Women in computing to decline even more
Numbers will drop to 22% from 24% by 2025 if issue ignored
New research warns that at the rate we’re going, the number of women in the computing workforce will decline to 22% from 24% by 2025 if nothing is done to encourage more of them to study computer science. The research from Accenture and non-profit group Girls Who Code says taking steps now to encourage more women to pursue a computer science education could triple the number of women in computing to 3.9 million in that same timeframe. Women account for 24% of computing jobs today but could account for 39% by 2025, according to the report, Cracking the Gender Code.
And greater numbers of women entering the computer science field could boost women’s cumulative earnings by $299 billion and help the U.S. fill the growing demand for computing talent, said Julie Sweet, Accenture’s group chief executive for North America.
“The solution starts with education — we need to develop more tailored programs that appeal to girls’ interests and take a more targeted and sequenced approach to encourage girls to pursue (computer science) related learning at each stage of their education,” Sweet said.
Accenture and Girls Who Code identified factors that influence women’s decisions to study and work in computing, including a survey of girls ages 12-18, college
students, computing professionals, parents and teachers, and then used the results to interview more than 8,000 people to validate the findings.
Researchers then created a model to estimate the potential changes to female participation in computing and calculate the potential effect on women’s earnings.
The research was released during the annual Grace Hopper Celebration of Women in Technology, a conference put on by the Anita Borg Institute for Women in Technology in partnership with the Association for Computing Machinery. More than 15,000 people are expected to attend the three-day event that encourages the participation of women in computing.
The share of women in the computing workforce has slipped to 24% today from 37% in 1995.
Silicon Valley is a stark illustration of the growing gender gap in high tech. At major companies here, men account for 70% of employees.
“In the last few years, we’ve seen unprecedented momentum and attention behind universal computer science education. You would think that all this attention would translate into progress toward closing the gender gap. But it hasn’t,” Saujani said.
According to the American Association of University Women, in recent years only 20% of Advanced Placement computer sci- ence exam takers in high school have been female. Girls graduate high school on par with boys in math and science, but boys are more likely to pursue engineering and computing degrees in college. The proportion of female students majoring in computing in college has fallen dramatically. In 1984, 37% of computer science majors in the U.S. were women. Today, only 18% are. That dispari- ty only grows at the graduate level and in the workforce where women are dramatically underrepresented in engineering and computing. Even those women who pursue technical careers drop out at much higher rates than men.
Saujani advocates early intervention to get women on a career path into these high-paying careers.
“We need programs designed specifically to spark and sustain girls’ interest — and we need to start in middle school, where there are few options but lots of potential to spark girls’ interest,” she said. “Today’s middle school girls have the potential to fill 1.6 million extra computing positions by 2025 — twice the potential of high school and college girls combined.”
That sentiment is echoed by women tech leaders. “We need programs explicitly about girls coding,” Facebook chief operating officer Sheryl Sandberg told USA TODAY in 2014 after meeting with Bay Area teens taking part in Girls Who Code. “We need to flip the switch.”