The average user doesn’t give a crap about foss, so I think the reasons aren’t about the openness itself.
A big one is always the network effect
The average user doesn’t give a crap about foss, so I think the reasons aren’t about the openness itself.
A big one is always the network effect
Electric busses already have automated docking systems, the only problem I see is cost
https://assets.foleon.com/eu-central-1/de-uploads-7e3kk3/39195/17_syb21_content1.79205c469709.jpg
That doesn’t work if the ad is served from the same server as the website
Who is “we” when you mention “domestically”?
Saudi sand actually isn’t course enough
You can still toot on Mastodon at least
Even better are the three-finger swipe gestures on the laptop trackpad
By replacing it with more expensive car infrastructure? That’s what happened in this picture
Most cities just can’t really afford it
Yes but beware it will wipe everything on your phone!
They’re also easy to unlock and relock the bootloader on
Should be burn more oil instead, making entire regions in Africa unlivable?
Thank you for choosing Google!
I think you could do this if the compression algo is made with ai upscaling in mind. You’d just neet to store the word “stick figure” and its position, and bam your ai can draw a stick figure on the sheet.
You store what objects are seen in text or tokens and the pixels serve as more of a coordinate system to mark size/shape etc
That’s why blanket bans are beeing considered
This seems to concern the US only, OP can you put that in the title please
EU is enforcing sideloading, even for Apple
Can they steer the conversation with the goal of wasting as much time as possible
Well ChatGPT is wrong. You’d have to look at a particular acceleration curve to determine whether it can be slower or faster. For example if the curve was x^2 (where x is the raw speed) then it would always be faster with acceleration.
Acceleration is very useful on small trackpads because you can move the mouse across the whole screen with one swipe but still position it accurately if you move your finger slowly.