Also, inserting hidden or misleading links is specifically a no-no for Google Search [0]
Depending on your goals, this may be a pro or a con. I, personally, would like to see a return of "small web" human-centric communities. If there were tools that include anti-scraping, anti-Google (and other large search crawlers) as well as a small web search index for humans to find these sites, this idea becomes a real possibility.
Exactly. Identifying crawlers like Google, bing aren't the issue. They obey robots.txt, and can easily be blocked by user agent checks. Non-identifying crawlers, which provide humanlike user agents, and which are usually distributed so get around ip-based rate limits, are the main ones that are challenging to deal with.
You just need to supply the native plants they prefer to pollinate, they’ll do the rest. If you’re wondering about whether you can harvest honey from them, I don’t think so. Most native pollinator species don’t produce honey.
Bumblebees do produce a kind of honey, but it’s much thinner and less concentrated than proper honey (which has had most of the water evaporated off by the wing beats of the bees).
A thousand years of effort might be able to "domesticate" the bumblebee and make it produce something akin to usable amounts of honey - but unlikely to be worth it.
Apple OSes being so amazingly simple, approachable and cleverly designed with a lot of attention paid to detail
That was the Mac in the 1990s. It was designed for, and highly usable with, a one-button mouse. It didn't have hidden context menus or obscure keyboard shortcuts. Everything was visible in the menu bar and discoverable. The Finder was spatially aware with a high degree of persistence that allowed you to develop muscle memory for where icons would appear onscreen every time you opened a folder.
There was almost nothing hidden or lurking in the background, unlike today (my modern Mac system has 500 running processes right now, despite having only 15 applications open). We've had decades of feature creep since the classic Mac OS, which has made modern Macs extremely hard to use (relatively speaking).
Ticketmaster is a reputation management company. Their true purpose is to take the reputation hit for charging market value for limited availability event tickets. Artists do not want to take this reputation hit themselves because it impacts their brand too much.
Which is why it's quite appropriate for their reputation to be absolute shit and for members of the public to make sure the stink spreads to anyone who chooses to do business with them as a disincentive to doing it.
Ticketmaster is owned by Live Nation which owns at least 338 major concert venues [1]. Their market power in the venue business allows them to force artists to use Ticketmaster for ticket sales. The artists don't mind though, as they can tell their fans they have no other choice but to use Ticketmaster. Ticketmaster absorbs all of the reputational stink and the artists likely earn more money than they otherwise would have if they were forced to sell tickets at the low prices their fans want.
Except that they don't absorb all of the reputational stink because "Live Nation owns at least 338 major concert venues" is clearly a BS excuse when there are more than 10,000 concert venues in the US, and then the fans still blame the artists for using Ticketmaster.
The no dig method has taken on a life of its own, almost a religion. It's probably a mistake for most people though. "One dig" is almost always going to be superior, given soil that has never been used for gardening before. Trying to start a no dig garden in some heavily compacted, organic-poor, heavy clay soil is going to lead to extreme disappointment.
I thought that was always the case. Dig as required to get your soil to the correct type for what you want to grow, then let it be and don't dig.
Digging to turn the soil seems like an old adage that has been passed down through generations, but modern scientific studies are now showing it provides very little to no benefit for yields.
A friend of mine retired from the military and moved to my neck of the woods in the Ozarks. Having lived in Eastern North Carolina for most of his 20 years in, he had gotten used to sandy soil with nary a rock. Prior to that, he was in the Twin Cities of Minnesota, and I don't think he dug many holes there.
After closing on their new house he asked me for a shovel, for which to install a mailbox. Of course I'd help my friend out. "Sure, buddy!" I said. "Here's a shovel, post-hole digger, pickax and a rock-bar. That should get the job done." After I explained to him that yes, you need a 20 pound pointy chunk of steel to dig any sizable hole around here, he still didn't quite believe me. However, once he got the mailbox planted, he adjusted his beliefs accordingly.
On the rare occasion that I have to dig a hole somewhere with actual dirt, I always find myself amazed at how easy it is. Those times help me understand scenes in TV or movies that include someone digging a hole. Those scenes don't ever depict someone deciding to move whatever it is they're putting in the ground because they hit a massive stone at 8 inches into a 24 inch hole, and there ain't any getting through it. The scenes don't depict the Herculean effort required to just plant a tree. Those shows don't show the absolutely back-breaking labor it takes to be a landscaper around here. And before I had the chance to do the same kind of work in actual soil, those scenes just didn't make sense.
I suppose I shouldn't be surprised that complaints of rocks where you expect soil invite other Ozarkians. That was something that shocked me about the Midwest in comparison; even with a concerted effort, I couldn't find enough of a rock to fill a slingshot.
Our house sits on a small basalt volcanic plug and the solid dark rock lurks not very far under our garden - 100m north of us and its sandstone, 100m south and it is limestone.
Digging a hole of any depth would probably require explosives!
When it's wet, but not saturated - like 1-2 days after a rain - you can decompact the soil with a strong metal broadfork and leave the soil in large block aggregates. This keeps the soil structure and maintains some fungal web connections. Add nutrients, wood chips, stick and sand below aggregates and in cracks. Cover with compost and plant clover to cover.
Clover fixes nitrogen and roots help stabilize the voids in the soil. They sell seed mixes called "ground cover mix" that includes other plants and will help keep the soil from recompacting when it rains and keeps weeds at bay.
"If you mix sand into clay, the clay particles will fill in all the open spaces between the sand particles and often the clay will act as a ‘glue’ sticking all particles together, ultimately resulting in a more dense soil."
Oh yeah, just top up the compost every year. Where are you getting that compost from? Wood chips you say? You'd have to denude ten acres of forest to make enough compost to Dowding one acre of field.
He's a soil vampire, sucking in fertility from somewhere else to feed his own garden.
In my parents' farm the compost comes from cleaning up the forest around it (trim branches, vegetation, dying trees, etc) mixed with the chicken and goat manure plus whatever else gets mixed in there (food leftovers, ashes, coffee grounds, etc). Of course it's at a small-ish scale (less than 1 hectare) but my parents definitely don't denude 4 hectares to do so.
Tree surgeons/arborists are always trying to get rid of chips
An acre? Charles Dowding is a market Gardner, not a farmer, but he has done it on a scale of a few acres.
His compost is a mixture of
1) homemade. When you are trying to expand a plot growing stuff to compost can help. Grass clippings, waste from the garden etc. This is a minor source of very good compost.
2) woodchip, see above
3) green waste. This is other people's garden waste, normally composted poorly by a local authority. You want it some time before you use it so it can compost more fully
4) farmyard/ horse manure
5) spent mushroom compost. Actually I never saw him use this, but it is very common.
One farmer I saw said the secret of no till is 'other peoples carbon', you are correct. But some people have carbon to get rid of.
The dirt in my part of Virginia is almost suitable for pottery straight out of the ground. Just need to filter out the feldspar, quartz, and gold first.
> Trying to start a no dig garden in some heavily compacted, organic-poor, heavy clay soil is going to lead to extreme disappointment.
If you start with Charles Dowdings 6 inches of compost on top, that is not necessarily true. The soil comes to life as worms go mad pulling that compost down into the soil.
It actually works rather well. Year 1 can be very good. Year 2 even better.
The real disappointment in Year 1 is the amount of weeds that find 6 inches of compost no barrier at all! With digging you can get a lot of perennial weed roots out, and hoe off the annuals. With no dig you have to pull them.
I'm not a idealogue, so actually suggest glyphosate before compost...but people don't normally like that suggestion.
Numbers has a lot of keyboard shortcuts [1]. Are there particular ones you're missing? Or is your issue that Numbers has different keyboard shortcuts from the ones you're used to in Excel?
A lot of menu options don’t seem to have keyboard shortcuts. I know I can assign them, but defaults should be better.
But the second one hits harder for me: “Or is your issue that Numbers has different keyboard shortcuts from the ones you're used to in Excel?” Considering that Numbers came much later than Excel, some of the common ones could’ve been directly adapted with Mac specific substitutions (like using Cmd instead of Ctrl).
So for every computable function, there is a neural network that computes it. That doesn't say anything about size or efficiency
It also doesn't say anything about finding the desired function, rather than a different function which approximates it closely on some compact set but diverges from it outside that set. That's the trouble with extrapolation: you don't know how to compute the function you're looking for because you don't know anything about its behaviour outside of your sample.
99% of humans in a particular specialization, sure. It's the 1% who become experts in that specialization who are able to advance the state of the art. But it's a different 1% for every area of expertise! Add it all up and you get a lot more than 1% of humans contributing to the sum of knowledge.
And of course, if you don't limit yourself to "advancing the state of the art at the far frontiers of human knowledge" but allow for ordinary people to make everyday contributions in their daily lives, you get even more. Sure, much of this knowledge may not be widespread (it may be locked up within private institutions) but its impact can still be felt throughout the economy.
If 1% of the people in each specialization are advancers, and you add up all the specializations together, then 1% of the total number of people are advancers.
Even this assumes that everyone has a specialization in which 1% of people contribute to the sum of human knowledge. I would probably challenge that. There are a lot of people in the world who do not do knowledge-oriented work at all.
You don’t need to do knowledge work to advance the state of the art. You could be working in a shoe factory and discover a better way to tie your shoes.
Your math assumes each person has exactly one thing they do in life. The shoe factory worker could also be a gardener. He might not make any advancements in gardening, but his contribution means that if you add up all the fields of specialization the sum is greater than the population of humans. Take 1% of that sum and it’s greater than 1% of humans. 1% of people in a specialization is not the same as 1% of specialists. In fact, I would say it’s a much higher proportion of specialists making contributions (especially through collaboration).
Oh, and don’t get caught up on the 1% number. I used it as shorthand for whatever small number it is. Maybe it’s only 10 people in some hyper-specialized field. But that doesn’t matter. Some other field may have thousands of contributors. You don’t have to be a specialist in a field to make a contribution to that field, for example: glassmakers advanced the science of astronomy by making the telescope possible.
>99% of humans in a particular specialization, sure. It's the 1% who become experts in that specialization who are able to advance the state of the art
How? By also "synthesizing the data they were trained on" (their experience, education, memories, etc.).
Can we be sure? Maybe it's just very rare for experience, education and memories to line up in exactly the way that allows synthesizing something innovative. So it requires a few billion candidates and maybe a couple of generations too.
I want to point back to my remark about everyday people.
if you don't limit yourself to "advancing the state of the art at the far frontiers of human knowledge" but allow for ordinary people to make everyday contributions in their daily lives, you get even more
This isn't a throwaway comment. I do this all the time myself, at work. Everywhere I've worked, I do this. I challenge the assumptions and try to make things better. It's not a rare thing at all, it's just not revolutionary.
Revolutions are rare. Perhaps only a handful of them have ever happened in any one particular field. But you simply will not ever go from Aristotelian physics to Newtonian physics to General Relativity by merely "synthesizing the data they were trained on", as the previous comment supposed.
Edit: I should also say something about experimentation. You can't do it from an armchair, which is all an LLM has access to (at present). Real people learn things all the time by conducting experiments in the world and observing the results, without necessarily working as formal scientists. Babies learn a lot by experimenting, for example. This is one particular avenue of new knowledge which is entirely separate from experience, education, memories, etc. because an experiment always has the potential to contradict all of that.
Experimentation leads to experience, so I feel like this was included by the parent comment. And in the case of writing software, agents are able to experiment today. They run tests, check log output, search DBs... Sure, they can't have apples fall on their heads like Newton had but they can totally observe the apple falling on someones head in a video.
Of course it does, but only after the fact. You don't have any experience of the result of the experiment before you perform it.
Sure, they can't have apples fall on their heads like Newton had but they can totally observe the apple falling on someones head in a video
I have strong doubts that LLMs have any understanding whatsoever of what's happening in images (let alone videos). The claim (I've sometimes heard) that they possess a world model and are able to interpret an image according to that model is an extremely strong one, that's strongly contradicted by the fact that they: a) continue to hallucinate in pretty glaring ways, and b) continue to mis-identify doctored (adversarial) images that no human would mis-identify (because they don't drastically alter the subject).
In software, they can and do perform experiments (make a change then observe the log output). I don't think they possess a "world model" or that it's worth spending too much thought on... My reasoning is more along the lines that our brains are also just [very advanced] inference machines. We also hallucinate and mis-identify images (there are image/video classification tasks where humans have lower scores).
For me the most glaring difference to how humans work is the lack of online learning. If that prevents them from being able to innovate, I'm not so sure.
Software is not the world. It’s a tiny bit of what humans do.
The lack of online learning is a critical fault. Much of what humans learn (such as anything based on mathematics) has a dependency tree of stuff to learn. But even mundane stuff involves a lot of dependent learning. For example, ask an LLM to write a cookbook and it can synthesize from recipes that are already out there but good luck having it invent new cooking techniques that require experimentation or invention (new heat source, new cooking utensils, etc).
I guess we'll just have to wait and see how things turn out. Currently it seems we have examples of where it seems like the technology allows some amount of innovation (AlphaGo, software, math proofs) and examples where they seem surprisingly stupid (recipes?).
Well, humans do experiments for one, as I explained elsewhere in the discussion. Experiments give us access to new knowledge from the world itself, which is not merely a synthesis of what we already know.
Real progress in science is made by the hard collection and cataloguing of data every single day, not by armchair philosophizing.
We’re not there yet, but that chef or that teacher definitely would want an AI voice assistant as good as the computer in Star Trek. Maybe to achieve that, a language model builds software entirely autonomously and runs it to carry out the user’s command. Or maybe they want the computer to build them software that they can then use to do their own work more efficiently.
> We’re not there yet, but that chef or that teacher definitely would want an AI voice assistant as good as the computer in Star Trek.
Since you brought up Star Trek, a good analogue for AI would be the holodeck. Given the appropriate prompts, it produces amazing scenery and even immersive fantasy narratives.
But occasionally, it goes haywire, the safeties no longer work, and the characters from your fictional adventure try to kill you.
True. And nearly all of them are obsolete. Many were intended for control flow on an interactive terminal, which have long since passed into obsolescence. When was the last time you embedded a CTRL-C in text? The only ones that matter any more are newline and space.
Depending on your goals, this may be a pro or a con. I, personally, would like to see a return of "small web" human-centric communities. If there were tools that include anti-scraping, anti-Google (and other large search crawlers) as well as a small web search index for humans to find these sites, this idea becomes a real possibility.
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