85points

Qualcomm Snapdragon 768G

Qualcomm Snapdragon 768G
vs

Qualcomm Snapdragon 768G review: specs and price

Qualcomm Snapdragon 768G
85
points
Qualcomm Snapdragon 768G

Why is Qualcomm Snapdragon 768G better than the average?

  • CPU speed
    ?

    1 x 2.8GHz & 1 x 2.2GHz & 6 x 1.8GHzvs8.81GHz
  • RAM speed
    ?

    2133MHzvs1778.49MHz
  • CPU threads
    ?

    8vs5.45
  • GPU clock speed
    ?

    750MHzvs486.76MHz
  • Semiconductor size
    ?

    7nmvs19.73nm
  • Download speed
    ?

    3700MBits/svs785.95MBits/s
  • DirectX version
    ?

    12vs11.4
  • Memory channels
    ?

    2vs1.99

Price comparison

General info

1.Has integrated graphics
Qualcomm Snapdragon 768G
With integrated graphics you don’t need to buy a separate graphics card.
2.Supports 64-bit
Qualcomm Snapdragon 768G
A 32-bit operating system can only support up to 4GB of RAM. 64-bit allows more than 4GB, giving increased performance. It also allows you to run 64-bit apps.
3.GPU clock speed

750MHz

The graphics processing unit (GPU) has a higher clock speed.
4.semiconductor size

7nm

Small semiconductors provide better performance and reduced power consumption. Chipsets with a higher number of transistors, semiconductor components of electronic devices, offer more computational power. A small form factor allows more transistors to fit on a chip, therefore increasing its performance.
5.DirectX version

12

DirectX is used in games, with newer versions supporting better graphics.
6.OpenGL ES version

3.2

OpenGL ES is used for games on mobile devices such as smartphones. Newer versions support better graphics.

Performance

1.CPU speed

1 x 2.8GHz & 1 x 2.2GHz & 6 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

8

More threads result in faster performance and better multitasking.
3.Uses big.LITTLE technology
Qualcomm Snapdragon 768G
Using big.LITTLE technology, a chip can switch between two sets of processor cores to maximize performance and battery life. For example, when playing a game the more powerful cores will be used to increase performance, whereas checking email will use the less powerful cores to maximize battery life.
4.Uses HMP
Qualcomm Snapdragon 768G
Heterogeneous Multi-Processing (HMP) is a more advanced version of big.LITTLE technology. In this setup, a processor can utilize all cores at the same time, or just a single core for low-intensity tasks. This can provide powerful performance or increased battery life respectively.
5.Has an unlocked multiplier
Qualcomm Snapdragon 768G
Some processors come with an unlocked multiplier which makes them easy to overclock, allowing you to gain increased performance in games and other apps.

Memory

1.RAM speed

2133MHz

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

2

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

Features

1.Has integrated LTE
Qualcomm Snapdragon 768G
The system on a chip (SoC) has an integrated LTE cellular chip. LTE is capable of downloading at faster speeds than older, 3G technology.
2.Has dynamic frequency scaling
Qualcomm Snapdragon 768G
Dynamic frequency scaling is a technology that allows the processor to conserve power and reduce noise when it is under a light load.
3.download speed

3700MBits/s

The download speed is a measurement of the internet connection bandwidth, representing the maximum data transfer rate at which a device can access online content.
4.Has NX bit
Qualcomm Snapdragon 768G
NX bit helps protect the computer from malicious attacks.
5.Supports hardware-assisted virtualization
Qualcomm Snapdragon 768G
It is easier to obtain better performance when using virtualization if it is hardware-assisted.
6.Has out-of-order execution
Qualcomm Snapdragon 768G
Out-of-order execution is used in CPUs to make use of instruction cycles that would normally be wasted due to delays.

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