Lmao
Lmao
Clean up your tabs please. Omg
Nothing has changed sadly.
30 was the standard up to PS3 and X360 at 720p. With the complete rework of the hardware design for PS4 and XOne, both consoles targeted 60 at 720p and encouraged developers to reach this. If the resolution is upped to 1080p, games will more often than not target 30. There are exceptions to this such as Gran Turismo. To this day, in the era of PS5 and X Series, a majority of games still target 30 because it’s easier to do so and they can crank up the graphical quality.
It’s always been bad practice to just blindly update software. That’s why we have different distros.
Ubuntu and Mint hold your hand and make it easy for newcomers. Great way to dive into Linux. I completely agree these are great for “it just works” and no fuss. I’ve not had one break on me.
Arch and Gentoo expect you to have experience and know what you’re doing. You build it up how you want it. That’s what makes these so great. But you need the experience and knowledge.
I’ve personally tried openSUSE and in my opinion it feels like a good middle ground between both ends. In the past I’ve recommended Mint to get started, openSUSE once you’ve got experience, and then Arch for when you want total control.
This is definitely meant to make it less painful for the players of those games.
You either set the DNS settings per device to the system running PiHole / AdGuard Home, or if your router allows, set the DNS there. It’s ideal to set it on the router.
Any time a device makes a DNS request to a domain, it’s checked against the list. If found, it’s stopped. If not found, it gets sent upstream to your choice of a public DNS configured during setup. I use Cloudflare (1.1.1.1, 1.0.0.1).
By being ripped out and sandboxed the same way other apps are, Google services isn’t free to siphon battery. This means you can restrict battery use and cut the constant communication down. Thus saving battery. If you allow it, yes it is not different than if it was preloaded.
From their own privacy policy they outline what they do:
For research and development purposes, we may use datasets such as those that contain images, voices or other data that could be associated with an identifiable person.
To provide location-based services on Apple products, Apple and our partners and licensees, such as maps data providers, may collect, use, and share precise location data, including the real-time geographic location of your Apple computer or device.
Apple’s websites, online services, interactive applications, email messages, and advertisements may use “cookies” and other technologies such as pixel tags and web beacons.
We also use personal information to help us create, develop, operate, deliver, and improve our products, services, content and advertising
At times Apple may provide third parties with certain personal information to provide or improve our products and services, including to deliver products at your request, or to help Apple market to consumers.
Apple may collect location, IP Address, network information, Bluetooth information, connected devices, accessories, personal demographics, browsing history, browser fingerprint, device fingerprint, search history, app data, usage data, performance, diagnostics, product interaction, transaction information, payment information, purchasing records, contacts, social graph, watch history, listening interests, reading list, call metadata, device information, messaging metadata, email addresses, salary, income, assets, health data, ad interaction, in-app purchases, in-app subscriptions, app downloads, music downloads, movie downloads, TV show downloads, Apple ID, IDFA, Random Unique ID, UUID, IMEI, Hardware serial number, SIM serial number, phone number, telemetry, cookies, Nearby WiFi MAC, Siri request history, Web sign-in, songs played, play and pause times, playlists, engagement and library.
Literally all of this is what Google does. The only thing Apple does differently is hinder 3rd party apps to a greater degree, whereas Google is more permissive. But to be fair, Google has been improving the Privacy features of Android with each version.
Being able to do this is why Linux is so amazing. If Windows finds a corrupt file and can’t repair itself, you gotta find the package it’s part of (Windows update catalog), or create an ISO that’s updated to do an offline repair. If the registry gets fucked, good luck fixing that.
Security cameras are everywhere in and around buildings/homes. Dash cams are pretty common these days and some even record when the car is off and alone. Someone is filming a vlog or some snap/insta/tiktok clip in the area.
…well yeah…
If a US based company (via their websites) collects data on citizens in the EU, they have to comply. Otherwise the EU can issue fines. This is why some websites are geo-blocked.
If you are a website admin and know some of your traffic will come from the EU, you have to comply with the GDPR set for their residents, or block anyone from that region from accessing. You have complied by taking one of those actions.
Arch is not meant to be a daily driver if you’re expecting “shit just works” stability long term when you just blindly run updates. You have to understand what you’re updating and sometimes why.
It is targeted at the proficient GNU/Linux user, or anyone with a do-it-yourself attitude who is willing to read the documentation, and solve their own problems.
If you want to use Arch, you need to invest in snapshots using rsync
or dd
. Given how it’s a rolling release, you should do this weekly. If something fucks up, grab all your logs and put them somewhere safe. Roll back and look at your logs to see what broke. Then apply updates as needed. You can ignore packages for quite a while. If you’re not smart enough to understand it now, you may in the future. It takes time and practice.
Debian based is only “out of date” feature wise because they do a package freeze. They ensure stability before release. Updates are largely security related.
Fingers crossed. Kaz has been displaying interest in a PC version. His first early demo of Ray Tracing at a conference years ago used a PC fork of Gran Turismo because it didn’t exist on consoles at the time. With all of the relevant competing franchises existing on PC, they’re missing out.
The evidence you want to see is literally something you can do or search the Internet yourself. There’s thousands of results. CPU is better than a GPU no matter codec you use. This hasn’t changed for decades. Here’s one of many direct from a software developer.
https://handbrake.fr/docs/en/latest/technical/performance.html
It’s not odd at all. It’s well known this is actually the truth. Ask any video editor in the professional field. You can search the Internet yourself. Better yet, do a test run with ffmpeg, the software that does encoding and decoding. It’s available to download by anyone as it’s open source.
Hardware accelerated processing is faster because it takes shortcuts. It’s handled by the dedicated hardware found in GPUs. By default, there are parameters out of your control that you cannot change allowing hardware accelerated video to be faster. These are defined at the firmware level of the GPU. This comes at the cost of quality and file size (larger) for faster processing and less power consumption. If quality is your concern, you never use a GPU. No matter which one you use (AMD AMF, Intel QSV or Nvidia NVENC/DEC/CUDA), you’re going to end up with a video that appears more blocky or grainy at the same bitrate. These are called “artifacts” and make videos look bad.
Software processing uses the CPU entirely. You have granular control over the entire process. There are preset parameters programmed if you don’t define them, but every single one of them can be overridden. Because it’s inherently limited by the power of your CPU, it’s slower and consumes more power.
I can go a lot more in depth but I’m choosing to stop here because this can comment can get absurdly long.
It’s a version of Windows 10 targeted at businesses that choose to run Windows on “Internet of Things” devices. It is a “Long Term Service Channel” release that receives primarily security updates (little to no features updates), because the devices that will use this need to be in service for a very long time. Enterprise Windows typically activates with a licensing server that’s subscription based. But you can use the “Microsoft Activation Scripts” to activate it as if it were a retail copy you pick up the store.
Exactly. The alias just points to the script which is executed.
The default power plan Asus setup is doing this. You change power plan settings.
so much for track day, I guess?
Stuff like this is likely planned in advance with sports and super cars. Since this technology has existed for a while. Assuming you visit a recognized track, wherever it may be, the limiter simply turns off. For example, the 2009 and later Nissan GTR is sold in Japan with a 112 MPH artificial limiter in the software. The limit is there by law. GPS / Sat Nav is standard on this car. If you visit say, Fuji or Laguna Seca, the car knows where it is and turns the limiter off. Allowing you to achieve the ~200 MPH top speed. Examples sold for other markets such as US and EU need not worry. The redline in 6th gear is your physical limiter.
On a slightly related note, clever people have figured out ways around limiters. Such as tricking the GPS or modifying the ECU. Unfortunately, these days it gets harder to do this as manufacturers like Mercedes, BMW, VW, and a few others, are encrypting the communication network physically located in the car. It’s not the traditional low and high speed CAN Bus. FlexRay is becoming more commonplace unfortunately.
Someone made a mistake here. It’s not getting your IP address. An IP address is assigned by the gateway when you’re connected to an access point. An IP address is not an identity. They are always changing and can be shared. This has already been tested and upheld in court.
It’s actually collecting your MAC address. Which is exchanged when your phone or tablet scan nearby WiFi points or Bluetooth devices. However, this can already be defeated. By default iOS and Android both have the option to randomise the MAC address in intervals. Making it extremely difficult to prove anything. This feature exists because the devices real MAC address never changes. It is unique. Alternatively, users can disable WiFi and Bluetooth scanning entirely. However, your device no longer participates in the Find My Devices program by Apple and Google, location does take longer to acquire in some scenarios, and accuracy may take longer to triangulate.