Seagate Provides the RX to Improve Hard Drive Manufacturing

Seagate Technology ships tens of millions of hard disk drives every quarter. Ensuring the quality of each one is a top priority, but not easy.
The disk drive manufacturing process is incredibly complex. For example, it takes 1,400 steps just to manufacture the drive head. Even the smallest errors can lead to product flaws.
“Mistakes are costly,” said Raghavan Srinivasan, senior director of global marketing at Seagate, which makes more disk drives than any other manufacturer. “If there are any anomalies, we’re going to end up with poor yield later on, and we wouldn’t know that until the long process is completed.”
To combat that, Seagate is using GPU-powered AI and machine learning to perform anomaly detection of recording head slider images so it can spot potential problems sooner.  
A Solution Born from Partnership
At first, Seagate searched for a product that could help with image-based anomaly detection in a high-yield manufacturing environment, but there was nothing commercially available. The company started talking with NVIDIA and Hewlett Packard Enterprise about the business problem.
The first step the companies took was to get an idea of the amount of data in play. Bringing this idea to life for a single factory would require the ability to process 17 million images a day, and to perform inference at 20 positions per second.
“It’s like a [Boeing] 747 flying inches from the ground at 100 times the speed of sound,” said Srinivasan.
Over the course of a year, the companies built a solution that could capture and analyze images of drive heads that are just molecules from the surface of the spinning disk.
Seagate deployed this solution in a machine vision defect inspection system used in hard disk read-and-write head manufacturing in one of Seagate’s factory sites and is planning to scale the solution to other sites.
Because the anomaly patterns in question were constantly changing, rules-based AI was not an option. A deep learning approach was needed.
What’s more, Seagate knew the cost of bandwidth to move so much data to and from the factory would be prohibitive, so it developed a parallel reference architecture called Seagate Edge RX . This architecture establishes each factory as a computing “edge,” enabling the inference process to occur on the factory floor, using lighter-weight computing resources.
Ongoing training of the deep learning model occurs offline and is performed by data scientists, who then deliver updated models.  
Possibilities Fueled by Results
As this technology becomes incorporated into all of Seagate’s manufacturing processes,
Seagate expects to see up to a 20 percent reduction in cleanroom investments, a 10 percent reduction in manufacturing throughput time, and up to a 300 percent return on investment from improved efficiency and better quality.
Srinivasan said there’s...