The rivalry between Samsung Exynos and Qualcomm Snapdragon has been happening for a long time.
Although the public impression may favour Qualcomm Snapdragon processors, there is no denying that Samsung’s Exynos motherboards have seen tremendous advancement.
Since the Galaxy S2, Samsung has released two distinct variants of similar smartphones every year, each with an alternative chipset.
Key Takeaways
- Qualcomm Snapdragon processors are widely used in various smartphones and provide strong performance with efficient power consumption.
- Exynos processors, made by Samsung, are known for their powerful performance but may have slightly higher power consumption than Snapdragon processors.
- Both processors are used in flagship devices, but Snapdragon chips are more commonly found in devices from different manufacturers.
Qualcomm Snapdragon vs. Exynos
The difference between Qualcomm Snapdragon and Exynos is that Qualcomm Snapdragon is a smartphone processor developed by Qualcomm for usage in third-party handsets. Snapdragon is the principal SoC used by the preponderance of smartphone manufacturers. In North America and Europe, Octa-core Qualcomm employs SoCs. At the same time, the Exynos is produced in-house by Samsung for consumption with its proprietary Samsung handsets. Samsung uses Exynos semiconductors in their Overseas economies.
Qualcomm Snapdragon is a line of system-on-a-chip microelectronics manufactured and sold by Qualcomm InfoTech for mobile smartphones.
The ARM architectural style is used in Snapdragon’s primary processor unit.
Multiple CPU structures, an Adreno animation computation unit, a Snapdragon connectivity router, a Hexagon Arduino microcontroller, a Qualcomm Spectra analogue transmission quad-core, and other applications and hardware to assist a smartphone’s location data, camera, and AI momentum may all be included in a solitary SoC.
Samsung’s concerned with evaluating chipsets, Exynos, is primarily built for the corporation’s premier smartphones.
Exynos is a range of ARM-based System-On-Chip (SoC) semiconductors from Samsung that replace the S3C, S5L, and S5P SoCs that were formally introduced.
Exynos is predicated on ARM Cortex processors except for a few high-end SoCs that used Samsung’s customized “M” class modelling approach.
Comparison Table
| Parameters of Comparison | Qualcomm Snapdragon | Exynos |
|---|---|---|
| RAM | Snapdragon features built-in LTE capability, and they were among the first to include 5G antennas in their SoCs. | The Exynos is substantially quicker due to its compact semiconductor, which can manage more memory at higher speeds. |
| Image Processing | Snapdragon’s image segmentation is far sharper than the Exynos’ owing to the powerful Adreno GPU. | Snapdragon’s image segmentation is far sharper than the Exynos’ owing to the powerful Adreno GPU. |
| Chips | Snapdragon semiconductors are Quad-Core. | Exynos processors are Octa-core. |
| processor | Snapdragon processors can be upgraded to attain substantially better processing rates than Exynos chips. | Exynos processors feature additional chips. |
| SoCs | Delta GPU found in Exynos SoCs. | Snapdragon SoCs use considerably quicker Adreno GPUs. |
What is Qualcomm Snapdragon?
Qualcomm Snapdragon CPUs are created by Qualcomm and operate a wide range of mobile devices. The Samsung Galaxy S9 and Galaxy S9 Plus are two of the most recent Samsung handsets that employ Snapdragon processors.
Both phones are the first to use Qualcomm’s new Snapdragon 845 chipset. Xiaomi Redmi 2S, Asus Zenfone, premium HTC handsets, and Sony Xperia XZ2 subscription are among the other Snapdragon-powered handsets.
In December 2007, Qualcomm announced the Snapdragon QSD8250. It featured the latest mobile phone CPU with a clock speed of 1 GHz.
Qualcomm’s “Krait” control purposes were introduced in the second iteration of Snapdragon Operating systems in 2011, permitting each CPU block to alter its frequency depending on the system’s demands.
Qualcomm debuted the Snapdragon 800 range at the 2013 Mobile World Congress, renaming previous versions such as the 200, 400, and 600 sequences.
The QSD8250 CPU was Snapdragon’s inaugural offering widely accessible to the general public. In November of 2007, the microprocessor was launched. The initial 1GHz CPU for cellular telephones was also featured.
Snapdragon debuted the latest Snapdragon 800 sequence at CES 2013, which handles most of today’s gadgets.
Since then, numerous CPUs in the Snapdragon 800 range have been released, the most prominent of which is the Snapdragon 835 and 845, which operate today’s political premium smartphones.
What is Exynos?
Considering Samsung controls a substantial portion of the global smartphone market, in-house manufacture potentially helps the business lessen its reliance on third-party suppliers. This might also assist the firm to save money by reducing costs.
Samsung introduced the Hummingbird S5PC110, a licensed ARM Cortex-A8 Microprocessor, in the Samsung Galaxy S handset 2010. Hummingbird was the prototype designation for this ARM Cortex-A8 processor.
It was created in collaboration with Intransitive and made possible by their Rapid Cornerstone and Fast14 technology. If a fault in one area of a microchip affects its productivity, the corresponding processor is immediately accessible to replace it.
The Exynos 4210 controller software was included in the Linux kernel, and compatibility was provided in variant 3.2.
Samsung released the Exynos 4212 as a predecessor to the 4210 on September 29, 2011, with a faster operating regularity and 50% better 3D visual efficiency than the prior CPU version.
Aside from a few high-end SoCs, Exynos largely depends on ARM Cortex processors; however, starting in 2021, especially the headline high-end SoCs might have ARM Cortex transistors.
Main Differences Between Qualcomm Snapdragon and Exynos
- Snapdragon processors can be boosted to improve processing rates than Exynos engines significantly. At the same time, Exynos processors incorporate greater chips.
- In Snapdragon, consumers who enjoy gameplay and videography should lean among handsets with Snapdragon SoCs. At the same time, Exynos is more suitable for regular usage and provides quicker app loading times for those who simply use their cell to make phone calls or utilize light applications like Facebook.
- Snapdragon SoCs feature substantially speedier Adreno GPUs. Whereas in Exynos, the Congolese GPU found in Exynos Operating systems
- Snapdragon’s picture enhancement is significantly higher than the Exynos’ owing to the impactful Adreno GPU. At the same time, Exynos graphics rendering is not quite as good as Snapdragons.
- Snapdragon comprises built LTE technology. It was the first to implement 5G accelerators in its SoCs. Whereas Exynos is notably smoother due to its modular circuitry, which can accommodate more cache at higher velocities.
- http://openaccess.thecvf.com/content_CVPRW_2020/html/w31/Ignatov_Rendering_Natural_Camera_Bokeh_Effect_With_Deep_Learning_CVPRW_2020_paper.html
- https://link.springer.com/chapter/10.1007/978-3-319-77383-4_65
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