MacBook Neo is going to sell like crazy. In the education market, educators, students, aides... nothing close at this price point. With memory and SSD prices so high I don't see how Dell, Asus and others are going to be able to compete. Unless the build quality is significantly worse than a M1 macbook air not sure budget PC makers will be able to compete.
PC makers are going to stop some of the artificial segmentation they used on the lower price devices, and that is going to hurt the sales of their higher-end lines. There is no reason they kept pushing 70 percent srgb panels on even the mid tier Thinkpads when the Neo has a good display.
I can't imagine the low end materials actually save that much cost anyway.
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 the US, cheap ThinkPads like E14 sometimes sell for a bit less when you factor in all typical discounts. They are good machines that run Linux well and can be repaired.
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.
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.
RAM has no bearing on repairability? And yes, sure stuff is soldered to the motherboard, but everything is basically modular outside of it, you can replace every big part pretty easily, and no glue, even for the battery
The RAM being soldered is a hit against repair ability, you can't expand it or if the ram has issues you can't replace it, you will just be forced to throw out the entire machine. What else is modular here anyways? Can I swap out the CPU, the screen, the keyboard, ports...anything?
In the EU it costs $200 more so it's more like a low to mid range laptop.
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.
In the EU, you don't need to buy an extended warranty, since existing consumer protection laws require the sort of extended repair coverage Americans pay have to extra for.
Taxes are also included in the EU price, but not the US price.
ITs going to sell like crazy not because of specs, but because its apple, and its a cheap. Cause god forbid you pull out a chromebook in a starbucks and be seen as a peasant.
If you know what you are doing and don't want to spend a lot of money, its really not that hard to buy a refurbished thinkpad, swap in more ram, and install your linux disro of choice, for a lower price and get very similar usable performance.
Aside from gaming, I can do basically everything on Mac that I can on Linux or Windows. That's a hell of a lot more than a Chromebook. Take it from someone who has owned both a Chromebook and a Macbook; suggesting that they are in the same league is silly.
Also, used != new. I'm surprised people need to be reminded of this.
You can do more if you have a lot more RAM. Otherwise you really are that restricted.
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.
If Apple continues with the budget Neo brand into a 12 GB iteration, I can see this becoming more realistic (rather than a novelty). That being said, Parallels may need to review its licensing with a budget tier in mind. Few will buy a cheap computer and then pay what Parallels charges for a license (regardless if one-time or subscription).
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.
This isn't a novelty it will crush the low end of the PC market. No one cares if the next iteration will be better with 12GB of ram. The workloads that people say that 8GB can't handle will be ones that the actual users will either wait or tolerate. I've been noticing that people who review the Macbook Neo basically don't get the point [1] and just the headline of this article matters that VMs work and thats a big win. The most ridicuous thing about the laptop is that it appears to be reparable which sort of tells me this is a template similar to the M1 Air of the future laptop designs that Apple will come out with. [2]
> This isn't a novelty it will crush the low end of the PC market.
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.
I saw the other day people complaining about AI slop being posted on this site by new accounts - which I agree is bad.
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
I admit now after rereading that I did misrepresent what they said and I should have read their comment more closely and it was a knee jerk reaction and that its my fault.
> 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 went looking, and did find stuff on Amazon, though none were made of an aluminum chasis, and none had the geekbench score anywhere near, and none had the screen brightness.
As I write this, the top Amazon search for "windows laptop" is a
> 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.
Windows doesn't run "just fine" on 4 GiB of RAM. I had a laptop with 6; Windows 10 became barely usable. If you want to run one, small, program at a time I think you'll be ok. Forget about web browsing; you'll get one tab and it'll be slow.
Agreed. Windows 10/11 can run just fine on 4GB of RAM. You just can't run anything inside of Windows 10/11 with 4GB of RAM.
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.
A lightweight Linux desktop can keep a decent amount of browser tabs (using Firefox; avoid Chrome) on 4GB RAM if you set up compressed RAM properly. It's not foolproof like 8GB would be, but it's absolutely fine for casual use.
2015 laptop, spinning rust. Nevertheless, it was at least somewhat acceptable at purchase, but crapware installed with successive system updates brought it to a standstill. An SSD might've helped, but not by much. I wiped it and put Kubuntu on it to give to my wife, for whom it ran acceptably. She gave it back when she got a shiny new MacBook Air.
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.
Neo is powered by a fast and battery-friendly chip. It's definitely not a novelty any more than Chromebooks or Windows 11 notebooks with integrated graphics have been.
Don't underestimate what you can do with the 8 GB RAM. My mid-tier, Intel 2019 Macbook Pro with 32GB RAM suddenly died by the end of 2023. I quickly got a basemodel 256GB/8GB MacMini M2 as a replacement. While initialy supposed to be a temporary replacement until my MBP gets fixed, I ended up using it for another year as my main daily machine for everything, inluding professionally (fullstack software dev).
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.
There’s something called menu pricing, in order to keep its existing customer base buying their more expensive higher end models there need to be an unjustifiable drop in quality to switch.
The gap in spec is no mistake, if it was appealing enough for existing air-book users to downgrade it would cannibalise their bottomline.
VMWare Fusion is free, even if it is a pain in the butt to download. It also has GPU paravirtualization for Linux/Windows which is the only reason I use a proprietary VMM on macOS these days.
Because I was fed up with parallels subscription model and they make me pay for the upgrade the non-subscription version with every new macOS release, I dropped parallels for UTM. I barely need windows, only every other month or so and often just for some small tasks. UTM is nice, but performance running windows is waaay below parallels. It is free, however, so I won't complain.
http://tart.run works great for running macOS (and Linux) VMs on macOS if you're technical. It's free for non-commercial uses too! (Don't think there's GPU acceleration tho).
I’m excited that Apple now has a reason to keep MacOS small. Their soon to be top-selling machine has 8GB and they won’t want to make all those millions of Neos unusable by shipping a bloated OS.
I wrote about how Unified Memory, SSD directly attached to the SoC and Apple's use of real-time compression saves memory, reduces power consumption and wear on SSDs [1].
In practice I think this is going to be very specific to your data being good for compression and not already compressed - so not gaming, where textures can fill up the Neo's 8GB very fast depending on the game: Cyberpunk, Robocop, Bioshock and Shadow of the Tomb Raider benchmarks are showing 9 - 10 GB of RAM used at just 720p.
As long as you ignore that whole part of the OS was still running 68K code on PPC Macs, it crashed like a drunk driving a semi truck without protected memory and the end user still had to fiddle with the amount of memory an app could use
There's a difference between bloated and batteries included. From a development point of view, macOS has native system libraries for things no other platform seems to include native system libraries for. And by "native system libraries" I do not mean downloadable content, dynamic support or anything similar, even if they're first-party. Though having unremovable system apps for every one of Apple's services MAY count as bloated if you don't use them.
There’s a big difference between unnecessary applications taking up space on your storage device, and unnecessary services running in the background competing for RAM and CPU with the applications you actually want to run.
> Windows 11 VM requires a minimum of 4GB of RAM to function
You can give it less. It may refuse to install, but even without using any workarounds, you can change the assigned RAM after installing and it will not refuse to boot. The minimum for Windows Server 2025 is 2 GB, and it’s basically the same OS (just with less bloat).
Not surprising but good to hear. It seems that there really isn’t anything that runs on a new MackBook Air that you couldn’t run on a NEO. It might not be as fast for some things but it gets the job done.
Ish. It’s better in some ways, like single core and maybe multi, but not by a ton. At the same time I think the M1 may have more raw GPU power, though missing a few fancy features.
Hardware is mostly worse, but that’s to be expected for the price. And nothing terrible, just little cuts all over.
It will have a longer support period than an M1 based on Apple’s history of device releases. This might also mean a longer support period for the 16-series phones than typical, similar to the 4S.
I’ve been an M1 Air fan since I got mine in 2020 but recently things have become unusable. Playing 4K videos often drops frames, even at 30fps. And I can’t reliably run Notion’s transcription AI on Zoom calls, even though it’s not running locally. I’m going to do an OS reinstall soon to see if that helps, otherwise it will be time to upgrade…
Yeah, honestly not even counting. The only reason I even consider moving is that I dislike Tahoe and I know eventually I won’t be able to stall the update; hardware wise it doesn’t even cross my mind.
I have a current gen MacBook Pro for work configured with stupid amounts of ram and I feel no difference in terms of fluidity at all.
As others have said, should be fine to run Linux in a VM. Running natively from boot, the only potential option would be Asahi Linux, but my understanding is that the A18 Pro chip has certain internal attributes which are akin to an M3, and Asahi has only gotten full support in place for the M1/M2 generations. Perhaps once they get M3+ fully working, A18 Pro would also be an option. (I'm also super interested in a Neo running Linux.)
If the A18 Pro has the same ISA as the M-series chips then this may not be so straightforward. I am still hanging on to my 2020 Intel MBP for dear life because it is the only Apple device I own that allows me to run Ubuntu and Windows 11 on a VirtualBox VM.
Would you elaborate what you mean by saying Linux on an M-series chip isn't straightforward? That's not been my experience, I (and lots of other devs) use it every day, Apple supports Linux via [0], and provides the ability to use Rosetta 2 within VMs to run legacy x86 binaries?
Clearly I'm not as knowledgable about this as I thought I was. I already have a Ubuntu x86 VM running on an Intel Mac (inside VirtualBox). Same with Windows 11. Can this tool allow me to run both VMs in an Apple Silicon device in a performant way? Last I checked VirtualBox on Apple Silicon only permits the running of ARM64 guests.
While I have a preference for VirtualBox I'd say I'm hypervisor agnostic. Really any way I can get this to work would be super intriguing to me.
> Can this tool allow me to run both VMs in an Apple Silicon device in a performant way?
I use VMWare Fusion on an M1 Air to run ARM Windows. Windows is then able to run Windows x86-64 executables I believe through it's own Rosetta 2 like implementation. The main limitation is that you cannot use x86-64 drivers.
Similarly, ARM Linux VMs can use Rosetta 2 to run x86-64 binaries with excellent performance. For that I mostly use Rancher or podman which setup the Linux VM automatically and then use it to run Linux ARM containers. I don't recall if I've tried to run x86-64 Linux binaries inside an Linux ARM container. It might be a little trickier to get Rosetta 2 to work. It's been a long time since I tried to run a Linux x86-64 container.
Not until macOS 28., but you're right, it's frustratingly unclear whether the initial deprecation is limited to macOS apps or whether it will also stop working for VMs.
The instruction set is not the issue, the issue is on ARM there's no standardized way like on x86 to talk to specialized hardware, so drivers must be reimplemented with very little documentation.
As long as you're ok with arm64 guests, you can absolutely run both Ubuntu and Win11 VMs on M-series CPUs. Parallels also supports x86 guests via emulation.
How is the performance when emulating the x86 architecture via parallels?
Also is it possible to convert an existing x86 VM to arm64 or do I just have to rebuild all of my software from scratch? I always had the perception that the arm64 versions of Windows & Ubuntu have inferior support both in terms of userland software and device drivers.
Have you confirmed this? I haven't seen anyone concretely describe the boot policy of the Neo yet (it should be an easy enough check for anyone who has one in-hand).
How does it function? Last time I tried was a 2018 Intel MBP and it was a gamble where I would always lose either WiFi (despite the driver being in the installer iso) or the keyboard. I'm aware it's a totally different architecture, but I also seem to remember comments about that one too before I tried.
It's the best linux-on-laptop experience I've had so far (including various Thinkpads). Never had any issues with wifi nor bluetooth (I'm streaming music via bluetooth via spotify via wifi, right now). The only missing feature I personally care about at this point is HDR support. There's no thunderbolt yet, but I don't own any thunderbolt peripherals in the first place.
There is occasional jank, but nothing out of the ordinary.
I'm confused, you weren't talking about what the average user would do, just about what it can? Asahi Linux is pretty good, not sure why that'd be a real issue?
Every thread about Windows on Hacker News includes claims about apps taking 30 seconds to launch, web pages taking 20 seconds to load, simple applications being unusable, and other extreme performance problems. These are puzzling for anyone (like me) who uses Windows at home without all of these extreme performance problems.
That was until I realized how many reports are coming from people talking about their work laptops loaded with endpoint management and security software. Some of those endpoint control solutions are so heavy that the laptop feels like you've traveled back in time 15 years and you're using a mechanical hard drive.
There's an unspoken rule in corporate America, colleges, etc. Laptops MUST be loaded down with terrible software, no exceptions. My last corporate laptop actually had the paid version of winzip in 2025, and it ran with a little tray icon that I couldn't disable or remove. That was in addition to all the other corporate crap I couldn't remove.
Some of this is not _just_ a corporate problem. Why would Winzip have an auto run application and tray application in the first place? Every single app seems to think they need one, and it's a classical tragedy of the commons. Perhaps on a virgin Windows install, your app with autorun and a tray icon will be more responsive. But when 20 other apps pull that same trick, no one wins.
This is actually one of the reasons I'm not excited at the idea of Linux defeating Windows. If it did, corporations would just start crapping up Linux the way they've crapped up Windows.
> If it did, corporations would just start crapping up Linux the way they've crapped up Windows.
They do already, my work laptop runs the corporate spin of Ubuntu, complete with Crowdstrike, which goes absolutely crazy and chews all the CPU whenever I do a Yocto build.
The reason every developer makes their app open at startup, is because the Windows ecosystem doesn't have a good package manager. So every app needs to be its own package manager and check for updates on a timer. So they need to run all the time so they can run that timer.
In theory the Windows Store will handle updates. In practice, I avoid the Windows Store version of applications. Also, you can't turn off app updating, only pause them for a time.
Our corporate linux machines have exactly the same monitoring software as Windows - even the servers.
The performance is still not even remotely comparable. Could be the hooks are more performant on linux, could be the filesystem, maybe the tools are written more sanely... But loading apps, filesystem operations... Everything is still far faster on the linux dev instance. And I have half the ram allocated to that one.
A bank I worked at had one so bad that at 9am when everyone was logging in or forcing updates it could take 15 minutes to be usable. And every couple of weeks they'd force update just to change everyone's lock screen to something like "I support pride month"
I like videogames, maybe more than I should at my age, and I prefer to play them from Steam in Linux through Proton. A couple of months ago I caved in and bought a proper Windows gaming miniPC because a game I want is not stable in Proton.
I use a corporate Windows VDI at work, so the experience is understandably subpar there, but it is still horrible on high.end hardware. Took me half a day just to herd it through update after update, while avoiding linking it to a Microsoft account despite its protests.
It's literally used to run only Steam and Firefox, and it still sucks compared to the ease of install/management of Linux. Ubuntu LTS took me about an hour to set up dual boot, apply updates, install Steam, and every other software and tool I use daily.
Why is Windows 11 still so clunky in 2026? It doesn't feel like the flagship product that many bright minds have improved for three decades. Why are hobbyists and small companies outperforming Microsoft's OS management?
Because Windows isn't really an OS anymore, but a "platform" to deliver advertisements and lock you into Microsoft services. The OS core itself is fairly solid (and has been since Vista/7) but it's all of the crud shoved on top which really ruins everything.
The LTSC IoT releases are easy to find (wink-wink) and don't have 80% of the annoyances, including constant "feature upgrades" - still not Linux, but better than consumer Windows.
I once worked on a computer for the US Government that felt slow. I counted nine (9) directly competitive and redundant endpoint protection products on it.
Not nine different/only somewhat overlapping pieces of software from companies that were competitors. Nine equivalent products. I guess defender made ten.
No this is not just an enterprise issue. I waited 10 seconds (I counted.) for a Windows Explorer context menu to open the other day. This is on a fully decked out system with an Ultra 9 cpu and a 4090 and 32gb of memory, and basically no apps running. I think I had 2 tabs in Edge? Windows is a shitshow these days.
I just tried to open the context menu in Windows Explorer. It showed up almost as soon as I released the mouse button, and I have a much slower CPU, older video card, and way less RAM then you do. I was also running 12 windows of Firefox with collectively 1000+ tabs (though only about 36 or loaded), Steam, a Unity game, and Microsoft Teams, plus a number of background programs.
If your Explorer context menu is taking more than a split second to load, there's something wrong with your hardware.
There must be something wrong with quite a lot of hardware then. My windows laptop at work took > 20 seconds to open the right-click menu on the desktop.
During the wait the entire desktop background went black along with the icons then it came back. I was actually trying to get to a setting to set the background to a fixed colour instead of an image in the hope of speeding the machine up.
From a UX experience there was zero indication that it was trying to do anything during this time.
Corporate spyware is pretty nasty, regardless of platform. When I was at FB, they had something that forced a kernel module that was incompatible with the next big OS release; and I had accidentally disabled the FB spyware scripts. I set /etc/hosts to immutable because I was tired of them fucking with it ... didn't realize that's why things were better for the next 3 months, until I did the major update and I had to fix things from safe mode ... where everything only barely works.
Microsoft also puts a lot of crap into a default install that you may want to disable. Windows 11 with some judicious policy editor settings isn't so awful.
Outside corporate setting, it is also the fact that most windows systems you encounter are installed on cheap machines by people who just care that their word processor works a few times a month. And you were probably forced to fix it.
At the same time, as someone with a well maintained Windows gaming rig, I don't like spending time in the OS these days. Something about transparently doing stuff that puts money in their pocket while inconveniencing me gives me the ick.
And Windows laptops are such a commodity business that prices are incredibly low. So PC makers load ‘em up with junk because they get paid for those deals.
They are more incentivized by that than the few lost sales from people who know better to look for low crud machines.
And on more expensive machines they’d just be leaving money on the table. So they still often ship bundled crud.
Similar to spyware on TVs. Margins are razor thin. They’re going to make them up somewhere.
Oh yeah no... its still terrible even without all the spyware.
First experience of Windows 11, trying to download a file through firefox caused my 18 core 10980xe to have the entire UI freeze for the full time the download was going.
Reverted back to windows 10 immediately and the problem went away.
I've said for decades that from a user perspective, malware scanners and prevention tools are fundamentally indistinguishable from actual malware. They intercept file accesses, block you from doing what you want to do, pop things up all over the place, and make your machine slow aand unreliable.
I’ve helped someone with a rather clean iMac, circa 2019, still supported by Apple. Forget 6 minutes — you can spend a full hour from boot to giving up trying to get anything done.
I think that Apple has gotten so used to having fast storage in their machines that the newer OSes basically don’t work on spinning rust.
I bet this is it. I had a 2018 Mac Mini with a failing drive that moved like frozen molasses, but wasn't throwing obvious errors. Before it failed, it was slow compared to an SSD, but booted up in a reasonable amount of time and ran office apps just fine, just with a little startup lag. It was bad compared to an SDD, but not intolerably slow.
If a Mac is running that slowly, there's probably a hardware issue.
what? on a semi modern CPU and a SATA / M2 SSD?? My Vista laptop on a spinning drive took that long to boot I am pretty sure. I am flabbergasted if this is true
corporate laptops is the key here. take 2 identical laptops one with and one without the spyware - its night and day in both performance and battery life.
My corporate spyware laden Surface ARM runs Windows faster than the Macbook Neo, but unlike the Neo can survive a fall onto a concrete floor. (Ask how I know...)
How do you know a Neo cannot survive a fall onto a concrete floor? I think it would take at least ten tests each with a new machine to get some confidence of the impossibility of that.
Geekbench 6 was around ~2600 single-core with the VM overhead for me. That's still punching above single-core power in its class for Windows machines and it makes me giggle.
Wouldn't corporate spyware equally burden the NEO? Especially more give the 8GB of RAM vs 16+ on X64 laptops? Chrome, Teams, IDEs, websites etc are equally bloated on both platforms.
A Neo will win a race with a similar speed Windows computer full of bundled crap and security slop.
But it would work the other way around too.
The nice thing about Macs is even if you see a lot of what Apple puts on the computers as useless trash (“Why the hell do I need iBooks?”) it’s not stuff running in the background interfering with everything you do the way bad PC security software bundled on cheap Windows PCs or forced by corporate often does.
I can tell you my last work Mac slowed down noticeably (though not too bad, luckily) the day they decided to put the corporate security crud on it.
The newer security crud we use now seems much better behaved though.
My (former) corpo HP laptop with 16GB RAM had 75% RAM used at idle after a fresh boot with Outlook, Teams and all the copro shit running in the background. So the 8GB NEO CPU will spend its time swapping data from ram to disk versus the 16GB+ ones, given both being filled with corporate spyware and same heavy use cases.
Also it isn't 2-3x faster, stop with the made up nonsense please. Just checked and my 3 year old AMD laptop is on par with the NEO geekbench score I found online (slower in single core but faster in multi core), not 2-3x slower.
This is another myth that needs to die. You can’t just look at Task manager and see that the OS is using extra memory and assume anything else loaded will cause swapping. Thats not how modern OS work.
“Parallels Desktop runs on MacBook Neo in basic usability testing. The Parallels Engineering team has completed initial testing and confirmed that Parallels Desktop installs and virtual machines operate stably on MacBook Neo. Full validation and performance testing is ongoing, and additional compatibility statement will follow if required.”
The M line was derived from the A line in the phones, and the individual cores are generally the same (though not in the same year). Counts, accelerators, other stuff on package/die is custom.
I think it was a fair question too. Even if things should be capable it was always possible the feature would be disabled in hardware or software somehow.
And with iPhones never running VMs as far as I know, we didn’t know if it was capable at all.
Virtualization requires specific hardware support to be performant. There are ways to do complete software emulation of a virtual machine but it would be so slow that nobody would want to use it.
This is them confirming that the CPU has enough virtualization support that they can virtualize rather than emulate the guest OS
Yeah. It's the first production Mac using an A-chip and is a Mac that has had many things cut out for savings. The question is did Apple feature cut required functionality.
Maybe/maybe not (we don't know how identical the A18 chip is to what shipped in the iPhone) - but it does determine that the virtualization stuff that was added to the M1 (in the era of the A14) has now moved over to the A series, at least enough to support macOS.
Speculation I’ve heard from Ben Thompson of Stratechery is this machine is, in part, a way to get value out of iPhone Pro chips that had defects.
The Neo has a 5 core GPU. The iPhone 16 Pro had a 6 core.
So, if he’s correct, these are the same exact chip. Just with a fault in one GPU core or one GPU core disabled if it was good. That lets them use extra chips they already made that would have gone to waste, at least until they run out.
Which would mean they both would have identical abilities, assuming no software lock for segmentation purposes.
It’s all supposition. But it make a lot of business sense.
Man, I do wonder what the realistic lifespan of that single NAND chip will be after it gets hammered by constant swapping of running tasks way beyond the capabilities of a 8GB RAM machine.
I have a PC with a 10+ year old 256GB SATA Samsung SSD that's still in top shape, but that's different because that drive has those 256GB split over several NAND chips inside, so wear is spread out and shuffled around by the controller to extend lifespan. But when your entire wearable storage is a single soldered chip, I'm not very optimistic about long term reliability.
There was quite a bit of discussion about that when the M1 first came out, but none of it really seemed to have happened six years later. The target audience isn't in danger of wearing it out and the ones that will push the limits will grow tired of it and sell it in a year or two or move on to the Neo 2, which might have 12gb of ram due to the expected chip.
I still think it's a great machine, but I think all these worries about NAND dying really haven't come to fruition, and probably won't. I have about a hundred plus of various SSD Macs in service and not one has failed in any circumstance aside from a couple of battery issues (never charged and sat in the box for 2 years, and never off the charger).
If swapping was causing SSDs to fail on M1 Macs, we would never see the end of the hysterical articles about "NANDgate". Since we haven't seen any in all these years, it's seems pretty certain it's not happening.
Exactly. If some sort of random Dell model has a failure, you'll never hear about it because there's only a few thousand or so in circulation. But if any Apple product which sells in the tens/hundreds of millions has an issue, you'll hear about it whether you want to or not.
Hysteria would be if all had an issue like the keyboard gate, but this isn't an issue, it's a design limitation for certain uses cases which not everyone has. Some users will wear out faster than others due to usage patterns. If their M1 dies after 6 years of heavy usage, do you think they'll investigate if it was the NAND that died and go online to tell the news, or will they chuck it and buy new one?
NAND is still the same wearable part that regular X64 laptops have, Apple doesn't use some magic industrial grade parts but same dies that Samsung, Micron and SK ship to X64 OEMS, and those are replaceable for a reason, because they eventually fail.
The reality is most 8GB M1 Macs are still working just fine 6 years later. Power users know they need more than 8GB of RAM and will buy a MacBook Air or Pro with 16GB+.
The MacBook neo is for students, grandparents, travel, etc.
Hell, even if it dies after 6 years it was still a better experience than using a $500-600 windows PC and the cost comes out to ~$8/month spread over 6 years.
>The reality is most 8GB M1 Macs are still working just fine 6 years later.
Do you think SSD drives are replaceable for no reason? Just because M1 mac aren't failing left and right doesn't mean their NAND won't fail.
Even though I like the NEO, I can't in good faith buy a machine with soldered wearable parts. That's like buying a car with soldered brake pads because "in 6 years average users don't feel like they need changing".
I still had laptops on my hands from 20 years ago that work fine simply because you can swap their drives with fresh ones. How many M1 mac will still be functional in 20 years?
"How many M1 mac will still be functional in 20 years?"
Probably quite a few, MacBooks have had soldered SSD's for over 10 years now. My 2018 McBook Pro still has a perfectly functioning SSD. I still see people using 2015 and older MacBooks all the time. There is no widespread SSD failure issue after 10+ years of Apple soldering the SSD's.
For most people the SSD's are lasting longer than the useful life of the device.
> Do you think SSD drives are replaceable for no reason?
The number one reason why laptop OEMs primarily use replaceable SSDs is so that they can switch SSD vendors on a monthly basis to whoever is the lowest bidder at the moment. The number two reason is so that they can offer multiple storage capacity options without building different motherboard configs (though in practice, a lot of OEMs never get around to actually selling the alternative configs). Repairability is a very distant third place.
> Do Mac users check and report their SSD wear anywhere?
As a data point: I got a 14" MacBook Pro with a 512 GB SSD the first day it was available in 2021, and I've used it daily since then.
According to the SMART data ("smartctl -x /dev/disk0"), the SSD "percentage used" is 7%, with ~200 TBW. At this rate, the laptop will probably outlive me.
>but that's different because that drive has those 256GB split over several NAND chips inside, so wear is spread out and shuffled around by the controller to extend lifespan. But when your entire wearable storage is a single soldered chip, I'm not very optimistic about long term reliability.
I thought wear leveling worked at the page/block level, not the chip level? On an SSD, if there was a failure of an entire chip, you're still screwed.
You're correct, GP's understanding of how wear leveling works is off by several layers. Counting the number of BGA packages tells you nothing. There are multiple NAND dies per package, multiple planes per die, many blocks per plane, and the size of each erase block is the largest-scale feature that is relevant to wear leveling.
from what i seen in "low end" ssds like the "120gb sata sandisk ones" under windows in heavy near constant pagging loads is that they exceed by quite a lot their manufacturer lifetime TBW before actually actually started producing actual filesystem errors.
I can see this could be a weaker spot in the durability of this device, but certainly it still could take a few years of abuse before anything breaks.
an outdated study (2015) but inline with the "low end ssds" i mentioned.
Most flash has average wear out after 300k cycles. Let's say 64GB is used for swap. That's 19200 TB or 19.2 PETABYTES of Swap usage. Let's say you swap 12GB a day, you will burn out that 64GB of Flash Storage in 4.38 years and my guess is that amount of swap usage is extremely high that user would probably replace laptop sooner out of performance frustration.
>Most flash has average wear out after 300k cycles
No it doesn't. Most 1TB drives are rated for around 600 TBW, so enough to overwrite the drive 600 times, nowhere near 300k cycles. If you search for specs of NAND chips used in SSDs, you'll find they're rated for cycles on the order of hundreds to thousands, still nowhere near "300k".
12GB a day isn't very much. If your working set is larger than the 8GB RAM, you're swapping multiple times per second. It doesn't take very many megabytes per swap to reach 12GB if you're doing that multiple times per second.
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