Intel Core i5-3337U

20 Reasons why Intel Core i5-3337U is better

than the average

1.Significantly higher ram speed
1600MHzvs 1416MHz (the average)
vs 2873MHz (best: Samsung Exynos 7420)
It can support faster memory, which will give quicker system performance.
2.Considerably lower TDP
17Wvs 67W (the average)
vs 3W (best: Intel Atom Z670)
The thermal design power (TDP) is the maximum amount of power the cooling system needs to dissipate. A lower TDP typically means that it consumes less power.
3.Sizably smaller semiconductor size
22nmvs 28nm (the average)
vs 10nm (best: MediaTek Helio X30)
A smaller size indicates that the process to create the chip is newer.
4.Modestly newer version of DirectX
11vs 11 (the average)
vs 12 (best: AMD A10-7870K)
DirectX is used in games, with newer versions supporting better graphics.
5.Uses hyperthreading technology
Yesvs No (59% don't have it)
Many of Intel's processors use hyperthreading, which means that each core of the processor can work on two threads at once instead of most processors which work on a single thread per core. This means you can have significant performance gains in certain applications.
6.Has Tri-Gate transistors
Yesvs No (70% don't have it)
An advanced transistor technology developed by Intel that allows lower power consumption and higher speeds.
7.Vastly newer version of PCI Express (PCIe)
3vs 3 (the average)
vs 3 (best: Intel Core i7-4770K)
PCI Express (PCIe) is a high speed expansion card standard, that connects the computer to it's peripherals. Newer versions can support more bandwidth and deliver better performance.
8.Distinctly newer version of OpenGL
4vs 4 (the average)
vs 4.5 (best: AMD A10-7860K)
OpenGL is used in games, with newer versions supporting better graphics.
9.Sizably more performance per watt
300vs 132 (the average)
vs 396.87 (best: Intel Core i7-4720HQ)
This means the CPU is more efficient, giving a greater amount of performance for each watt of power used.
10.Has Intel Quick Sync Video
Yesvs No (71% don't have it)
This allows very fast video transcoding times, for example when ripping a DVD or Blu-ray to your computer.
11.Substantially higher maximum operating temperature
105°Cvs 88°C (the average)
vs 105°C (best: Intel Core i7-3940XM)
If the CPU exceeds the maximum operating temperature then problems such as random resets can occur.
31mmvs 37mm (the average)
vs 6mm (best: Apple A5 APL7498)
13.Has RdRand
Yesvs No (75% don't have it)
RdRand is an instruction set used for cryptography.
14.Considerably higher Cinebench 10 result (single)
4557vs 3750 (the average)
vs 8785 (best: Intel Core i7-4790K)
This benchmark measures the performance of the CPU using a single thread.
15.Has F16C
Yesvs No (65% don't have it)
F16C is used to speed up tasks such as adjusting the contrast of an image or adjusting volume.
16.Considerably more displays supported
3vs 3 (the average)
vs 4 (best: AMD A10-5800K)
Using multiple displays you can create a larger work space, making it easier to work across multiple applications.
17.More GPU execution units
16vs 15 (the average)
vs 48 (best: Intel Xeon E3-1285 v4)
A graphics processing unit (GPU) with a greater number of execution units can deliver better graphics.
18.Faster GPU turbo speed
1100MHzvs 1050MHz (the average)
vs 1350MHz (best: Intel Core i7-3940XM)
When the GPU is running below its limitations, it can boost to a higher clock speed in order to give increased performance.
19.A little higher SSE version
4.2vs 4.1 (the average)
vs 4.2 (best: Intel Core i7-4770K)
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.
24mmvs 36mm (the average)
vs 6mm (best: Apple A5 APL7498)
Intel Core i5-3337U
Intel Core i5-3337U specs
Intel Core i5-3337U features
Intel Core i5-3337U pros and cons
Intel Core i5-3337U advantages
Intel Core i5-3337U disadvantages