The Snapdragon 2 series is the entry-level SoC designed for low-end or ultra-budget smartphones.
It replaces the MSM8225 S4 Play model as the lowest-end SoC in the entire Snapdragon lineup.
[41] It is a toned-down variant of the Snapdragon 425 and primarily optimized for Android Go Edition devices.
[49] It was Qualcomm's first 64-bit mobile system on a chip and first manufactured in China by SMIC.
[76] The Snapdragon 4 Gen 2 Leading Version was launched on Redmi Note 13R on May 17, 2024.
It is the most commonly used Snapdragon line-up, appearing in mainstream devices of various manufacturers.
[95] The Snapdragon 690 was announced on June 16, 2020, and is the first mid-range SoC by Qualcomm to support 5G connectivity.
On February 27, 2018, Qualcomm Introduced the Snapdragon 7 Mobile Platform Series.
[192] The 821 provides a 10% improvement in performance over the 820 due to a faster clocked CPU, but otherwise has similar features, with Qualcomm stating that the 821 is designed to complement rather than replace the 820.
[221] It is an overclocked version of the Snapdragon 855 providing 10% higher CPU and GPU performance.
[229] The only difference between it and the Snapdragon 865+ is a minor 0.1 GHz increase in clock frequency on the prime core.
[292] The first and second generations of Qualcomm Compute Platforms for Windows PCs are based on mobile Snapdragon processors with PC specific modifications.
The Snapdragon 835 Mobile PC Platform for Windows 10 PCs was announced on December 5, 2017.
[199] The Snapdragon 850 Mobile Compute Platform for Windows 10 PCs, was announced on June 4, 2018.
[297] The Snapdragon 7c Gen 2 Compute Platform for Windows 10 PCs was announced on May 24, 2021.
[298] The Snapdragon 7c+ Gen 3 Compute Platform for Windows 10 / 11 PCs was announced on December 1, 2021.
[299] The Snapdragon 8c Compute Platform for Windows 10 PCs was announced on December 5, 2019.
[297] The Snapdragon 8cx Compute Platform for Windows 10 PCs was announced on December 6, 2018.
[308] The Snapdragon 8cx Gen 3 Compute Platform for Windows 10 / 11 PCs was announced on December 1, 2021.
The Snapdragon Wear 1200 processor was announced June 27, 2017[331] for GNSS- and LTE-narrowband-IoT-enabled targeted purpose wearables such as kid, pet, elderly, and fitness trackers.
[333] It is intended for the kid watch segment with special features over the Wear 2100 such as low-power always-on location tracking.
[334] The upgrade over the Snapdragon Wear 2100 is the inclusion of the co-processor QCC1110 for low-power background applications such as heart rate tracking and always-on displays.
[373][374] The Qualcomm Vision Intelligence Platform is purpose built to bring powerful visual computing and edge computing for machine learning to a wide range of IoT devices.
[405] On September 27, 2023 Qualcomm announced the Snapdragon AR1 Gen 1 Platform for slim and light AR glasses.
[395] It is designed to enable personal assistants, audio quality enhancement, visual search, and real-time translation using on-device AI acceleration.
The platform supports binocular displays with up to 1280 x 1280 resolution for heads-up information and also content consumption.
In December 2021, Qualcomm announced the Snapdragon G3x Gen 1 Gaming Platform.
[406][407] The G3x Gen 1 is based on the Snapdragon 888+ as it has the same motherboard code name (Lahaina), the same CPU clusters In August 2023, Qualcomm announced the Snapdragon G series platform designed for handheld gaming devices.
[419][420] On the previous day Qualcomm published a blog post on LE Audio, referring to the QCC5100 series.
[422][423] (Up to 80 MHz) Dual-mode Bluetooth cVc audio aptX Classic/HD/LL cVc audio cVc audio (Up to 80 MHz) (Up to 120 MHz) Bluetooth Low Energy sensor hub, Dual-mode Bluetooth Bluetooth Speed: 2 Mbit/s TrueWireless Stereo Plus cVc audio Google Fast Pair TrueWireless Stereo Plus cVc audio TrueWireless Stereo Plus cVc audio cVc audio Google Fast Pair (Up to 80 MHz) (Up to 120 MHz) Bluetooth speed: 2 Mbit/s TrueWireless mirroring ANC (Feedforward/feedback and hybrid) cVc audio Google Fast Pair (Up to 80 MHz) (Up to 120 MHz) Bluetooth Low Energy, Bluetooth Low Energy sensor hub, Dual-mode Bluetooth Bluetooth Speed: 2 Mbit/s eXtension program TrueWireless Stereo Plus ANC (FeedForward/Feedback and Hybrid) cVc audio Google Fast Pair ~7mA HFP Narrow Band, 1 Digital MIC cVc Qualcomm Voice Activation (Up to 120 MHz) eXtension program TrueWireless Stereo Plus ANC (FeedForward/Feedback) cVc audio Google Fast Pair ~10mA HFP Narrow Band, 1 Digital MIC cVc (Up to 80 MHz) (Up to 120 MHz) Speed: 2 Mbit/s eXtension program TrueWireless Mirroring ANC (FeedForward/Feedback) cVc audio Google Fast Pair Qualcomm Voice Activation