Tensor g3 vs Snapdragon 8 gen 2 vs A17 Pro vs Dimensity 9200+: The Tensor G3 chipset was created by Google in collaboration with Samsung Semiconductor. Built on Samsung’s 4nm technology, the Google Tensor G3 is probably an upgrade over the LPE process node from the previous year. In terms of 4nm process yield, there have also been rumors that Samsung has caught up to TSMC, which is positive for the Tensor G3.
A total of nine cores are housed in the Tensor G3 chipset, which has a distinctive architecture. It has a Cortex-X3 prime core that is a year old but still useful, running at 2.91GHz. Additionally, 4 Cortex-A715 (2.37GHz) cores and 4 Cortex-A510 (1.70GHz) cores are linked together.
Since these cores can run at far greater clock speeds than they currently do, as demonstrated by the Snapdragon 8 Gen 2 from last year, it is clear from the CPU design itself that Google is being careful with the clock speeds. The only conclusion you can make from this is that Google is using the Tensor G3 to improve efficiency rather than pursue top-tier performance, which is a good thing in 2023.
Tensor G3 and Snapdragon 8 Gen 2 are quite comparable. Snapdragon 8 Gen 2 is constructed using TSMC’s 4nm manufacturing node and has eight cores. It has a main Cortex-X3 (3.2 GHz) core along with two Cortex-A715 (2.8 GHz), two Cortex-A710 (2.8 GHz), and three Cortex-A510 (2.0 GHz) cores.
Tensor g3 vs Snapdragon 8 gen 2 vs A17 Pro vs Dimensity 9200+
The cluster architecture is basically 1+(2+2)+3. We already know that the Qualcomm Snapdragon 8 Gen 2 is one of the company’s top recent CPU releases. Its performance and efficiency numbers are really astounding, often outperforming Apple’s A-series CPUs.
The chipset from last year, the Dimensity 9200, has been upgraded to become the Dimensity 9200+. It can still run its CPU and GPU at higher clock speeds because it is still manufactured on TSMC’s N4P node (4nm, second generation). This includes all three CPU clusters and guarantees a 10% improvement over the chip’s earlier iteration.
Regarding the ARM Immortalis G715 GPU, MediaTek withheld the specs but stated that you may anticipate an average performance increase of 17%. The display adaptor supports dual 2.5K monitors at 60Hz, QHD+ at 144Hz, and FHD+ at 240Hz.
Apple’s A17 Pro is a powerful chip but lacks efficiency. With two performance cores clocked at a powerful 3.78GHz and four efficiency cores clocked at 2.11GHz, Apple has stayed with its classic 6-core design. Due to the A17 Pro’s use of TSMC’s most recent 3nm production node, Apple was able to fit nearly 19 billion transistors onto a single die.
By a significant margin, the Apple A17 Pro is the most potent SoC. However, as users of the iPhone 15 Pro have noted, it is similarly hampered by heating problems. In a recent statement, Apple explained why thermal problems are happening with its new 15 Pro devices.
Also Read:
