Intel CEO Considers Major Shift in Foundry Strategy, Focuses on 14A Chipmaking to Compete with TSMC
Intel’s new CEO Lip-Bu Tan is contemplating a significant change to the company’s contract chip manufacturing business, potentially abandoning the costly 18A process developed under his predecessor to focus on the newer 14A technology. This move aims to better compete with Taiwan Semiconductor Manufacturing Co (TSMC) and attract major clients like Apple and Nvidia, sources familiar with the matter told Reuters.
The 18A process, which Intel invested billions in, is seen as losing appeal among prospective customers. Shifting focus away from it could lead to a substantial financial write-off for Intel, possibly costing hundreds of millions or even billions of dollars. Intel confirmed it would continue producing chips using 18A for its own internal designs, including the “Panther Lake” laptop chips planned for 2025, as well as fulfilling existing contracts with Amazon and Microsoft.
Tan, who took over in March, has quickly moved to cut costs and reshape Intel’s direction amid years of falling behind in chip technology. The 18A process, which features new transistor designs and energy delivery methods, was intended to rival TSMC’s leading-edge technology but is now considered roughly comparable to TSMC’s earlier N3 node.
By emphasizing 14A, Intel hopes to offer a more competitive foundry service and win contracts from major chip designers currently reliant on TSMC’s manufacturing. The company is customizing 14A to client needs and planning a strategic discussion with its board as soon as this month, with a final decision expected in the fall.
Intel’s move reflects the high stakes involved in regaining its manufacturing edge after a difficult period culminating in an $18.8 billion net loss in 2024. Tan has also revamped Intel’s leadership and streamlined management to improve agility.
While the strategy is still forming, the potential pivot marks one of Tan’s boldest efforts to restore Intel’s chipmaking leadership and profitability.
