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Gursharan Singh, Micron’s senior vice president of Global Assembly and Test, spoke with us about the progress of Micron’s new facility in Penang, the company’s smart manufacturing advancements, its ongoing initiatives to hire and develop talent, and its support of the greater Malaysian community during the COVID-19 pandemic. Micron to Open Center of Excellence in PenangMicron’s 52.6-acre Center of Excellence for SSD assembly and test in Batu Kawan Industrial Park in Penang is slated to open in early 2021. Micron is investing RM1.5 billion over the next five years and has committed to adding 1,000 team members.“In parallel to the building’s construction, we have built a temporary site in Seberang Prai where nearly 1,000 of our team members have already set up the production line for SSD,” Singh said. “Once the new plant is ready, this operation will be moved to Batu Kawan, giving us the advantage to ramp up production and hit the ground running without the lag of waiting for the operationalization of a new facility.”Malaysia to Gain From Micron’s Global Manufacturing NetworkMicron’s commitment to Malaysia extends beyond business investments. As an industry powerhouse, Micron’s Malaysia operations will tap into its global expertise and best practices.“Malaysia is in a unique position to benefit due to its close proximity with our NAND Center of Excellence in Singapore,” Singh said. “We are learning from our factory in Singapore, which implements the latest advances in smart manufacturing, as we develop the facility in Batu Kawan. Those lessons will be used to ensure that new technologies are deployed cost-effectively and push the envelope to get them to the next level.”On the talent front, Micron is creating a pipeline of local Malaysian talent from a young age. This means driving multiple STEM initiatives targeting local primary and secondary schools and includes a Women in Science and Engineering Program we’re offering at 39 of Penang’s secondary schools. We’re also creating internships for engineering degree holders through the company’s Industry Student Engagement Program (ISEP) and continuing a training program for young diploma holders held in conjunction with Penang Skills Development Centre (PSDC) to give them skills that are required by the industry.Our workforce development initiative also gives Micron an opportunity to work with young talent new to the industry so they can learn and undergo in-depth industry training from more experienced peers."We use our global network of expertise to train young workers and give them the opportunity to learn and participate in this start-up-like environment,” Singh said. “We have already hired nearly 40 new college graduates from Universiti Sains Malaysia (USM). Our game plan is to continue on this path by hiring a higher percentage of local graduates and giving them access to our facilities to learn our technology and advance our Malaysia facility. More than that, we hope our collaboration with local universities can extend further into high-impact research initiatives that benefit the wider community."Micron’s Commitment to Malaysia’s Communities During the COVID-19 PandemicMicron is investing in the greater Malaysian community as the country fights the current COVID-19 pandemic. Malaysia is one of five countries prioritized to receive grants from Micron’s $35 million global relief fund. The company recently announced a RM2.6 million donation from the Micron Foundation that will help the three groups most in need – front-line workers and hospitals, children and the elderly in charitable homes, and underprivileged families in Muar and Penang near its facilities. The goal is to quickly distribute aid such as medical and personal protective equipment, food and household items, and financial assistance.In addition, Micron is supporting its Malaysian employees by making a one-time assistance payment of RM1,300 to 94% of its workforce based in Muar and Penang. This is the percentage of the workforce meeting the eligibility criteria.Designated as an essential services provider by the Malaysian government, Micron continues to maintain its local operations. Micron products built in Malaysia are critical to helping the world effectively cope with COVID-19. Our technology enables advanced medical devices for treatment, data centers and supercomputers used by scientists to find new solutions, and e-learning and videoconferencing capabilities that connect the world during this period of restricted movement.Sangeeta Rajgopal is Head of Country Communications Marketing, Singapore Malaysia Global Communications Marketing, Micron
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As technology companies worldwide struggle to narrow the yawning gender parity gap, organizations in other industries ranging from insurance and food services to banking have emerged as guiding lights for how to boost the number of women in the workplace. MetLife, the 48,000-employee insurance giant, is among the standouts. In 2015, the New York-based company launched Developing Women’s Career Experience, a 14-month program designed to hone the business and strategic acumen of high-potential female workers. The goal was to increase the sense of urgency to promote women. The program bore fruit, expanding the representation of female managers and entry-level workers to 50 percent. Over the past five years, Sodexo, the French food services and facilities management company headquartered in Paris, has also upped female representation on its list of corporate priorities, expanding the ranks of women in entry and manager roles by 10 percent on average. More impressively, the number of women senior vice presidents has grown 20 percent and those in the C-suite have doubled.Sodexo drove the increases by developing a scorecard to hold managers accountable for diversity and inclusion and tying their performance to total compensation. Fully 10 percent of their bonuses were linked to strides in diversity and inclusion. Leaders at the 470,000-employee company scored points for hiring, promoting and retaining more women and underrepresented groups and could hike the total by taking other steps to improve the work culture by demonstrating inclusive leadership.“We do see companies taking bold actions and are seeing tremendous results,” said Audrey Bernardo, a partner at consultancy McKinsey Company, as she presented the case studies at Diversity – Women in Tech to kick off FLEX|MEMS Sensors Technical Congress (MSTC) 2020 last week in San Jose.And it turns out the payoffs matter not only for the bottom line but also a company’s ability to attract and retain the best talent. Citing research from the McKinsey Company and Lean In 2019 report Women in the Workplace as well as McKinsey’s 2018 Delivering through Diversity, Bernardo noted that gender-diverse companies are 24 percent more likely to financially outperform their less inclusive counterparts, while organizations with higher ethnic diversity are 33 percent more likely to outshine less diverse companies.Younger workers are particularly sensitive to diversity biases. The survey of more 250,000 employees at 600 companies found that employees under the age of 30 are almost two times more likely than older workers to raise the need for diversity and more likely to see bias in the workplace.“Diversity and inclusion has become a business imperative,” Bernardo said. Yet despite the urgency, gains among tech companies in cultivating a diverse workforce have been hard-won in part because of the challenge to better balance the proportions of male and female workers. And the headwinds start to gather when females are young. According to the report, 15-year-old females are vastly outnumbered by boys in their appetite to work in tech fields, with girls 65 percent to 84 percent less interested in pursuing tech careers than boys the same age.That dynamic extends to females in their college years. Despite earning more degrees than men overall, women account for the minority of tech degrees – ranging from as low as 13 percent representation in Chile and 15 percent in Brazil to as high as 45 percent and 36 percent, respectively, in India and Mexico. In the U.S., women account for just 23 percent of undergraduate degrees in tech.Bernardo praised the growing number of companies that are “reaching further down the age pipeline” to inspire young students to pursue STEM educations and careers in tech and cited the work of the SEMI Foundation – through High Tech U and other programs geared toward young students – to inspire the next generation of industry workers.The picture brightens once women have entered careers at technology hardware companies – they are promoted at only a slightly lower rate than men. Yet when it comes to outside hires, women are brought on board at a much lower rate than men. For example, women account for just 22 percent of the senior vice presidents hired at hardware companies, 17 percent of vice presidents, 22 percent of senior managers and directors, and 25 percent of managers.Part of the challenge for women in senior leadership positions is balancing careers with their home lives since they are two times more likely to be in dual-career households than their male counterparts.“We will never solve the women-in the-workplace problem until we solve the women-in-the-home problem,” Bernardo said.Indeed, giving women the leeway to work from home and take time off for family or personal reasons ranked among the power practices the study found most correlated to diversity and inclusion progress. Others include C-level executive participation in shaping a diversity and inclusion strategy, establishing numeric targets for tracking gender representation across the workforce as Sodexo has done, and unconscious bias training. “D I needs to be visible from the top,” Bernardo said.A shining example of executive support for diversity and inclusion initiatives is the work by Atlanta-based SunTrust Bank to encourage workers to embrace differences in people and build awareness of unconscious bias. In 2018, the 23,000-employee company held a daylong event that included workshops focused on candid conversations about gender, race, disability, LGPTQ identity, religion and military service.The Day of Understanding was sponsored by the SunTrust CEO. Within three years, the proportion of employees viewing the SunTrust workplace as inclusive grew to 80 percent, an 11 percent jump.Michael Hall is a marketing communications manager at SEMI.
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With one of the oldest and largest public education systems in the developed world, how well does the US public education system serve the global electronics industry? Public education in the US has had time on its side. In 1635 the Boston Latin School became the first public school in the US. Boston Latin was originally a boys-only secondary school that taught Greek, Latin and the humanities. It wasn’t until 1918, however, that the US government required all children to obtain at least an elementary-school education – available to them through free public schools. As public education increasingly served the masses rather than just the elite, a balance of humanities, mathematics and science began to replace the classics.While free public education in the US got a comparatively early start, most American students score lower in science and math than students in many other developed nations. According to a 2017 Pew Research Study, 15-year-old American students ranked 24th in the world in international standardized age-group science testing and 38th in the world in standardized mathematics testing. While test scores are just one measure of proficiency, do they in some way reflect a lack of motivation to study science and math because of students’ unfamiliarity with STEM careers? Source: Pew Research. See article. Make STEM RelevantIf we want the US to remain a leader in the global electronics industry, we need to pay attention to the disconnects between academics and workforce development. We must help show students at an early age that STEM careers can be exciting, creative and fulfilling, and that math and science are essential to STEM.Ways to Get InvolvedWhether you work for a large publicly traded electronics manufacturer, an equipment or materials supplier, a foundry or a startup, you can take action to support student engagement in STEM. Here are a few ways to get involved:Participate in Community Programs One fun way to inspire budding technologists is to sponsor one of the FIRST programs for students. These age-segmented competitive programs range from FIRST LEGO League, Jr. Challenge for six-ten year-olds to FIRST Robotics Challenges for high school and college students, giving you the opportunity to sponsor a team or even to coach.Our company sponsors Team TNT, a Southern Oregon-based team that placed among the world’s top high school robotics teams at the spring 2018 world championships. We also brought two members of Team TNT to SEMICON West 2018, where they attended SEMI’s three-day High Tech U and presented their insights on building their FIRST Challenge robot at the Smart Workforce Pavilion. Margaux Quady (L) and Matthew Mills (R), Team TNT members, presented at SEMI’s Smart Workforce Pavilion at SEMICON West (Rogue Valley Microdevices) Concerned about the dearth of girls interested in STEM — and the small numbers of women in engineering careers? Look for your local equivalent of the Advocates for Women in Science, Engineering, and Math (AWSEM) Symposium, a day-long program for middle school girls. One of our engineers, Jennifer Devin, gave a hands-on workshop on deconstructing smartphones to showcase the silicon chips inside them. If you cannot find something like AWSEM, check out national programs such as the Society for Women Engineers (SWE)’s SWENext program for girls ages 13-18 as well as Girl Powered.Partner with Local SchoolsYou would be surprised at the opportunities to present what you do in the classrooms of school-age children. Take after Allyson Hartzell, managing engineer at Veryst Engineering in Needham, MA. Allyson speaks with students in her local elementary schools of Somerville and Cambridge, Massachusetts because she thinks that we must reach younger children to get them excited about STEM learning. “Waiting until middle school or high school to help students visualize the real-world appeal of STEM careers is just too late,” said Hartzell. “I’ve had amazing experiences working with local elementary-school students. Students become engaged when you show them real-world examples such as electron micrographs of MEMS.”Many middle schools and high schools also look to their communities to provide tutors in STEM subjects. Check with the community liaison at your local school to get started.Engage in Internship ProgramsInvolvement doesn’t stop in the K-12 grades. Seek out a local university’s internship program and hire some interns in that program to work at your company. The interns will gain valuable applied experience in your environment, and you might find young engineers who would love to join your company after they graduate. Oregon’s MECOP, an engineering-specific internship program founded on close industry-university collaboration, has been amazing for our recruitment. Some of our finest engineers were once in the MECOP program, including our engineering manager.Anything you do to get involved in inspiring coming generations of students to explore STEM — no matter how small your action — will make a positive difference in helping US students become better prepared to enter a technology-focused workforce. Through collaboration and creativity, we can help US companies keep the global electronics industry moving toward greater innovation. Jessica Gomez, CEO and co-founder of Rogue Valley Microdevices, entered the semiconductor manufacturing field in 1998 at Standard Microsystems Corporation of Hauppauge, New York where she acquired valuable knowledge in both semiconductor processing and production management. Jessica also held positions at Integrated Micromachines and Xponent Photonics prior to co-founding Rogue Valley Microdevices in 2003. As head of a technology company, Jessica recognizes the criticality of workforce development – and has become an advocate of STEM education. Rogue Valley Microdevices supports STEM initiatives for middle-school girls, a competitive robotics team for high school students, and a college internship program specifically for engineers.Expanding her energies beyond the company she co-founded, Jessica is also applying her passion for change to politics. She is currently campaigning for the Oregon State Senate.For more information, visit Rogue Valley Microdevices.
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With technology moving at breakneck speed, MEMS and sensors professionals whose job is to stay on top of industry developments must be able to find useful information—fast. Podcasts are one rich source of insight. In All Ears, I share roundups of recent podcast interviews with entrepreneurs and CEOs and episodes covering emerging technologies, breakthroughs and even the unexpected – like a MEMS pinball machine. For the seasoned MEMS and sensors professional or the curious onlooker who loves to learn, here are 5 podcast episode recommendations. 1. Embedded.fm – Episode 214: Tiny Sensor ProblemsChristopher White (@stoneymonster) and Elecia White (@logicalelegance) host Embedded.fm, a weekly podcast about the 5Ws of engineering. They’re both embedded software engineers by trade and their guests include everyone from entrepreneurs and makers to educators and engineers.Tiny Sensor Problems is a good introduction for people who have little to no knowledge of MEMS sensors. Kristen Dorsey, Assistant Professor of Engineering at Smith College, provides a brief overview of MEMS and touches on the manufacturing processes, including temperature sensitivity and sensors hype over the years. You’ll learn facts about interesting MEMS applications that were created, like the pinball machine I mentioned. Dorsey also elaborates on her work in flexible strain and pressure sensors for possible applications in AR and robotics in the future. 2. NPT – Episode 4: MEMS Directional SensorsLet’s dig deeper and learn about some of the applications for MEMS and Sensors. In this case, Erdos Miller, The Drilling Technology Podcast focuses on an extreme niche: oil and gas drilling technology. Ken Miller and David Erdos make up two of the engineering, developers and architect team at Erdos Miller that specializes in creating custom solutions for oil and gas downhole devices. Throughout the episode, they explore surveying sensors starting from the 1920s. History buffs would appreciate the stroll down memory lane and the ingenuity behind the first survey sensor, which involved a glass bottle filled with acid. Texas Instruments’ DLP technology gets a mention towards the end of the episode when micromirrors became a topic of discussion. 3. The Early Stage Podcast – Episode 15: Vesper – Tiny Microphones That Listen ForeverMEMS and sensors are a huge part of IoT—no doubt about it. The Early Stage Podcast captures insights from entrepreneurs into their company’s journey including their innovative approaches to developing cutting-edge technologies and overcome business and technology challenges they encounter. This episode focuses on Matt Crowley, CEO at Vesper, and how piezoelectric microphones will affect the voice interfaces as AI grows more sophisticated. Enthusiastic about the subject, John Valentine, host of the Early Stage Podcast, poses thoughtful questions and Crowley is eloquent and clearly passionate about his trade. They touch upon the race to produce the best voice interfaces for the AI ecosystem and tool kits for companies interested in voice enablement—but lacking a dedicated audio team—and looking for a simple solution. 4. IoT Podcast – Episode 155: New toys, Pi Day and insect-tracking LIDARHost Stacey Higginbotham, a technology journalist covering cloud computing, data centers and IoT, joins IT expert and veteran podcaster Kevin Tofel, in a weekly conversation about IoT developments. They’re entertaining and informative with a knack for making complex concepts easily digestible. In this episode, they discussed their thoughts on how the Broadcom/Qualcomm merger played out. While not explicitly focused on MEMS and sensors, the episode and the podcast in general touches upon overarching challenges the MEMS and sensors industry faces with security, standards, product development and applications usage. The highlight of the show included the guest of this week, Tobias Menne, global head of digital farming at Bayer AG who discusses Agriculture Technology (AgTech). 5. Amelia’s Weekly Fish Fry – Silicon Stagnation: How Emerging Technologies and Non-Traditional Materials Are Changing the Future of MEMSHosted by visionary Amelia Dalton, this episode of Fish Fry addresses the prospect of paper and plastic displacing silicon in MEMS manufacturing. Dalton interviews A.M. Fitzgerald Associates founder Alissa Fitzgerald about her research on the threat of waning research to silicon sensor technology. And more importantly, they discuss its implications for the MEMS and sensor industry 10 to 20 years down the line.Can’t get enough of MEMS? Register to listen in on MEMS and Sensors Industry Group’s free webinar, “Process Control and Root Cause Analysis for More-than Moore and Advanced IC Technologies” on April 25 at 8:00 AM PDT.
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