@BAYMAX in the linked code the 3d indices are used as a regular grid in a volume, and corresponding scalar values of your array index into the colormap. Smallest is lowest color, highest is top color; something like that. Is that what you want?
@flawr that's the linalg convention. Nobody says that ;)
> Early PHP was not intended to be a new programming language, and grew organically, with Lerdorf noting in retrospect: "I don't know how to stop it, there was never any intent to write a programming language [...] I have absolutely no idea how to write a programming language, I just kept adding the next logical step on the way."
@Dev-iL well, I went over time because of my estimates on how much progress I had left
Example of CUDA being crap: Variables that are on texture memory need to be global and only used in the file that declares them. If you have N GPUs, you only use 1 single global. The compiler will know you are talking about a different variable in a different device
My main problem right now is that my advisor didn't find a replacement for me, so he's inclined to keep me around for a while longer (contrary to my own interests)
@AnderBiguri I'll use that when I talk to my advisor - "my innovation is not that it works, it's that it's fast" (although in my case, the fact it works is also new)
The closest thin I found (ASTRA, my arch enemy) needs 21 GPUs to fit a 2000^3 volume on GPUs. What I have done is write code that ensures that without any performance drop in each GPU call, you can fit any arbitrarily large image in any arbitrarily small GPU, by partitioning correctly and queueing operations in a certain manner
It will be added to TIGRE. It is in fact, in a branch
Although nobody asked - my current task is to take MATLAB's implementation of a reflective-trust-region solver and vectorize it (thank the gods it's open-sourced)
@AndrasDeak suppose I have an implicit problem at the moment, where my (known) output is a nonlinear function of 3 unknowns. Now further suppose that I can rearrange it such that one of the unknowns is a function of the other two. I was led to believe that this simplifies the solution somehow. Can you comment on this?
but if one of the unknowns is a function of the other two, then its not an unknown when the other two have been solved right? So its not an idependent variable
So the idea is that if you can make f(m,n,T)-C=0 equal to f2(m,T)-n=0 (f2() == f1()+however C fits on it), then when you compute the Jacobian, or the derivative of your optimization, \partial f2(m,T)/\partial n ==0, which did not happen before
as the Jacobian will be a matrix of the function with partial derivatives of each independent variables x_n ={m,n,T}
esentially just think that you are always solving for something =0, do not think of LHS/RHS
the method will take OP()=0 and take the partial derivative of OP by every independent variable. These partial derivatives are possibly numerical, and you want them to be really good, but with your ugly numbers they may not be. Maybe you are approximating them etc.
if OP() = f(m,n,T), then you have 3 partial derivatives that are numerical approximations and such
if OP()=f2(m,T)+n , then one of the partial derivatives of OP(), the one w.r.t. n, its equal to 1.
more stable numerically
easier to compute
I am assuming you are using an optimization method based on derivatives, by what you say and what you linked
so yeah. In short, if you dont separate n, `\partial f\partial n== some numerical monster approximation` If you separate n, `\partial f\partial n= 1` (1, or some other constant, maybe you have some multiplier to n)
Of course, the other 2 change too, but should not be more monstrous that they were before.
You have to be drunk enough so that you can't tell right from wrong. Certain sources say you have to be drunk enough so that you can't tell the neighbour's wife from your own.
@AnderBiguri @AndrasDeak followup question regarding rearranging that equation - previously my residual was: rz = const - (m * f1(T) + n)*f2(T), and now it's rz = const/f2(t) - m*f1(T) - n. Previously, in all partial derivatives the constant would disappear - but now it doesn't. It seems like I'm solving a different problem, not just a more numerically-stable alternative. Should I be worried?
its not a different problem, you just rearranged it. Clearly the values of the partial derivatives w.r.t. T and m will change, but I don't think they will be less stable
if the problem is inherently ill-posed, this won't change much. It will, in theory, change the error you introduce in your numerical approximations of derivatives, as now 1 of the derivatives will not have any error
But to actually prove that this is the case you need to do a lots of maths that I do not know how to do
Stand behind them and count the number on your fingers. At 10 watched videos, pull their internet cable. More seriously: this is a very unclear question. Do you want to do this automatically? Do you which to write a program for this? Please read up on How to Ask and then edit the question accordingly. — Adriaan7 mins ago
I've updated the wiki except for matlab and octave to include the sentence "Don’t use both the [matlab] and [octave] tags, unless the question is explicitly about the similarities or differences between the two." as discussed here yesterday. Let me know if you're not OK with these changes.
We have a tunnel at the national airport, and only when the train is in the tunnel does the system assign it a platform. As in: it's known it's either 1 or 2, but not which one until the train is in the tunnel. Then someone burgled a store in the hall, and tried to escape on foot through the tunnel, so train traffic was halted.
The system then tried to assign a train, which was stopped in the tunnel, to a platform, over and over again because the train didn't move: overflow happened, and presto: no trains in the country for half a day because the central server system broke down and the back-up was crap for some reason
Why do people keep asking about 'MATLAB and Python give different results for the same function!' When A) IT'S DIFFERENT LANGUAGES and B) The difference is on the order of TEN TO TE MINUS SIXTEEN, bloody machine precision :(
@Adriaan Because they A) wrongly assume there is only one correct way that everything is implemented under the hood and B) have no understanding of floating-point representations. This is likely because a lot of users of these languages have little to no formal programming background, and are coming from other disciplines to process data.
To summarize, it's "the curse of high-level languages".
Damn, I get different numerical results when I upgrade GCC. If the same code cannot be guaranteed to produce the exact same floating-point output, how do you expect different code to do that?
zero eigenvalue means that M*v = 0*v, just like any other subspace
it's still a 1d linear space (c*v) as long as the kernel (the linear space spanned by 0-eigenvalued eigenvectors) is 1d
And for eigenvalues with multiplicity higher than 1 you'll get a multidimensional subspace spanned by the corresponding eigenvectors, in which case n linearly independent eigenvalues can be chosen arbitrarily in the n-dimensional subspace. And this is true regardless of the eigenvalue.
hahaha, I just saw a TV ad by the British government on how to get info on preparing for the UK leaving the EU: gov.co.uk/euexit like we are leaving them xD
@Adriaan In other countries you can vote by mail as an expat. NL is quite different there. They don't even want you to register yourself at the embassy in the country you're living in. I feel like my country doesn't care about me! :p
@CrisLuengo I got a letter from the Den Haag municipality within a month of living here saying I should send me details over and I'd be allowed to vote via post.
For the Dutch parliament you'd be safe, but if you have a Spanish passport as well, I'm not sure for which of the two you're allowed to vote in the EU elections; certainly not both
@Adriaan Thanks! I haven't kept up with Dutch politics in a while, since I wasn't voting any way. I might get back into it now that I know I can vote. I don't get to vote here at all (not even local elections), which is quite a bummer.
@CrisLuengo register before 11th April for the EU elections. Next national ones are either in a couple of months if the Eerste Kamer goes awry for the government today, otherwise in a year or two
@CrisLuengo ah, I had to give an address, and when I asked 'and what if I move?' they told me that no-one cared, except those greedy sods at the belastingdienst. Otherwise you will just be registered at the Register niet ingezetenen, which is not updated whatsoever when you move abroad
I have my room for just a year, hence I asked up front what to do
@CrisLuengo I can't vote here either, even though it's national pastime here
@Adriaan In Sweden I could vote for local elections (city government). In Spain foreign residents can vote for city government too. I think it makes sense, you can influence local stuff that affects your day-to-day, but not national stuff, which includes international relations etc.
City government is really just about "shall we fix this road here or invest in a new swimming pool?"
I don't see how nationality could negatively impact such things.
@CrisLuengo same in the Netherlands, provided you have had legal residence (somewhere in the country) for four years. Not here. Here you have to live for 10 years in the same municipality to be eligible for a passport, and then you can vote for everything
In Iceland you can vote as soon as you have a house there, iirc xD (Perhaps it's official residence, but in any case the moment it gets through, you can vote)
@Adriaan Yeah, in Sweden I only became eligible for voting after a few years. That's reasonable, you want to make sure people are invested. 10 years is a long time. Here I think I can apply for citizenship after 5 years of being a permanent resident (so it's not just living here, it depends on the type of visa you have).
@CrisLuengo I won't get a passport here (unless they offer me a professorship after I finish) but my teachers do. Thing is: pension here is 4-6k/month, and if you move abroad your pension is 'indexed accordingly', meaning you loose 40% moving to the EU. However, when you are a Swiss citizen, you keep the lot, wherever in the world you go live
