MediaTek Helio G88
VS
HiSilicon Kirin 659
MediaTek Helio G88
VS
HiSilicon Kirin 659

Which to select

It is time to pick the winner. What is the difference between MediaTek Helio G88 vs HiSilicon Kirin 659? What CPU is more powerful? It is quite easy to determine – look at comparison table. The processor with more cores/ threads and also with higher frequency is the absolute winner!

CPU Cores and Base Frequency

Who will win between MediaTek Helio G88 vs  HiSilicon Kirin 659. The general performance of a CPU can easily be determined based on the number of its cores and the thread count, as well as the base frequency and Turbo frequency. The more GHz and cores a CPU has, the better. Please note that high technical specs require using a powerful cooling system.

1.80 GHz
Frequency
1.70 GHz
8
CPU Cores
8
2.00 GHz
Turbo (1 Core)
2.36 GHz
No
Hyperthreading
No
No
Overclocking
No
1.80 GHz
Turbo (8 Cores)
2.36 GHz
hybrid (big.LITTLE)
Core architecture
hybrid (big.LITTLE)
2x Cortex-A75
A core
4x Cortex-A53
6x Cortex-A55
B core
4x Cortex-A53
--
C core
--

CPU generation and family

MediaTek Helio G88
Name
HiSilicon Kirin 659
Mobile
Segment
Mobile
MediaTek Helio G70/G80
CPU group
HiSilicon Kirin 650
Mediatek Dimensity
Family
HiSilicon Kirin
1
Generation
2
--
Predecessor
--
--
Successor
--

Internal Graphics

Some manufacturers complement their CPUs with graphic chips, such a solution being especially popular in laptops. The higher the clock frequency of a GPU is and the bigger its memory, the better. Find a winner - MediaTek Helio G88 vs HiSilicon Kirin 659. 

ARM Mali-G52 MP2
GPU name
ARM Mali-T830 MP2
1.00 GHz
GPU frequency
0.90 GHz
No turbo
GPU (Turbo)
0.90 GHz
Bifrost 2
Generation
Midgard 4
12
DirectX Version
11
2
Execution units
2
32
Shader
32
2
Max. displays
2
16 nm
Technology
28nm
Q3/2020
Release date
Q4/2015
--
Max. GPU Memory
--

Hardware codec support

Here we deal with specs that are used by some CPU manufacturers. These numbers are mainly technical and can be neglected for the purpose of the comparison analysis.

Decode / Encode
h264
Decode / Encode
Decode / Encode
JPEG
Decode / Encode
Decode / Encode
VP8
Decode / Encode
Decode / Encode
VP9
No
Decode / Encode
VC-1
No
Decode / Encode
AVC
No
Decode / Encode
h265 / HEVC (8 bit)
Decode / Encode
Decode / Encode
h265 / HEVC (10 bit)
Decode
No
AV1
No

Memory & PCIe

These are memory standards supported by CPUs. The higher such standards, the better a CPU’s performance is.

no data
Memory type
LPDDR3-933
no data
Memory channels
2
no data
ECC
No

Encryption

Data encryption support

No
AES-NI
No

Memory & AMP; PCIe

LPDDR4X-1800
Memory type
no data
8 GB
Max. Memory
no data
No
ECC
no data
2
Memory channels
no data

Thermal Management

The thermal design power (TDP), sometimes called thermal design point, is the maximum amount of heat generated by a computer chip or component (often a CPU, GPU or system on a chip) that the cooling system in a computer is designed to dissipate under any workload.

--
Tjunction max.
--
--
TDP up
--
--
TDP down
--
--
TDP (PL2)
--

Technical details

8
CPU Threads
8
--
L3-Cache
--
12 nm
Technology
16 nm
Cortex-A75 / Cortex-A55
Architecture
Cortex-A53
None
Virtualization
None
N/A
Socket
N/A
Q2/2020
Release date
Q2/2016
ARMv8-A64 (64 bit)
Instruction set (ISA)
x86-64 (64 bit)
--
L2-Cache
--
MT6769Z
Part Number
--

Devices using this processor

You probably know already what devices use CPUs. These can be a desktop or a laptop.

Unknown
Used in
Unknown

Compatibility

Technologies and extensions

Virtualization technologies

Memory specs

Peripherals