Ameen Shaheen, W. Alzyadat, A. Al-Shaikh, Aysh Alhroob
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引用次数: 0
摘要
可穿戴设备在我们的日常生活中发挥着重要作用。如今,可穿戴设备对健康、技术、连通性、人机交互和数据分析具有变革性影响。它们的重要性在于能够提升生活的各个方面,并促进数字景观的不断发展。作为智能手表设计的核心,处理器占据着中心位置,推动着智能手表技术的大部分进步。本文对 ARM 64 位处理器进行了实验性比较研究,分析了它们的性能以及对功耗、CPU 使用率和电池温度的影响。我们评估了四款智能手表处理器的特性:我们评估了四款智能手表处理器的特性:骁龙 W5+、骁龙 Wear4100、Exynos W920 和 Exynos W930。所有这些智能手表都配备了 ARM 64 位处理器。我们的研究结果表明,所选的四款智能手表没有一款在所有方面都表现出色;每款手表都在特定功能方面优于其他手表,但在不同属性方面又被其他手表超越。
Wearable Processors Architecture: A Comprehensive Analysis of 64-bit ARM Processors
Wearable devices are playing an important role in our daily lives. Nowadays, wearable devices have transformative implications for health, technology, connectivity, humancomputer interaction, and data analytics. Their importance lies in their ability to enhance various aspects of life and contribute to the ongoing evolution of digital landscapes. At the heart of smartwatch design, the processor takes center stage, driving the majority of advancements in smartwatch technology. This paper presents an experimental comparative study of ARM 64-bit processors, analyzing their performance and impact on power consumption, CPU usage, and battery temperature. We evaluate the characteristics of four smartwatch processors: Snapdragon W5+, Snapdragon Wear4100, Exynos W920, and Exynos W930. All of those smartwatches are equipped with ARM 64-bit processors. Our results indicate that none of the four selected smartwatches excelled in all aspects; each exhibits superiority over the others in specific features while being surpassed by others in different attributes.
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