Key facts
- Micron Technology and General Motors have signed a Strategic Customer Agreement.
- The agreement ensures a long-term, reliable supply of memory and storage platforms for GM's vehicle production.
- The collaboration aims to strengthen semiconductor and automotive supply chains.
- Micron's investments in U.S. manufacturing, including its Manassas, Virginia fab, support the agreement.
- GM will secure supply of LPDRAM, NOR, and UFS NAND products.
Micron Technology and General Motors have announced a Strategic Customer Agreement (SCA) to secure a long-term supply of memory and storage platforms crucial for GM's vehicle production. The collaboration aims to bolster both the semiconductor and automotive supply chains while fostering innovation in U.S. manufacturing.
Automotive production cycles require consistent component supply over extended lifecycles, making memory supply predictability a key priority. This agreement addresses the rising global demand for semiconductors and ensures automakers have reliable access to essential memory and storage components.
Beyond committed supply, Micron and GM will collaborate on future memory and storage technologies needed for next-generation vehicles, focusing on product definition, system optimization, and qualifying advanced memory solutions. This partnership is supported by Micron's expansion of its automotive supply capabilities, including its advanced DRAM manufacturing facility in Manassas, Virginia, which represents a $2 billion investment.
Micron's Chairman, President, and CEO, Sanjay Mehrotra, stated that the expanded relationship will provide long-term supply assurance and technology innovation. General Motors Chair and CEO, Mary Barra, highlighted the importance of a resilient supply chain for delivering next-generation vehicles at scale and how the agreement enhances access to critical memory technologies.
The agreement is part of Micron's strategy to improve supply continuity across the semiconductor ecosystem by aligning long-term demand with committed capacity and engineering collaboration, thereby reducing supply variability for critical industries like automotive.
