![]() ![]() The mobile with Snapdragon 660 SoC and a massive 5,000mAh battery managed to last around 19 hours, while the smartphone with MediaTek Helio P70 and a much smaller 3,500mAh battery managed to last around 16 hours. In our HD video loop test, where we run an HD video on loop till the handset runs out of battery, we found an interesting thing. And if we specifically talk about the processor’s capability, then also, MediaTek’s offering isn’t far behind Qualcomm’s SoC. This suggests that as far as single-core performance is concerned, both SoCs perform similarly, though in the multi-core test, MediaTek’s offering seems slightly behind.Īs you can see from the benchmark results, the smartphone powered by the P70 fared better in AnTuTu as compared to the phone using the SD660. In contrast, the handset with MediaTek’s Helio P70 chipset managed to get a single-core score of 1445, and a multi-core score of 5,024. In the Geekbench 4, our device with the Snapdragon 660 SoC managed to fetch a single-core score of 1,468, and a multi-core score of 5,558. But the fact that the Helio P60 features 12nm die size, the System-on-Chip from MediaTek promises more efficiency over the Snapdragon 660, which is based on the 14nm fabrication process. On paper, both the chips seem to be at par with each other. To drive the graphics needs, you get an ARM Mali-G72 MP3 GPU and there are multi-threading optimisations, as well as a focus on latency improvements in critical user areas to offer an improved gameplay experience. If we talk about camera-specific features, there’s facial detection and scene detection, hardware warping engine (EIS), anti-blooming engine, multi-frame noise reduction, real-time HDR recording and viewing, and PDAF among others. ![]() In terms of optics, the SoC allows for up to a dual-camera setup with a 24MP+16MP combination or a single sensor with up to 32MP resolution. The processor also packs a 4G LTE WorldMode modem. The octa-core chip packs four ARM Cortex-A73 cores clocked at 2.1GHz, whereas the remaining four power-efficient ARM Cortex-A53 cores are running at 2.0GHz. Moving on to MediaTek’s Helio P70 chipset, the SoC is based on TSMC 12nm FinFET production process, which has been claimed to use up to 15 percent lower power than the 14nm-class products. The Snapdragon 660 SoC supports up to 8GB of RAM. To drive the graphics needs, the chipset comes with an Adreno 512 GPU. Diving further into the optics, the SD660 allows users to capture up to 4K Ultra HD videos at 30fps and in 1080p resolution at 120fps. The octa-core silicon features a 64-bit Qualcomm Kryo 260 CPU coupled with Snapdragon X12 LTE modem.Īlong with that, the SoC gets a Qualcomm Spectra 160 image signal processor with support for Qualcomm’s Clear Sight camera features. ![]() Starting with the Snapdragon 660, the chip is based on 14nm fabrication process and comes with the CPU clock speed ranging from 1.95 GHz to 2.2 GHz. ARM Mali-G51 MP4 GPU, 4x Cortex-A73 (2.2 GHz) + 4x Cortex-A53 (1.7 GHz, big.LITTLE), LTE Cat-12 600 Mbps Downlink, Cat-13 150 Mbps Uplink, Bluetooth 4.2, WiFi a/b/g/n 2.4 GHz, AGPS, Glonass, BaidouĥG, LTE, ISP (up to 64MPixel), eMMC 5.1, UFS 3.1, LPDDR4X 1866MHz, LTE, GPS, Glonass, Beidou, Galileo, 802.11 b/g/n/ac, Bloetooth 5.0, FM-Radio, TEE SecurityĢx ARM Cortex-A76 (2.4 GHz), 6x ARM Cortex-A55 (2 GHz), ARM Mali-G57 MP2, Wi-Fi 5, Bluetooth 5.1, UFS 2.Before we talk about real-life usage, let’s compare these chipsets on the basis of their specifications. ![]()
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