Yeah, is there any good(and simple)guide for SVT-AV1 settings? I tried to convert many of my stuff to it but you really need to put a lot of time to figure out the correct settings for your media, and it becomes more difficult if your media is in mixed formats, encodings etc.
One question though, if for some reason a poorely designed app discards data through /dev/null, is it tamper proof? Meaning can any other process or user access that information? (In runtime)
I think it is possible for a process with root to delete the existing /dev/null and replace it with a normal file (likely to produce system instability) or a new character device (could probably be mostly transparent to anyone who didn’t know where to look for it storing its data), in which case anything sent to it could be captured.
To get an idea about radios, I made a crystal radio when I was in 7th grade, I only had few components. The only component I had difficulty in getting was the crystal oscillator (I was living in a rural town).
It was mind blowing when I first heard the audio through IEMs ! It felt magical that this contraption was working without any battery source.
As someone who's always dabbled in electronics, skimmed and read some books, my primary complaint abot most electronics texts is that they just talk about individual topics: oscillators, amplifiers, etc.
What they never talk about, is putting them all together.
But as witnessed by this list, that's what a radio is. A collection of these "meta" components into a whole to get a better radio experience.
A radio built like this, with individual subsystems connected together, is much more understandable. Many (not all) radio schematics are presented as a whole, rather than the parts, or why you might (or might not) want to change one part or another (not components, but one, say, filter circuit to a different one).
It just seems to me that once you get past some basic theory, starting with a radio, and then systematically taking it apart is a better way of approaching electronics education.
"A radio built like this, with individual subsystems connected together, is much more understandable."
Yes! this has been my experience too, building something from first principles and given some tools and direction to experiment you get the chance, and experience, to really learn.
I've been looking for resources like this for building amps but they're either small signal or the whole design. You understand how they work but not where and what to change if you wanted to tinker or build your own.
Haha I know! When I was even younger, we had a radio that could recieve SW,AM,MW,FM(in TV range as well).
I used to hook up the antenna to various things like wire mesh or tv antennas etc and used to listen to short wave and AM for hours. I even got signals from far away countries, it was really fascinating!
Also I had seen some recon antennas in a certain campus (can't say much about that) when I was a kid. Those were like long wires hanging from towers. I believe they used to receive/decode SW/AM signals from far away. I realised this much much later in my life. But fascinating nonetheless.
And adding to all these is SDR! That's a whole different thing.
Oh, thanks, good to know. Now I feel more motivated. Because actually it’s not as easy as it looks from the text books. It’s like with drawing an owl. Yeah, pass the signal through a mixer and feed recovered carrier to its LO port and you’re done. Sure. Simple. Now just recover the carrier. So far I have built a PLL that locks to a clean signal but stops locking when the signal is modulated too much. Aargh.
I wish it was easier to buy a portable radio with one. Though admittedly I tend to use mostly vintage radios - as such I do most of my shortwave listening on a Zenith T-O which is pretty wonderful both in audio quality and capacity to pull in stations.
This is a video about the diode, in this case a Schottky diode made with a coil of copper wire filed to a fine point touching a piece of galena sitting loose in a bottlecap found by the side of the road.
The video is notable for demonstrating the original "breadboard" technique, where you connect your wires and components by clamping them to a wooden board with the head of a wood screw. The book I learned the technique from recommended using a dished washer under the head of the screw so that the screw head doesn't push the wires sideways as you tighten it.
I have also seen this in Androids (I tested this on multiple devices - S23U, OnePlus 6,8) , whenever I completely turned off the swap , the phone after a day or two of heavy usage would sometimes hang!
It felt unintuitive since these devices had lot of RAM, and they shouldn't need swap . But turning off swap has always degraded performance for me.
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