Google’s Tensor SoC on Par with Snapdragon 865+ in Raw Performance?
We’ve seen a lot of hype around Google’s new Tensor SoC and its potential to revolutionize mobile gaming. But how does it really compare to the current flagship SoC from Qualcomm, the Snapdragon 865+? Let’s take a look at the raw performance numbers to see how they stack up.
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Google’s Tensor SoC on Par with Snapdragon 865+ in Raw Performance?
What is the Tensor SoC?
The Tensor SoC is Google’s newest smartphone processor, designed to compete with the likes of Qualcomm’s Snapdragon 865+. The SoC is based on the company’s TPU (Tensor Processing Unit) technology, which is used for machine learning and AI applications. The Tensor SoC is said to offer up to 30% better performance than the Snapdragon 865+, making it one of the most powerful mobile processors on the market.
How does it compare to the Snapdragon 865+?
The Tensor SoC from Google is on par with the Snapdragon 865+ when it comes to raw performance. Both chipsets offer great performance for mobile devices, but the Tensor SoC does have a few advantages over the Snapdragon 865+.
One advantage that the Tensor SoC has is that it is specifically designed for neural network processing. This means that it is more efficient at handling tasks that require a lot of data processing, such as image recognition or video processing.
Another advantage of the Tensor SoC is that it is more power efficient than the Snapdragon 865+. This is due to the fact that the Tensor SoC is manufactured using a 12nm process, while the Snapdragon 865+ is manufactured using a 7nm process. This means that the Tensor SoC can offer better performance per watt than the Snapdragon 865+.
Overall, the Tensor SoC is a great option for mobile devices that require a lot of data processing power. However, the Snapdragon 865+ is still a great choice for most mobile devices.
What are the benefits of the Tensor SoC?
The Tensor SoC is designed to offer high performance for artificial intelligence (AI) applications. It is based on the same architecture as the Snapdragon 865+, which is one of the most powerful mobile processors on the market. The Tensor SoC packs several AI-specific features that make it well-suited for running demanding AI applications.
One of the most notable features of the Tensor SoC is its dedicated AI processing unit (APU). The APU is responsible for executing AI algorithms and is capable of delivering up to 15 TOPS of computing power. This makes the Tensor SoC one of the most powerful AI processors available. In addition, the Tensor SoC comes with a large on-chip memory that can be used to store data and intermediate results. This is important for AI applications that need to process large amounts of data.
Another key feature of the Tensor SoC is its support for high-speed memory interfaces. The Tensor SoC supports LPDDR5 memory, which is the fastest type of memory currently available. This enables the Tensor SoC to quickly fetch data from memory, which is important for AI applications that need to process data in real-time.
Overall, the Tensor SoC is a powerful AI processor that offers high performance and fast memory support. It is well-suited for demanding AI applications that need to process large amounts of data quickly.
Conclusion
It seems that Google’s Tensor SoC is on par with Qualcomm’s Snapdragon 865+ in terms of raw performance. However, it is still unclear how the Tensor SoC will perform in real-world scenarios. We will have to wait and see how Google’s new SoC fares in the real world.
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