HiSilicon Kirin 650 vs JLQ JR510 vs HiSilicon Kirin 655
HiSilicon Kirin 650
► remove from comparisonThe HiSilicon Kirin 650 is an ARM-based octa-core SoC for mid-range smartphones and tablets. It was announced early 2016 and features eight ARM Cortex-A53 cores. Four cores can be clocked with up to 1.7 GHz (power saving cores) and four with up to 2 GHz (performance cores). Furthermore, a ARM Mali-T830 MP2 graphics card (at 600 MHz with 40.8 GFLOPS), a 64-Bit LPDDR3 memory controller and a dual-sim capable LTE Cat. 6 (max. 300 MBit/s and GSM, WCDMA, UMTS, HSPA+) radio are integrated in the SoC.
The processor performance can be compared with the older Kirin 930 and therefore sufficient for daily usage as browsing and non demanding apps. High-end SoCs with Cortex-A57 or A72 cores however should be noticeably faster.
The SoC is produced in a modern 16nm FinFET process and is therefore very power efficient.
JLQ JR510
► remove from comparisonThe JLQ JR510 is a lower mainstream SoC for (Android-based) smartphones and tablets by JLQ, a joint venture with Qualcomm and several Chinese companies.
The JLQ JR510 integrates eight ARM Cortex-A55 cores (similar to the Snapdragon 439) in two Clusters. 4 higher-clocked cores with up to 2 GHz and four power saving cores with up to 1.5 GHz.
The integrated graphics card is not an Adreno, but a ARM Mali G52MP1 (single cluster). Displays can be with resolutions up to 1080p/60Hz, for 720p 90 Hz is possible.
The JR510 also includes an AI accelerator with a theoretical performance of up to 1.23 TOPS. For connectivity, the SoC supports 4G (Cat4 / 7), Wi-Fi 5 (802.11ac), Bluetooth 5.0, FM and GNSS.
HiSilicon Kirin 655
► remove from comparisonThe HiSilicon Kirin 655 is an ARM-based octa-core SoC for mid-range smartphones and tablets. It was announced late 2016 and features eight ARM Cortex-A53 cores. Four cores can be clocked with up to 1.7 GHz (power saving cores) and four with up to 2.1 GHz (performance cores). The difference to the older Kirin 650 is the 100 MHz higher clock speed of the performance cores.
Furthermore, a ARM Mali-T830 MP2 graphics card (at 600 MHz or 900 MHz with 40.8 GFLOPS), a 64-Bit LPDDR3 memory controller and a dual-sim capable LTE Cat. 6 (max. 300 MBit/s and GSM, WCDMA, UMTS, HSPA+) radio are integrated in the SoC. The processor performance can be compared with the older Kirin 930 and therefore sufficient for daily usage as browsing and non demanding apps. High-end SoCs with Cortex-A57 or A72 cores however should be noticeably faster. The SoC is produced in a modern 16nm FinFET process and is therefore very power efficient.
Model | HiSilicon Kirin 650 | JLQ JR510 | HiSilicon Kirin 655 |
Codename | Cortex-A53 | Cortex-A53 | Cortex-A53 |
Clock | 2000 MHz | 1500 - 2000 MHz | 2100 MHz |
Cores / Threads | 8 / 8 | 8 / 8 | 8 / 8 |
Technology | 16 nm | 11 nm | 16 nm |
Features | ARMv8-ISA, Mali-T830 MP2, Dual SIM LTE (Cat. 6), LPDDR3 Memory Controller | Mali G52MC1, Wi-Fi 5, Bluetooth 5.0, LTE Cat 7/13, UFS 2.1 | ARMv8-ISA, Mali-T830 MP2, Dual SIM LTE (Cat. 6), LPDDR3 Memory Controller |
iGPU | ARM Mali-T830 MP2 (900 MHz) | ARM Mali-G52 MP1 | ARM Mali-T830 MP2 (900 MHz) |
Architecture | ARM | ARM | ARM |
Announced | |||
Manufacturer | jlq.com |
Benchmarks
Average Benchmarks HiSilicon Kirin 650 → 100% n=4
Average Benchmarks JLQ JR510 → 91% n=4
Average Benchmarks HiSilicon Kirin 655 → 104% n=4
- Average benchmark values for this graphics card
* Smaller numbers mean a higher performance
1 This benchmark is not used for the average calculation