They definitely need to follow the law when they get it from the Telco, but Cops can use their CSS/IMSI catcher all they want, theres almost no way to tell. But they can not then go to court and say "Yeah—we listened to their phone call and searched the car."
With this its no problem. No Hailstorm to buy for the entire force and there isn't any federal oversight on this sort of thing as near as I can tell. If you think police don't do crimes I've got a bridge to sell you.
The problem stated was that the marker machine lies 1 out of 15 entries. The paper would contain an incorrect selection occasionally. So, yeah, it would require no one noticing during the act.
Indeed, and the math is the same. If out of 3 million voters, just 1000 double-check the printout, they will detect a 1/100 flip with probability 99.996%.
Of course it's important that enough people check their ballot and say, "hey this isn't what I meant" it triggers a formal audit. Not just letting those 1000 have a redo and chalk it up to human error.
Sure, but 1000 is just 1 in 3000 voters. In practice it's going to be way more than that, probably 2 or 3 in 10. Thats hundreds of thousands of voters, many of whom are going to be punctilious people. Of all the suggested fuckery methods, this would be caught the fastest IMO.
And yet somebody who voted said far above in this thread that the machine reads a barcode on their ballot, so they have 0% chance of verifying if their vote was entered correctly. And there is always the added problem of a dieselgate style obfuscation: The machine counts votes differently when in verification mode than in actual vote counting mode.
My preferred machine would be one that did not use integrated circuits, but was simple enough that the entire board and circuit was visible - with no software beyond the circuitry at all. You just need a very simple sensor and tally wheels that mechanically advance, like those used for measuring wheels etc. No need for memory. Keep automation to the absolute bare minimum.
Almost all of the catacombs is closed. The tourism portion is like a few hundred feet. I have a couple of interesting links for you from UNDERGROUND KONTROL
here's a short (20 min) French language mini-documentary about the pastime of people who go to the catacombs. https://youtu.be/nRISC0cJwMU
It documents a real project they undertook to uncover and infiltrate the location of the WWII Nazi bunker for the purposes of producing a Rave. The rave had electricity that they were able to secretly install by jack hammering through a meter thick concrete wall.
There is a lot of this in EvE Online and it's a valid and welcome play style. Unfortunately, everybody will tell you its opsec if you ask for details.
If you want more information about EvE Online's extremely deep and intricate economy (Essentially everything is built by players who mine ore to make components who resell to integrators that have associated distributors and clients and so forth) you can check Oz on youtube who makes market and market analysis content ( https://www.youtube.com/@OZeve )
Very closely related, EvE Online now has an official MS Excel plugin from Microsoft with full API integration with EvE Online. This game is an effective way to become an expert using MS Excel and its full, powerful integrations:
Oz' Quick Guide:
https://youtu.be/eAogNNeDZuo
EvE Online also has a convention where our EvE Ted Talks are presented to one another (like defcon) called Fanfest. Here's 51 minutes:
Fanfest 2023 "Market Spreadsheet Masterclass"
https://www.youtube.com/watch?v=6Ql6IU1eZpM
If you have an idea, or want to see if you can do this, the free-to-play account can for zero dollars if you already have an MS Excel license or are able to integrate your own solution. The limitation is you will start with zero capital, knowledge, intuition, and F2P accounts can't make nearly as many orders as a fully skilled character.
In principle, but they probably contracted this out decades ago. Theres a lot of licensing requirements and regulations surrounding dairy.
This is actually the real source and meaning of the classic track by Captain Beefheart & the Magic Band, "Safe as milk." Dairy is a huge systemic risk, operates on extremely narrow windows everywhere in its production and if left unmanaged will cause outbreaks of horrifying diseases like Typhoid.
I've thought about this quite a bit since I responded to a commenter who was somewhat was amazed at an ARM supercomputer quite a while ago about this subject. I decided to comment about this a lot more since it is my option to do so. cheers They had posited that ARM would take over, mostly recognizing the very low-power and fairly inexpensive ARM SoC in phone handsets and routers.
This thought didn't sit quite right with me. I considered the power requirements and architectural needs of a larger computer system. With many, many PCIe lanes or some other interconnect, rapid storage commitments and the very responsive performance required by a "serious" architecture will cause all of these subsystems to continually draw current and dissipate heat. This is in stark contrast to power efficient computing devices like iPhone or ARM macbooks, and in my mind seems likely to eat the "gains" that people generally associate with these devices.
The piece missing in my understanding is about the semiconductor industry and the electronics field in general, and is particularly interesting to me, because many of the highest-tier operators outsource %100~ of their production to TSMC or the other. There isn't anything magic or even very good about x86 architecture. I'm fairly certain the instruction set no longer maps to hardware in most cases, rather more analogous to function calls in typical software applications.
Every now and then I like to reflect that iPhone came out in 2007. My car is older than that, and we were well on our way during the election of Barack Obama. And while legends hold that Power still exists, I had long forgotten about ALPHA or SPARC by then.
Imagine for yourself this earth-shattering shift: What happens when the basic lithography processes, assembly practices, and validation procedures become such that for similar trade offs, any advanced hobbyist could order a wafer from future fab houses similar to JLPCB, Scaleway, OSH Park, TSMCWAY, or whatever on-demand? Like, what if you could just pay $$$$ to buy a wafer that you designed and then sell 14nm UltraSPARC on tindie?
> I'm fairly certain the instruction set no longer maps to hardware in most cases, rather more analogous to function calls in typical software applications.
Yes, I believe this is called micro operations and have been around for a while now:
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