Andrew Beam, PhD
Head of Machine Learning/Senior Fellow
Flagship Pioneering
October 24th, 2018
twitter: @AndrewLBeam
Source: https://deepmind.com/blog/alphago-zero-learning-scratch/
Human data no longer needed
What does this patient have?
A six-year old boy has a high fever that has lasted for three days. He has extremely red eyes and a rash on the main part of his body in addition to a swollen and red strawberry tongue. Remaining symptoms include swollen lymph nodes in the neck and Irritability
What does this patient have?
A six-year old boy has a high fever that has lasted for three days. He has extremely red eyes and a rash on the main part of his body in addition to a swollen and red strawberry tongue. Remaining symptoms include swollen lymph nodes in the neck and Irritability
Image credit: http://colah.github.io/posts/2015-08-Understanding-LSTMs/
What does this patient have?
A six-year old boy has a high fever that has lasted for three days. He has extremely red eyes and a rash on the main part of his body in addition to a swollen and red strawberry tongue. Remaining symptoms include swollen lymph nodes in the neck and irritability
Deep learning is a specific kind of machine learning
- Machine learning automatically learns relationships using data
- Deep learning refers to large neural networks
- These neural networks have millions of parameters and hundreds of layers (e.g. they are structurally deep)
- Most important: Deep learning is not magic!
One of the very first ideas in machine learning and artificial intelligence
Are today's neural nets any different than their predecessors?
"[The perceptron is] the embryo of an electronic computer that [the Navy] expects will be able to walk, talk, see, write, reproduce itself and be conscious of its existence." - Frank Rosenblatt, 1958
Rosenblatt's Perceptron, 1957
Minsky and Papert show that the perceptron can't even solve the XOR problem
Kills research on neural nets for the next 15-20 years
Rumelhart, Hinton, and Willams show us how to train multilayered neural networks
Unsupervised pre-training of "deep belief nets" allowed for large and deeper models
Image credit: https://www.toptal.com/machine-learning/an-introduction-to-deep-learning-from-perceptrons-to-deep-networks
Imagenet Database
Large Scale Visual
Recognition Challenge (ILSVRC)
Pivotal event occurred in the 2012 ILSVRC which brought together 3 critical ingredients:
In 2011, a misclassification rate of 25% was near state of the art on ILSVRC
In 2012, Geoff Hinton and two graduate students, Alex Krizhevsky and Ilya Sutskever, entered ILSVRC with one of the first deep neural networks trained on GPUs, now known as "Alexnet"
Result: An error rate of 16%, nearly half what the second place entry was able to achieve.
The computer vision world immediately took notice
Alexnet paper has ~ 30,000 citations since being published in 2012!
Several key advancements have enabled the modern deep learning revolution
Advent of massively parallel computing by GPUs.
Several key advancements have enabled the modern deep learning revolution
Advent of massively parallel computing by GPUs.
21 TFLOPs of computing power. Would have been the fastest super computer on Earth around the year 2000!
You can rent one on the Amazon cloud for $3/hour!
Several key advancements have enabled the modern deep learning revolution
Methodological advancements have made deeper networks easier to train
Architecture
Optimizers
Activation Functions
Several key advancements have enabled the modern deep learning revolution
Robust frameworks and abstractions make iteration faster and less error prone
Automatic differentiation allows easy prototyping
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Why did this work so well?
- Huge dataset of over 100,000 images
- High quality annotations - each image was rated by 3-7 opthamologists
- Transfer learning - neural network was originally trained on Imagenet!
- For the cost of a GPU (~$1,000) it's possible to read 240 million images/day at accuracy on par with best ophthalmologists!
Implications
- Many subsequent studies have followed this formula
- Ingredients: Deep learning + high quality database of ~100,000 medical images + transfer learning
- Many medical imaging tasks in radiology, pathology, dermatology, and opthamology can be fully automated in a similar manner
- Similar results emerging from non-image data
How will this technology change medical practice, reimbursement, and other policies?
Barrier to entry for deep learning is actually low
... but a few things might stand in your way: