Samsung Foundry has slashed the price of its 2 nm wafers in an aggressive push to win new clients and close the gap with rival TSMC. The move signals that Samsung is not just producing chips for its own devices but is determined to secure a stronger foothold in the broader semiconductor market.
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- Samsung cuts 2 nm wafer prices to attract clients and challenge TSMC’s dominance.
- Exynos 2600 enters mass production early, likely powering the Galaxy S26 series.
- Snapdragon may stay in U.S. and South Korea, while other regions get Exynos chips.
- Samsung rebounds from 3 nm struggles with a stable 2 nm process for new flagships.
- Galaxy S26 could face backlash over divisive design changes despite chip advances.
Samsung Foundry has slashed the price of its 2 nm wafers in an aggressive push to win new clients and close the gap with rival TSMC. The move signals that Samsung is not just producing chips for its own devices but is determined to secure a stronger foothold in the broader semiconductor market.
The Exynos 2600 has now entered mass production, far earlier than industry watchers expected. Despite lower-than-ideal yields, the process is considered stable enough to support commercial rollout. This development virtually guarantees that Samsung’s Galaxy S26 series will once again feature in-house silicon, though distribution is still expected to differ depending on the region.
While the Exynos 2600 looks set for a comeback, reports continue to conflict on how Samsung will split its lineup between Exynos and Snapdragon chips. For now, the strongest hints suggest the United States and South Korea may stick with Snapdragon, while other markets could see the new Exynos processor power Samsung’s upcoming flagships. The lack of clarity has left observers waiting for official confirmation.
The company previously struggled to bring its 3 nm Exynos 2500 to market, a delay that forced Samsung to ship the Galaxy S25 lineup exclusively with Qualcomm’s Snapdragon 8 Elite. That chip only surfaced later in the Galaxy Z Flip 7, highlighting how difficult scaling advanced nodes has been. Samsung’s 2 nm breakthrough reflects a sharp change in focus since those setbacks.
Even though Exynos appears stronger than ever, some industry chatter suggests the Galaxy S26 may face pushback due to controversial design alterations. The Edge and Ultra redesigns are already dividing opinion, raising the possibility that hardware aesthetics could end up shaping customer reactions more than the chip inside.