available
    Maximum number of processors in 1
    Package Size 31mm x 24mm (BGA1023)
    Supported sockets FCBGA1023
    Power consumption (TDP) 17 Watt
    Number of PCI Express lanes 16
    PCI Express revision 2. 0
    PCIe configurations 1×16, 2×8, 1×8 2×4
    Anti-Theft Technology
    Execute Disable Bit (EDB)
    Intel® Identity Protection Technology
    Intel® Secure Key Technology
    Intel® Trusted Execution Technology (TXT)
    4G WiMAX Wireless
    Enhanced Intel SpeedStep® Technology
    Flexible Display interface (FDI)
    Idle States
    Extended instructions Intel® AVX
    Intel 64
    Intel® Advanced Vector Extensions (AVX)
    Intel® AES New Instructions
    Intel® Demand Based Switching
    Intel® Fast Memory Access
    Intel® Flex Memory Access
    Intel® Hyper-Threading Technology
    Intel® My WiFi 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)

    Specifications Intel Core i5-3337U Ivy Bridge, price, test, competitors0008

  • >
  • Intel
  • >
  • Core i5-3337U

    • Processor Core i5-3337U

    Number of cores — 2, produced by 22 nm process technology, Ivy Bridge architecture. Thanks to Hyper-Threading technology, the number of threads is 4, which is twice the number of physical cores and increases the performance of multi-threaded applications and games.

    Core i5-3337U base frequency — 1.8 GHz. The maximum frequency in Intel Turbo Boost mode reaches 2.7 GHz. Please note that the Intel Core i5-3337U cooler must cool processors with a TDP of at least 17W at stock frequencies. When overclocked, the requirements increase.

    With integrated Intel® HD Graphics 4000, the computer can operate 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 Core i5-3337U cheaply? Look at the list of stores that already sell the processor in your city.

    Family

    • Core i5-3317U

    Benchmarks Intel Core i5-3337U

    Gaming speed

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

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

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

    Speed ​​in office use

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

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

    Speed ​​of numerical operations

    Simple household tasks

    Minimum Average Maximum
    56 Memory: 79 90

    Memory

    83

    21 1 core: 60 73

    1 core

    29.3

    36 2 cores: 102 127

    2 cores

    25. 2

    Demanding games and tasks

    Minimum Average Maximum
    57 4 cores: 151 178

    4 cores

    19

    61 8 cores: 155 178

    8 cores

    10

    Extreme

    Minimum Average Maximum
    59 All Cores: 156 179 900

    All cores

    2. 8

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

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

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

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

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

    Benchmarks

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

    Passmark

    Intel Core2 Quad Q9450

    2061

    Intel Pentium 4405U

    2061

    Intel Core i3-3210

    2052

    Intel Core2 Quad Q9400

    2052

    Intel Core M-5Y31

    2051

    Intel Core i5-337u

    2049

    Intel Pentium G3258

    2043

    Intel Core2 QUAD Q6700

    2042

    INTEL PENTIUM G3260

    200002 20000 9000 9000 AMD AMD AMD AMD0005

    2040

    Intel Core i5-2450M

    2029

    Tests in games

    FPS measured by us in popular games on Intel Core i5-3337U and meets 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.

  • HD 3000 (Mobile V1 1.1/1.2 GHZ)

    • RAM

    • No data

    SSD

    • A40GB
    • A400 120GB
    • 850 EVO

    We collected the list of components that are the list of users most often chosen when building a computer based on the Core i5-3337U. Also with these components, the best results in tests and stable operation are achieved.

    The most popular config: motherboard for Intel Core i5-3337U — Dell Inspiron 3521, video card — GTX Titan Z (SLI Disabled), SSD — A400 240GB.

    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™ i5-3337U Processor (3M Cache, up to 2.70 GHz)
    ArchitectureCode name for the microarchitecture generation. Ivy 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. 22 nm
    Date of release The month and year the processor was released. 09-2016
    Model Official name. i5-3337U
    Cores The number of physical cores. 2
    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 by the operating system as two logical cores, thereby increasing processor performance in multi-threaded applications. Hyper-threading (note that some games may not work well with Hyper-threading, you can disable the technology in the BIOS of the motherboard for maximum FPS).
    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. 1.8 GHz
    Turbo frequencyThe maximum frequency of one processor core in turbo mode. Manufacturers allow modern processors to independently increase the frequency of one or more cores under heavy load, due to which performance is noticeably increased. It may depend on the nature of the load, the number of loaded cores, temperature and the specified limits. Significantly affects the speed in games and applications that are demanding on the frequency of the CPU. 2.7 GHz
    L3 cache size The third level cache acts as a buffer between the computer’s RAM and the processor’s level 2 cache. Used by all cores, the speed of information processing depends on the volume. 3 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. 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. No
    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. 17W

    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 4000
    GPU base clockFrequency in 2D and idle. 350 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. Yes
    Supported monitorsThe maximum number of monitors that can be connected to the integrated video core at the same time. 3

    RAM

    Maximum amount of RAMThe amount of RAM that can be installed on the motherboard with this processor. 32 GB
    Supported type of RAM The type of RAM depends on its frequency and timings (speed), availability, price. DDR3/L/-RS 1333/1600
    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
    RAM bandwidth 25.6 GB/s

    PCI

    configuration options

    PCI-E The PCI Express computer bus version. The bandwidth and power limit depend on the version. There is backward compatibility. 2
    PCI 1×16, 2×8, 1×8 2×4
    Number of PCI lanes Yes

    Data Protection

    AES-NI The AES command set extension speeds up applications that use appropriate encryption. Yes
    Intel® Secure Key An RDRAND instruction that allows you to create a high performance random number generator. Yes

    Design

    Competitors

    Please note that competitors are selected automatically based on performance in a particular task. Therefore, some may puzzle you. We are improving our selection algorithm, treat with understanding.

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