- ABOUT EDC
- RESEARCH & PROGRAM AREAS
With studies showing that the United States is simply not graduating enough people in computer science fields to keep pace with labor demands, there is an economic imperative behind getting students more interested in coding. Data from the National Science Foundation and Bureau of Labor Statistics suggests that the number of new positions requiring computer science skills will eclipse the number of people graduating with a computer science degree by 70,000 in 2013.
EDC’s Jim Stanton has a vision of how to strengthen computer science in schools where it is either absent or offered on very minimal scale in the K–12 curriculum. As executive director of the Massachusetts Computing Attainment Network (MassCAN), Stanton’s goal is to link employers and educators to promote new ways of bringing computer science to the state’s classrooms.
Stanton: Computer science is one of the central pillars of innovation economies around the world. It pushes existing technology forward and fosters innovation—both in terms of new products and of the array of services that support these products.
We’re in an age when tons of computer services are being developed. But we need to grow our workforce because the supply of skilled computer scientists is not keeping pace with the huge demand for those workers. Evidence suggests that we can accommodate a significantly larger number of students for the number of job vacancies in the tech sector.
Stanton: There’s a whole ecosystem of firms that compose the tech sector. Google and Microsoft may be some of the biggest, but there are thousands of smaller firms, too, that do essential work. Those companies are the ones affected most by the shortage of talent—without it, they can’t grow, and they can’t develop and offer new products. And if the smaller companies that occupy most of the tech ecosystem are weak, then the whole environment becomes weaker.
Stanton: There are no school districts in the state where computer science is a requirement for graduation. Computer science remains largely an elective course in the modest number of school systems where it is offered, and only draws students who self-select as being interested in the subject. We know we could be reaching a lot more kids.
That said, there are some new computer science courses on the horizon. And MassCAN has been working with the Massachusetts Department of Higher Ed to consider allowing computer science courses to qualify as one of the four math courses required for admission to state universities. We need to continue to expand interest in computer science while making these courses count towards high school graduation and public university admission.
Stanton: There is an emerging field of curriculum tools that really support early exposure to computer science principles. Scratch, Bootstrap, and Lego robotics are some examples. They give students the experience of arranging things abstractly, which is one of the most important skills in computer science. In fact, MIT is currently developing a coding program for early elementary school called Scratch Jr.
Stanton: An “hour of code” is an attempt to demystify what coding is all about. Too many people still think that computer science requires advanced knowledge about how computers work. It doesn’t. So this is one effort to show people how accessible coding is, and that even young kids can have authentic experiences with it.
Ultimately, we want parents to begin to see that computer science is a huge, promising field. And then we want them to begin to ask, “If this is so cool, how come my school isn’t offering it?” Only through creating more demand will we finally get computer science into more classrooms, where it needs to be.