SODIMM RAM Market | Latest Analysis, Demand Trends, Growth Forecast

SODIMM RAM Market definition, usage base and compact-computing demand profile

SODIMM RAM is the small-outline dual in-line memory module used mainly in laptops, mini PCs, all-in-one PCs, embedded boards, industrial computers, medical terminals, networking appliances, and edge-computing systems where full-size desktop DIMM modules are too large. The SODIMM RAM Market is estimated at about USD 7.8–8.4 billion in 2026, with unit demand tied closely to notebook PC production, commercial device refresh cycles, industrial embedded platforms, and DDR5 memory migration. In volume terms, laptops remain the largest demand pool because global PC shipments exceeded 270 million units in 2025, while Q1 2026 PC shipments reached 62.8 million units, up 4% year on year in Gartner’s preliminary count. However, the market is not expanding evenly: IDC’s February 2026 outlook expects worldwide PC units to decline 11.3% in 2026 because memory supply tightness is lifting ASPs and delaying some purchases, while PC market revenue is still projected to rise 1.6% because higher memory and component prices are flowing into system pricing.

SODIMM RAM Market demand is still led by notebooks, but the demand mix is moving toward DDR5, repairable designs and higher-capacity modules

The most important demand base for the SODIMM RAM Market remains notebook PCs. A mainstream commercial laptop typically uses 8 GB to 32 GB of memory, while gaming notebooks, mobile workstations, creator laptops, and engineering devices increasingly move toward 32 GB, 64 GB, or higher configurations. This does not mean every laptop uses socketed SODIMM. Thin-and-light notebooks often use soldered LPDDR memory, and newer CAMM2/LPCAMM2 formats are beginning to challenge SODIMM in premium designs. Still, SODIMM remains relevant where OEMs need serviceability, channel configurability, and inventory flexibility.

The demand pattern in 2026 is therefore split into two layers. The first is factory-installed memory in notebooks and compact PCs. The second is aftermarket upgrade demand from users extending device life because new system prices have risen. IDC’s 2026 PC forecast is a useful indicator here: fewer units may ship, but higher ASPs and memory shortages make upgrade economics more attractive for users with socketed laptops or mini PCs. In practical terms, a customer with a 2022–2024 business laptop using 8 GB or 16 GB DDR4/DDR5 SODIMM may choose a 16 GB or 32 GB upgrade rather than replacing the machine.

Demand area	2026 demand signal	Impact on SODIMM RAM Market
Commercial notebooks	Large installed base; slower replacement in high-price environment	Upgrade demand supports 16 GB and 32 GB modules
Gaming and creator laptops	Higher graphics and AI workload intensity	Stronger pull for 32 GB and 64 GB DDR5 SODIMM
Mini PCs and NUC-type systems	Compact desktops using laptop-class components	Continued use of DDR5 SODIMM in small chassis
Industrial PCs and edge systems	AI vision, automation, transport and medical terminals	Demand for rugged, wide-temperature and long-lifecycle SODIMM
Thin-and-light premium laptops	Growing LPDDR and CAMM2 penetration	Partial substitution risk for traditional SODIMM

United States and Europe show replacement-led SODIMM RAM Market demand from enterprise laptops, edge PCs and serviceable computing fleets

North America is a consumption-heavy region for the SODIMM RAM Market because enterprise notebook fleets, healthcare terminals, retail systems, education devices, and compact workstations generate recurring memory demand. The United States does not dominate notebook assembly, but it is one of the largest demand centers for commercial PCs, gaming systems, and upgrade memory sold through retail and system-integrator channels. In 2026, the stronger demand pocket is not low-end consumer laptops; it is commercial replacement, workstation-class laptops, and small-form-factor PCs used in business and edge deployments.

A key demand support comes from AI PC and edge AI use cases. AI-capable notebooks need higher local memory headroom for multitasking, AI assistants, coding tools, security software, and heavier browser workloads. Even when the neural processing unit is integrated into the processor, system memory becomes more important because local inferencing, video enhancement, and workflow automation increase the working dataset on the device. The effect is not uniform across all notebooks, but it pushes OEM configurations away from 8 GB and toward 16 GB as a baseline, while 32 GB becomes more common in premium and enterprise models.

Europe has a similar demand structure but a more conservative procurement profile. Germany, France, the U.K., Netherlands, and the Nordics represent stronger demand for business laptops, industrial automation PCs, medical devices, and embedded computing. Germany is particularly relevant because factory automation, machine vision, industrial IoT gateways, and transport electronics require memory modules with longer lifecycle support than consumer notebooks. For the SODIMM RAM Market, this creates a premium industrial sub-segment where reliability, thermal tolerance, controlled bill-of-material continuity, and vendor qualification matter more than lowest price.

China remains central to notebook assembly and demand, while Southeast Asia is gaining production relevance for SODIMM-equipped systems

China remains the largest production-side geography for notebooks and compact PCs, even as OEMs diversify final assembly. The country’s computer manufacturing base still represents a major demand channel for SODIMM RAM because module makers, ODMs, EMS providers, and notebook brands source memory close to assembly clusters. China also remains a major domestic demand market for laptops, gaming notebooks, education devices, and small-form-factor PCs.

The geographic shift is in Southeast Asia. Omdia’s September 2025 notebook PC OEM capacity analysis indicated that Vietnam and Thailand are expanding PC OEM capacity, with Southeast Asia’s notebook PC OEM capacity share expected to approach one-quarter of global capacity in 2026. This matters for the SODIMM RAM Market because memory module procurement follows notebook assembly footprints. As more final assembly shifts to Vietnam and Thailand, module distribution, testing, logistics, and regional inventory buffers also become more important around ASEAN production hubs.

For customers, this shift is not just a sourcing story. Global notebook brands want dual-region assembly to reduce tariff exposure, lower China-plus-one risk, and improve resilience against port congestion or policy disruption. For memory suppliers, it increases the need for flexible channel inventory across China, Taiwan, Vietnam, Thailand, and Malaysia.

India is becoming a demand and assembly-growth market for SODIMM RAM through IT hardware localization

India is not yet a dominant producer of DRAM modules, but it is becoming more relevant for SODIMM RAM Market demand because notebook, tablet, server, and electronics assembly are policy-supported. India’s Ministry of Electronics and IT reported in February 2026 that electronics manufacturing incentives had attracted INR 15,172 crore of investment by December 2025 and generated 171,448 additional jobs. The same government response also referenced the PLI 2.0 scheme for IT hardware covering laptops, tablets, servers and related devices, with cumulative production of INR 16,531 crore by December 2025.

This development impacts SODIMM RAM demand in two ways. First, local assembly of laptops and IT hardware creates module procurement needs even when DRAM wafers and memory ICs remain imported. Second, India’s domestic commercial PC base is expanding through enterprise digitization, education procurement, IT services, and government-backed electronics manufacturing. A locally assembled business laptop using socketed DDR5 SODIMM may still depend on imported DRAM chips, but memory configuration, testing, service replacement, and channel upgrades can become more localized.

India’s demand is also price-sensitive. If memory shortages keep DRAM prices elevated in 2026, low-end notebook models may ship with lower baseline memory. That can later create aftermarket upgrade demand for 8 GB to 16 GB transitions, especially in small business, student, and repair-channel segments.

Industrial customers are turning SODIMM RAM into a higher-value embedded memory category

The industrial side of the SODIMM RAM Market is smaller than notebook demand but more resilient. Industrial PCs, machine-vision systems, logistics terminals, railway computers, medical imaging consoles, telecom appliances, and edge AI boxes often require compact memory modules with extended temperature support and long product availability. Advantech’s March 2026 launch of SQRAM DDR5 7200 MT/s industrial memory, with up to 64 GB per module and up to 256 GB per system, shows how industrial suppliers are positioning SODIMM-class memory for edge AI workloads. The company stated that DDR5 7200 MT/s gives a 12.5% performance increase over DDR5 6400 and is targeted at outdoor and data-intensive edge computing applications.

This is a direct demand driver because industrial customers do not refresh systems like consumer laptop buyers. Once an automation platform or embedded PC is certified, the memory module must remain available for years. That supports higher-margin industrial SODIMM RAM, especially ECC, wide-temperature, conformal-coated, anti-sulfuration, and high-reliability variants.

Semiconductor and electronics manufacturing itself is also creating indirect demand. SEMI reported in April 2026 that worldwide 300mm fab equipment spending is expected to rise 18% to USD 133 billion in 2026 and another 14% to USD 151 billion in 2027. Fab automation, inspection tools, cleanroom logistics, equipment controllers, and industrial edge systems require embedded computing hardware, some of which uses rugged SODIMM memory. This does not make fabs the largest customer group, but it creates a quality-sensitive demand pocket linked to factory automation and semiconductor capacity expansion.

Customer examples show why SODIMM RAM demand remains diversified despite substitution from soldered memory and CAMM2

Mini PCs are a clear customer category. ASUS’s ROG NUC 2025 product line uses user-accessible DDR5 SO-DIMM slots, and the company highlights quick internal access for DDR5 SO-DIMM and M.2 upgrades. This type of compact gaming and creator PC supports the SODIMM RAM Market because it uses laptop-class memory in desktop-like use cases. ASUS India’s NUC portfolio also lists compact systems with up to 32 GB DDR5 RAM, reinforcing that mini PCs remain a practical demand outlet for SODIMM configurations.

The substitution risk is real. JEDEC’s CAMM2 standard was revised in December 2024 after the original JESD318 standard, and CAMM2/LPCAMM2 is being promoted for lower-profile, repairable laptop memory designs. Kingston also notes that CAMM2 can provide lower-profile replaceable memory compared with soldered LPDDR in thin systems. This means the SODIMM RAM Market will not capture every notebook memory upgrade cycle. Ultra-thin laptops may move away from SODIMM where board height and signal integrity matter more than channel-standard upgradeability.

Still, the 2026 demand base remains broad. Commercial laptops, education notebooks, gaming systems, industrial PCs, edge AI boxes, NUC-style mini PCs, point-of-sale terminals, and medical computers continue to require compact removable memory. The strongest value growth is expected in DDR5 SODIMM, 32 GB and 64 GB modules, industrial-grade memory, and regionalized supply for notebook assembly in China, Southeast Asia, India, and Taiwan-linked module ecosystems. The SODIMM RAM Market is therefore not simply a laptop replacement market; it is a compact-computing memory market shaped by serviceability, module density, industrial reliability, and the uneven transition from DDR4 to DDR5.

DDR5 migration is reshaping the SODIMM RAM Market through higher bandwidth, denser modules and tighter memory procurement

Technology change is highly relevant to the SODIMM RAM Market because the product is not only a physical module format; it is also tied to DRAM generation, laptop motherboard design, memory controller compatibility, and thermal limits inside compact systems. The strongest shift in 2026 is the move from DDR4 SODIMM to DDR5 SODIMM. DDR4 remains active in upgrade channels, value notebooks, embedded systems and long-lifecycle industrial PCs, but new commercial notebooks, gaming laptops, mobile workstations and compact desktops are increasingly configured around DDR5.

DDR5 SODIMM gives OEMs a cleaner path to higher bandwidth without increasing module footprint. In notebook and mini-PC systems, memory performance is becoming more important because CPUs now carry more cores, integrated graphics are stronger, and local AI workloads are beginning to use system memory more aggressively. Omdia reported that global PC shipments reached 64.8 million units in Q1 2026, with notebooks and mobile workstations at 50.8 million units, up 2.6% year on year. That notebook-heavy shipment mix keeps SODIMM relevant even as premium thin-and-light designs move toward soldered LPDDR or CAMM2 formats.

The transition is not only about speed. DDR5 SODIMM is also enabling 32 GB and 64 GB module adoption in higher-performance notebooks and compact industrial systems. In 2026, estimated revenue mix in the SODIMM RAM Market is shifting toward 16 GB and 32 GB modules, while 8 GB modules remain common in entry notebooks and repair channels. For new systems, 16 GB is becoming the practical baseline for business laptops, AI-ready notebooks and higher-end education devices. For gaming, engineering, software development and content-creation laptops, 32 GB and 64 GB configurations are gaining share.

Technology / capacity segment	Estimated 2026 revenue share in SODIMM RAM Market	Main demand base
DDR5 SODIMM	52–58%	New notebooks, mini PCs, gaming laptops, mobile workstations
DDR4 SODIMM	38–44%	Upgrade market, value laptops, industrial legacy platforms
DDR3 and legacy SODIMM	2–4%	Long-life embedded systems, repair demand
8 GB modules	24–28%	Entry notebooks, aftermarket replacement
16 GB modules	38–42%	Business laptops, mainstream upgrades, mini PCs
32 GB modules and above	30–34%	Gaming, workstation, industrial edge, creator systems

CAMM2 and soldered LPDDR create substitution pressure, but do not remove the serviceability advantage of SODIMM RAM

The main technology challenge for the SODIMM RAM Market is the rise of thinner memory architectures. Soldered LPDDR is already common in ultra-thin laptops because it reduces board space and power use. CAMM2 adds another competitive layer because it supports a lower-profile replaceable memory design. JEDEC’s CAMM2 standard covers DDR5 CAMM2 and LPDDR5/LPDDR5X CAMM2 modules for computers, laptops and other systems, with the December 2024 JESD318A revision formalizing the standard beyond proprietary CAMM implementations.

This matters because SODIMM has a height disadvantage in very thin notebook chassis. CAMM2 can allow replaceable memory in designs where traditional SODIMM slots are difficult to fit. However, the adoption curve will not be immediate across all PC categories. SODIMM has a large installed manufacturing ecosystem, strong channel availability, repair familiarity and broad compatibility across notebook, mini-PC and embedded system platforms. Commercial buyers also value field replacement because IT departments can upgrade fleet memory without replacing entire systems.

The likely outcome is not full displacement. Premium thin laptops may move faster toward LPDDR or CAMM2, while mainstream business notebooks, rugged laptops, gaming notebooks, NUC-type systems and industrial PCs continue to support DDR5 SODIMM. This keeps the SODIMM RAM Market positioned in serviceable computing rather than only in low-cost memory upgrades.

Industrial-grade SODIMM RAM is becoming a higher-value segment because edge systems require reliability over simple capacity

Industrial and embedded memory is a smaller but more profitable segment. Standard consumer SODIMM is sold mainly on capacity, speed and price. Industrial-grade SODIMM is evaluated on operating temperature, lifecycle continuity, BOM control, anti-sulfuration resistance, shock and vibration tolerance, and compatibility with embedded boards. Micron’s DRAM portfolio, for example, highlights industrial and automotive use cases where memory must meet extreme temperature and performance requirements rather than only consumer PC specifications.

The segment is benefiting from edge computing. Factory vision systems, medical imaging terminals, smart retail kiosks, telecom appliances, transport computers and autonomous logistics systems often use compact x86 or ARM-based boards that accept SODIMM. As AI inference moves closer to cameras, machines and gateways, memory capacity per industrial node is rising. A machine-vision box that previously required 8 GB or 16 GB may move to 32 GB or 64 GB when it runs local analytics, multiple video streams or model-based inspection software.

Semiconductor manufacturing itself also creates indirect demand. SEMI stated in April 2026 that worldwide 300mm fab equipment spending is projected to rise 18% to USD 133 billion in 2026 and 14% to USD 151 billion in 2027. Fab expansion increases demand for automation controllers, inspection systems, cleanroom logistics, tool controllers and industrial PCs, many of which use rugged memory modules in compact form factors.

SODIMM RAM Market production is concentrated around DRAM makers, module brands and notebook assembly clusters

Production dynamics in the SODIMM RAM Market have three layers. The first layer is DRAM wafer and die production, where Samsung Electronics, SK hynix and Micron dominate global supply. The second layer is module assembly and testing, where companies such as Kingston, ADATA, Transcend, Innodisk, Apacer, TeamGroup, SMART Modular, ATP Electronics and industrial memory suppliers participate. The third layer is notebook and mini-PC assembly, where ODMs and EMS firms convert memory modules into finished systems.

South Korea is critical on the upstream side because Samsung and SK hynix are major DRAM producers. The United States is important through Micron’s DRAM production and technology base. Taiwan has strong influence through module brands, industrial memory companies and PC supply-chain management. China remains central to finished notebook and PC assembly, even as production is being diversified. Omdia’s September 2025 assessment indicated that Vietnam and Thailand were gaining notebook OEM capacity, with Southeast Asia’s notebook PC OEM capacity share expected to approach one-quarter of global capacity in 2026.

Thailand is becoming particularly relevant in notebook assembly. TrendForce reported in September 2025 that HP, Quanta and Inventec were building production lines in Thailand, and that the country’s share of global notebook capacity was expected to reach 6.7% in 2025 as component suppliers moved in. This supports regional demand for SODIMM logistics, testing, inventory and configuration services near assembly hubs.

Regional production and demand balance in the SODIMM RAM Market

Region / country	2026 role in SODIMM RAM Market	Production and demand implication
South Korea	DRAM die supply center	Samsung and SK hynix influence global DDR5 supply and pricing
United States	DRAM producer and high-value demand market	Micron supply base; strong enterprise laptop and workstation demand
Taiwan	Module ecosystem and ODM coordination	Strong position in memory module brands, industrial memory and PC supply-chain control
China	Notebook assembly and large domestic PC market	Strong pull from OEM assembly, gaming notebooks, mini PCs and upgrade channels
Vietnam / Thailand	Expanding notebook assembly base	Rising local demand for module logistics and regional inventory
India	Growing IT hardware assembly and demand market	PLI-backed laptop/server assembly supports memory procurement and upgrade channels
Europe	Industrial PC and enterprise demand	Germany, France and U.K. support rugged, long-lifecycle SODIMM demand

India’s role is still more demand- and assembly-led than upstream memory-led. Government-backed IT hardware localization is relevant because laptops, tablets and servers require imported or locally configured memory modules. India’s Ministry of Electronics and IT reported in February 2026 that electronics manufacturing incentives had attracted INR 15,172 crore of investment by December 2025, while PLI 2.0 for IT hardware had generated cumulative production of INR 16,531 crore by December 2025. This strengthens the domestic assembly base for devices that use DRAM modules, including SODIMM-equipped commercial laptops and compact systems.

The SODIMM RAM Market therefore sits between two opposing forces. On one side, DDR5 migration, higher memory-per-system, edge computing and industrial PC demand lift value per module. On the other side, CAMM2, soldered LPDDR, notebook price pressure and DRAM supply tightness limit volume growth in some consumer systems. The strongest 2026 opportunity is not low-end memory; it is DDR5 SODIMM, 32 GB-plus modules, rugged industrial SODIMM, and regionalized supply serving notebook production in China, Taiwan-linked supply chains, Southeast Asia and India.

SODIMM RAM Market manufacturer structure, product portfolios and share concentration by supplier group

The SODIMM RAM Market has two different competitive layers. The first layer is upstream DRAM supply, where Samsung Electronics, SK hynix and Micron control most global DRAM bit output. The second layer is module branding and channel supply, where Kingston, Crucial, ADATA, Transcend, TeamGroup, Innodisk, Apacer, SMART Modular and ATP Electronics compete in consumer, commercial and industrial memory modules. For SODIMM specifically, public company-level market share is not disclosed in a clean standalone format, so the most reliable way to discuss share is by separating DRAM producer influence from third-party DRAM module revenue.

Samsung, SK hynix and Micron have the strongest structural influence because SODIMM modules depend on DRAM IC availability, DDR5 node transitions, packaging capacity and contract pricing. TrendForce data for Q4 2025 showed Samsung at about 36% DRAM revenue share, SK hynix at 32.1%, and Micron as the third large supplier, while the total DRAM market expanded sharply on stronger ASPs and AI-led memory demand. This concentration matters for the SODIMM RAM Market because notebook memory and upgrade modules compete for wafer allocation against HBM, server DDR5 and mobile DRAM. When DRAM suppliers prioritize higher-margin AI and server memory, consumer and notebook SODIMM availability can tighten.

Competitive layer	Leading companies	Estimated influence on SODIMM RAM Market	Basis of influence
DRAM IC supply	Samsung, SK hynix, Micron	Very high	Control DDR5/DDR4 die supply and pricing
Third-party DRAM modules	Kingston, ADATA, TeamGroup, Transcend, Innodisk, Apacer	High	Retail, channel, industrial and upgrade module supply
PC OEM memory procurement	Dell, HP, Lenovo, ASUS, Acer, MSI, Framework and ODMs	Medium to high	Factory-installed memory demand
Industrial memory suppliers	Innodisk, Transcend, Apacer, ATP, SMART Modular, Advantech	Medium	Long-lifecycle, rugged and embedded SODIMM demand

Kingston leads third-party memory modules and remains highly visible in SODIMM RAM Market channels

Kingston is the most visible third-party module supplier in the SODIMM RAM Market because it has broad channel coverage across laptop upgrades, gaming notebooks, mini-PCs and workstation memory. Kingston stated in October 2025 that it retained the No. 1 position in third-party DRAM modules with an estimated 66% global market share by revenue in TrendForce’s 2024 ranking. This figure is not SODIMM-only, but it is relevant because Kingston is one of the largest suppliers of branded notebook memory modules globally.

Kingston’s key SODIMM products include Kingston FURY Impact DDR5, positioned for gaming laptops and small-form-factor systems. The DDR5 FURY Impact line supports Intel XMP 3.0 certified SODIMM kits up to 64 GB, with Plug N Play overclocking on compatible systems. This product line addresses the high-value side of the SODIMM RAM Market, especially 32 GB and 64 GB upgrade kits for gaming notebooks, creator laptops and compact PCs.

Crucial, Micron’s consumer and commercial memory brand, is another major SODIMM supplier. Crucial DDR5 SODIMM modules are widely sold in 8 GB, 16 GB, 24 GB, 32 GB, 48 GB and 64 GB kit formats, with DDR5-5200 and DDR5-5600 speed classes visible in retail channels. The brand benefits from Micron’s upstream DRAM position, which gives it a stronger supply-chain linkage than many pure module houses. Crucial’s relevance in the SODIMM RAM Market is strongest in laptop upgrades, business notebook memory replacement and mainstream DDR5 migration.

Samsung, SK hynix and Micron shape factory-installed SODIMM supply more than branded retail share

Samsung supplies DDR5 DRAM and SODIMM modules into OEM and channel ecosystems. Its DDR5 product information highlights transfer speeds up to 7,200 Mbps and performance improvements over DDR4, while retail listings show Samsung DDR5 SO-DIMM modules in 8 GB and 16 GB formats at 5,600 MHz for notebook use. Samsung’s market role is stronger than retail visibility suggests because its DRAM ICs are used directly by OEMs and module makers.

SK hynix has similar influence. The company supplies DDR5 DRAM products and is visible in notebook SODIMM channels through DDR5 5,600 MHz modules. Its broader DRAM position gives it strong leverage over SODIMM pricing and availability, even though the company is less branded in retail laptop RAM than Kingston or Crucial.

Micron participates through both upstream DRAM and Crucial-branded modules. In the SODIMM RAM Market, this gives Micron exposure to factory-installed notebook memory, aftermarket laptop upgrades, and commercial device replacement demand. The key competitive advantage is vertical linkage: DRAM production, module validation, and branded distribution are closer than in independent module-house models.

Taiwan-based module suppliers compete through consumer upgrades, industrial SODIMM and embedded memory qualification

ADATA, Transcend, Innodisk and Apacer are important because Taiwan remains a strong memory-module and PC supply-chain hub. ADATA is active in DRAM modules and industrial-grade memory; its industrial division promotes DDR5 6400 CU/CSO-DIMM offerings, showing how module suppliers are preparing for higher-speed compact memory requirements in industrial and embedded systems.

Transcend supplies JetRam and embedded DDR5 SODIMM products. Its DDR5 5600 SO-DIMM modules are JEDEC-compliant and positioned for notebook and embedded upgrades, while ECC SO-DIMM products target industrial applications. Transcend’s strength lies in channel availability and embedded-device compatibility rather than large OEM DRAM share.

Innodisk is more specialized toward industrial and embedded SODIMM RAM. Its DDR5 SODIMM line covers 8 GB, 16 GB, 24 GB, 32 GB and 48 GB capacities at 4,800 MT/s and 5,600 MT/s, while its DDR5 ECC SODIMM supports speeds up to 5,600 MT/s and capacities up to 48 GB. Features such as 30μ gold fingers, anti-sulfuration protection and operating case temperature support up to 95°C make Innodisk more relevant in factory automation, transport, edge AI and rugged computing than in mainstream consumer notebooks.

Recent developments influencing SODIMM RAM Market competition and pricing

• February 2026: TrendForce reported a 29.4% QoQ increase in Q4 2025 DRAM revenue, with Samsung and SK hynix together holding roughly two-thirds of global DRAM revenue. Higher DRAM ASPs directly increase SODIMM module costs for notebook OEMs and upgrade channels.
• October 2025: Kingston retained about 66% share in third-party DRAM module revenue, reinforcing its pricing and distribution influence in branded SODIMM RAM channels.
• December 2025: TrendForce noted Kingston-led module price hikes and a 9.52% weekly increase in mainstream DDR4 spot pricing, showing how module houses respond quickly when upstream DRAM supply tightens.
• Late 2025 to 2026: Framework raised DDR5 RAM upgrade prices by up to 50% for its Laptop DIY Edition because supplier and distributor costs increased amid DRAM shortages, giving a direct example of how SODIMM pricing affects repairable laptop ecosystems.