HiSilicon Kirin 9000

Manufacturing Process

5nm

CPU Cores

8 cores

Instruction Set

ARMv8.2-A

Memory Type

LPDDR5 (2750MHz)

GPU

Mali-G78 MP24

5G Support

ℹ️ Basic Information

SOC Name HiSilicon Kirin 9000

Brand hisilicon

Announcement Date 22 October 2020

Class Flagship

Manufacturing Process 5nm

Manufacturing TSMC

⚡ CPU Specifications

CPU Architecture 1x 3.13 GHz – Cortex-A77
3x 2.54 GHz – Cortex-A77
4x 2.05 GHz – Cortex-A55

CPU Cores 8 Core

CPU Frequency 3130MHz

Instruction Set ARMv8.2-A

🧠 Cache & NPU

Cache 8 MB

Cache Level L3

SLC 8mb

NPU Da Vinci Architecture 2.0 (2 x A

💾 Memory

Memory Type LPDDR5

Memory Frequency 2750MHz

Memory Bus 4x16 Bit

Max Bandwidth 44 Gb/s

Max Memory Size 16GB

🎮 GPU

GPU Mali-G78 MP24

GPU Architecture Valhall 2nd gen

Pipelines 24 Pipeline

Shading Units 32 Unit

Total Shaders 768 Unit

Vulkan Version Version 1.3

OpenCL Version Version 2.0

DirectX Version Version 12

💿 Storage & Display

Storage Type UFS 3.1

Max Display Resolution 3840 x 2160

Max Camera Resolution Unknown

🎵 Video & Audio

Video Capture 4K at 60FPS

Video Playback 4K at 60FPS

Video Codecs H.264, H.265, VP9

Audio Codecs AAC, AIFF, CAF, MP3, MP4, WAV

📶 Connectivity

5G Support 1

WiFi Wifi 6

Bluetooth Bluetooth 5.2

🛰️ Navigation Systems

GPS Yes

GLONASS Yes

Beidou Yes

Galileo Yes

QZSS No

NAVIC Yes

📊 Benchmark Scores

AnTuTu 10 901,517

⚖️ Related SOC

Displayed SoCs are selected based on performance class suitability and key benchmark metrics.

Samsung Exynos 1580

Samsung • 8 cores • 2024

912,582

MediaTek Dimensity 7360

MediaTek • 8 cores • 2025

908,244

HiSilicon Kirin 9000

hisilicon • 8 cores • 2020

901,517

Google Tensor

Google • 8 cores • 2021

897,676

Samsung Exynos 2100

Samsung • 8 cores • 2020

891,824

✅ Positive Aspects

1. Performance

The Kirin 9000 delivers strong flagship-level performance with an 8-core CPU layout mixing Cortex-A77 big and efficiency Cortex-A55 cores, offering smooth system responsiveness and balanced multi-core throughput. Benchmark results show solid scores across CPU and GPU workloads. :contentReference[oaicite:1]{index=1}

2. AI Capabilities

Equipped with Da Vinci Architecture 2.0 and a triple-core NPU (2 big + 1 tiny), the chip provides competitive AI acceleration for tasks like image processing and on-device inference, which was among the top performers in AI benchmarks at its release. :contentReference[oaicite:2]{index=2}

3. Multimedia & Graphics

The Mali-G78 MP24 GPU combined with support for Vulkan 1.3 and modern video codecs enables robust graphics performance and smooth 4K video playback/capture capabilities, making it suitable for gaming and multimedia consumption. :contentReference[oaicite:3]{index=3}

❌ Negative Aspects

1. Efficiency & Thermal

Despite 5nm manufacturing, the older Cortex-A77 core design means efficiency lags behind newer CPUs with Cortex-X and A78/A710-class cores, leading to higher power draw and potential throttling under sustained loads.

2. Limited Future Proofing

Being launched in 2020, the Kirin 9000’s architecture and AI performance are overshadowed by newer SoCs in subsequent years, impacting its competitiveness in cutting-edge tasks and future software requirements.

Device information for this processor will be available soon. We are working on collecting data about smartphones and tablets that use the HiSilicon Kirin 9000.