FlexFactor Program Informs, Inspires, Attracts, and Recruits Talent


Reading time ( words)

Barry Matties and Nolan Johnson speak with Brynt Parmeter, Emily McGrath, Clarence Chi, and Mikayla Ridi about the NextFlex program FlexFactor. This initiative aims to help high school and college students see potential futures in the advanced manufacturing sector and combat common misperceptions young people might have about modern-day manufacturing.

Nolan Johnson: Brynt, tell us about your role at NextFlex and what the company does.

Brynt Parmeter: I am the director of workforce development, education, and training for Next-Flex. We are a 501(c)(6) public-private partnership with nearly 100 members across the U.S., and we’ve been in existence for three and a half years. Our goal is to advance the technology associated with the manufacturing of flexible hybrid electronics in conjunction with our members. We operate under a cooperative agreement with the Department of Defense, and we are working toward becoming a self-sustaining organization. In addition to the 501(c)(6), we run our workforce development and learning programs under a 501(c)(3) nonprofit and our design and manufacturing services under a C corporation to include fabrication operations within a 20,000-square-foot cleanroom facility at our headquarters in San Jose, California.

Johnson: We could do an entire interview just on NextFlex, but today, could you talk about the vision of the FlexFactor program?

Parmeter: Since our start, we have focused on enabling the creation of the talent needed by our industry partners over time. We are very much looking at the problem from the demand side to identify and quantify the knowledge and attributes needed to tackle what is commonly known as the “skills gap” across the advanced manufacturing and technology sector. We don’t have enough young people aware of the sector or the pathways that will lead them to become competitive hires. We have a gender imbalance and need to figure out how to reach more women to join this sector as well as non-traditional populations.

We’ve have put a lot of energy into tackling this problem and are seeing some impressive results. Our flagship program is called Flex-Factor, and it’s intended to do three things. First, the program aims to provide first-hand experiences that allow the next generation to see what a career in advanced manufacturing looks like. They learn what it is like to work in the field.

Second, it helps engage and familiarize students with the education pathways that lead into the sector and provide the skills and competencies necessary to become the competitive hires that our members, and those they represent, need in their future workforce when Industry 4.0 becomes a reality. Finally, as a project-based learning activity, FlexFactor gives participants the motivation and sense of purpose to want to take that journey and pursue the relevant education pathways to become competitive hires because they’ve become informed, inspired, attracted, and recruited into the sector through this immersive experience.

Barry Matties: What is the primary age group in the FlexFactor program?

Parmeter: We started with high school students in grades 9–12 and then we expanded the program to include middle school and elementary school students. We’re also launching a program segment for transitioning service members, veterans, and their spouses and dependent children in the school systems around military installations. We’ll start to see the first pilots of these cohorts happen across the country in late 2019 and early 2020.

Matties: How responsive are the schools to this program?

Parmeter: They are very responsive because what is unique about the program is its ability to meet the needs of a range of stakeholders. Companies engage with the program as a strategic talent acquisition activity. Institutions of higher education use it to attract students into the pathways needed by various industries so they can fill seats in classes aligned to the coursework and relevant material.

Finally, high schools and middle schools have a vested interest because they need to engage their students with real-world experiences in both higher education and multiple industries. In the words of one high school principal, “Schools and teachers need help understanding the world they’re preparing their kids for rather than remaining insulated in purely theoretical settings.” That’s a large part of what this program does.

Matties: That might be the toughest challenge right there.

Parmeter: It’s very difficult. We went through a significant learning curve and a lot of trial and error in the early stages of the program. This is a good bridge for Emily to discuss the strategy, including what we’ve learned and how the program has evolved into what it is today.

Emily McGrath: The program is intended to unite all stakeholders across a geographically aligned ecosystem who need to be engaged for effective workforce development. But those aren’t players who traditionally communicate with each other. We find that high schools are talking to higher education to some extent, but they aren’t talking to the industry. And the industry doesn’t often engage with higher education outside of specific programs.

What we had to do was figure out coordination steps that allowed these groups to interact smoothly on a regular basis. The program acts as a “Rosetta Stone” of sorts and speaks three different “languages.” The key to the success of the program are the project managers, such as Clarence and Mikayla. They need to be able to speak all three languages and ensure that all three stakeholders can communicate with one another about the challenges they have in common. FlexFactor’s coordination process is what allows the program to unfold smoothly and achieve the desired outcomes.

Matties: What is the greatest challenge?

Clarence Chi: Industry participation is one of the most critical aspects of the program. Our ability to directly engage students with advanced technologies and professional mentors is transformative, and you see their faces light up after they see how advanced technologies are changing the world around us.

Johnson: For example, a U-2 spy plane just took off and is flying right above us.

Parmeter: That plane is a perfect example because we work with a range of industry partners, including Boeing, Lockheed Martin, and others. FlexFactor is designed to get students interested not just in the technology of flexible electronics but also in the advanced manufacturing sector in general. Many students don’t realize that amazing products—such as the U-2 that just flew over, medical devices that are helping to save our loved ones, or automotive technologies—are all products from the advanced manufacturing industry.

Chi: To expand on that idea, the program casts a wide net because it works with existing classes—it’s not something students self-select into. The program’s touchpoints were designed in a way that allows it to work with any subject—English language development, AP biology, environmental science, mathematics, history, robotics, etc. What all the students have in common is their reaction to seeing modern manufacturing in action. Touring advanced facilities gets them really excited about what’s ahead for them in the future and what they can actually do, and they picture themselves working in these environments.

To read the full article, which appeared in the April 2019 issue of Flex007 Magazine, click here.

Share

Print


Suggested Items

The Institute of Circuit Technology Autumn Seminar

10/03/2019 | Pete Starkey, I-Connect007
Meriden has been established as a popular Midlands venue for Institute of Circuit Technology (ICT) meetings. On September 19, a multitude of Fellows, Members, and Associates gathered for the Institute’s autumn seminar, which was organised and hosted by ICT Technical Director Bill Wilkie. The agenda included five informative technical presentations, describing current research and development on significant topics relevant to the industry.

How to Feed Test Data Back to Engineering for Process Improvement

08/01/2019 | Todd Kolmodin, Gardien Services
Some people think of the PCB manufacturing process as a black box: design data goes to the manufacturer (fabrication house), and magically, the finished PCB is produced. While it may have been like that in the past, in actuality, fabricating PCBs today is quite a ballet of processes.

A Guide to High-reliability PCBs from Design to Specification

07/24/2019 | Jeff Beauchamp, NCAB Group
Creating reliable PCBs is an outcome of considering all aspects that can affect reliability as early as possible in the design process. The further down the design process, the more expensive and risky it can be to fix. As they say, everything starts with the design. Because a good board design improves the reliability of the end product and lessens the risk of failure.



Copyright © 2019 I-Connect007. All rights reserved.