I expect a price increase. They had a bunch of hardware releases planned far in advance of the supply chain disruption. It'd be a bad look for their new products if they raised the prices on all these new devices at the same time; that'd be the primary discussion everywhere.

The smart move would be to release all your cool new toys at the traditional price points (or very nearly the same) and then raise prices a bit down the road. This way your reviews are strictly about the hardware / products rather than the prices. Bump them in two months. It'll be a big story, but it didn't prevent all the glowing reviews that were already published.

I think the Neo, possibly the 'e' phone, might be the only device(s) that doesn't increase. Taking a hit on 8GB of RAM might be tolerable for market gains when they're charging a kidney and a lung for higher-end devices.

Did they give up a large chunk of margin, or have they been able to offset some of the higher costs of commodity chips by replacing high margin components with their own in house designs?

Designing and manufacturing your own components (CPU/GPU, Cellular modem, WiFi/Bluetooth, etc.) isn't free, but it's cheaper than paying someone else a markup at Apple's scale.

The Google default deal? That’s a massive chunk of services. App Store junk fees? The other massive part of it. The rest of their services are a much smaller part.

Parent said "In the education market, educators, students, aides... nothing close at this price point".

That has zero overlap with the "felt the need for 32GB 7 years ago" not-exactly-crowd.

that market is already saturated with a zillion decent-spec chromebook style machines. The only reason the Neo market is even slightly different is to cater to crowds that want the apple offerings for OS and fashion/reputation.

The market we're talking about has no real reason to care what kind of chip is in the thing. They just want YouTube/Discord/Zoom/EduWebsites to work right.

Yeah, come back in a year when we have sales numbers for the Neo and tell me how saturated it is.

>The only reason the Neo market is even slightly different is to cater to crowds that want the apple offerings for OS and fashion/reputation.

No, the real main reason is that the "zillion decent-spec chromebook style machines" are half-arsed and/or less powered and with worse build quality depending on the model. The "OS and fashion/reputation" are a bonus.

The interesting/unique thing about Apple's offering at this price point is the build quality, not the spec.

If you're a school IT department buying these in volume, you want something that actually lasts more than a year before pieces of plastic begin chipping off, hinges start wearing out, etc. And you want something that's easy to clean / sanitize sticky little kid fingerprints off of, and also to undo e.g. residue (from kids who thought it'd be a good idea to stick stickers on their take-home laptop) without worrying about either the adhesive or the thinner permanently damaging the chassis.

In both cases, Apple can actually promise this with the Neo, while none of the Chromebook OEMs can for their equivalent offerings at this price point. (The other OEMs can promise it, but only for offerings at higher price-points schools aren't willing to pay.)

Also, Apple can now promise that you can keep a pile of spares and spare parts, and swap parts between them easily, replace consumables like batteries, etc. (https://www.youtube.com/watch?v=PbPCGqoBB4Y). Which is essentially table stakes for the education market, but it's good that they've caught up.

> If you're a school IT department buying these in volume, you want something that actually lasts more than a year before pieces of plastic begin chipping off, hinges start wearing out, etc. And you want something that's easy to clean / sanitize sticky little kid fingerprints off of, and also to undo e.g. residue (from kids who thought it'd be a good idea to stick stickers on their take-home laptop) without worrying about either the adhesive or the thinner permanently damaging the chassis.

If you manage to break a plastic cover, that amount of force will certainly also dent, bent and/or dislodge the aluminum cover of the Neo.

I've never seen or heard about plastic chipping off due to normal use (i.e. just wear). In the EU chipping-off plastic due to wear (with normal use) would fall under warranty. I have seen aluminum covers on high-end HP notebooks being bent, dent, etc. For example when transported in a bag, with other things in it, aluminum is more likely to get damaged.

All major brands (Lenovo, HP, Apple, etc.) have at some point had issues with hinges. I think it's even fair to say that Apple isn't known for being particularly forth coming about acknowledging problems with hinges and issuing service advisories to repair those under warranty even when it's a known issue.

> good idea to stick stickers on their take-home laptop) without worrying about either the adhesive or the thinner permanently damaging the chassis.

Getting stickers off plastic covers vs getting stickers of macbook covers doesn't really matter in difficulty. If it is problematic for plastic, it's probably going to problematic for aluminum as well. There are a lot of cleaning agents aluminum doesn't like, which cause white-ish stains in it. You can test that yourself by putting an aluminum breadbox in a dishwasher.

> Also, Apple can now promise that you can keep a pile of spares and spare parts, and swap parts between them easily, replace consumables like batteries, etc.

Right now the Apple self-repair program is, from a financial standpoint, pretty much a gimmick. The costs are so high, you are better of going to the Apple store. Also the swap-able battery is going to be mandatory in the EU so that's something all notebooks will have. Schools usually aren't that interested in starting a repair shop.

[1]: https://xcancel.com/mweinbach/status/2032235367961694542

$200 — or even $500 — plastic computers are different in kind (of parts and materials used) to $800+ computers. It's not anything you'd notice when the hardware is new — not the extreme "deck flex" or anything like that — but it becomes clear after 3–6 months of even light use.

Planned obsolescence is real. But, rather than being a result of malicious adulteration, it is the predictable result of aiming for an MSRP (and therefore COGS) where the only viable parts and materials the OEM can get their hands on to meet that price point, have engineering tolerances far below the use-case they’re applying them to. The makers of $500 Chromebooks know they'll break well before buyers expect them to. But with their middling purchasing power and economies of scale, this is the best they can do.

Apple, meanwhile, can hit the same MSRP not by cheaping out on parts, but rather through economies of scale and manufacturing consolidation. Obviously the A18. But also: buy enough high-quality aluminum in bulk, and stamp the same modular chassis parts out for every laptop you make — and those parts start to get cheap enough to use even in a $500 product.

Plus, if the OP has 32GB in 7-year-old machines, they're running intel CPUs, which don't compare in how well they use memory and swap to/from SSD.

When I need more I offload tasks to a remote VM (usually AWS/GCP). I can easily afford a top spec Mac but chose this because I want to have a “entry level” device that I don’t mind my kids breaking or getting stolen at public co-working space.

Plenty of people will get MacBook Neo and never hit its limitations. Most students/educators and many professionals just use the web all day and never need much RAM.

Having said all that, Apple could easily have made it 16GB cleaned up the market place and nobody would be talking about Neo being under spec’d. But Tim Cook has to be a Tim Cook and squeeze every last penny of profit. ;-)

I think this has more to do with binned A18 Pro SoCs which enables Apple to do this with economies of scale. A later version may get the 12GB variant of the A19 Pro SoCs.

For a lot of people who are looking at sub $800 laptops, the option to get an Apple will probably be enough to convince them. And apart from the limited memory, it really isn't a bad buy.

I also fully expect most budget devices to ship with 8GB of memory until the end of the DDR5 crisis anyway.

A good SSD ought to be able to cope with ~600TBW. My ~4.5-year-old MBP gives the following:

    smartctl --all /dev/disk0
    ...
    Data Units Read:                    1,134,526,088 [580.8 TB]
    Data Units Written:                 154,244,108 [78.7 TB]
    ...
    Media and Data Integrity Errors:    0
    Error Information Log Entries:      0
    ...

It's non-linear. If you have a 17GB working set size, a 16GB machine is actively using 1GB of swap, but the 8GB machine is using 9GB. If you have a 14GB working set size, the 16GB machine doesn't need to thrash at all, but the 8GB machine is still doing 6GB.

Meanwhile "SSDs are fast" is the thing that screws you here. Once your actual working set (not just some data in memory the OS can swap out once and leave in swap) exceeds the size of physical memory, the machine has to swap it in and back out continuously. Which you might not notice when the SSD is fast and silent, but now the fact that the SSD will write at 2GB/sec means you can burn through that entire 600TBW in just over three days, and faster drives are even worse.

On top of that, the write endurance is proportional to the size of the drive. 600TBW is pretty typical for the better consumer 1TB drives, but a smaller drive gets proportionally less. And then the machines with less RAM are typically also paired with smaller drives.

As for 600TB in just over 3 days, I want some of what you're smoking.

To begin with, a single application can pretty easily use more than 8GB by itself these days.

But suppose you are using multiple applications at once. If one of them actually has a large working set size -- rendering, AI, code compiling, etc. -- and then you run it in the background because it takes a long time (and especially takes a long time when you're swapping), its working set size is stuck in physical memory because it's actively using it even in the background and if it got swapped out it would just have to be swapped right back in again. If that takes 6GB, you now only have 2GB for your OS and whatever application you're running in the foreground. And if it takes 10GB then it doesn't matter if you're even running anything else.

Now, does that mean that everybody is doing this? Of course not. But if that is what you're doing, it's not great that you may not even notice that it's happening and then you end up with a worn out drive which is soldered on for no legitimate reason.

> As for 600TB in just over 3 days, I want some of what you're smoking.

2GB/s is 8200GB/hour is 172.8TB/day. It's the worst case scenario if you max out the drive.

In practice it might get hot and start thermally limiting before then, or be doing both reads and writes and then not be able to sustain that level of write performance, but "about a week" is hardly much better.

> 2GB/s is 8200GB/hour is 172.8TB/day. It's the worst case scenario if you max out the drive.

Right, which is completely and utterly unrealistic. As I said, I want what you're smoking.

I have an 8GB M1 mini lying around somewhere (I just moved country) which was my kids computer for several years before he got an MBP this Xmas. He had the sort of load that would be more typical - web-browsing, playing games, writing the occasional thing in Pages, streaming video, etc. etc. If I can find it (I was planning on making it the machine to manage my CNC) I'll look at the SMART output from that. I'm willing to bet it's not going to look much different from the above...

None of the people who want to do those things but can't afford a more expensive machine will ever attempt to do them on the machine they can actually afford then, is that right?

> Right, which is completely and utterly unrealistic.

"Unrealistic" is something that doesn't happen. This is something that happens if you use that machine in a particular way, and there are many people who use machines in that way.

> He had the sort of load that would be more typical - web-browsing, playing games, writing the occasional thing in Pages, streaming video, etc. etc.

Then you would have a sample size of one determined by all kinds of arbitrary factors like whether any of the games had a large enough working set to make it swap, how many hours were spent playing that game instead of another one etc.

The problem is not that it always happens. The problem is that it can happen, and then they needlessly screw you by soldering the drive.

Ah. So, FUD, then. Gotcha.

“This ridiculously unlikely scenario is something I’m going to hype up and complain about because I don’t like some aspects of this companies business model”.

600 TBW in 3 days. Pull the other one, it’s got bells on.

I did have one of those dodgy Sandisks, but that was a manufacturing defect.

If you have 24GB of RAM and a 12GB working set then it's fine. Likewise if you have 8GB of RAM and a 4GB working set. But 8GB of RAM and a 12GB working set, not the same thing.

That's the problem, isn't it? It does the write, it will read back fine right now, but the flash is worn out and then when you try to read back the data in six months, it's corrupt.

> If write endurance would be that much of a problem I'd expect the second hand market to be saturated with 8Gb M1 MacBooks with dead SSDs by now.

That's assuming it's sufficiently obvious to the typical buyer. You buy the machine with a fresh OS install and only newly written data, everything seems fine. Your 30 day warranty/return period expires, still fine. Then it starts acting weird.

SSD firmware does patrol reads and periodically rewrites data blocks. It also does error correction. Cold storage is a known issue with any SSD, but I don't have any insight in how bad this problem is in reality. Of course it will wear out eventually, but so will the rest of the system components. There's nothing to be gained by making SSDs that last 30 years when the other components fail in 15.

> Then it starts acting weird.

Is that speculation or do you have any facts to back that up?

nowhere near the same performance.

I tried, DaVinci Resolve still works :)

But I'm also not one of those people who feel the need to keep 300 tabs open all the time.

> Well, I am just saying it is not for me, and neither for anyone else who is not a newbie

Objectively, no, that's not what you're saying if you read the 2nd part of your sentence.

Why not? All the other advantages of M processors (performance, battery life) have absolutely been drastic

I’ve cursorily checked few programs and difference seemed to about 10-20% (with some exceptions), so 8GiB RAM on an aarch64 is like 10GB on x86_64. Significantly nicer, not a life-changing nicer - you’re still very limited.

Edit: Next comment has a very good point about memory and SSD bandwidth increases, allowing faster swap and compressed RAM performance. That’s something I haven’t considered. So maybe it’ll feel closer to a 16GiB old machine or something like that…

This is because they're newer, not because they're soldered. PCIe 5.0 NVMe drives can do ~15GB/s without being soldered.

What's your purpose?

The Unified Memory Architecture is why these Macs are so fast—no wasted cycles moving data between RAM and GPU. And the data is compressed in real-time so less data has to be transferred and there's less ware and tear on the SSD, which is directly to SoC [1].

[1]: https://news.ycombinator.com/item?id=47354705

And by the way, even on UMAs, the iGPU can still have a dedicated segment of memory not readable by the CPU. Therefore UMA does not imply there won't be data transfers.

Naturally it's faster to have all of this in the same package, with memory bandwidth up to 400 GB/s.

Intel and AMD are heading in the same direction.

That's not really a thing with Apple Silicon. The A series chips and the M series have the same CPU and GPU core designs.

Because you don't need to support Thunderbolt 4/5 controllers, PCIe lanes for NVMe storage, ProRes encode/decode engines (on Pro/Max/Ultra tiers) and multiple external displays in a device like a phone, Apple TV, or a HomePod these features are absent from A series chips.

The A17 Pro corresponds to the M3, the A18/A18 Pro corresponds to the M4 and the A19/A19 Pro corresponds to the M5. Same core design, different implementations.

It's not like Intel where there are many server processors, desktop processors and mobile processors. Apple uses the same core design they scale up or down as needed, for example the S series chips in the Apple Watch. The S9 is a scaled down A13 or A15.

The A18 Pro isn't even two years old yet; it debuted in iPhone 16 Pro and 16 Pro Max September 2024. What's funny is none of the PC laptops manufactures can match the speed and quality of the Neo.

The benchmarks for the A18 Pro are impressive; its Single Thread Performance beats all mobile processors [1]; remember this processor was created for a phone:

        Apple A18 Pro              4,091

        Apple M1 8 Core 3200 MHz.  3,675

        Apple A15 Bionic           3,579

        AMD Ryzen Z1 Extreme       3,546

        AMD Ryzen 5 PRO 230        3,538

        Apple A14 Bionic           3,382

        Intel Core i5-1235U        3,090

        Apple A13 Bionic           2,354

        Intel N150                 1,902

        Intel N100                 1,893

        AMD Ryzen Embedded R1505G  1,820

More efficient software benefits everyone.

Fewer developers want to write ASM or C, today. Slower to market, slower to roll out features, etc. While that may seem like a good thing, and probably could be, the market doesn't like it.

Developer choose heavy weight frameworks or don't make use of modern features in said frameworks to improve performance. And in some cases, performance can be 'good enough'. If I pretended to be a developer, if my app performs well enough, it's not my problem what else is running on your system. Besides, the OS governs it all regardless.

That said, macOS has a terrible memory leak _somewhere_ that impacts even OOTB apps and this hasn't been corrected for the last two major releases.

Usually you just have to actually look at memory usage and trim the obvious fat. But so many developers these days treat memory as an infinite resource, and don't have a clue how to use profiling tools to even investigate memory usage. That and, maybe stop shipping a copy of Chrome with your application.

I'm hopeful that LLMs will improve the state of application development. Claude can write sloppy code, but it also knows how to write rust and swift, and it knows a lot of tricks for optimisation if you prompt it.

There's 3rd party libraries which know how to interact with spotify. I wonder how many claude code tokens it would take to make a simple, native spotify client. Or discord client. Or client for Teams or Slack.

Because the issue isn't electron, it's not freeing resources which you can do in any language/platform.

That’s still an order of magnitude worse than it should be. You don’t need 200mb of ram for a chat app.

Not necessarily a reason to avoid the Neo, for the right use case. If I had secondary school kids they’d get one of these, but something to bear in mind.

Nintendo Switch - 279 euro

Nintendo Switch 2 - 489 euro

Neo with a proper SSD size - 800 euro.

In EU, and I imagine other markets, there's nothing remotely close. I hope this puts some pressure on Lenovo and the rest of manufacturers to be more competitive.

I have a feeling these are aimed at the same sector as the Framework 12, school provided laptops for kids meant to be bought in bulk by institutions. But there they're competing against $150 Chromebooks and neither is even close.

Taxes are also included in the EU price, but not the US price.

No one does this, because they're low enough to begin with.

The Macbook Neo is highly repairable too [1]. Not _quite_ as repairable as some Thinkpads with a 10/10 score, but still pretty respectable at a 6/10 with easily replaceable batteries and stuff.

[1] https://www.ifixit.com/News/116152/macbook-neo-is-the-most-r...

We culturally decide what parts can or cannot be replaced. Apple solders their RAM on the CPU for performance reasons. It’s coming to PCs at some point, if they ever decide to compete on performance ever again.

Are you assuming that the PCs do not compete with Macs for performance? People built Hackintoshes that are more powerful than the highest spec Mac Pro - and for cheaper, too

Laptop PCs are starting to lag behind Apple, just like the fastest Android phones have a hard time competing with three year old iPhones.

Of course on the desktop, you can just pump more power into a disappointing x86 chip to eke out better perf but that market is marginal and Apple basically ignores it. Laptops might not be a problem for you specifically but this situation, where a company has advantages but is inadequate for the needs of the market, is how so many chip manufacturers just disappeared in the 90s.

In fact, Neo's Mainboard is in the same ballpark as a Desktop RAM DIMM, which means replacing the whole Mainboard is in the same as replacing the RAM on a Desktop from an environmental perspective.

And then there is the rest of the globe.

There's a tremendous amount of Bill-of-Materials inflation where a part that cost $5 more translates to $50 retail price increase when the actual work and engineering cost is exactly the same. This is one of the terribly annoying facts of product design, the incredible premium you have to pay for good parts that don't actually cost very much at all.

In advance of the neo’s release, Apple probably invested billions in ensuring the supply chain was ready.

I've already once in my life been in a situation where I can say with certainty the only reason my laptop wasn't stolen is that it wasn't a MacBook(despite having equal or above retail purchase value). I wouldn't be surprised if there's more that I never knew about.

Granted, selling this one for parts might literally be easier.

As long as you buy a Mac laptop, Apple is fine with that, regardless of which one. That’s because they know who their customers are.

The Neo is in its own category; the $599/$699 Neo doesn’t compete with a 14-inch MacBook Pro with a M5 Pro, 24GB of RAM, and 1 TB SSD at $1899. If you know you need more RAM and storage than Neo, the M5 Mac Air is $1099. But if you need to stay under $1000, the decision is clear.

If anything, the Neo is more competitive with the entry-level iPad with 128 GB of storage at $349; with Apple's keyboard at $249, the total is $598, $1 less than the entry-level Neo.

For someone who wants a "real" laptop with more flexibility than an iPad, getting the $599 Neo is a no-brainer.

They’re relying on the huge portion of their existing laptop market who self-identifies as “tech-savvy” or “enthusiast” and thinks 8 GB of RAM is a non-starter.

Those folks will keep buying Mac laptops at double (or triple, quadruple, …) the price.

If next iteration has A19 pro chip in it - it will have 12gb.

It's actually not that much slower, at least if you compare machines with the same amount of storage. The M2 and M3 MacBook Air with 256GB comes in at 1700 MB/s[1], while the Neo with 256GB is... drumroll... 1700 MB/s[2].

Yes, Air and Pro machines with more storage are faster. I have not seen any benchmark of the Neo with 512GB, so maybe it lags behind the Air and Pro there. But I've not seen anyone publish a benchmark which actually demonstrates that.

[1] https://www.reddit.com/r/mac/comments/1gvovdt/the_ultimate_g...

[2] https://forums.macrumors.com/threads/macbook-neo-has-up-to-8...

The iPhone has done well.

The memory eaters most people are complaining about are not workloads, but shitty communication apps that keep all those cat pictures from the last 4 months uncompressed in ram...

Launch a few more applications and you'll see everything sort of still keeps working at an acceptable responsiveness.

Intel doesn't even remotely compare to ARM. Even an M1 8GB would far outperform what you have now.

Also, used != new. I'm surprised people need to be reminded of this.

It appears most people - even on Hacker News(!) - are unaware that Chromebooks have a one-click Linux VM (currently Debian Trixie is the default). It is well-integrated into the Chrome desktop/launcher, and any Linux app can even be pinned onto the taskbar, next to your browser. Any Linux package you can `apt get` or `curl | sh` can run on Chromebooks made in the last 5ish years.

Gets about 10 hours battery life, touchpad is way better than my $799 Lenovo Ideapad (ChromeOS is weirdly good with even cheap touchpad hardware) and does an incredible job of suspending idle tabs without being noticeable. No rooting, jailbreaking, etc required and unlike my M1 Macbook I can actually install apps without the ridiculous click app->can't open unverified app->settings->security->open anyway->click app second time-> open anyway song and dance.

Would I recommend it as your primary development device? Certainly not, and Neo would be a much better experience for sure but it also costs 4x as much so shrug.

I bought it entirely because I wanted the cheapest modern ARM Chromebook I could find with good battery life since my m1 Macbook is pretty much always tied to a dock and but pleasantly surprised by how much it could actually do beyond just web browsing.

Instead of using iCloud

Normal people won't even know there's a VM in the background, Linux apps launch and behave like any other ChromeOS app. The integration is very well done, and its evident you've never used it, or even seen how it works in practice and youre hallucinating non-existing complexity. All one has to enable a setting, and they can double-click a Linux app flatpak or AppImage to launch it.

My personal laptop is my phone which is a Samsung S25 ultra with Dex that I use with a lapdock.

When I travel and need to do work (i.e coding), I don't even bring my mac because I can do everything on my phone with a VPN. VSCode runs as a local web app, python works. The only thing that doesn't work is pytorch with pip install, but I don't need it for work and I could get it to work easily if I compiled it myself.

The UI is fast, I have twice the ram of the Neo, all my apps in one place, my phone lasts longer because lapdock charges it, and I can easily multitask between work and personal all on one device.

And thats with the "limitation" of android. Before I got that setup, I had a $300 ebay refurbished Thinkpad (don't even remember the model, just one where I could get a ram stick to get it to 32gb), and I ran with #!++ linx and i3wm. It booted up faster than my work macbook, was way more responsive, and I didn't have to jump through MacOS bullshit like permissions and all the other crap when trying to do stuff.

The simple truth is that Macs never were, are not, and never will be worth it for anything. Anytime you try to argue this, you out yourself as an obvious fanboy thats wants his shiny new metal laptop to feel like he as some sort of better tool.

In the country I live in, there is no comparable Chromebook spec-wise on par with the Neo at a similar price point. You're basically stuck with 4GB RAM.

You can get a regular laptop and have even more ram with Linux. Not sure why you are stuck on the Chromebook.

They need to introduce something below the Standard license targeting the Neo. What I'd personally consider is:

- Standard gets 16 GB vRAM (to perfectly target the base MacBook Air). But leave it at 4-6 vCPUs to not compete with the Pro (still for general computing, not power-users)

- New "Lite" tier with 8 GB vRAM max for the Neo (4 vCPUs). Increasing to 12 GB vRAM if the Neo does.

Then you target a $89 price point one-time-purchase for the "Lite" tier. Essentially three plans, targeting your three major demographics: budget, standard, and pro/power-user.

[1] https://samhenri.gold/blog/20260312-this-is-not-the-computer...

[2] https://www.youtube.com/watch?v=PbPCGqoBB4Y

You took what I said out of context and then replied to something else. Running Parallels on a Neo is a novelty. Parallels is both what the thread is about AND what my reply was expressly about.

Nobody can reasonably read what I wrote, in context, and believe I was referring to the computer itself as a novelty.

Someone suggested that people with 10k karma and/or 10 years subscription to this site should be able to do things (such as auto-ban) to those accounts.

The account that misrepresented your comment and thus acted in bad faith is one of those 10k+ accounts.

To me, this is a data point showing the fallacy of long term subscription and/or karma accrual as evidence of their quality/good faith abilities

These won't run Crysis, but they don't need to.

The last version of Windows that felt like 4GB of RAM was performant for me with applications was Windows XP. Not that every computer running the 32-bit edition of Windows XP could even see/utilize a full 4GB of RAM properly, but at least it was fast.

Though I get by just fine with 512MB on my favorite Pentium 3 XP system. :D

A SSD would have made an absolutely massive difference.

Source: I have clients that still have 2nd/3rd gen i5 systems running 3-4 GB of RAM with Windows 10 and they're tolerable solely thanks to SSDs. Swapping that much on a hard drive would just be painful to use.

Nobody should be interactively using a computer post-2018ish (whenever SSDs fell below $1/GB) that's booting and running primary applications off spinning rust. They're perfectly fine for bulk storage drives but anyone waiting for an operating system booting off one has wasted enough of their life in the last year to have paid for the SSD. Companies that wouldn't spend $100 on an upgrade are literally throwing money away paying their employees to wait on a shit computer.

And if they can do that, they can get them (at full MSRP) for about half the price of a MacBook Neo.

Heck, you can get 8GB Windows laptops with twice the SSD size of the MacBook Neo's for a little over half of the Neo’s price (again, at full MSRP.)

Let's see one of these $300 Windows laptops with 512GB of SSD (in a reasonable format, e.g. not an SD card), a body that isn't disposable, a screen that isn't a dim potato, a CPU that's within 20% of the Neo's performance, and a GPU that isn't embarrassed to be called a GPU.

I doubt they exist.

I think you're misunderstanding, of course they do not exist. People don't get $300 windows laptops for their performance, build quality, or anything similar. Nor do they care about screen brightness, and 256GB is fine for the use case which is running word or some other simple application for as little $$ as possible.

I also got two N100 NUC like boxes with 16GB DDR4, 512GB NVMe for €115 each. Bought them as the memory crisis was starting. One is now my home assistant, the other one runs matrix.

I still use an ancient chuwi for going to the makerspace. It's still got hours of battery.

It's all ok stuff if you know what you're doing.

> Lenovo IdeaPad 15.6 inch Business Laptop with Microsoft 365 • 2026 Edition • Intel Core • Wi-Fi 6 • 1.1TB Storage (1TB OneDrive + 128GB SSD) • Windows 11

The person who approved describing its 128GB storage as 1.1TB should be hanged.

The CPU also has[0] 31% of the single core and 14% of the CPU Mark rating. The screen has 220 nits (vs 500) brightness, comes with 4GB of RAM, and weighs 30% more. At least it's half price, though.

The shopping situation for Windows laptops is utterly dire.

[0]https://www.cpubenchmark.net/compare/6268vs4227/Apple-A18-Pr...

Windows 7. Windows 10 eats about 6GB (custom IoT with a lot of things disabled).

Neo is a parody of a computer.

check your install mate

There was simply no need to upgrade, the MacMini was faster in all regards then my Intel MBP. Out of curiosity of its capability I wanted to see how gaming performs - I ended up playing through all three Tomb Raider reboots (Mac native, but using Rosetta!) at 1080p in high settings. Absolutely amazed how fast it was (mostly driven by the update to M2).

Only one thing ever made me notice the lack of RAM, and that was when I was running the entire test suite of our frontend monorepo. This runs concurrently and fires up multiple virtual browser envs (vitest, jest, jsdom) to run the tests in parallel. Stuttering and low responsiveness during the execution, but would complete in 3-4 minutes - it takes around 1 minutes on my current M4 MBP.

https://mac.getutm.app

The gap in spec is no mistake, if it was appealing enough for existing air-book users to downgrade it would cannibalise their bottomline.

The budget tier is UTM. (Also recommend any users of UTM that find it useful should consider donating, preferably through Github sponsors.)

[1]: https://news.ycombinator.com/item?id=47354705

https://www.youtube.com/watch?v=uOe-Ock4pnw

You might argue that some tools like terminal emulator or text editor might be necessary to solve some basic OS issues, but these tools should be extremely simple, like notepad.exe (old one!) or cmd.exe.

Anything other should be distributed in application store or any other way but not as a part of base operating system.

Nor Windows not macOS suits me for that definition, at least their default distributions (I'm pretty sure that it's possible for Apple or Microsoft to build bare bones operating system distribution, but so far they didn't bother and I won't accept some unsupported third party modifications). Linux somewhat suits me, as I can build something with little effort. It'll still contain lots of stuff I have no idea about, but these tend to not show up loudly.

You have options on macOS via launchctl, but I'm not sure how low you can go.

Neither give you the same capability as Linux, of course.