Add to ORKGTensor Processing Units (TPUs) are specialized hardware accelerators for deep learning developed by Google. This paper aims to explore TPUs in cloud and edge computing focusing on its applications in AI. We provide an overview of TPUs, their general architecture, specifically their design in relation to neural networks, compilation techniques and supporting frameworks. Furthermore, we provide a comparative analysis of Cloud and Edge TPU performance against other counterpart chip architectures. Our results show that TPUs can provide significant performance improvements in both cloud and edge computing. Additionally, this paper underscores the imperative need for further research in optimization techniques for efficient deployment of AI archi...
Influenced by the great success of deep learning via cloud computing and the rapid development of ed...
AI processor, which can run artificial intelligence algorithms, is a state-of-the-art accelerator,in...
In 2014, the first dedicated Vision Processing Unit (VPU) was introduced, sparking an explosion in t...
Edge TPUs are a domain of accelerators for low-power, edge devices and are widely used in various Go...
This paper explores the performance of Google’s Edge TPU on feed-forward neural networks. We conside...
The AI boom is bringing a plethora of domain-specific architectures for Neural Network computations....
The popularity of Deep Learning (DL) has grown exponentially in all scientific fields, included part...
In recent years, artificial intelligence (AI) became a key enabling technology for many domains. To ...
Artificial Intelligence was born in 1956 as a discipline of Computer Science, aiming to simulate hum...
Despite their resource- and power-constrained nature, edge devices also exhibit an increase in the a...
Deep learning is a very computational intensive task. Traditionally GPUs have been used to speed-up ...
Deep learning has revolutionised a breadth of industries by automating critical tasks while achievin...
Recently, the development of Edge AI, which brings computation resources and artificial intelligence...
With the rise of deep learning (DL), our world braces for artificial intelligence (AI) in every edge...
Computing has undergone a significant transformation over the past two decades, shifting from a mach...
Influenced by the great success of deep learning via cloud computing and the rapid development of ed...
AI processor, which can run artificial intelligence algorithms, is a state-of-the-art accelerator,in...
In 2014, the first dedicated Vision Processing Unit (VPU) was introduced, sparking an explosion in t...
Edge TPUs are a domain of accelerators for low-power, edge devices and are widely used in various Go...
This paper explores the performance of Google’s Edge TPU on feed-forward neural networks. We conside...
The AI boom is bringing a plethora of domain-specific architectures for Neural Network computations....
The popularity of Deep Learning (DL) has grown exponentially in all scientific fields, included part...
In recent years, artificial intelligence (AI) became a key enabling technology for many domains. To ...
Artificial Intelligence was born in 1956 as a discipline of Computer Science, aiming to simulate hum...
Despite their resource- and power-constrained nature, edge devices also exhibit an increase in the a...
Deep learning is a very computational intensive task. Traditionally GPUs have been used to speed-up ...
Deep learning has revolutionised a breadth of industries by automating critical tasks while achievin...
Recently, the development of Edge AI, which brings computation resources and artificial intelligence...
With the rise of deep learning (DL), our world braces for artificial intelligence (AI) in every edge...
Computing has undergone a significant transformation over the past two decades, shifting from a mach...
Influenced by the great success of deep learning via cloud computing and the rapid development of ed...
AI processor, which can run artificial intelligence algorithms, is a state-of-the-art accelerator,in...
In 2014, the first dedicated Vision Processing Unit (VPU) was introduced, sparking an explosion in t...