On the specs end, the Snapdragon 660 can support up to a 25-megapixel camera or two 16-megapixel cameras.įollowing are some of the photos taken from the Snapdragon 660-powered Realme Pro. However, it remains to be seen how phone manufacturers employ these techniques on their camera modules. Both of these combine to give more light and less noise, and the Spectra 160 ISP chip brings in faster autofocus, accurate color reproduction along with zero shutter lag. Interestingly, Qualcomm has launched the duo of Qualcomm Clear Sight and Spectra 160 ISP chip. It’s worth noting that this chipset brings AI facial detection, real-time HDR capture, and a faster shooting mode.įollowing are some of the photos taken from the Helio P70-powered Realme U1. Besides, MediaTek has also introduced a high-resolution depth engine to enhance portraits. If it’s a single camera gig (which is a rarity these days), it can support a 32MP shooter. The P70 can support up to a 24MP + 16MP dual camera array. When it comes to the camera, the Helio P70 sports the same specs as the Helio P60, which means that the triple image signal processor returns.
These scores should not be seen as final scores, as they may differ across devices. Both the chipsets are almost at par, and the Snapdragon 660-powered Samsung Galaxy A9 is leading by a marginal difference. We know that benchmarks do not evaluate the real world performance of a smartphone or a processor, but it helps you get a rough idea of the differences between two processors. We pitted the Snapdragon 660-powered Samsung Galaxy A9 with the Helio P70-powered Realme U1 to run some benchmarks, and here are the results. However, these Kryo 260 cores are fabricated on a 14nm process, which seems to be a step back from the 12nm fabrication process seen in the Helio P70.Įven if the 12nm fabrication process provides the Helio P70 a head start, the Snapdragon 660 makes up for that gap with its custom Kryo cores. The new custom cores result in 20% higher performance Also, the Snapdragon 660 is paired with the Adreno 512 GPU. These custom cores result in 20% higher performance compared to its predecessor, the Snapdragon 652. The Snapdragon’s Kryo 260 cores-based cluster consists of four Cortex-A73 ‘performance’ cores clocked at 2.2 GHz, and four Cortex-A53 ‘efficiency’ cores clocked at 1.7 GHz.
It’s the first mid-range chipset to come with custom Qualcomm Kryo 260 CPU cores. On the other hand, the Snapdragon 660 does things a tad differently. Also, MediaTek has stuck to the conventional cores arrangement. In the CPU department, the P70 appears to be similar to the P60, safe for the clocking frequency. This arrangement is paired with a Mali G72 GPU, which sees a bump in clocking frequency to 900MHz.
MediaTek claims that this change in clocking frequency marks a 13% increase in overall performance. If you recall, Helio P60 carries the same arrangement, but its performance cores are clocked at 2.0GHz. Both these core clusters are clocked at 2.1 GHz and 2.0 GHz respectively.
On the CPU end, this octa-core processor bundles four ARM Cortex A73 cores acting as the performance cores and four ARM Cortex A53 cores acting as the efficiency cores. MediaTek has employed TSMC’s 12nm FinFET production process for the Helio P70. Now chipset makers have opted for smaller nodes, thus boosting the performance and keeping the thermals under control. Until a few years ago, the Samsung’s 14nm LTT process was somewhat a standard with mid-range processors. Performance is one of the driving factors in mobile processors with makers opting for smaller process nodes. PropertyĤx Cortex-A73 + 4x Cortex-A53 Up to 2.1 GHzĭual Qualcomm Spectra 160 ISP up to 24MP and 16MP However, what’s the real picture if you place them side-by-side? Well, let’s find out. Both these chipsets promise the best smartphone performance for the price.
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