Google Tensor vs Snapdragon 888 vs A15 Bionic: Best Mobile Chipset in 2022

Google has finally unveiled the Pixel 6 and Pixel 6 Pro. As expected, the Google Pixel 6 series comes with an in-house Google Tensor chip, which is custom-designed by Google in collaboration with Samsung. Google Tensor vs Snapdragon 888 series

With Google’s first-ever custom silicon launch, the company has joined the smartphone chipset war against Apple and Qualcomm. So in this article, we compare Google Tensor, Snapdragon 888, and A15 Bionic to see if Google can stand its ground in the raging SoC battle.

On that note, let’s go ahead and find out who wins between Google Tensor vs Snapdragon 888 vs A15 Bionic.

Google Tensor vs Snapdragon 888 vs A15 Bionic (2022)

In this comparison between Google Tensor, Snapdragon 888, and the A15 Bionic, we have discussed the CPU performance, GPU, ISP, AI & ML capabilities, and more.

Google Tensor vs Snapdragon 888 vs A15 Bionic: Specifications

Here is the specs comparison between Google Tensor, Snapdragon 888, and A15 Bionic. For a brief overview of all three chipsets, you can take a glance below

 Google TensorSnapdragon 888A15 Bionic
CPUOcta-core CPUKryo 680, Octa-core CPUHexa-core CPU
CPU Cores2x 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)
2x 3.2 Avalanche (High-performance)
4x 1.82 Blizzard (Energy-efficient)
Process TechnologySamsung’s 5nm processSamsung’s 5nm processTSMC’s 2nd-gen 5nm process
GPU20-core Mali G78 GPUAdreno 660Apple-designed five-core GPU
Machine Learning and AIGoogle Custom TPU6th-gen AI accelerator featuring Hexagon 780 DSP; 26 TOPS16-core Neural Engine; 15.8 TOPS
ISPGoogle Custom ISPSpectra 580Apple-designed New Image Signal Processor
Camera Capability50MP Zero-shutter lag
Motion Mode
Up to 200 MP; 28 MP triple camera with Zero Shutter Lag; Triple 14-bit ISPsN/A
Video Capability4K 60FPS on Rear camera
4K 30FPS on the front camera
Google HDRnet
8K @ 30 FPS, 4K HDR Dolby @ 60FPS, 720p @ 960FPS4K HDR Dolby Vision @ 60FPS
ModemSamsung Exynos 5123 modem
7.3 Gbps Peak Download
3.6 Gbps Peak Upload
Qualcomm X60 5G Modem
7.5 Gbps Peak Download
3 Gbps Peak Upload
Qualcomm X60 5G Modem (Speculated)
7.5 Gbps Peak Download
3 Gbps Peak Upload
WiFi SupportWi-Fi 6EWi-Fi 6E-readyWi-Fi 6-ready
BluetoothBluetooth 5.2Bluetooth 5.2Bluetooth 5.0

Google Tensor vs Snapdragon 888 vs A15 Bionic: CPU

First and foremost, let’s talk about Google Tensor’s CPU capability. Of late, we are seeing companies putting less focus on CPU and assigning more resources to GPU, AI, and ML co-processors. Right off the bat, Google is not chasing numbers with its Tensor chip and instead focused on delivering “experiences” with day-to-day tasks.

Google Tensor does pack an octa-core CPU with two power-hungry Cortex-X1 cores, but both are restricted up to 2.8GHz frequency, which is pretty unusual in the SoC landscape. Another unusual bit is that Google has chosen the older, dual Cortex-A76 core in place of the newer Cortex-A78 cores. Finally, you have the traditional four power-efficient A55 cores on the Google Tensor SoC. All of this unusual bit might sound rookie, but in an interview with ArsTechnica, the Google Silicon team explained the rationale behind this approach.

According to Phil Carmack, the vice president, and general manager of Google Silicon, the idea is to choreograph the interplay between the CPU, GPU, ISP, AI, and ML co-processors rather than completing a task by putting a high-performant core into action. Google is calling it “Heterogeneous computing,” where all co-processors come together to achieve a task.

For example, if you open the camera app, all processor modules are called into action for computing, scene and face detection, handling buffers, read/ write operations, and more. In this scenario, the dialed-down Cortex-X1 core works at a medium workload, consumes less power, and improves the battery life overall. The focus seems to be on providing sustained performance by allocating the task intelligently and not adversely affecting the battery life.

Similarly, Google is using the older A76 core because it offers 20% more sustained performance in the same power envelope as the A78. In computing, when a task is called into action, processors tend to finish it as soon as possible so that they can go into a lower-power state to save battery life. Google is not taking this approach. Instead, it’s has utilized medium-level cores to deliver sustained performance over a longer period of time. This way, less heat is generated, and battery life is preserved on the Pixel 6 and Pixel 6 Pro.

Now coming to raw numbers, Google has not disclosed much about its Tensor chip except that the CPU is 80% faster than the last-gen Pixel 5. The Pixel 5, for those unaware, was powered by a mid-level Snapdragon 765G processor. With an 80% overhead, it seems Google Tensor comes close to Snapdragon 870, which is frankly not a bad standing, more so when you are promised 24 – 48 hours of battery life.

In comparison to Snapdragon 888 (~1100 single-core Geekbeench score), Google Tensor’s CPU (~1000 single-core Geekbeench score) is a notch below and significantly behind Apple’s A15 Bionic (~1700 single-core Geekbeench score). But again, we will have to wait for real-life tests and benchmark numbers to ascertain how well Google’s approach has paid off in its SoC design.

Google Tensor vs Snapdragon 888 vs A15 Bionic: GPU

Now coming to GPU, where most of the action is happening nowadays. It seems Google has gone all-in and packed a powerful 20-core Mali G78 GPU on its first Tensor chip. To give you a perspective, even Samsung has used the 14-core Mali G78 GPU on the flagship S21 Ultra, but Google wants to have more power in its hand to drive GPU-intensive tasks and deliver a fluid and smooth experience without a hiccup.

Google says the GPU on Tensor is 370% faster than Pixel 5, which packed the decent Adreno 620 GPU. By estimation, it seems the Google Tensor’s GPU will perform much better than Snapdragon 888’s Adreno 660 GPU. We say this because the 14-core Mali G78 GPU on S21 Ultra already rivals the Snapdragon 888 with near-close scores. And with a 20-core GPU, Google might have a powerhouse on its hand and could certainly surpass Snapdragon 888 both in synthetic tests and real-life usage.

If we pit Google Tensor’s GPU against A15 Bionic’s custom GPU — assuming Google Tensor is better than Snapdragon 888 due to the 20-core GPU, I think it will match Apple’s latest A-series mobile chip. Snapdragon 888 was already 10-15% behind the A15 Bionic, and with a beefy GPU on Google Tensor, it’s highly likely we have a winner in the Android world.

Google Tensor vs Snapdragon 888 vs A15 Bionic: ISP

Google has not shared many details about its ISP, except that it can now perform computational photography on each frame of a video (touted as Google HDRnet), which is mind-blowing. And yes, we are talking about a 4K @ 60FPS video. You will be able to shoot HDR videos at 4K @ 60FPS in the signature Pixel look.

Apart from that, the ISP on Google Tensor can take a zero-shutter lag image of 50MP, which is pretty good. It can also handle two streams of cameras and produce sharp images of moving objects, a feature that Google is calling “Motion mode”.

On the other hand, the Spectra 580 ISP on Snapdragon 888 is pretty powerful and can handle HDR concurrent streams from three cameras. It allows the ISP to collect more light and quickly create an image stack for a better shot. The Spectra 580 ISP can shoot images up to 200MP and record videos up to 8K at 30FPS.

Talking about the A15 Bionic, it comes with a newly-designed ISP that does a great job with Apple’s computational photography features, including the new Cinematic Mode, live filters, and more. The ISP here is also capable of shooting 4K HDR Dolby Vision videos at 60FPS, which is just mind-boggling. Not to mention, the ISP can also handle ProRes RAW footage at 4K @ 30FPS.

Google Tensor vs Snapdragon 888 vs A15 Bionic: AI and ML

The Mountain View giant says that one of the major reasons for developing its own custom processor was to realize its vision of AI and ML capabilities on smartphones. Google felt that despite having all the AI smarts and advanced ML models, it was somehow unable to deliver the experience it was envisioning for Pixel users.

So Google partnered with Samsung and its in-house Tensor team to create a custom TPU (Tensor Processing Unit). In a way, TPU is the heart and soul of the new Google Tensor chip. The company wants to do more meaningful things with A, thus, improving the user experience and helping users perform day-to-day tasks with ease.

There’s also a new Magic Eraser feature that lets you remove photobombers or distractions from a picture with a click. And it works with not just pictures clicked on the Pixel 6 but older pictures as well.

In fact, Google can pull off HDR videos on the Pixel 6 series, thanks to the Tensor Processing Unit. We don’t have the exact numbers as to how many Tera operations it can perform in a second, but going by the feature set, it seems to be a powerful one. Not to forget, Google Tensor also packs in the Tensor Security Core and Titan M2 Security chip for enhanced security, privacy, and on-device AI and ML operations.

Talking about Snapdragon’s 888 AI accelerator, the Hexagon 780 DSP can deliver up to 26 TOPS. Again, it’s important to note that all these numbers are meaningless if you don’t find features that can actually take advantage of AI and ML capabilities. This is where Google shines because it controls both hardware and software verticals.

In comparison, the new 16-core Neural Engine on the A15 Bionic can perform 15.8 TOPS. And as you may already know, Apple is also using its neural engine for a host of things, including computational photography, live filters, and more. However, when it comes to AI and ML, Google Tensor will let you taste the actual experience of an AI-driven world.

Google Tensor vs Snapdragon 888 vs A15 Bionic: Connectivity

Instead of Qualcomm’s modem, Google has integrated Samsung’s Exynos 5123 modem in its first custom Tensor chip. It supports both mmWave and sub-6GHz 5G networks. Theoretically, it supports download speeds of up to 7.3Gbps and upload speeds of up to 3.6Gbps. In addition, you have got Wi-Fi 6E and Bluetooth 5.2. Moving to Snapdragon 888 and A15 Bionic, both come with Qualcomm’s X60 5G mode, which has a peak download speed of 7.5Gbps and a peak upload speed of 3Gbps.

The Snapdragon X60 5G modem supports both mmWave and sub-6GHz bands, along with Carrier Aggregation. You also get the latest Bluetooth 5.2 and WiFi 6E technology support on the Snapdragon 888. And the A15 Bionic comes with Bluetooth 5 and WiFi 6E. So yeah, all three chipsets are evenly matched on the connectivity front.

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