LG Gram Aerominum Laptops: Inside the Material Science Revolution [2025]

When LG announced its next generation of Gram AI laptops ahead of CES 2026, the company didn't just release a new product line. It introduced a made-up word that actually matters: Aerominum. And that's not marketing fluff.

You're looking at a proprietary material engineering breakthrough that changes how ultraportable laptops get built. This isn't aluminum with a fancy name slapped on it. This is something genuinely different, engineered to do two things that normally fight each other: weigh almost nothing while refusing to bend, flex, or break under real-world punishment.

If you've ever owned an ultralight laptop, you know the trap. Either it's light but feels flimsy, or it's built like a tank and weighs six pounds. LG says Aerominum breaks that equation. And judging by what they're claiming with the new Gram Pro 17 and Gram Pro 16, they might be onto something.

Here's what you need to know about LG's Aerominum material, why it matters, what it means for the future of portable computing, and whether the new Gram line is actually worth your attention.

TL; DR

• LG's Aerominum is a proprietary composite material that reduces weight while increasing structural rigidity, as detailed in TechPowerUp's coverage.
• The Gram Pro 17 claims to be the world's lightest 17-inch laptop, powered by NVIDIA RTX 5050 GPU, according to Tom's Hardware.
• Military-grade durability standards mean these laptops survive drops, pressure, and daily abuse better than competitors, as noted by HotHardware.
• AI integration through Copilot+ PC lets users run certain tasks offline without an internet connection, as explained in WebProNews.
• Link technology enables seamless file sharing and screen mirroring across phones, TVs, monitors, and projectors, as highlighted by ComputerBild.

What Is Aerominum? The Material Science Behind the Name

Let's be real: Aerominum sounds like something from a sci-fi movie. But the name isn't just catchy marketing. It's descriptive. "Aero" for lightweight, "minum" for the aluminum base. LG combined the two concepts into a single word because the material actually delivers on both promises simultaneously.

Most ultraportable laptops use standard aluminum alloys. They're proven, cheap to manufacture, and reasonably durable. But aluminum has constraints. To make it lightweight, manufacturers thin the material, which compromises rigidity. To make it rigid, they thicken it, which kills portability. It's a zero-sum game.

Aerominum breaks that rule because it's not pure aluminum. LG engineered it as a composite material—aluminum combined with reinforcing elements that improve structural integrity without adding meaningful weight. Think of it like carbon fiber benefits without the carbon fiber manufacturing complexity.

The result? The material "reduces the laptop's weight while reinforcing structural strength," according to LG's official specs. Translation: you get something light enough to carry in a backpack while durable enough to survive being thrown into a bag with textbooks.

The durability story gets better. LG designed the Gram line to meet military-grade durability standards. That's not just marketing talk. Military-grade testing (MIL-STD-810G) includes drops from specific heights, vibration tests, thermal stress tests, and pressure tests. If Aerominum laptops actually pass these, they're tougher than they look.

Each model also offers "improved scratch resistance" and comes with a "sleek metallic finish." This matters because ultraportable laptops get tossed around constantly. A material that resists scratches stays looking new longer, which protects resale value and makes the product feel more premium when you're using it.

The Engineering Challenge: Weight vs. Durability vs. Cost

Here's the thing about material engineering: every choice involves trade-offs. LG had to solve three competing problems simultaneously.

The weight problem: Consumers want ultraportable laptops that weigh less than four pounds if possible. The Gram Pro 17 with its massive 17-inch display has to defy physics and stay light. Standard materials don't cut it.

The durability problem: Nobody cares how light a laptop is if it breaks after three months of real-world use. Military-grade durability means surviving drops, pressure points, thermal cycling, and vibration. Most ultralight laptops fail here because manufacturers strip away anything that adds weight, including protective design features.

The cost problem: Exotic materials cost money. Carbon fiber is stronger and lighter than aluminum but costs 10 times as much. Titanium is stronger but even pricier. LG needed something that improved performance without making the laptop unaffordable.

Aerominum appears to be LG's answer to all three problems simultaneously. By engineering a proprietary composite, they could optimize for all three constraints instead of picking two and sacrificing the third.

From an engineering perspective, this is harder than it sounds. Materials scientists had to:

• Identify which reinforcing elements could improve structural rigidity without significant weight penalty
• Test different combinations of materials to find the optimal balance
• Develop manufacturing processes that could scale to production volumes
• Ensure the material could be shaped into curved surfaces (laptop lids, bezels)
• Verify thermal properties (the material can't conduct heat unpredictably)
• Validate that it meets military standards while staying cost-effective

That's not a trivial engineering challenge. Most material innovations at this scale take years of R&D.

The Gram Pro 17: Redefining What "Ultralight" Means at 17 Inches

LG makes a bold claim: the Gram Pro 17 is "the world's lightest 17-inch laptop." Let's unpack what this actually means and why it matters.

A 17-inch display is a big screen. It's the size you choose when you want desktop-like real estate for work, gaming, or content creation. The trade-off is usually weight. Most 17-inch laptops weigh between 5.5 and 6.5 pounds. That's not a backpack laptop. That's a "I need to sit down to use this" device.

The Gram Pro 17 changes that equation. By using Aerominum construction, LG claims to make a 17-inch laptop light enough to carry around. If they're accurate about being the lightest in its class, we're probably looking at something under 4.5 pounds. That's a different product category entirely.

The display is a 17-inch WQXGA LCD screen. WQXGA is 2560x1600 resolution, which is sharp enough for professional work but not as pixel-dense as higher-resolution panels. This choice makes sense for a portable device because:

• Higher resolution drains battery faster
• WQXGA is still plenty sharp for most work
• Fewer pixels mean less GPU demand
• Battery life gets prioritized over pixel density

The GPU is the latest NVIDIA GeForce RTX 5050. This is Nvidia's current-generation mobile graphics chip, positioned as the accessible professional GPU. The RTX 5050 can handle:

• 1080p gaming at playable frame rates
• Video editing (4K footage)
• 3D rendering (though not at production speeds)
• AI workloads on-device
• Cuda-accelerated applications

For an ultraportable, the RTX 5050 is a smart choice. It's powerful enough for real work without being a battery killer. Paired with the latest Intel Core Ultra processors in the sister model, you're looking at machines that can actually do productive work, not just web browsing and email.

The Gram Pro 16: OLED Display Meets Portability

If the Gram Pro 17 is about pure screen real estate, the Gram Pro 16 takes a different approach: OLED display technology. This is where things get interesting for creative professionals.

OLED (organic light-emitting diode) displays have advantages that LCD panels can't match:

• Infinite contrast ratio: Blacks are truly black (pixels emit zero light), not dark gray
• Faster response times: Pixel changes happen nearly instantly, crucial for video work
• Better color accuracy: OLED can achieve wider color gamut with more precision
• Thinner bezels: OLED panels don't need a separate backlight, so bezels can be thinner
• Perfect viewing angles: OLED maintains color and contrast at extreme angles

The trade-off? OLED displays consume more power, which was traditionally a battery killer for laptops. But modern OLED panels in laptops have improved significantly. At 16 inches, the Gram Pro 16 is large enough to need professional-grade display quality, and OLED delivers.

This makes the Gram Pro 16 the choice for:

• Video editors and colorists
• Photographers processing RAW files
• Designers who need color accuracy
• Anyone doing professional creative work that demands a great display

The Gram Pro 16 uses the latest Intel Core Ultra processors. These are Intel's newest generation, optimized for efficiency and AI tasks. Core Ultra chips combine performance cores and efficiency cores, allowing the processor to scale power consumption based on workload.

So you get:

• Better multi-threaded performance for heavy tasks
• Excellent battery life for light work
• Intel's NPU (neural processing unit) for on-device AI
• Strong single-thread performance for productivity apps

AI Integration: What Does Copilot+ PC Actually Do?

Both Gram models are branded as "AI laptops" thanks to Microsoft Copilot+ PC integration. But what does that actually mean for real users?

Copilot+ PC is Microsoft's way of integrating AI capabilities directly into Windows. The key word here is "directly." Unlike cloud-based AI assistants, Copilot+ PC can run certain tasks locally, on-device, without needing an internet connection.

This matters because:

Privacy: Data stays on your device. You're not sending prompts to Microsoft servers.

Speed: Local processing is faster. No network latency.

Reliability: Works even if your internet connection drops.

Offline capability: You can use AI features on a plane, in a meeting, anywhere.

Copilot+ PC capabilities include:

• AI-assisted search through local files
• Intelligent summarization of documents
• AI-powered image generation
• Code completion and programming assistance
• Natural language processing for text

LG adds its own twist with "LG's on-device system," though we don't have specifics on what this includes. It likely handles:

• System monitoring and optimization
• Hardware-specific AI features
• Integration with LG's Link technology

The real benefit comes from combining these. You get Microsoft's Copilot infrastructure plus LG's hardware optimization. The result should be AI features that don't drain battery and work offline.

LG Link: Cross-Device Ecosystem Magic

Here's where LG's broader strategy becomes clear. The company isn't just making laptops. It's building an ecosystem where devices talk to each other seamlessly.

LG Link is that bridge. It enables:

File sharing: Drag files between your Gram laptop and your phone, TV, or monitor.

Screen mirroring: Mirror your laptop display to an LG TV or monitor with one click.

Keyboard and mouse sharing: Use the same peripherals across multiple devices.

Clipboard synchronization: Copy text on your phone, paste it on your laptop.

Voice control integration: Control devices using voice across the ecosystem.

This works across:

• Smartphones (iOS and Android)
• LG webOS devices (TVs, monitors)
• LG monitors with built-in webOS
• Projectors with LG connectivity
• Desktop setups

For LG device owners, this is genuinely useful. If you've got an LG TV, LG monitor, and now a Gram laptop, the ecosystem actually works together. This is Apple's iCloud/AirDrop strategy, but LG's version for Windows.

Military-Grade Durability: What Does That Actually Mean?

When manufacturers claim "military-grade durability," they're usually referencing MIL-STD-810G (or newer MIL-STD-810H) testing standards. This is a real specification, not marketing fluff. Let's break down what the tests actually measure.

Drop tests: Devices are dropped from specific heights onto hard surfaces. The standard requires surviving drops from 4-6 feet depending on the device category. This tests structural integrity and protective design.

Vibration tests: Devices experience sustained vibration at various frequencies and amplitudes to simulate transportation, rough roads, and aircraft. This reveals design weaknesses that show up over time.

Thermal stress tests: Devices cycle between extreme temperatures (sometimes -50°C to +60°C) repeatedly. This stresses solder joints, components, and materials.

Pressure tests: External pressure is applied to test whether the device can handle being stacked under weight or pressed into a backpack.

Humidity and salt-fog tests: These simulate tropical environments and sea-salt corrosion to test material durability.

Shock tests: Sudden acceleration or deceleration stresses components and reveals fragile mounting points.

If the Gram laptops actually pass these tests, they're genuinely more durable than standard consumer laptops. Most ultraportable devices don't bother with military testing because:

1. Testing is expensive
2. It requires redesigning components for robustness
3. Marketing teams prefer to hype thinness over durability

LG going through the effort suggests they're serious about durability. This is a differentiator from MacBook Air (which prioritizes thinness) and other ultraportables.

Scratch Resistance and Metallic Finish: The Details That Matter

OK, so the whole laptop is more durable. But what about the visible surfaces? You see the lid and bezel every single day. If they scratch easily, the device looks beat-up within weeks.

Aerominum's "improved scratch resistance" is actually a significant engineering achievement. Aluminum is inherently soft. That's why aluminum laptop lids get scratched in backpacks, from desk contact, and from casual handling.

Improving scratch resistance typically means:

• Anodizing the surface (creating a protective oxide layer)
• Applying a hard-coat finish
• Using a scratch-resistant composite layer
• Engineering the material composition to be inherently harder

LG mentions a "sleek metallic finish," which suggests anodizing or a similar surface treatment. The finish serves dual purposes:

• Protects the underlying material from scratches
• Creates the aesthetic appeal (that premium "metallic" look)

For ultraportable laptops that get thrown in bags and toted to coffee shops, this matters. A MacBook Air looks like it's been through a war after a year. If the Gram stays looking relatively pristine, that's a win for user experience and resale value.

Pricing, Availability, and Market Position

Here's where things get uncertain: LG hasn't announced pricing or availability yet. But we can make educated guesses based on market context.

Ultraportable laptops with premium materials typically cost more than standard laptops. LG's Gram line has historically been positioned in the

Factor in:

• Proprietary material development (R&D cost)
• Military-grade durability testing
• NVIDIA RTX 5050 GPU (in the 17-inch model)
• Intel Core Ultra processors
• OLED display (in the 16-inch model)
• AI integration through Copilot+ PC

A reasonable estimate:

• Gram Pro 16 with OLED:
  $1,400-$
  1,700
• Gram Pro 17 with RTX 5050:
  $1,600-$
  1,900

Availability should happen around CES, with retail availability probably in Q1 2026. LG will likely announce these details before CES officially opens.

Market position: LG is going after the ultraportable professional segment. This competes directly with MacBook Air (13 and 15 inch), Dell XPS 13 and XPS 14, and ASUS ZenBook series. The Aerominum material and military durability are LG's differentiators in a crowded market.

How Aerominum Compares to Competing Materials

Let's put Aerominum in context. How does it stack up against what competitors are using?

Aluminum (standard): What most laptops use. Lightweight, affordable, but compromises between weight and rigidity.

Carbon fiber: Stronger and lighter than aluminum but significantly more expensive (

Magnesium: Similar cost to aluminum, slightly stronger. Some gaming laptops use magnesium chassis. Not commonly used in ultraportables because of cost and manufacturing complexity.

Titanium: Extremely strong, very light, but costs 5-10x more than aluminum. Used in ultra-premium devices and aerospace applications.

Composite materials (like Aerominum): Custom engineered to balance weight, strength, and cost. This is where LG's innovation sits.

Aerominum's advantage is that it appears to deliver carbon-fiber-like rigidity at closer to aluminum pricing. If LG can manufacture it efficiently, this is a legitimate breakthrough. If the price premium is too high, it's just another boutique material.

The Larger Trend: Material Science in Tech

Aerominum isn't unique because material science in consumer tech is experiencing a renaissance right now. Companies are investing heavily in new materials because:

Sustainability pressure: Traditional materials (aluminum, plastic) face criticism. New materials can be more recyclable or lower-impact.

Performance demands: Modern applications (gaming, video editing, AI work) need better cooling, structural integrity, and weight distribution.

Differentiation: As processor and display technology commoditizes, material choices become brand differentiators.

Manufacturing innovation: New manufacturing techniques (like advanced anodizing, composite layering, 3D printing) make custom materials feasible at scale.

Other examples of material innovation in consumer tech:

• Apple's titanium iPhone frame (started in iPhone 15 Pro)
• Samsung's Gorilla Glass Armor (harder glass with less reflection)
• Nothing's transparent back panels (showing internal components)
• Dynabook's magnesium alloys in professional laptops

LG's Aerominum fits into this broader movement. The company is betting that material innovation becomes a meaningful differentiator in a market where specs have plateaued.

On-Device AI: What Changes with Local Processing

One thing worth exploring: what actually changes when AI runs locally versus in the cloud? This is the real implication of Copilot+ PC and LG's on-device systems.

Cloud-based AI (traditional approach):

• Your prompt gets sent to a server
• The server processes it
• Results come back to your device
• Latency: typically 1-3 seconds depending on internet speed
• Privacy: your data leaves your device
• Limitations: works only with internet connection

On-device AI (Copilot+ PC):

• Processing happens on your laptop's GPU/CPU
• Results appear instantly (sub-second)
• Privacy: data stays on your device
• Works offline
• Limitations: requires local hardware resources (GPU, RAM)

For a laptop with NVIDIA RTX 5050 GPU and latest Intel Core Ultra, on-device AI becomes practical. These processors can run smaller, optimized AI models locally. Not as capable as cloud-based models, but fast and private.

Real-world implications:

• Code completion works without lag
• File search returns instantly
• Privacy-sensitive work (legal documents, medical data, financial info) stays secure
• Offline productivity is possible
• Battery drain is more predictable

This shifts the value proposition. Instead of "I need cloud AI," it becomes "My laptop is smart enough to handle some tasks independently." That's a different product category.

Why LG Made Up a Word Instead of Using a Commodity Name

Here's a marketing observation worth noting: LG specifically chose to invent "Aerominum" instead of using an existing material name. Why?

Trademark protection: A made-up word can be trademarked. Using a descriptor like "reinforced aluminum" or "composite aluminum" can't be trademarked. Future competitors can use the same material composition and call it something different.

Brand storytelling: "Aerominum" tells a story (aero = lightweight, minum = aluminum) while sounding innovative. It's memorable in a way "composite aluminum alloy" isn't.

Premium positioning: Made-up premium material names are associated with luxury and innovation. Think "Gorilla Glass" (Corning), "Ceramic Shield" (Apple), or "Infinity Glass" (Samsung). The name creates a halo effect.

Justifying price premium: A branded material gives LG justification for pricing Gram laptops higher than competitors. "It's made with Aerominum" sounds more distinctive than "It's made with aluminum composite."

This is standard practice in tech. When a material becomes genuinely different enough from commodity alternatives, it gets a branded name. Whether Aerominum truly justifies its branding depends on actual durability and performance data, which we'll only know once units hit the market.

Real-World Use Cases: Who Benefits Most?

Let's think about who these laptops are actually for. Aerominum, military-grade durability, OLED displays, and RTX GPUs aren't for everyone.

Professional video editors: The Gram Pro 16 with OLED is perfect. You get color accuracy, portability, and GPU acceleration for rendering. The 16-inch size is practical for detail work.

Traveling consultants: Both models excel here. Light enough to live in a carry-on, durable enough to survive frequent travel, AI-powered for offline productivity. Meeting a client and needing to edit a deck? Offline Copilot+ PC helps.

Data scientists and ML engineers: The RTX 5050 and Core Ultra processors with NPU are compelling. You can test models locally, run inference without cloud costs, work offline when needed.

Journalists and writers: Portability is the main win. Work anywhere, durable enough for field reporting, light enough to carry for 8+ hours. The OLED on the 16-inch makes long writing sessions more pleasant.

Students in technical fields: Both machines can handle coding, rendering, and light development work. Price point is steep for students, but specs justify it for intensive coursework.

Less ideal for:

• Gamers (RTX 5050 is entry-level, not high-end gaming)
• Budget-conscious buyers (premium pricing)
• Desktop replacement seekers (17 inches is large but screen real estate is still limited for full desktop replacement)

The LG Ecosystem Play: Is This Strategic?

One detail worth considering: LG Link only works across LG devices. This is intentional. LG is trying to build an ecosystem lock-in like Apple's iCloud or Microsoft's OneDrive.

For a customer who already owns:

• LG TV with webOS
• LG monitor with webOS
• LG smartphone (if they make one, which they don't currently)

LG Link adds real value. File sharing, screen mirroring, and peripheral sharing across devices is genuinely useful.

But for most users who have a Samsung TV, Dell monitor, and iPhone, LG Link is just another file-syncing service competing with iCloud, OneDrive, and Google Drive.

This is less of a differentiator than Apple's ecosystem integration, but it's LG's attempt. The company is betting that as more LG devices enter homes (especially TVs, which have high market penetration), the ecosystem becomes stickier.

Future Implications: Material Science as a Competitive Battleground

Aerominum signals something broader happening in consumer tech: when processor and display performance plateaus, companies compete on materials, durability, and ecosystem integration.

Expect to see:

More branded materials: Competitors will develop their own proprietary materials and give them memorable names.

Durability marketing: Military-grade testing and ruggedness become selling points instead of just weight and thinness.

Vertical integration: Companies like LG, Apple, and Samsung will manufacture their own materials to control quality and create exclusivity.

Sustainability focus: New materials with lower environmental impact become competitive advantages.

Ecosystem emphasis: Multi-device integration becomes a primary selling point rather than an afterthought.

The next generation of laptop comparisons might look like: "This machine uses proprietary composite X, meets military standard Y, and integrates with ecosystem Z." Rather than just chasing specs that everyone eventually gets access to.

What We Don't Know Yet

LG's announcement left some big questions unanswered:

Actual weight and durability: We have claims but no independent testing yet. Wait for reviews to verify whether the Gram Pro 17 is actually lighter than competing 17-inch laptops.

Battery life: OLED displays drain battery faster than LCD. The Gram Pro 16's real-world battery life is still unknown. LG will release specs, but real-world testing matters more.

Thermal management: Aerominum's thermal properties are unclear. Does the material conduct heat well? Does it dissipate efficiently? This impacts performance and fan noise.

Pricing structure: Are both models the same price, or does the RTX 5050 justify a significant premium over the Pro 16?

Upgrade path: How will LG handle repairs? If the Aerominum chassis gets damaged, is it repairable or do you replace the entire device?

Supply constraints: Proprietary materials sometimes have supply chain issues. Will LG have enough stock at launch?

These unknowns don't invalidate the announcement. They're just the details that separate promising innovation from market success.

FAQ

What is Aerominum and how is it different from regular aluminum?

Aerominum is LG's proprietary composite material engineered to combine lightweight properties with structural rigidity. Unlike standard aluminum, which requires compromises between weight and strength, Aerominum achieves both simultaneously through material engineering. The material includes reinforcing elements that improve durability while maintaining the portability that ultraportable laptops demand.

How do military-grade durability standards actually work?

Military-grade standards (like MIL-STD-810G) involve rigorous testing including drop tests, vibration tests, thermal cycling between extreme temperatures, humidity and corrosion tests, and pressure tests. If the Gram laptops pass these tests, they're engineered to survive more abuse than standard consumer laptops. Most ultraportable devices don't pursue military certification because it requires significant redesign and testing investment.

What is Copilot+ PC and why does it matter?

Copilot+ PC is Microsoft's integration of AI directly into Windows, with key processing happening on-device rather than in the cloud. This means AI features work offline, process faster (no network latency), maintain better privacy (data stays on your device), and drain less battery than cloud-dependent AI. For laptops like the Gram Pro with capable GPUs and processors, this becomes practically useful for coding, research, and document summarization.

Is OLED better than LCD for laptop displays?

OLED offers advantages for certain users: infinite contrast, faster response times, better color accuracy, and thinner bezels. However, OLED drains battery faster than LCD and historically has had higher manufacturing costs. For creative professionals (video editors, photographers, designers), OLED is worth the trade-off. For general productivity and web browsing, LCD is more practical because battery life matters more than display quality.

How does LG Link compare to cloud syncing services like iCloud or OneDrive?

LG Link is specialized for LG's ecosystem—TVs, monitors, projectors, and now laptops. It enables file sharing, screen mirroring, and peripheral sharing across LG devices. For LG device owners, it's convenient and optimized for their specific hardware. For users with mixed device ecosystems (Samsung TV, Dell monitor, iPhone), cloud services like iCloud and Google Drive remain more practical because they work across brands.

What's the expected pricing for these Gram models?

LG hasn't announced pricing yet, but based on specs and market positioning, expect the Gram Pro 16 to cost

Will these laptops be available immediately after CES?

Historically, LG announces products at CES with retail availability following in Q1. The Gram Pro models will likely be available starting in January or February 2026, depending on manufacturing scale-up. Check LG's official announcements at CES for exact launch dates and pre-order information.

How does the RTX 5050 GPU compare to integrated graphics?

The RTX 5050 is a dedicated GPU capable of handling 1080p gaming, 4K video editing, 3D rendering, and AI inference workloads. Integrated graphics (built into processors) handle everyday tasks fine but struggle with demanding applications. For a portable device, the RTX 5050 strikes a balance: powerful enough for real work without being a major battery drain like higher-tier GPUs.

Is Aerominum recyclable or better for the environment than standard aluminum?

LG hasn't disclosed the environmental properties of Aerominum yet. Proprietary composite materials sometimes have environmental advantages (lower mining impact, higher recycling efficiency) but not always. Wait for lifecycle assessment data from LG before assuming environmental benefits. Standard aluminum is already highly recyclable, so the comparison depends on what Aerominum actually contains.

Key Takeaways: What This Means for Ultraportable Computing

LG's announcement of Aerominum and the new Gram AI laptops signals an important shift in how manufacturers approach ultraportable computing. Instead of chasing ever-thinner designs (like MacBook Air), LG is pursuing the sweet spot: light enough to carry, durable enough to last, powerful enough to do real work.

Aerominum matters because it's a genuine material science innovation, not just marketing positioning. If LG has successfully engineered a composite that reduces weight while improving structural integrity, that's something competitors will need to match. We'll know for sure once independent reviewers get their hands on units and run durability tests.

The Gram Pro 17 as the "world's lightest 17-inch laptop" is a claim that will stand or fall on actual specs when LG releases them. If they're serious about this claim, they've solved a real engineering problem.

The Gram Pro 16 with OLED is clearly targeting creative professionals who value display quality enough to accept battery trade-offs. That's a narrower market but a profitable one.

AI integration through Copilot+ PC and on-device processing is becoming table stakes. Every manufacturer will eventually offer this. What matters is whether the hardware (GPU, processor, RAM) is sufficient to make on-device AI actually useful.

The LG Link ecosystem is ambitious but requires a critical mass of LG devices to become valuable. For LG TV owners, it adds genuine utility. For everyone else, it's one more cloud syncing service among many.

What's most impressive is that LG is approaching ultraportable design holistically: material innovation + durability engineering + display quality + ecosystem integration + AI capability. That's a more complete product strategy than competitors who focus narrowly on weight or specs.

The real test comes after CES 2026 when pricing is announced and reviews start rolling in. Material science innovation means nothing if the price is too high or durability testing reveals the claims were overstated. But if LG delivers on what they're promising, Aerominum could become a genuinely interesting differentiator in a market where laptops have started to feel commoditized.

For anyone looking for an ultraportable laptop that prioritizes durability alongside portability, the Gram line just became worth paying attention to. Wait for the full specs and real-world reviews, but the direction LG is heading with this is compelling.