From recruiting to hiring to performance evaluations, H.R. executives have been investing in tech-driven data analysis to make better people decisions.
"We're kind of coming of age in our ability to really put a number on human capital, to really understand what it takes to recruit a certain skill set and what it costs the company to lose a rare talent," said Anna Tavis, a professor at New York University who studies human capital and technology.
Almost every Fortune 100 company, said Brian Kropp, group vice president for Gartner's H.R. practice, now has a head of "talent analytics" and team of data scientists in human resources.
"Compare that to three years ago, when there were maybe 10 to 15 per cent that had a named and known head of talent analytics," said Kropp, whose firm counts IBM as a client. "It's the fastest growing job in H.R."
Analysts say retention, in particular, is a critical area for the application of artificial intelligence. For one, there's a clear event that happens - someone quits and leaves the company, or threatens to - that helps data scientists seek patterns for intervening.
"The person was here, and then the person was not here," Kropp said."It is where the more sophisticated analytics work in H.R. is going."
Meanwhile, especially in a labour market with an unemployment rate below 4 per cent and a near-record rate of people quitting their jobs for new gigs, there's increasing worry about the high cost of not keeping great employees. The cost of trying to hire someone new, Kropp said, is about half that person's salary.
IBM's use of AI in H.R., which began in 2014, comes at a time when the 108-year-old company has been trying to shift its massive 350,000-person workforce to the most current tech skills, and includes 18 different AI deployments across the department. Diane Gherson, IBM's chief human resources officer, said in an interview that using tech to predict who might leave - considering thousands of factors such as job tenure, internal and external pay comparisons and recent promotions - was the first area they focused on.
"It was an obvious issue," she said. "We were going out and replacing people at a huge premium."
IBM had already been using algorithms and testing hypotheses about who would leave and why. Simple factors like the length of an employee's commute were helpful, but only so telling.
"You can't possibly come up with every case," Gherson said. "The value you get from AI is it doesn't rely on hypotheses being developed in advance; it actually finds the patterns."
For instance, the system spotted one software engineer who hadn't been promoted at the same rate as three female peers who all came from the same top university computer science program. The women had all been at IBM for four years, but worked in different parts of the sprawling company. While her manager didn't know she was comparing herself to these women, the engineer was all too aware her former classmates had been promoted and she hadn't, Gherson said. After the risk was flagged, she was given more mentoring and stretch assignments and remains at IBM.
While the program urges managers to intervene for employees who have hard-to-find skills - offering them raises, public recognition or promotions - potential quitters that the system identifies with less valuable skills or who are low performers don't necessarily get the same response.
"Our universe for doing this is not the whole IBM universe, and does not include low performers," Gherson said. "The ones who are in high demand today and high demand tomorrow are going to be the ones we treat with a very high-touch" response.
IBM does not analyze or monitor employees' email, external social media accounts or other internal message boards as part of its predictions on who has one foot out the door. But some startups have scraped publicly available LinkedIn data, for instance, to predict likely departures.
Meanwhile, other vendors have recently begun analysing data to predict how lower employee engagement scores can give companies a nine-month heads up about which groups of workers might be at risk of leaving. And Josh Bersin, an industry analyst who focuses on H.R. technology, said some companies have taken a high-level look at email to make predictions.
He recently wrote about how some firms have studied email "metadata" and communication patterns, finding that people who quit were less engaged in their email for up to six months before leaving.
"Predictive attrition" methods are becoming popular, he said, because "it's so hard to hire people. Companies just want to know why people are leaving, and they want data about why people are leaving."
How perfect such systems really are at predicting who might leave - and whether the interventions suggested will always work to keep them - is still somewhat unknown, Kropp said. And some patterns the AI might turn up - such as that women of childbearing age who opt out tend to have higher turnover rates - might be tricky for managers to act on.
But they may still offer an edge over the surprise office visit from an employee no one guessed was about to leave.
"There's still always going to be a lot of art, and a lot of uncertainty," he said. "But it's still better than a manager guessing."
