Yup it seems crazy to me how deep insights one needs to have to be able to, say, connect the dots between compression and machine learning. And now it looks to me like he has done a lot of the foundational work in these fields. Super cool stuff
is beehaw related to lemmy?
Yup it seems crazy to me how deep insights one needs to have to be able to, say, connect the dots between compression and machine learning. And now it looks to me like he has done a lot of the foundational work in these fields. Super cool stuff
Too lazy to check, but is this the Rivest from the RSA algorithm?
Like you said, there’s a metric ton of steps involved in the overall process, and our understanding of each of these ‘levels’ of organization varies quite a bit. Closest to my personal expertise is the sub-cellular and cellular level, for which I would refer you books or papers in developmental biology, developmental genetics, and epigenetics. I can give you a couple bloopers to get you excited though:
When it comes to deciding where different organs will form (again, from a sub-cellular level), it essentially starts from a concentration gradient of certain proteins/chemicals inside the zygotic cell. This gradient then determines the level of activation of other proteins, each level then leading to different biochemical cascades which, once more cells have formed from the zygote, determine which organ systems will come from them. Messing around with this concentration gradient can, thus, dramatically affect an organism’s development, leading to, for example, a body with just ‘left’ organs on both halves, just ‘top’ organs on both halves, missing an entire organ system (like circulatory system and heart) and so on.
A more or less similar process occurs to determine the shape of organs. As a simple example, when some animals with regenerative capabilities (like axolotls) lose a limb, they are able to regrow the limb to the exact same length as before. Turns out, each cell on the periphery of their limb has a certain concentration of receptor proteins on its surface, which acts as a molecular ‘signature’ of that cell’s position in the limb. These signatures provide information on how far to grow the limb for regeneration, and some chemicals, lile retinol, can even override these signatures and fool the organism’s body into regrowing the limb from scratch on top of the place of regeneration.
I hope these examples give you an introduction to the mechanisms involved. There’s obviously a lot more involved, so I would again highly recommend textbooks and research papers if you’re interested.
Last I checked (which was some time ago), pandoc-bin doesn’t require the haskell dependencies. I saved quite some installation time (and screen space during installation) by switching.
As someone who is often unable to even enjoy soda because it immediately starts bubbling up and only remains as a sugary liquid by the time it reaches the esophagus, I guess I can’t replicate your observations. Also, I guess I need more water in my mouth before I can let Jesus into it (for a more pleasant experience for both of us)
Chemists are just bags of chemicals talking about chemicals
If only it worked; the mentos would start disintegrating by your saliva and the coke would already form bubbles as soon as it enters your mouth thanks to the rough surface inside 🤓
IIRC it doesn’t; that has caused me pain so many times when trying to generate fractional range
That won’t work tho, you need to make it sys.maxsize//2 to coerce the output into int form
That may be exactly what I need when searching for some highly technical problem lol
Huh I didn’t notice that. That does sound a bit weird :/
Indeed, an integer is divisible by 3 if and only if the sum of its digits is divisible by 3.
For proof, take the polynomial representation of an integer n = a_0 * 10^k + a_1 * 10^{k-1} + … + a_k * 1. Note that 10 mod 3 = 1, which means that 10^i mod 3 = (10 mod 3)^i = 1. This makes all powers of 10 = 1 and you’re left with n = a_0 + a_1 + … + a_k. Thus, n is divisible by 3 iff a_0 + a_1 + … + a_k is. Also note that iff answers your question then; all multiples of 3 have to, by definition, have digits whose sum is a multiple of 3
For Meet, I’d also suggest Jitsi. For Drive, I’d recommend giving cryptpad.fr a shot; that seems to be the closest to Drive’s file editing capabilities.
Akshually, calling it GNU/Cancer would mean that GNU is a critically important component of cancer, which is incorrect. A more appropriate term for it would be Nestle/Cancer. Also, prayers for RMS
It’ll get more complex than that. I’m no expert, but I’m guessing you have to consider the depth of the crust at your location, type of soil and the distance from (and time since) the last closest volcanic eruption, possibly distance from the nearest tectonic boundary, maybe even tidal forces (assuming they have a considerable impact on magma being pushed out, but this may be a bit too far)
A flair-like implementation would be nice for certain communities. From past experience on reddit, I can see how it could be beneficial to filter a community’s posts through tags, say, to check latest announcements or new support questions. I’d personally prefer community-specific tags as opposed to global post tags (which is what I inferred from this post’s content, I haven’t read the RFC yet though) edit: the RFC talks about both instance-based tags and community-based tags, which is even better
Not exactly what you wanted, but njalla is a privacy-focussed domain registrar that basically buys domains on your behalf under their own name and gives you all the access to it that you need
I’m not sure what exactly you’re looking for as an answer here. I’ll say that instead of looking for alternatives of science itself, we can list through the central tenets of science and then explore perspectives that counter one or more of those tenets. I’m not sure of the generally accepted list of tenets, so I’ll try coming up with what I think those are:
There may be more ways an alternative theory could try to counter science, but I think these points should give you an idea.
No love for Star Wars? :(