Embedded AI is here
February 08, 2017
The wonders of deep learning are well utilized in the area of artificial intelligence, aka AI. Massive amounts of training data can be processed on very powerful platforms to create wonderful...
The wonders of deep learning are well utilized in the area of artificial intelligence, aka AI. Massive amounts of training data can be processed on very powerful platforms to create wonderful generalized models, which can be extremely accurate. But this in and of itself is not yet optimal, and there’s a movement afoot to move the intelligence and part of the learning onto the embedded platforms.
Certainly, the cloud offers the most power and data storage, allowing the most immense and powerful of systems. However, when it comes to agility, responsiveness, privacy, and personalization, the cloud looks less attractive. This is where edge computing and shallow learning through adaptation can become extremely effective. “Little” data can have a big impact on a particular individual. Think how accurately and how little data is required for a child to learn to recognize its mother.
A good example of specialized learning is when it comes to accents or speech impediments. Generalized acoustic models often don’t handle this well, resulting in customized models for different markets and accents. However, this customization is difficult to manage, can add to the cost of goods, and may negatively impact the user experience. Yet, this still results in a model generalized for a specific class of people or accents. An alternative approach could begin with a general model built with cloud resources, with the ability to adapt on the device to the distinct voices of the people that use it.
The challenge with embedded deep learning occurs in its limited resources and the need to deal with on-device data collection, which by its nature, will be less plentiful, unlabeled, yet more targeted. New approaches are being implemented such as teacher/student models where smaller models can be built from a wider body of data, essentially turning big powerful models into small powerful models that imitate the bigger ones while getting similar performance.
Generative data without supervision can also be deployed for on-the-fly learning and adaptation. Along with improvements in software and technology, the chip industry is going through somewhat of a deep learning revolution, adding more parallel processing and specialized vector math functions. For example, GPU vendor nVidia taking has some exciting products that take advantage of deep learning. Some smaller private embedded deep learning IP companies like Nervana, Movidius, and Apical are getting snapped up in highly valued acquisitions from larger companies like Intel and ARM.
Embedded deep learning and embedded AI is here.