Global MEMS Design Contest Winners Announced


Reading time ( words)

Cadence Design Systems, Coventor, X-FAB and Reutlingen University announced the grand prize winner of the Global MEMS Design Contest 2018 at CDNLive EMEA 2018, the Cadence annual user conference. A team from ESIEE Paris and Sorbonne University received the grand prize award for designing an innovative MEMS-based energy harvesting product using electrostatic transduction. Energy harvesting products can be used in implantable medical devices and other portable electronics that need to operate without an external power source. 

The winning team received a $5,000 cash prize along with a complimentary one-year license of CoventorMP™ MEMS design software. In addition, X-FAB will fabricate the team’s winning design using the X-FAB XMB10 MEMS manufacturing process.

The design contest was launched two years ago at the 2016 Design, Automation and Test in Europe (DATE) conference, with the goal of encouraging the development of imaginative concepts in MEMS and mixed-signal design. Contest submissions were received from around the world, and three semifinalist teams were selected in February 2018 to compete for the grand prize. A panel of industry professionals and respected academics selected the grand prize winner based upon the degree of innovation demonstrated in the hardware and methodology, the novelty of the application, adherence to the design flow and the educational value of the submission.

“We are extremely excited to be working with the team from ESIEE and Sorbonne to manufacture their energy harvesting product,” said Volker Herbig, vice president, BU MEMS at X-FAB. “The design rules and process specifications provided in X-FAB and Coventor’s MEMS PDK, along with Cadence technology, should help ensure “first-time-right” manufacturing of the winning team’s design.  We look forward to bringing the winning contestant’s innovative thinking to life, using our well-tested open-platform MEMS and CMOS manufacturing technologies.”

“We are very pleased that the contestants used the CoventorMP design environment and XMB10 MEMS PDK to create and model their designs,” said Dr. Stephen Breit, Vice President of Engineering at Coventor, a Lam Research Company. “We’re looking forward to X-FAB’s successful manufacturing of the winning team’s design, which will demonstrate how this new approach can reduce the cost and time of developing new MEMS products.

“We were impressed with the high-calibre and creativity of the designs submitted,” said Sanjay Lall, Regional Vice President EMEA of Cadence. “The contestants were able to successfully simulate their combined MEMS and mixed-signal designs in the Cadence Virtuoso® Analog Design environment and use the Cadence Spectre® Circuit Simulator for their transient simulations. Choosing one winner was very difficult, as all the finalists put forward excellent projects.”

A team from King Abdullah University of Science and Technology (KAUST) in Thuwal, Saudi Arabia, took home the second-place prize, which included a cash award of $2,000. The team from KAUST created a MEMS resonator for oscillator, tunable filter and re-programmable logic device applications.

Third place went to a team from the University of Liege, Microsys, KU Leuven and Zhejiang University. This team created a genetic algorithm for the design of non-linear MEMS sensors with compliant mechanisms and showcased it using a capacitive MEMS accelerometer. They received a cash prize of $1,000.

In addition to the cash prizes, all three semifinalists had the opportunity to present their winning entries to an audience of design professionals at the CDNLive EMEA 2018 conference.

For more details regarding the winning teams and their contest entries, please visit the MEMS Design Contest website.

About the Contest Organizers

Cadence enables electronic systems and semiconductor companies to create the innovative end products that are transforming the way people live, work and play. Cadence software, hardware and semiconductor IP are used by customers to deliver products to market faster. The company’s System Design Enablement strategy helps customers develop differentiated products—from chips to boards to systems—in mobile, consumer, cloud datacenter, automotive, aerospace, IoT, industrial and other market segments. Cadence is listed as one of Fortune Magazine’s 100 Best Companies to Work For.

Share


Suggested Items

EDADOC: A Driving Force in China's Automotive Electronics Design

05/21/2018 | Edy Yu, I-Connect007
EDADOC is one of the biggest providers of PCB design and manufacturing services in China, with a long history in automotive electronics design and manufacturing. China Editor Edy Yu recently conducted an email interview with EDADOC R&D Technical Research Manager William Zhou and Brand Planning Specialist Wen Ling, who collaborated on their answers. We discussed the challenges related to designing and fabricating automotive PCBs, the opportunities in this segment, and the trends they see in the market for autonomous and electric vehicles.

Zuken Pulling Ahead in Automotive PCB Design

05/07/2018 | Andy Shaughnessy, Design007 Magazine
Zuken has been developing PCB design tools for the automotive market for years. With automotive electronics worth over $200 billion globally, and growing every day, Zuken is preparing for a brave new world of smart cars, and autonomous and electric vehicles. I spoke with Humair Mandavia, chief strategy officer with Zuken, and asked him about the challenges facing automotive PCB designers, and the trends he’s seeing in this constantly evolving segment of the industry.

Fadi Deek Discusses Mentor’s New Power Integrity eBook

04/22/2018 | Andy Shaughnessy, Design007 Magazine
At DesignCon 2018, I ran into Mentor’s Fadi Deek, the author of both of Mentor’s I-Connect007 eBooks: the newest, "The Printed Circuit Designer’s Guide to Power Integrity by Example," and their first book, "The Printed Circuit Designer’s Guide to Signal Integrity by Example." We sat down and discussed how the idea for the books came about, as well as some of the power integrity challenges facing PCB designers and engineers.



Copyright © 2018 I-Connect007. All rights reserved.