Hold on to Your Hardware
Tl;dr at the end. For the better part of two decades, consumers lived in a golden age of tech. Memory got cheaper, storage increased in capacity and hardware got faster and absurdly affordable. Upgrades were routine, almost casual. If you needed more RAM, a bigger SSD, or a faster CPU or GPU, you barely had to wait a week for a discount offer and you moved on with your life. This era is ending. What’s forming now isn’t just another pricing cycle or a short-term shortage, it is a structural shift in the hardware industry that paints a deeply grim outlook for consumers. Today, I am urging you to hold on to your hardware, as you may not be able to replace it affordably in the future. While I have always been a stark critic of today’s consumer industry , as well as the ideas behind it , and a strong proponent of buying it for life (meaning, investing into durable, repairable, quality products) the industry’s shift has nothing to do with the protection of valuable resources or the environment, but is instead a move towards a trajectory that has the potential to erode technological self-sufficiency and independence for people all over the world. In recent months the buzzword RAM-pocalypse has started popping up across tech journalism and enthusiast circles. It’s an intentionally dramatic term that describes the sharp increase in RAM prices, primarily driven by high demand from data centers and “AI” technology, which most people had considered a mere blip in the market. This presumed temporary blip , however, turned out to be a lot more than just that, with one manufacturer after the other openly stating that prices will continue to rise, with suppliers forecasting shortages of specific components that could last well beyond 2028, and with key players like Western Digital and Micron either completely disregarding or even exiting the consumer market altogether. Note: Micron wasn’t just another supplier , but one of the three major players directly serving consumers with reasonably priced, widely available RAM and SSDs. Its departure leaves the consumer memory market effectively in the hands of only two companies: Samsung and SK Hynix . This duopoly certainly doesn’t compete on your wallet’s behalf, and it definitely wouldn’t be the first time it would optimize for margins . The RAM-pocalypse isn’t just a temporary headline anymore, but has seemingly become long-term reality. However, RAM and memory in general is only the beginning. The main reason for the shortages and hence the increased prices is data center demand, specifically from “AI” companies. These data centers require mind-boggling amounts of hardware, specifically RAM, storage drives and GPUs, which in turn are RAM-heavy graphics units for “AI” workloads. The enterprise demand for specific components simply outpaces the current global production capacity, and outbids the comparatively poor consumer market. For example, OpenAI ’s Stargate project alone reportedly requires approximately 900,000 DRAM wafers per month , which could account for roughly 40% of current global DRAM output. Other big tech giants including Google , Amazon , Microsoft , and Meta have placed open-ended orders with memory suppliers, accepting as much supply as available. The existing and future data centers for/of these companies are expected to consume 70% of all memory chips produced in 2026. However, memory is just the first domino. RAM and SSDs are where the pain is most visible today, but rest assured that the same forces are quietly reshaping all aspects of consumer hardware. One of the most immediate and tangible consequences of this broader supply-chain realignment are sharp, cascading price hikes across consumer electronics, with LPDDR memory standing out as an early pressure point that most consumers didn’t recognize until it was already unavoidable. LPDDR is used in smartphones, laptops, tablets, handheld consoles, routers, and increasingly even low-power PCs. It sits at the intersection of consumer demand and enterprise prioritization, making it uniquely vulnerable when manufacturers reallocate capacity toward “AI” accelerators, servers, and data-center-grade memory, where margins are higher and contracts are long-term. As fabs shift production toward HBM and server DRAM , as well as GPU wafers, consumer hardware production quietly becomes non-essential , tightening supply just as devices become more power- and memory-hungry, all while continuing on their path to remain frustratingly unserviceable and un-upgradable. The result is a ripple effect, in which device makers pay more for chips and memory and pass those costs on through higher retail prices, cut base configurations to preserve margins, or lock features behind premium tiers. At the same time, consumers lose the ability to compensate by upgrading later, because most components these days, like LPDDR , are soldered down by design. This is further amplified by scarcity, as even modest supply disruptions can spike prices disproportionately in a market where just a few suppliers dominate, turning what should be incremental cost increases into sudden jumps that affect entire product categories at once. In practice, this means that phones, ultrabooks, and embedded devices are becoming more expensive overnight, not because of new features, but because the invisible silicon inside them has quietly become a contested resource in a world that no longer builds hardware primarily for consumers. In late January 2026, the Western Digital CEO confirmed during an earnings call that the company’s entire HDD production capacity for calendar year 2026 is already sold out. Let that sink in for a moment. Q1 hasn’t even ended and a major hard drive manufacturer has zero remaining capacity for the year. Firm purchase orders are in place with its top customers, and long-term agreements already extend into 2027 and 2028. Consumer revenue now accounts for just 5% of Western Digital ’s total sales, while cloud and enterprise clients make up 89%. The company has, for all practical purposes, stopped being a consumer storage company. And Western Digital is not alone. Kioxia , one of the world’s largest NAND flash manufacturers, admitted that its entire 2026 production volume is already in a “sold out” state , with the company expecting tight supply to persist through at least 2027 and long-term customers facing 30% or higher year-on-year price increases. Adding to this, the Silicon Motion CEO put it bluntly during a recent earnings call : We’re facing what has never happened before: HDD, DRAM, HBM, NAND… all in severe shortage in 2026. In addition, the Phison CEO has gone even further, warning that the NAND shortage could persist until 2030, and that it risks the “destruction” of entire segments of the consumer electronics industry. He also noted that factories are now demanding prepayment for capacity three years in advance , an unprecedented practice that effectively locks out smaller players. The collateral damage of this can already be felt, and it’s significant. For example Valve confirmed that the Steam Deck OLED is now out of stock intermittently in multiple regions “due to memory and storage shortages” . All models are currently unavailable in the US and Canada, the cheaper LCD model has been discontinued entirely, and there is no timeline for when supply will return to normal. Valve has also been forced to delay the pricing and launch details for its upcoming Steam Machine console and Steam Frame VR headset, directly citing memory and storage shortages. At the same time, Sony is considering delaying the PlayStation 6 to 2028 or even 2029, and Nintendo is reportedly contemplating a price increase for the Switch 2 , less than a year after its launch. Both decisions are seemingly driven by the same memory supply constraints. Meanwhile, Microsoft has already raised prices on the Xbox . Now you might think that everything so far is about GPUs and other gaming-related hardware, but that couldn’t be further from the truth. General computing, like the Raspberry Pi is not immune to any of this either. The Raspberry Pi Foundation has been forced to raise prices twice in three months, with the flagship Raspberry Pi 5 (16GB) jumping from $120 at launch to $205 as of February 2026, a 70% increase driven entirely by LPDDR4 memory costs. What was once a symbol of affordable computing is rapidly being priced out of reach for the educational and hobbyist communities it was designed to serve. HP, on the other hand, seems to have already prepared for the hardware shortage by launching a laptop subscription service where you pay a monthly fee to use a laptop but never own it , no matter how long you subscribe. While HP frames this as a convenience, the timing, right in the middle of a hardware affordability crisis, makes it feel a lot more like a preview of a rented compute future. But more on that in a second. “But we’ve seen price spikes before, due to crypto booms, pandemic shortages, factory floods and fires!” , you might say. And while we did live through those crises, things eventually eased when bubbles popped and markets or supply chains recovered. The current situation, however, doesn’t appear to be going away anytime soon, as it looks like the industry’s priorities have fundamentally changed . These days, the biggest customers are not gamers, creators, PC builders or even crypto miners anymore. Today, it’s hyperscalers . Companies that use hardware for “AI” training clusters, cloud providers, enterprise data centers, as well as governments and defense contractors. Compared to these hyperscalers consumers are small fish in a big pond. These buyers don’t care if RAM costs 20% more and neither do they wait for Black Friday deals. Instead, they sign contracts measured in exabytes and billions of dollars. With such clients lining up, the consumer market in contrast is suddenly an inconvenience for manufacturers. Why settle for smaller margins and deal with higher marketing and support costs, fragmented SKUs, price sensitivity and retail logistics headaches, when you can have behemoths throwing money at you? Why sell a $100 SSD to one consumer, when you can sell a whole rack of enterprise NVMe drives to a data center with circular virtually infinite money? Guaranteed volume, guaranteed profit, zero marketing. The industry has answered these questions loudly. All of this goes to show that the consumer market is not just deprioritized, but instead it is being starved . In fact, IDC has already warned that the PC market could shrink by up to 9% in 2026 due to skyrocketing memory prices, and has described the situation not as a cyclical shortage but as “a potentially permanent, strategic reallocation of the world’s silicon wafer capacity” . Leading PC OEMs including Lenovo , Dell , HP , Acer , and ASUS have all signaled 15-20% PC price increases for 2026, with some models seeing even steeper hikes. Framework , the repairable laptop company, has also been transparent about rising memory costs impacting its pricing. And analyst Jukan Choi recently revised his shortage timeline estimate , noting that DRAM production capacity is expected to grow at just 4.8% annually through 2030, with even that incremental capacity concentrated on HBM rather than consumer memory. TrendForce ’s latest forecast projects DRAM contract prices rising by 90-95% quarter over quarter in Q1 2026. And that is not a typo. The price of hardware is one thing, but value-for-money is another aspect that appears to be only getting worse from here on. Already today consumer parts feel like cut-down versions of enterprise silicon. As “AI” accelerators and server chips dominate R&D budgets, consumer improvements will slow even further, or arrive at higher prices justified as premium features . This is true for CPUs and GPUs, and it will be equally true for motherboards, chipsets, power supplies, networking, etc. We will likely see fewer low-end options, more segmentation, artificial feature gating and generally higher baseline prices that, once established, won’t be coming back down again. As enterprise standards become the priority, consumer gear is becoming an afterthought that is being rebadged, overpriced, and poorly supported. The uncomfortable truth is that the consumer hardware market is no longer the center of gravity, as we all were able to see at this year’s CES . It’s orbiting something much larger, and none of this is accidental. The industry isn’t failing, it’s succeeding, just not for you . And to be fair, from a corporate standpoint, this pivot makes perfect sense. “AI” and enterprise customers are rewriting revenue charts, all while consumers continue to be noisy, demanding, and comparatively poor. It is pretty clear that consumer hardware is becoming a second-class citizen, which means that the machines we already own are more valuable than we might be thinking right now. “But what does the industry think the future will look like if nobody can afford new hardware?” , you might be asking. There is a darker, conspiratorial interpretation of today’s hardware trends that reads less like market economics and more like a rehearsal for a managed future. Businesses, having discovered that ownership is inefficient and obedience is profitable, are quietly steering society toward a world where no one owns compute at all, where hardware exists only as an abstraction rented back to the public through virtual servers, SaaS subscriptions, and metered experiences , and where digital sovereignty, that anyone with a PC tower under their desk once had, becomes an outdated, eccentric, and even suspicious concept. … a morning in said future, where an ordinary citizen wakes up, taps their terminal, which is a sealed device without ports, storage, and sophisticated local execution capabilities, and logs into their Personal Compute Allocation . This bundle of cloud CPU minutes, RAM credits, and storage tokens leased from a conglomerate whose logo has quietly replaced the word “computer” in everyday speech, just like “to search” has made way for “to google” , has removed the concept of installing software, because software no longer exists as a thing , but only as a service tier in which every task routes through servers owned by entities. Entities that insist that this is all for the planet . Entities that outlawed consumer hardware years ago under the banner of environmental protectionism , citing e-waste statistics, carbon budgets , and unsafe unregulated silicon , while conveniently ignoring that the data centers humming beyond the city limits burn more power in an hour than the old neighborhood ever did in a decade. In this world, the ordinary citizen remembers their parents’ dusty Personal Computer , locked away in a storage unit like contraband. A machine that once ran freely, offline if it wanted, immune to arbitrary account suspensions and pricing changes. As they go about their day, paying a micro-fee to open a document, losing access to their own photos because a subscription lapsed, watching a warning banner appear when they type something that violates the ever evolving terms-of-service, and shouting “McDonald’s!” to skip the otherwise unskippable ads within every other app they open, they begin to understand that the true crime of consumer hardware wasn’t primarily pollution but independence. They realize that owning a machine meant owning the means of computation , and that by centralizing hardware under the guise of efficiency, safety, and sustainability, society traded resilience for convenience and autonomy for comfort. In this dyst… utopia , nothing ever breaks because nothing is yours , nothing is repairable because nothing is physical, and nothing is private because everything runs somewhere else , on someone else’s computer . The quiet moral, felt when the network briefly stutters and the world freezes, is that keeping old hardware alive was never nostalgia or paranoia, but a small, stubborn act of digital self-defense; A refusal to accept that the future must be rented, permissioned, and revocable at any moment. If you think that dystopian “rented compute over owned hardware” future could never happen, think again . In fact, you’re already likely renting rather than owning in many different areas. Your means of communication are run by Meta , your music is provided by Spotify , your movies are streamed from Netflix , your data is stored in Google ’s data centers and your office suite runs on Microsoft ’s cloud. Maybe even your car is leased instead of owned, and you pay a monthly premium for seat heating or sElF-dRiViNg , whatever that means. After all, the average Gen Z and Millennial US consumer today apparently has 8.2 subscriptions , not including their DaIlY aVoCaDo ToAsTs and StArBuCkS cHoCoLate ChIp LaTtEs that the same Boomers responsible for the current (and past) economic crises love to dunk on. Besides, look no further than what’s already happening in for example China, a country that manufactures massive amounts of the world’s sought-after hardware yet faces restrictions on buying that very hardware. In recent years, a complex web of export controls and chip bans has put a spotlight on how hardware can become a geopolitical bargaining chip rather than a consumer good. For example, export controls imposed by the United States in recent years barred Nvidia from selling many of its high-performance GPUs into China without special licenses, significantly reducing legal access to cutting-edge compute inside the country. Meanwhile, enforcement efforts have repeatedly busted smuggling operations moving prohibited Nvidia chips into Chinese territory through Southeast Asian hubs, with over $1 billion worth of banned GPUs reportedly moving through gray markets, even as official channels remain restricted. Coverage by outlets such as Bloomberg , as well as actual investigative journalism like Gamer’s Nexus has documented these black-market flows and the lengths to which both sides go to enforce or evade restrictions, including smuggling networks and increased regulatory scrutiny. On top of this, Chinese regulators have at times restricted domestic tech firms from buying specific Nvidia models, further underscoring how government policy can override basic market access for hardware, even in the country where much of that hardware is manufactured. While some of these export rules have seen partial reversals or regulatory shifts, the overall situation highlights a world in which hardware access is increasingly determined by politics, security regimes, and corporate strategy, and not by consumer demand . This should serve as a cautionary tale for anyone who thinks owning their own machines won’t matter in the years to come. In an ironic twist, however, one of the few potential sources of relief may, in fact, come from China. Two Chinese manufacturers, CXMT ( ChangXin Memory Technologies ) and YMTC ( Yangtze Memory Technologies ), are embarking on their most aggressive capacity expansions ever , viewing the global shortage as a golden opportunity to close the gap with the incumbent big three ( Samsung , SK Hynix , Micron ). CXMT is now the world’s fourth-largest DRAM maker by production volume, holding roughly 10-11% of global wafer capacity, and is building a massive new DRAM facility in Shanghai expected to be two to three times larger than its existing Hefei headquarters, with volume production targeted for 2027. The company is also preparing a $4.2 billion IPO on Shanghai’s STAR Market to fund further expansion and has reportedly delivered HBM3 samples to domestic customers including Huawei . YMTC , traditionally a NAND flash supplier, is constructing a third fab in Wuhan with roughly half of its capacity dedicated to DRAM, and has reached 270-layer 3D NAND capability, rapidly narrowing the gap with Samsung (286 layers) and SK Hynix (321 layers). Its NAND market share by shipments reached 13% in Q3 2025, close to Micron ’s 14%. What’s particularly notable is that major PC manufacturers are already turning to these suppliers . However, as mentioned before, with hardware having become a geopolitical topic, both companies face ongoing (US-imposed) restrictions. Hence, for example HP has indicated it would only use CXMT chips in devices for non-US markets. Nevertheless, for consumers worldwide the emergence of viable fourth and fifth players in the memory market represents the most tangible hope of eventually breaking the current supply stranglehold. Whether that relief arrives in time to prevent lasting damage to the consumer hardware ecosystem remains an open question, though. Polymarket bet prediction : A non-zero percentage of people will confuse Yangtze Memory Technologies with the Haskell programming language . The reason I’m writing all of this isn’t to create panic, but to help put things into perspective. You don’t need to scavenger-hunt for legacy parts in your local landfill (yet) or swear off upgrades forever, but you do need to recognize that the rules have changed . The market that once catered to enthusiasts and everyday users is turning its back. So take care of your hardware, stretch its lifespan, upgrade thoughtfully, and don’t assume replacement will always be easy or affordable. That PC, laptop, NAS, or home server isn’t disposable anymore. Clean it, maintain it, repaste it, replace fans and protect it, as it may need to last far longer than you originally planned. Also, realize that the best time to upgrade your hardware was yesterday and that the second best time is now . If you can afford sensible upgrades, especially RAM and SSD capacity, it may be worth doing sooner rather than later. Not for performance, but for insurance, because the next time something fails, it might be unaffordable to replace, as the era of casual upgrades seems to be over. Five-year systems may become eight- or ten-year systems. Software bloat will hurt more and will require re-thinking . Efficiency will matter again . And looking at it from a different angle, maybe that’s a good thing. Additionally, the assumption that prices will normalize again at some point is most likely a pipe dream. The old logic wait a year and it’ll be cheaper no longer applies when manufacturers are deliberately constraining supply. If you need a new device, buy it; If you don’t, however, there is absolutely no need to spend money on the minor yearly refresh cycle any longer, as the returns will be increasingly diminishing. And again, looking at it from a different angle, probably that is also a good thing. Consumer hardware is heading toward a bleak future where owning powerful, affordable machines becomes harder or maybe even impossible, as manufacturers abandon everyday users to chase vastly more profitable data centers, “AI” firms, and enterprise clients. RAM and SSD price spikes, Micron ’s exit from the consumer market, and the resulting Samsung / SK Hynix duopoly are early warning signs of a broader shift that will eventually affect CPUs, GPUs, and the entire PC ecosystem. With large manufacturers having sold out their entire production capacity to hyperscalers for the rest of the year while simultaneously cutting consumer production by double-digit percentages, consumers will have to take a back seat. Already today consumer hardware is overpriced, out of stock or even intentionally being delayed due to supply issues. In addition, manufacturers are pivoting towards consumer hardware subscriptions, where you never own the hardware and in the most dystopian trajectory, consumers might not buy any hardware at all, with the exception of low-end thin-clients that are merely interfaces , and will rent compute through cloud platforms, losing digital sovereignty in exchange for convenience. And despite all of this sounding like science fiction, there is already hard evidence proving that access to hardware can in fact be politically and economically revoked. Therefor I am urging you to maintain and upgrade wisely, and hold on to your existing hardware , because ownership may soon be a luxury rather than the norm.
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