industry news
Subscribe Now

GOWIN Semiconductor Announces AEC-Q100 Automotive Grade FPGA Availability

SAN JOSE, Calif. and GUANGZHOU, China, Jan. 27, 2021 (GLOBE NEWSWIRE) — GOWIN Semiconductor Corp., the world’s fastest-growing programmable logic company, is pleased to announce the release of its new Automotive Grade FPGAs, targeting applications for telematics, infotainment, and the powertrain.

AEC-Q100 has been in place for over 20 years defining the reliability qualification requirements for Automotive integrated circuits. To get a certificate meeting the AEC-Q100 Grade 2 requirements, a manufacturer is required to submit a product to extreme environmental challenges. GOWIN has submitted and passed all the requirements for their following devices: GW1N-LV4QN88A4, GW2A-LV18QN88A6, GW2A-LV18PG256A6. In addition, GOWIN’s Ultra Low Power GW1NZ-LV1QN48A4 will complete AEC-Q100 qualification in Q3’2021.

GOWIN’s success with mainstream FPGAs is now extended to its Automotive Grade products. Active implementations with these low cost, small size devices include 360-degree surround view, smart cockpit, and vehicle control system.

“We are pleased to bring our low cost, small size, and low power FPGA products to the automotive segment,” said Scott Casper, Director of Sales, GOWIN Semiconductor. “We continue to increase our presence in expanding marketplaces offering easy to use solutions for embedded system designers.”

For more information about GOWIN’s Automotive Grade products or any of their low-power, small size, low-cost FGPA devices, please visit

About GOWIN Semiconductor Corp.

Founded in 2014, Gowin Semiconductor Corp., headquartered with major R&D in China, has the vision to accelerate customer innovation worldwide with our programmable solutions. We focus on optimizing our products and removing barriers for customers using programmable logic devices. Our commitment to technology and quality enables customers to reduce the total cost of ownership from using FPGA on their production boards. Our offerings include a broad portfolio of programmable logic devices, design software, intellectual property (IP) cores, reference designs, and development kits. We strive to serve customers in the consumer, industrial, communication, medical, and automotive markets worldwide.

Copyright 2019 GOWIN Semiconductor Corp. GOWIN, LittleBee®, GW1N/NR/NS/1NSR/1NZ®, Arora®, GW2A/AR®, GOWIN EDA and other designated brands included herein are trademarks of GOWIN Semiconductor Corp. in China and other countries. All other trademarks are the property of their respective owners. For more information, please email

Leave a Reply

featured blogs
Mar 5, 2021
The combination of the figure and the moving sky in this diorama -- accompanied by the music -- is really rather tasty. Our cats and I could watch this for hours....
Mar 5, 2021
In February, we continued to build out the content on the website, released a new hierarchy for RF products, and added ways to find Samtec “Reserve” products. Here are the major web updates to for February 2021. Edge Card Content Page Samtec offers a fu...
Mar 5, 2021
Massive machine type communications (mMTC) along with enhanced Mobile Broadband (eMBB) and Ultra Reliable Low Latency Communications (URLLC) represent the three pillars of the 5G initiative defined... [[ Click on the title to access the full blog on the Cadence Community sit...
Mar 5, 2021
Explore what's next in automotive sensors, such as the roles of edge computing & sensor fusion and impact of sensor degradation & software lifecycle management. The post How Sensor Fusion Technology Is Driving Autonomous Cars appeared first on From Silicon To Softw...

featured paper

Increase the flexibility of your precision analog designs leveraging a low-cost MSP430™ MCU

Sponsored by Texas Instruments

There are many ways to address performance requirements while reducing the overall cost of your design. People often use dedicated integrated circuits to address specific functions, but this approach can cause variations in cost, complexity, and ease of use. There is another way to unlock the full potential of your design. Read more to see how a programmable MCU provides additional functionality and flexibility that is not typically available with conventional approaches.

Click here to read the paper

featured chalk talk

Silicon Lifecycle Management (SLM)

Sponsored by Synopsys

Wouldn’t it be great if we could keep on analyzing our IC designs once they are in the field? After all, simulation and lab measurements can never tell the whole story of how devices will behave in real-world use. In this episode of Chalk Talk, Amelia Dalton chats with Randy Fish of Synopsys about gaining better insight into IC designs through the use of embedded monitors and sensors, and how we can enable a range of new optimizations throughout the lifecycle of our designs.

Click here for more information about Silicon Lifecycle Management Platform