The ongoing rivalry between Android vs iOS has been a defining feature of the smartphone landscape for over a decade. One crucial aspect that often sets these mobile ecosystems apart is the choice of processors that power their devices.
This article delves into the complexities of the processors driving Android and iOS devices. We will explore how these elements contribute to each platform's overall performance, User Experience (UX), and efficiency. Android, an open-source Operating System (OS), is used by many manufacturers. This results in a diverse range of processors powering Android devices. Here are some of the options available in Android:
Qualcomm's Snapdragon series
MediaTek's Helio lineup
Samsung's Exynos
Huawei's Kirin processors
Samsung's Exynos 2200 is integrated into some versions of the Galaxy S22 series. This competes with other flagship processors. It offers a tri-cluster framework, high clock speeds, and an advanced GPU. This reflects Samsung's commitment to pushing the boundaries of mobile processing power.
Unlike the diverse Android landscape, iOS devices rely exclusively on Apple-designed processors. The A-series chips featured in iPhones and iPads have consistently set the benchmark for mobile processing power and efficiency. The A-series offers processors from the A11 Bionic to the latest A17 Pro Bionic. These chips integrate custom-designed CPU and GPU frameworks. This ensures a balance between performance and energy efficiency.