It's not surprising. The AVP has a PPD of 34. A 14" MBP screen with a resolution of 3024x1964 already has a PPD of 66 at a close 14" viewing distance and it gets higher as you move further away [1]. Retina is considered 60+ at 20/20 vision. Of course a real display has no resampling or micro-OLED smearing to overcome either.
To achieve the same effective pixel count as a MBP, a virtual screen at the AVP's PPD would have to be resized to 90° horizontal FOV, which is just too big to be comfortable, equivalent to sitting 6" from a 14" MBP screen.
The technology just isn't there yet. We need at least another doubling of PPD. See you in 10 years.
That's the great irony of Apple trying to make AR work as a monitor replacement, their existing users will be some of the hardest to please in terms of resolution since they've been spoiled by retina displays as standard on every Mac for the last decade.
yea i truly do not understand. not to mention cranking your neck for more than 2 seconds a workday is going to make this a nonstarter once most people get over the cost justifications
My current setup is 3x monitors + a laptop screen to the side at the office and 3x monitor + a wall-mounted television in my home office. That doesn't even begin to scratch the surface of what people are willing to do for screen real estate.
Many people are accustomed to working with 3x or more display devices where at least one of them is out of their field of view no matter where they are looking so I imagine the primary adaptation to using a vision pro would be the weight.
I am a color accuracy and resolution snob so I only use professional monitors: BenQ at home and Eizo at the office.
If one day the vision pro can match the performance of color-critical monitors for less than $5,100 it will be a definite "oui-starter".
If one day the vision pro can BEAT the performance of color-critical monitors for less than $5,100 I will hire a personal trainer for the sole purpose of getting my neck buff enough to use one without strain.
> That doesn't even begin to scratch the surface of what people are willing to do for screen real estate.
Very, very few people. I would be surprised if it's more than a fraction of a percent of the home computing market.
In fact, most people seem quite content to downgrade. They have laptops or desktops that are collecting dust while they're browsing the web on their phones while at home. My entire family does that, I'm the only outlier.
I'm sure that cost and convenience are factors and there would be a larger market for zero-hassle "high-FOV" computing, but a bulky headset isn't it. As it is, the market for Apple Vision Pro is almost nonexistent - not without some killer use case that appeals to more than just hardcore geeks.
> My current setup is 3x monitors + a laptop screen to the side at the office and 3x monitor + a wall-mounted television in my home office.
Well, that only leaves one question: Why so few monitors?
More seriously, I'd be really interested to hear your system for arranging things across all that real estate and how you use it optimally.
I used to have 2.5 monitors (two widescreens + a laptop off to the side) --- but after several moves, the inexorable passage of time, and my growing laziness, I now just spend my workdays hunched over a single laptop.
You didn’t ask me, but I’ll chime in here. I run 6 monitors — four landscape in a 2x2 config and a portrait on either side. I use the bottom right landscape for most web browsing, email, and sharing my screen. When I’m sharing I do those things on bottom left landscape. Top monitors are for reference type info as they’re too high to stare at for long periods. Top left is downloads folder, CPU/RAM/etc monitors, sticky note, and to-do list. Top right is calendar and security cameras. Right portrait is slack (portrait is great for this, lots of history without scrolling). Left portrait is windows explorer. It’s super fast to just move the mouse and turn my head to what I need without switching windows as much.
My setup is similar to your multi-monitor arrangement, except instead of moving my head I switch between respective window sets in Stage Manager (macOS).
One downside is that my neck does not exercise much because I do not look in different directions while working. Another downside is that at certain times context can involve multiple window sets, but that is rare, and it comes with an upside: it is easier to focus on one task without windows on other monitors distracting me.
Right: Browser and as many terminal windows as I can stand before I start to go insane.
Laptop/TV: personal stuff
I design satellites. Specifically antenna tiles and onboard processors that do RF things. I also assist in the testing of new RF signal processing methods.
I spent a couple months sporadically training a neck harness to build up for lifting and it made a big difference when I gamed long sessions on VR again. I feel like will probably take headset fatigue/injuries as seriously as any other office overuse. Which is to say, probably not much, but maybe awareness will get there one day.
I think we need to withhold analysis based on the 34 PPD number. In the article you can see that the rendering projection is quite distorted, with the apparent effect of using more pixels per degree for the center part. They don't account for this when calculating the 34 number. Of course a "fisheye" lens would also be "distorted" and allocate an equal number of pixels to each angle, so it's hard to tell by just eyeballing things. I wouldn't be surprised if the actual PPD number in the center, where it matters, is higher.
I think the article merely superimposed manually distorted screenshots from the AVP onto a photo of the sensor, rather than taking a photo of the sensor while turned on, so it's not representative of the distortion, but yes, I agree, you make a good point - the pancake lens optics might be nonlinear, with higher PPD in the center.
He concludes, by making comparison with the Meta Quest which has similar pancake optics to the AVP, and by scaling up the PPD, that the AVP's PPD could be as high as 39 PPD in the center of the image.
I think most of the conclusions derived from the analysis here will still hold true if the central PPD does turn out to be as high as 39, rather than 34. It's still a very long way from 20/20 retina at 60, from foveal cone density at 110, and pales in comparison to the PPD achieved by even entry level 14" laptops or 27" 4K displays.
That's my kind of monitor. :) It's not wasted either. Foveal cone angular density is actually around 12,000 cones/deg^2, or 110 PPD, so anything up to that is achievable with perfectly corrected vision. That's a lot higher than the 60 PPD typically claimed for retina PPD, which is at an imperfect 20/20. 110 PPD is more than 3x the PPD of the AVP...
Has anyone done studies showing how much people notice the difference between 60 and 110 PPD photos for example? There are many people who have a hard time articulating 30 vs 60 PPD as it is with computer monitors. How much of a diminishing return is it to go beyond 60 PPD?
In summary, with an 88" screen at a distance of 5 feet, some viewers rated 8K content (118 PPD) higher on average than equivalent 4K content (59 PPD), particularly those with better than 20/20 vision (~60 PPD). Most would not notice. It wasn't directly tested but I'd guess most people do notice the difference between 30 and 60 PPD, but only those with above average eyesight will see improvements beyond that.
I don't know about studies, but I'm pretty sure there is a large difference between very high contrast edges (worst case: text rendered without anti-aliasing) and photos or even videos, where there usually aren't any high-contrast high-frequency edges (black pixel next to white pixel). Since anti-aliasing is standard in font rendering and pretty common in computer games, I don't think very high PPD content would often be noticable.
That makes sense. Given that the smallest legible fonts are around 5 pixels tall, that's 3-4x less PPD than your monitor offers at 4 feet, so you'd need ~46-62 PPD eyesight to be able to read the text. 20/20 at 60 would be more than sufficient.
Good to hear! I wonder how many people kinda need glasses and don't get them, making the popular opinion of what the retina is capable of much too low.
I use a 27" 5K display as well, only with contacts. I'm short sighted at -6.75 in each eye. Why would I be unable to wear contacts when using it? If anything its an improved experience as my lenses significantly shrink whatever i'm looking at which the contacts do significantly less.
At -6.75, the impact of the shrinkage caused by eyeglasses would very likely exceed any slight visual imperfections caused by contacts (glare, halos, instability, rotation misalignment for astigmatism, etc.) I'm at -4 and prefer contacts for computer use, but it's right on the point of almost indifference for me.
Maybe I had bad contacts, but I found that my vision was just worse with them. Couldn't really explain it or describe it. It wasn't like the fuzziness of near-sitedness.
At -2.5, you probably don't get much shrinkage or aberration with your glasses, so they work better for you. For me, at -4 plus strong astigmatism, wearing glasses makes everything look tiny, and circles look like ovals... contacts are a better experience. That said I have tried over a dozen types of contacts over the years and it took me many many attempts to find both a product and a set of lens parameters that worked well enough for my eyes to want to switch from specs. Now I found that, I don't even own spectacles any more.
I hate that at -6.75 that my glasses shrink things so much that a 27" monitor almost looks more like a 24" monitor and so on. I'd wear contacts more but I can't wear them often or for long due to dry eye issues caused by something else.
What brand/models of contacts ended up working well with your astigmatism? I find that one of my eyes has issues with the contact losing alignment too frequently, and so I’m always looking for other options. Thanks!
I've been wearing lenses since the 90s. These days I wear 1-Day Acuvue Moist for Astigmatism for the most part, released in 2006, and they continue to be my overall favorite.
I keep trying newer lens technologies as they come out, but mostly it's been a bust. However I do also like Precision1 for Astigmatism water gradient lenses, which came out in 2021. They are thicker and more stable overall, with slightly higher vision quality, but prone to drying up if I don't blink.
Occasionally for a change I'll wear Acuvue Oasys 1-Day for Astigmatism, which came out in 2017.
All three work well for me but the Acuvue Moist are the ones I tend to reach for the most often. It depends a lot on the individual and the fit, I think.
i dont know why it took a week but i finally have you to confirm my suspicions based on the nebulous " its a bit out of focus i dont know" crap from every review I came across.
To achieve the same effective pixel count as a MBP, a virtual screen at the AVP's PPD would have to be resized to 90° horizontal FOV, which is just too big to be comfortable, equivalent to sitting 6" from a 14" MBP screen.
The technology just isn't there yet. We need at least another doubling of PPD. See you in 10 years.
[1] https://qasimk.io/screen-ppd/