Supports ultra-high refresh rates up to 144Hz at QHD+ resolutions for buttery-smooth gameplay.
If the Qualcomm 8797 follows the trajectory of its predecessors, it would likely be built on a 3nm or even a 2nm process node. This transition in manufacturing technology is critical for two reasons: efficiency and thermal management. A smaller node allows for more transistors in a tighter space, reducing power leakage and allowing the chip to run at higher clock speeds without overheating. qualcomm 8797
The integrated introduces a staggering 12-times performance boost in AI workloads relative to previous cockpit SoCs. This high-performance accelerator handles heavy neural network processing, enabling on-device execution of Large Language Models (LLMs) and Vision-Language-Action (VLA) multi-modal frameworks. Local 7B and 14B parameter models can run seamlessly at real-time speeds directly inside the car chassis without requiring cloud connectivity. Supports ultra-high refresh rates up to 144Hz at
To understand the Qualcomm 8797, we first need to understand Qualcomm’s internal naming conventions. Unlike marketing names like "Snapdragon 8 Gen 2," Qualcomm’s internal product codes (often called SM or MPQ numbers) follow a strict logic. A smaller node allows for more transistors in
: Built on Qualcomm's proprietary Oryon CPU technology, it offers a 3x increase in CPU performance and a 12x boost in AI performance compared to earlier versions. Multi-Domain Support : A single chip can handle:
Disclaimer: This article is based on information available as of May 2026.
The Snapdragon 879 is built on a 7nm process and features an octa-core CPU, comprising: