One of the world’s largest memory chipmakers is signaling that the global shortage of RAM and storage is no longer a cyclical blip but a prolonged structural challenge, as the explosive growth of artificial intelligence continues to outstrip supply across the semiconductor industry.

Micron Technology CEO Sanjay Mehrotra delivered the warning during the company’s latest earnings call, telling investors that tight conditions across memory markets are likely to persist for years rather than quarters. The imbalance, he said, reflects a sharp acceleration in AI-related demand colliding with the hard physical limits of semiconductor manufacturing.

“Sustained and strong industry demand, along with supply constraints, are contributing to tight market conditions and we expect these conditions to persist beyond calendar 2026,” Mehrotra said, tempering expectations that new capacity will quickly ease shortages.

At the heart of the supply crunch is the scale of AI data center expansion. Mehrotra said customers have significantly upgraded their buildout plans in recent months, forcing Micron and its peers to revise demand forecasts sharply upward.

“Over the last few months, our customers’ AI data center buildout plans have driven a sharp increase in demand forecast for memory and storage,” he said. “We believe that the aggregate industry supply will remain substantially short of the demand for the foreseeable future.”

AI workloads consume vastly more memory than traditional computing. Training and running large language models requires high-bandwidth memory, advanced DRAM, and large volumes of NAND storage, often deployed in dense, power-hungry server configurations. As AI adoption spreads from hyperscalers to enterprises and governments, memory intensity per server continues to rise, compounding pressure on supply.

Mehrotra said these dynamics are affecting both major memory segments. “Together, these demand and supply factors are driving tight industry conditions across DRAM and NAND and we expect tightness to persist through and beyond calendar 2026,” he noted.

Supply growth constrained by long lead times

While demand has surged, the industry’s ability to respond remains limited. Building new semiconductor fabs or expanding existing ones is a multiyear process that requires massive capital investment, access to advanced lithography tools, and a highly specialized workforce.

Even with aggressive spending, new facilities can take several years before reaching meaningful output. Advanced memory products such as high-bandwidth memory add another layer of complexity, with lower yields and more intricate manufacturing steps than conventional DRAM.

Mehrotra acknowledged that Micron is already operating under strain.

“Despite significant efforts, we are disappointed to be unable to meet demand from our customers across all market segments,” he said, underscoring that shortages are not confined to AI alone but are spilling into other end markets.

Industry discipline reinforces tightness

Micron’s outlook aligns with recent signals from its main competitors, Samsung Electronics and SK Hynix, both of which have cautioned that memory constraints are likely to linger. Rather than rushing to add capacity, leading manufacturers are exercising restraint, shaped by hard lessons from past boom-and-bust cycles.

Samsung has previously said it prefers maintaining long-term profitability and balance sheet strength over aggressive expansion that could trigger another oversupply crash. SK Hynix has similarly highlighted the risks of overbuilding, particularly given the capital intensity and technical difficulty of scaling advanced memory for AI accelerators.

This discipline means that even as prices rise, supply growth will remain measured, reinforcing Mehrotra’s view that shortages are structural rather than temporary.

Broader implications for tech and pricing

For customers, prolonged tightness in memory markets is likely to keep prices elevated, raising the cost of AI infrastructure and pressuring margins for cloud providers, hardware makers, and enterprise IT budgets. Consumer electronics manufacturers could also face higher component costs, especially as devices increasingly rely on larger memory configurations to support AI features.

For memory producers, however, the environment supports stronger pricing power and improved profitability, provided they can execute on advanced products and manage capacity carefully.

Mehrotra’s comments point to a broader shift underway in the semiconductor industry. The AI boom has fundamentally altered demand patterns for memory, and the supply side is structurally constrained from responding at the same pace. Rather than a short-lived shortage, Micron is warning of a new normal in which tight memory markets extend deep into the second half of the decade.

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Google has pushed back its plan to fully replace Google Assistant with its Gemini AI across most Android devices, signaling that the company is taking a more cautious approach to one of the most consequential platform shifts in Android’s history.

The company said it is adjusting its previously announced timeline, which had targeted the end of 2025 for making Gemini the default digital assistant on most Android phones. Instead, Google now expects the transition to continue into 2026, saying it wants to ensure a “seamless transition” for users. Further details on the revised roadmap will be shared in the coming months, suggesting that the final switchover could extend beyond early 2026.

The delay is attributed to the technical and strategic complexity of replacing Google Assistant, a service that has been deeply embedded in Android for nearly a decade, with a far more advanced and resource-intensive AI system.

Google Assistant’s retirement became all but inevitable once Gemini was unveiled and began inheriting Assistant’s core functions, including voice commands, app control, and smart home management. That shift became tangible in 2024, when Google launched the Pixel 9 series with Gemini set as the default assistant, effectively positioning Assistant as legacy software on Google’s flagship hardware.

Since then, Google has been steadily integrating Gemini across its product ecosystem, spanning Search, Gmail, Docs, Chrome, and Android. The company has also said Gemini will power experiences beyond smartphones, including tablets, in-car systems, and accessories such as smartwatches and wireless earbuds that connect to Android phones.

However, moving from a dual-assistant phase to a complete handover has proven more difficult than expected.

A key constraint is hardware compatibility. Google has confirmed that only devices running Android 10 or later with at least 2GB of RAM will be eligible for the Gemini upgrade. While modest by flagship standards, that threshold excludes a significant number of older and low-end Android devices, particularly in emerging markets where Android’s global dominance is strongest.

Google Assistant was designed to operate efficiently on a wide range of hardware, including entry-level phones. Gemini, by contrast, relies more heavily on on-device processing and cloud-based AI inference, placing greater demands on memory, processing power, and network reliability. Ensuring consistent performance across millions of devices with vastly different capabilities remains a major challenge.

Beyond hardware, Google appears wary of disrupting everyday user habits. Assistant handles a wide range of routine tasks, from alarms and reminders to navigation, dictation, and home automation. Any degradation in speed, accuracy, or reliability during the transition could undermine user trust, especially among those who rely heavily on voice interactions.

By extending the timeline, Google is effectively buying itself room to close feature gaps, improve latency, and ensure Gemini can handle edge cases that Assistant has refined over years of real-world use.

The delay also comes amid intensifying competition in AI assistants. Apple is rolling out deeper AI integration across iOS, Microsoft continues to embed Copilot across Windows and enterprise software, and Amazon is rebuilding Alexa around generative AI. In that context, Google faces pressure not just to replace Assistant, but to deliver a clearly superior experience that justifies the shift.

Internally, Gemini is central to Google’s broader AI strategy, positioning the company to defend its dominance in search, mobile software and advertising as user behavior evolves toward conversational and AI-driven interfaces.

For now, Google Assistant will continue to coexist with Gemini on many Android devices, with Gemini gradually assuming more responsibilities as updates roll out. The extended timeline suggests Google is prioritizing stability and user confidence over speed, even as it pushes aggressively to make Gemini the connective tissue across its products.

While Assistant’s days are clearly numbered, Google’s revised plan signals that the company would rather arrive late with a fully formed AI assistant than rush a transition that risks alienating its massive Android user base.