{"id":5833,"date":"2026-01-20T20:25:43","date_gmt":"2026-01-20T19:25:43","guid":{"rendered":"https:\/\/tesliens.com\/non-categorise\/tesla-ai5-and-ai6-chips-samsung-launches-production-in-2026\/"},"modified":"2026-01-21T07:31:05","modified_gmt":"2026-01-21T06:31:05","slug":"tesla-ai5-and-ai6-chips-samsung-launches-production-in-2026","status":"publish","type":"post","link":"https:\/\/tesliens.com\/en\/news\/tesla-ai5-and-ai6-chips-samsung-launches-production-in-2026\/","title":{"rendered":"Tesla AI5 and AI6 Chips: Samsung Launches Production in 2026"},"content":{"rendered":"\n

Today, I\u2019m sharing information that will shape Tesla\u2019s technological future for years to come. Samsung has just reached a major milestone in the construction of its Texas mega-factory, the very one that will produce the famous AI5 and AI6 chips<\/strong> for the brand\u2019s autonomous vehicles. With a precise timeline pointing to March 2026<\/strong> for the start of critical tests, the stakes are enormous: these semiconductors will power Full Self-Driving<\/strong> and the future Robotaxi fleet. And this is just the beginning of an ultra-aggressive roadmap that extends to AI9. <\/p>\n\n

Samsung\u2019s Texas Factory Enters Critical Phase<\/h2>\n\n

Samsung is about to launch a decisive phase at its Taylor factory in Texas. Starting March 2026<\/strong>, the first tests of EUV (extreme ultraviolet lithography) equipment will begin at this gigantic site of 4.85 million m\u00b2<\/strong>. <\/p>\n\n

To give you an idea of the project\u2019s scale, approximately 7,000 workers<\/strong> are currently active on site, including a thousand in the engineering offices. The recent request for temporary occupancy permits signals intensive preparation before the launch of production operations. <\/p>\n\n

What particularly strikes me is the geographical proximity to Tesla\u2019s Gigafactory Texas in Austin. Samsung didn\u2019t set up shop there by chance: this strategic location facilitates direct collaboration with Tesla\u2019s teams. <\/p>\n\n

EUV is the technology that enables etching using a 2-nanometer process<\/strong>, the current pinnacle of semiconductor miniaturization. A technical feat that will literally transform the computing capabilities embedded in our vehicles. <\/p>\n

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\"Tesla<\/figure>\n<\/div>\n

Tesla Relies on a Dual Supply Source<\/h2>\n\n

Samsung (2nm) and TSMC (3nm): Two Complementary Allies<\/h3>\n\n

Tesla isn\u2019t putting all its eggs in one basket. The company simultaneously relies on Samsung<\/strong> for its next-generation 2nm process and on TSMC<\/strong> for its already proven 3nm process. <\/p>\n\n

This redundancy<\/strong> strategy is not insignificant. It helps secure production against industrial and geopolitical uncertainties. We all remember the semiconductor shortages between 2020 and 2022 that paralyzed the global automotive industry. <\/p>\n\n

Samsung\u2019s 2nm theoretically offers better energy performance and superior computing power. TSMC\u2019s 3nm, on the other hand, brings the maturity of an already mastered process, with fewer manufacturing defect risks. <\/p>\n\n

An American-Style Industrial Sovereignty Strategy<\/h3>\n\n

By diversifying its suppliers, Tesla applies a rule that every Tesla owner knows well: always have a Plan B. But there\u2019s more to it than that.<\/p>\n\n

Production on American soil significantly reduces geopolitical risks. Unlike Europe, which heavily relies on Asian chips, the United States is rebuilding its industrial sovereignty in this strategic sector. <\/p>\n\n

The American CHIPS Act<\/strong> has created a favorable context for this relocation. Musk thus secures the most critical supply chain<\/strong> for the development of embedded artificial intelligence. This approach also recalls that as with batteries produced in China, the question of industrial sovereignty arises<\/a> differently depending on the components and target markets. <\/p>\n\n

An Ultra-Aggressive AI Roadmap: From AI5 to AI9<\/h2>\n\n

Hold on tight, because the timeline announced by Musk is enough to make your head spin. Tesla plans a 9-month development cycle<\/strong> per chip generation. Yes, you read that right: 9 months. <\/p>\n\n

Specifically, here\u2019s what that means:<\/p>\n\n