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Huawei HiSilicon K3 Hi3620
Huawei HiSilicon K3 Hi3620




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Huawei HiSilicon K3 Hi3620 SoC

1 Price and Release Date
1.1 Price
NVIDIA Tegra 600
Not Available
Rank: N/A (Overall)
ARM Cortex M1
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1.2 Company
Huawei
1.3 Family
Not Available
1.4 SOC Part No.
K3 Hi3620
1.5 Release Year
2014
1.6 Status
Released
1.7 Market Segment
1.7.1 Mobile
All Huawei SoCs have it !
1.7.2 Embedded
All Huawei SoCs have it !
1.8 Related Products
2 Processor
2.1 Cores
AMD Naples
Not Available
Rank: 100 (Overall)
AMD Geode LX 800
2.2 CPU Threads
AMD Naples
Not Available
Rank: 100 (Overall)
Apple A7 APL0698
2.3 CPU Clock Speed
Samsung Exynos ..
1500 MHz
Rank: 40 (Overall)
NEC VR4181
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2.4 Processor Core
ARM Cortex-A9
2.5 Processor Frequency
Samsung Exynos ..
1.50 GHz
Rank: 38 (Overall)
NEC VR4181
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2.6 Turbo Frequency
Snapdragon 823 ..
Not Available
Rank: N/A (Overall)
Leadcore InnoPower LC1811
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2.7 Pipeline Stages
Apple A9X
Not Available
Rank: N/A (Overall)
ARM 1022E
2.8 Multiprocessing
Multiprocessor
2.9 Core Stepping
Not Available
2.10 Word Length
AMD G GX 424CC
Not Available
Rank: 100 (Overall)
Actions Semiconductor ATM7039
2.11 Graphics Processing Unit
2.11.1 GPU
Vivante GC4000
2.11.2 Advanced Graphics APIs
Not Available
2.12 DSP type
Not Available
2.13 Mobile Network
2.13.1 CDMA
All Huawei SoCs have it !
2.13.2 GPRS
All Huawei SoCs have it !
2.13.3 GSM
All Huawei SoCs have it !
2.13.4 HSPA+
All Huawei SoCs have it !
2.13.5 EDGE
All Huawei SoCs have it !
2.13.6 LTE
All Huawei SoCs have it !
2.13.7 HSUPA
Not Available
2.13.8 UMTS
Not Available
2.13.9 HSPDA
Not Available
3 Architecture
3.1 Socket
Not Available
3.2 Platform
RISC
3.3 Code Name
Not Available
3.4 Power
3.4.1 Operating Temperatures
Not Available
3.4.2 Thermal Design Power
AMD G GX 420CA
Not Available
Rank: N/A (Overall)
Intel Atom Z3480
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3.4.3 Power Consumption
Apple A6 APL0598
Not Available
Rank: N/A (Overall)
Apple A5 APL0498
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3.5 Package
Not Available
3.6 Size
3.6.1 Lithography
Intel Atom Z530
40 nm
Rank: 9 (Overall)
Snapdragon 828 MSM8997
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3.6.2 Dimensions
Not Available
3.7 Data Bus
AMD G GX 209HA
32 bit
Rank: 2 (Overall)
VIA WonderMedia WM8860
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3.8 CPU Architecture
Harvard
3.9 ISA Supported
ARMv7
4 Communication Devices
4.1 Communication Interfaces
4.1.1 USB
Not Available
4.1.2 Bluetooth
Bluetooth 4.0
4.1.3 EMMC
eMMC 4.5
4.1.4 HDMI
Not Available
4.1.5 UART/USART
UART
4.1.6 SATA
Not Available
4.2 Display Support
All Huawei SoCs have it !
4.3 GPS Module
All Huawei SoCs have it !
4.4 Multimedia Interfaces
4.4.1 Primary Camera
Snapdragon 800 ..
8 MP
Rank: 11 (Overall)
Qualcomm MSM6260
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4.4.2 Secondary Camera
Snapdragon 800 ..
5 MP
Rank: 6 (Overall)
Intel Atom Z2520
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4.4.3 Video Encoding
Not Available
4.4.4 Video Decoding
Not Available
4.4.5 GPS Module Type
embedded GPS module
4.5 LCD Controller
All Huawei SoCs have it !
4.6 Display Controller
All Huawei SoCs have it !
4.7 Display Resolution Support
1920x1080
5 Memory
5.1 Memory Bandwidth
Snapdragon 821
7,200.00 MB/s
Rank: 7 (Overall)
Snapdragon 200 MSM8225Q
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5.2 Memory Size
5.2.1 RAM
Samsung S5L8720
Not Available
Rank: N/A (Overall)
Intel Atom X5 Z8300
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5.2.2 ROM
Texas Instrumen..
Not Available
Rank: N/A (Overall)
Intel Atom Z2580
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5.3 Cache
5.3.1 L1 cache size
Samsung Exynos ..
Not Available
Rank: 100 (Overall)
Intel Atom X5 Z8300
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5.3.2 L2 cache size
Huawei HiSilico..
Not Available
Rank: N/A (Overall)
Amlogic AML8726 M3
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5.3.3 L3 cache size
Apple A8 APL1011
Not Available
Rank: N/A (Overall)
Apple A6 APL0598
5.4 Memory Type
5.4.1 LP-DDR3
Not Available
5.4.2 LPDDR3 SDRAM
All Huawei SoCs have it !
5.4.3 DDR3-1600
No Huawei SoCs has it !
5.4.4 LP-DDR2
All Huawei SoCs have it !
5.4.5 DDR3L
Not Available
5.4.6 LPDDR3
Not Available
5.4.7 LPDDR2
Not Available
5.4.8 DDR3-1066
Not Available
5.4.9 DDR3-1333
Not Available
5.5 No. of Channels
Arria 10
Not Available
Rank: N/A (Overall)
AMD G GX 210JA
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5.6 Floating Point Unit
Not Available

Huawei HiSilicon K3 Hi3620 Information

For consumers who are in hunt for a new smartphone or tablet, knowing Huawei HiSilicon K3 Hi3620 information and its market facts is essential before they seek one! However, time and efforts spent in gathering such data may not always be worth! Not to worry, this is the right place where your search ends!Huawei HiSilicon K3 Hi3620 was released in 2014. Huawei HiSilicon K3 Hi3620 belongs to Huawei. Huawei HiSilicon K3 Hi3620 Processor and its architecture plays an important part in determining the performance characteristics of the chipset. It executes the instructions based on the preset algorithm in its firmware. More number of cores lead to faster and hassle-free computing. Furthermore, Huawei HiSilicon K3 Hi3620 has a clock speed of 1500 MHz. All these features of Huawei HiSilicon K3 Hi3620 SoC make it ideal for use in high-end electronics gadgets.

Huawei HiSilicon K3 Hi3620 Details

Huawei HiSilicon K3 Hi3620 details such as the Huawei HiSilicon K3 Hi3620 Architecture, its memory allocation and other device constraints such as the power limitations and external device support are vital consideration in its design. A system-on-chip houses many components integrated into a small space; thus the efficiency of this device is dependent on how well each component complements the other. Huawei HiSilicon K3 Hi3620 SoC runs on a RISC architecture.GSM, CDMA, LTE, GPRS, EDGE, HSPA+ are some networks supported by Huawei HiSilicon K3 Hi3620.

The entire architecture of the chip is structured around the processing of large blocks of data. Each component plays consequential role in integrating the functions performed by the SoC. Huawei HiSilicon K3 Hi3620 SoC contains a graphics processor, referred as its GPU, which is solely intended for the accelerated creation of images which are then outputted to a display. Vivante GC4000 graphics processor is used.

Huawei HiSilicon K3 Hi3620 Key Facts

Some Huawei HiSilicon K3 Hi3620 key facts include its RAM, processor & memory bandwidth, which indicate how fast the data transfers over the chipset's communication media. As the density of integration increased, the memory became a dominant component in determining the absolute performance, gross power consumption and fabrication area of the SoC. The memory controller optimizes and manages the on-chip and off-chip memory technologies, to efficiently deliver the required data handling within the power and delay constraints.

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