Google just announced its first custom Mobile Processor named Google Tensor for Pixel 6 Series Smartphone and joined the smartphone Processor war with Qualcomm, Apple, and Samsung. With This Processor, Google is directly competing with Qualcomm Snapdragon Processor and In this article, we will compare Google Tensor Vs Snapdragon 888.
Both Processors are ARM based powerful CPU cores. Both processors are packed with the latest hardware and based on the 5nm manufacturing process. For a Better Understanding of the performance, we will run some google tensor vs snapdragon 888 benchmark tests.
So, let’s compare Qualcomm Snapdragon 888 Vs Google Tensor Specification, Antutu Score, Geekbench score, key differences and find out which is the Best Mobile Processor in 2021.
Google tensor vs snapdragon 888 Specification Comparison is a little confusing because of both Company approaches to CPU setup. Both processors have octa-core CPU set up but a different core set up like Snapdragon 888 has ( 1+3+4) where Tensor has (2+2+4). Snapdragon 888 is using one ARM Cortex-X1 Prime Core clocked @2.84Ghz. Where Google Tensor is using 2 ARM Cortex-X1 Prime Core clocked 2.8Ghz. in this area, Google is better than Snapdragon. But the rest of the performance core Snapdragon is using the latest 3 Cortex-A78 core and Google is using older 2 Cortex-A76. other than that four power-efficient are the same Cortex-A55 Clocked @1.8Ghz.
So, Google Tensor CPU is 2x 2.8 GHz – Cortex-X1, 2x 2.25 GHz – Cortex A76, 4x 1.8 GHz – Cortex A55 and Snapdragon 888 1x 2.84GHz (Cortex-X1), 3x 2.4GHz (Cortex A78) and 4x 1.8GHz (Cortex A55).
According to Google, Tensor is CPU is 80% faster than the last-gen Pixel 5. Google Pixel comes with Snapdragon 765G Processor. With an 80% performance boost, Google’s new chip is close to Snapdragon 870 Performace. That is a good performance when it is the first smartphone Processor.
Google Tensor | Snapdragon 888 | |
---|---|---|
CPU | Octa-core CPU | Kryo 680, Octa-core CPU |
CPU Cores | 2x 2.8GHz (Cortex-X1) 2x 2.25GHz (Cortex A76) 4x 1.8GHz (Cortex A55) | 1x 2.84GHz (Cortex-X1) 3x 2.4GHz (Cortex A78) 4x 1.8GHz (Cortex A55) |
Process Technology | Samsung’s 5nm process | Samsung’s 5nm process |
GPU | 20-core Mali G78 GPU | Adreno 660 |
Machine Learning and AI | Google Custom TPU | 6th-gen AI accelerator featuring Hexagon 780 DSP; 26 TOPS |
As we already Know Google Tensor is using all ARM CPUs and GPUs where snapdragon is using their own custom GPU. Google is using 20-core Mali G78 GPU, which is greater than the Samsung S21 ultra 14 Core Mali G78 GPU. Qualcomm Snapdragon 888 using Adreno 660 GPU. According to the company, Google Tensor is 370% faster than Pixel 5. Which is packed with a powerful Adreno 620Ghz GPU. So, we can say that Google’s 20-core Mali G78 GPU can outperform Snapdragon 888 because 14-core Mali G78 GPU in S21 ultra is very close to Adreno 660.
Google didn’t reveal many details about its ISP other than that it can now take computational photography on each frame of a video (referred to as Google HDRnet), which is awesome. And yes, we can record HDR videos with 4K @ 60FPS in the characteristic Google pixel look.
That being said, the New ISP on Google Tensor can take a 50MP image with no shutter. It can also handle dual-camera and produce sharp images of moving objects, a feature that Google calls “motion mode”.
On the other hand, Qualcomm is using Spectra 580 ISP on Snapdragon 888 which is a pretty powerful ISP and can handle HDR streams from three cameras at the same time. It allows the ISP to collect more light and quickly create a batch of images for better shots. The Spectra 580 ISP can take pictures up to 200 MP and videos up to 8K at 30 FPS.
According to Google the major reason for developing its own custom Mobile Processor for better AI and ML capabilities on Pixel devices is already ahead compared to competitors. Because of 3rd party processor Google can not able achieve their best in AI and advanced ML models.
Google partnered with Samsung to build an in-house TPU (Tensor Processing Unit) for better user experience and helping users perform day-to-day tasks with ease.
Because of this, you can use new features like on-device translation, hands-free Gboard dictation with punctuation support, Motion mode, Direct My Call feature, Tone Mapping, Magic Eraser feature with the new TPU Unit. These features can be also used in older pictures as well. You can HDR videos on the Pixel 6 series, with a characteristic Google pixel look. Google Tensor also comes with the Tensor Security Core and Titan M2 Security chip for enhanced security, privacy, and on-device AI and ML operations.
Qualcomm Snapdragon 888 comes with Hexagon 780 DSP that can deliver 26 TOPS. But they don’t have featured like Google Pixel to fully utilize these numbers.
Google tensor vs Snapdragon 888 Benchmark comparison is here.
Google Tensor Antutu Score 755288. Qualcomm Snapdragon 888 Antutu Score is almost 803586. Google Tensor Antutu Score lower than the completion like Snapdragon 888 and A15 Bionic.
Google Tensor Geekbench Score for Single Core is 1048 and for Multi-core score is 2874. Qualcomm Snapdragon 888 Geekbench Score is Single-Core is 1226 and 3739 in Multi-Core.
Google Tensor | Snapdragon 888 |
---|---|
Better GPU | Better Performance |
Better AI and ML | Better developer support |
Better Os integration | Better 5G Modem |
Better Benchmark Score |
We are at the end of Google tensor Vs Snapdragon 888 Processor Comaprison. We have compared all aspects of these processors and the benchmark score. If we only talk about CPU Snapdragon 888 us still better than Tensor Chip. But In GPU, AI, and ML Google Tensor is able to beat Snapdragon 888. because of these, there are a lot of features that will not be going to come out in Snapdragon 888 devices. Google also build Andriod, So if they were able to bold software and hardware then this could be the best in the android world Like Apple iPhone.
What do you think, Which is the is best Mobile Processor in 2021. Is Google Tensor able to beat Snapdragon 888 with Google AI and ML or Snapdragon 888 is still the king? Let’s Know in the Comment.
Common Qualcomm Snapdragon 888 Vs Tensor FAQ based on internet
For now, Snapdragon 888 is better in performance but in AI, ML, GPU, and feature Google Tensor is better.
In AI, ML, and GPU Google Tensor is better.
Please check the above
Google Tensor Antutu Score 755288. Qualcomm Snapdragon 888 Antutu Score is almost 803586. Google Tensor Antutu Score lower than the completion like Snapdragon 888 and A15 Bionic.
Google Tensor Geekbench Score for Single Core is 1048 and for Multi-core score is 2874. Qualcomm Snapdragon 888 Geekbench Score is Single-Core is 1226 and 3739 in Multi-Core.
Processor Manufacturer | Google Qualcomm |
Announced | 19 October, 2021 01 December, 2020 |
Model | Google Tensor SM8350 |
Class | Flagship Flagship |
Size | 5nm 5nm |
CPU Cores | 8 8 |
CPU Configuration | 2x 2.8 GHz – Cortex-X1, 2x 2.25 GHz – Cortex A76, 4x 1.8 GHz – Cortex A55 1x 2.84 GHz – Kryo 680 Prime (Cortex-X1), 3x 2.42 GHz – Kryo 680 Gold (Cortex-A78), 4x 1.8 GHz – Kryo 680 Silver (Cortex-A55) |
High Frequency | 2800 MHz 2840 MHz |
Core architecture | hybrid (big.LITTLE) hybrid (big.LITTLE) |
Performance Core | 2x 2.8 GHz – Cortex-X1 and 2x 2.25 GHz – Cortex A76 1x 2.84 GHz – Kryo 680 Prime (Cortex-X1) and 3x 2.42 GHz – Kryo 680 Gold (Cortex-A78) |
Power Efficient Core | 4x 1.8 GHz – Cortex A55 4x 1.8 GHz – Kryo 680 Silver (Cortex-A55) |
L1 Cache | - 512 KB |
L2 cache | - 1.00 MB |
L3 cache | 4 MB 4 MB |
Storage Type | UFS 3.1 UFS 3.0, UFS 3.1 |
Instruction set | ARMv8.4-A ARMv8-A64 (64 bit) |
Thermal Design Power (TDP) | - 10 W |
Extra Feature |
Arm Cortex-X1 technology 5nm Size |
GPU GPU (Graphics Processing Unit) is a single-chip processor designed to rapidly manipulate and alter memory to accelerate the creation of images in a frame buffer intended for output to a display, This includes things such as lighting effects, object transformations, and 3D motion. |
Mali-G78 MP20 20-core GPU Qualcomm® Adreno™ 660 GPU |
GPU Memory |
848 MHz 840 MHz |
Architecture | Valhall Adreno 600 |
FLOPS | - |
OpenGL Version | 2.0 2.0 |
DirectX Support DirectX Support | 12 12 |
Vulkan version | 1.1 1.1 |
Shading units | 512 |
Video Encoding | H.264, H.265, AV1, VP9 HDR Playback Codec support for HDR10+, HDR10, HLG and Dolby Vision |
Video Playback | 8K at 30FPS, 4K at 120FPS Volumetric VR video playback, 8K 360 VR video playback |
Gaming |
-
Qualcomm® Snapdragon Elite Gaming™ Qualcomm® Game Quick Touch increases responsiveness by up to 20% Variable Rate Shading (VRS) p HDR gaming (10-bit color depth, Rec. 2020 color gamut) |
Extra Feature |
Qualcomm® Adreno™ 660 GPU delivers 35% faster graphics rendering • Hardware-accelerated H.265 and VP9 decoder • Physically Based Rendering |
APU / NPU / AI Proc. / Neural IP |
Google Tensor Processing Unit 6th generation Qualcomm AI Engine with Hexagon 780 Processor 2nd gen Qualcomm® Sensing Hub, |
TOPS Speed | - 26 TOPS |
Extra Feature |
Fused AI Accelerator • Hexagon Tensor Accelerator • Hexagon Vector eXtensions • Hexagon Scalar Accelerator |
RAM Type |
LPDDR5 LP-DDR5 |
RAM frequency | 3200 MHz 3200 MHz |
RAM Max | 12 GB up to 16 GB |
Max Bandwidth | - 50 Gbit/s |
Bus Speed A bus is a subsystem that transfers data between computer components or between computers. | 4x 16 Bit 4x 16 Bit |
Cellular Modem | Samsung Exynos 5123 modem Snapdragon X60 5G Modem-RF System |
Cellular Technology |
GSM / CDMA / HSPA / EVDO / LTE / 5G
Cellular Technology: 5G NR, LTE including CBRS support, HSPA, WCDMA, TD-SCDMA, CDMA 1x, EV-DO, GSM/EDGE |
4G Network |
1, 2, 3, 4, 5, 7, 8, 12, 13, 14, 17, 18, 19, 20, 25, 26, 28, 29, 30, 32, 38, 39, 40, 41, 42, 46, 48, 66, 71 - GLUOG, G8VOU LTE Cat. 22 |
5G Modem | |
5G Network |
1, 2, 3, 5, 7, 8, 12, 14, 20, 25, 28, 30, 38, 40, 41, 48, 66, 71, 77, 78, 257, 258, 260, 261 SA/NSA/Sub6/mmWave - G8VOU 1, 2, 3, 5, 7, 8, 12, 14, 20, 25, 28, 30, 38, 40, 41, 48, 66, 71, 77, 78 SA/NSA/Sub6 - GLUOG 5G mmWave and sub-6 GHz, standalone (SA) and non-standalone (NSA) modes, FDD, TDD |
5G mmWave | Yes 800 MHz bandwidth, 8 carriers, 2x2 MIMO |
5G sub-6 GHz | Yes 200 MHz bandwidth, 4x4 MIMO |
5G Spectrum | sub-6-gigahertz (GHz) and mmWave Dynamic Spectrum Sharing (DSS), mmWave, sub-6 GHz |
Download Speed | 7.3 Gbps 7.5 Gbps |
Upload Speed | 3.6 Gbps 3 Gbps |
Dual SIM | No Global 5G multi-SIM |
Extra Feature |
Qualcomm® 5G PowerSave • Qualcomm® Smart Transmit™ technology • Qualcomm® Wideband Envelope Tracking • Qualcomm(r) AI-Enhanced Signal Boost |
wireless System | Yes FastConnect 6900 System |
WiFi-6 ready | |
Wi-fi Wi-Fi is a popular wireless networking technology using radio waves to provide high-speed network connections that allows devices to communicate without cords or cables, Wi-Fi is increasingly becoming the preferred mode of internet connectivity all over the world. | Wi-Fi 6E Wi-Fi Standards: Wi-Fi 6E, Wi-Fi 6 (802.11ax), Wi-Fi 5 (802.11ac), 802.11a/b/g/n |
Wi-Fi Band | Wi-Fi 802.11 a/b/g/n/ac/6e, dual-band, Wi-Fi Direct, hotspot 2.4 GHz, 5 GHz, 6 GHz |
Wi-Fi Speed | - 3.6 Gbps |
Bluetooth Bluetooth is a wireless communications technology for exchanging data between mobile phones, headsets, computers and other network devices over short distances without wires, Bluetooth technology was primarily designed to support simple wireless networking of personal consumer devices. | 5.2, A2DP, LE, aptX HD Bluetooth 5.2 ( Bluetooth features: LE Audio Features (one-tomany broadcast), Dual Bluetooth antennas) |
Bluetooth Audio | AAC, AIFF, CAF, MP3, MP4, WAV Qualcomm® aptX™ Voice audio for crystal-clear voice calls, aptX Adaptive audio for robust, low latency, high quality audio, Qualcomm TrueWireless™ Mirroring |
GPS GPS The Global Positioning System is a satellite-based radio navigation system, GPS permits users to determine their position, velocity and the time 24 hours a day, in all weather, anywhere in the world, In order to locate your position, your device or GPS receiver must have a clear view of the sky. | Yes, with dual-band A-GPS, GLONASS, GALILEO, QZSS, BDS Beidou, Galileo, GLONASS, Dual frequency GNSS, NavIC, NavIC enabled, GPS, GNSS, QZSS, SBAS |
USB | USB Type-C 3.1 USB 3.1, USB-C |
NFC NFC (Near field communication) is a set of standards for smartphones and similar devices to establish peer-to-peer radio communications with each other by touching them together or bringing them into proximity, usually no more than a few inches. | |
Extra Feature |
Channel Utilization: 20/40/80/160 MHz • 8-stream sounding (for 8x8 MU-MIMO) • MIMO Configuration: 2x2 (2-stream) • MU-MIMO (Uplink & Downlink) • 4K QAM • OFDMA (Uplink & Downlink) • Dual-band simultaneous (2x2 + 2x2) • Wi-Fi Security: WPA3-Enterprise, WPA3- Enhanced Open, WPA3 Easy Connect, WPA3-Personal |
ISP |
Google Custom ISP
Qualcomm Spectra 580 Image Signal Processor Triple 14-bit ISPs • Up to 2.7 Gigapixels per Second computer vision ISP (CV-ISP) |
Single Camera | 50MP Zero-shutter lag Up to 200 MP |
Dual Camera | Yes Triple Camera, MFNR, ZSL, 30fps: Up to 28 MP, Dual Camera, MFNR, ZSL, 30fps: Up to 64 MP |
Video capture |
4K 60FPS on Rear camera 4K 30FPS on the Front camera Google HDRnet 4K Video Capture + 64 MP Photo • 8K Video Capture @ 30 FPS • Slow-mo video capture at 720p @ 960 FPS • 4K Video Capture @ 120 FPS • 4K HDR Video Capture with Portrait Mode (Bokeh) |
Video Codec |
H.264, H.265, AV1, VP9, HDR
HDR10+, HDR10, HLG, Dolby Vision |
Extra Feature |
Dual-LED flash, Pixel Shift, Auto-HDR, panorama Multi-frame Noise Reduction (MFNR) • Real-time object classification, segmentation, and replacement • Locally compensated Multi-Frame Noise Reduction • Multi-Frame and Staggered HDR sensor support • Low light photography architecture • Video super-resolution • AI-based auto-focus and auto-exposure • Advanced HW-based face detection with deep-learning filter |
Display Support |
3840 x 2160 On-Device Display Support: • 4K @ 60 Hz • QHD+ @ 144 Hz |
Refresh Rate | 120Hz up to144 Hz |
Max External Display | - Maximum External Display Support: up to 4K @ 60 Hz |
Extra Feature |
HDR10+,
10-bit color depth, Rec. 2020 color gamut • HDR10 and HDR10+ • Demura and subpixel rendering for OLED Uniformity |
Audio Playback | Audio Technology: Qualcomm Aqstic™ smart speaker amplifier up to Qualcomm® WSA8835, Qualcomm® Hexagon™ Voice Assistant Accelerator, Qualcomm Aqstic™ audio codec up to Qualcomm® WCD9385, Qualcomm Aqstic™ audio technology |
Security Features |
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Fingerprint Sensor: Qualcomm® 3D Sonic, Qualcomm® 3D Sonic Max Secure Processing Unit: Biometric Authentication (Fingerprint, Iris, Voice, Face) |
Fingerprint Sensor | Yes Fingerprint Sensor: Qualcomm® 3D Sonic, Qualcomm® 3D Sonic Max |
Face Detection |
Charging Speed | Fast charging 30W, Fast wireless charging 2, USB Power Delivery 3.03W Qualcomm® Quick Charge™ 5 technology is 70% more efficient and supports 0-100% charging in less than 15 minutes* |
AnTuTu benchmark scores | 755288 803586 |
Geekbench scores |
Single-Core Score - 1048 Multi-Core Score - 2874 Single-Core Score 1226 Multi-Core Score 3739 |