Lounge<C++>

user3010322

04:00

WINDOW CREATION IS HORRIBLE. u.u

melak47

@ThePhD it also bothers me that you have to recreate the window for something as simple as changing the AA level. (I still hope I'm wrong about that :D)

user3010322

There has to be a better way.

melak47

I mean, dafuq does the window care about that. it doesn't have to know about muh multisamples ._.

Rapptz

@melak47 Still the same I think

melak47

@Rapptz can you maybe cheat and create an invisible (or transparent borderless :p) window, and inside that create your window, and when you need to recreate it create the new one behind the current one and when ready insta-disappear the old one....maybe you don't even need the parent window..

Rapptz

04:05

OpenGL AA sucks anyway

ScarletAmaranth

mmm, I rolled custom AA in my raytracer

works like a charm

dance

user3010322

I did jittered AA in my raytracer.

ScarletAmaranth

I use multi jittered

user3010322

I had to shoot an extra ray for each goddamn sample, though. =/

user3010322

Hated it.

R. Martinho Fernandes

04:06

@melak47 Why not just forget it and do like everyone does instead of putting more hacks together vOv

ScarletAmaranth

also have a hammersley sequence lying around if I wanted it

but meh

melak47

@R.MartinhoFernandes I did exactly that, I forgot about it and stuck to d3d :p

ScarletAmaranth

some scenes render crap with hammersley because there is only one for each binary sequence, so you'll end up hitting the same shit at some point

user3010322

Lul

ScarletAmaranth

for jittered, you technically also shoot extra rays for each pixel o-O

so can't see how multi jittered is worse

it's also more uniform when mapped to x / y (decomposing a 2d square)

the only thing annoying about multi jittered is that the implementation is ugly ^^ jittered is like 10 lines :P

Borgleader

04:12

@ScarletAmaranth Does your raytracer fit on the back of a business card?

ScarletAmaranth

@Borgleader no it doesn't, but it's AMP-accelerated and renders at 60frames per sec for simpler scenes (although it doesn't have too many features yet)

user3010322

@ScarletAmaranth I was gonna write my tracer in plain CPU memory.

user3010322

None of that AMP/GPGPU stuff.

ScarletAmaranth

I did that too, the code was much nicer

for example

I could have hierarchies ^^

now my code looks crap:

for each sphere in spheres ...
for each square in squares ...
utter shit

(I was trying to make something like boost::variant work but I failed, so I gave up and went for "data - oriented programming ^^")

but at least I can actually render scenes without having to wait seconds for frames :P

melak47

04:29

@ThePhD you can run AMP stuff on the CPU :D

Borgleader

restrict (cpu) right?

harold

I did some distance field ray-marching recently, was much nicer than ray-tracing IMO
not that the result was nicer, but the algorithm was more elegant

ScarletAmaranth

restrict(cpu) simply says the function can run on cpu

Mikhail

did it fit on a business card?

user3010322

@melak47 Doesn't make it any less FUCK-ME than it already is. :P

ScarletAmaranth

04:32

basically, void foo() { } is implicitly void foo() restrict(cpu) { }

melak47

@ThePhD huh?

ScarletAmaranth

ray marching? how does it work?

harold

basically, instead of calculating the nearest intersection point and jumping to it, you jump some shorter distance

ScarletAmaranth

why is that any... good or for that matter, more elegant?

harold

by itself, it's stupid.
in a distance field, you can jump by the shortest distance from this point to anything in the scene, which clearly never overestimates the jump, and often skips a lot of space (unless you just miss something but get close to the surface)

the main loop is just:
float dist = d(origin + direction * t);
if (dist < 0.0001) break;
t += dist;

ScarletAmaranth

04:43

I can't see how's that much more elegant then

for each pixel
pixelColor = shootRay(x, y);

sort of thing

harold

well, shootRay will be doing all those intersection tests

ScarletAmaranth

yes it will

but how do you know you have intersected if you don't calculate the intersection in your case

it's nice that your t is kind of brute-forced but you still need a check

harold

well you end up at a distance of "almost zero" from some surface

or you shoot off to infinity of course

ScarletAmaranth

naturally, but how do you know you're close to an object or a bounding volume or whatever the hell you're using?

Mysticial

@Borgleader Wow. That's a long time. I don't suppose to verified it did you? Here's the link. The pi file should end with: "5779458151 "

So a single Sandy Bridge core is 100x faster than RPi. damn...

harold

04:49

so you mean, how does that d function work?
like this: http://www.iquilezles.org/www/articles/distfunctions/distfunctions.htm

Mysticial

For Mini-Pi that is.

ScarletAmaranth

that's the thing, you basically have to compute these intersections as well, except for you brute force your parameter t

Mysticial

@Borgleader Bleh. Forgot the actually post the link: numberworld.org/digits/Pi

harold

@ScarletAmaranth it was never going to be That much different from ray tracing of course, it's still more elegant

and it's not actually doing intersections

R. Martinho Fernandes

lol

ScarletAmaranth

04:53

@harold right, it's "almost" doing them :)

harold

Fair enough

ScarletAmaranth

I was trying to come up with a reasonable way to define more complex geometry

for now I use spheres and squares (or squares folded into cubes), etc, any idea what the common strategy is?

harold

It's cool though, you can make soft shadows and ambient occlusion really nicely

that is, without having to send a million rays everywhere

someone did a nice fake-SSS too, but I'm not sure how they did it

ScarletAmaranth

mmm

it seems it's an interesting choice if you're not interested in taking it to the world of decent global illumination approximation

can you do reflections with raymarching? how do you know the angle you need to bounce off in for example?

harold

you can differentiate d numerically to get the normal

ScarletAmaranth

05:04

so, when you hit a plane under 30degrees, you then get a normal to "see if it's a plane" basically so that you can shoot appropriately? (that is, 30degrees again)?

Borgleader

@Mysticial Yep thats what it ends with.

Mysticial

nice

So mini-pi is officially cross-platform. lol

Borgleader

lol

harold

@ScarletAmaranth just differentiate that d, doesn't matter what you hit

unless you want to decide whether to reflect or not based on surface properties, of course

user3010322

05:33

@Mysticial Imagine, a lot of the old "best" computers used to be exactly like those Rasberry Pis. And cost oodles and oodles of dollars. :3

Mysticial

:)

user3010322

Okay, now I need to seriously decide.

user3010322

Fix up my entire Stream implementation (bus, essentially) or do the OpenGL port.

Mysticial

And the scary part is that 3100 seconds is long enough for an Intel Haswell to do 10 billion digits - if you can find one with 64 GB of ram.

Borgleader

Makes me sad that today's internet generation will never appreciate the joy of setting someone's desktop to goatse.

Tweeted by RobDenBleyker on January 5, 2014 at 5:25 AM

Bahahaha

user3010322

05:40

@Mysticial Crazy. :O

Mysticial

@ThePhD It might take a mild overclock. But it will do it.

I figure 4.2 - 4.4 GHz will do it.

harold

well damn, I Knew having only 16GB RAM would come back to bite me someday

user3010322

"mild"

Mysticial

Though it's also an Apples to Oranges comparison.

Since the RPi can only run Mini-Pi. And an Intel Haswell can run y-cruncher.

user3010322

@Borgleader Do you have a VS 2013 CTP-built version of glload?

Mysticial

05:53

There's a lot of new stuff in Haswell. And I don't think I'm gonna have the time to use everything that can be used before Skylake comes out. And AVX-512 is gonna be more than a handful.

Borgleader

Built?

glLoadGen dude...

bitbucket.org/Borgleader/llogl/wiki/Home

user3010322

So just glloadGen for the headers you need, and that's it?

user3010322

No libraries required?

harold

When I found out that Haswell had halved the throughput of shuffles, I was quite annoyed for a while.

Mysticial

They halved the shuffle throughput?

I didn't even notice. lol

melak47

05:59

@ThePhD libraries? doesn't glload have like 2 .c/.cpp files?

Mysticial

But I did notice that they halved the throughput of the rounding instructions. That ticked me off...

user3010322

@melak47 Maybe. I don't know.

Mysticial

At least until I found a work-around that was pretty good.

harold

What's the work-around?

Mysticial

Add and subtract a magic constant. It's the same work-around that I used for pre-SSE4.1 processors. But that initial add ends up being fusable with a lot of multiplies.

So in the end, the whole thing ended up a lot faster.

*than the AVX path that I had for Sandy Bridge.

harold

06:02

ooh yes of course, I forgot about FMA for a minute

that makes sense

Mysticial

There were a lot of places where I would do:

vmulpd a,b,c
vroundpd a,a

Now it becomes:

ScarletAmaranth

you don't insert spaces after these commas o_O? blasphemy :)

Mysticial

vfmaXXXpd a,b,c
vsubpd a,c

Or something like that.

harold

pretty nice

Mysticial

But I'd consider that as a minor hack. Some of the other algorithms will actually require a complete redesign to get optimal performance with FMAs.

Specifically the FFT.

Borgleader

06:09

@ThePhD glloadgen makes a .hpp and .cpp

Mysticial

That's not something I'm willing to invest any time on in the near future. lol

Borgleader

and then you just put those in your project

and use them

harold

well, want me to take a look?

Mysticial

@harold Were you responding to me?

harold

Yes

Mysticial

06:11

Oh. I meant that there are a bunch of papers out there on FFTs with FMAs.

The trade-off being that you increase the amount of computational work needed, but the cost goes down because they are more fusable.

It was something I couldn't do while I was in grad-school because FMAs weren't out yet.

ScarletAmaranth

good night kids

Mysticial

night

harold

I've read one those papers, didn't really get it, but ok

Mysticial

It also reduces numerical stability as well.

Which might as well make it not worth it at all.

harold

That's a shame

user3010322

06:17

@Borgleader Would you mind generating what you have for me? <3

user3010322

I'm derping out really hard and not getting much of anywhere.

Borgleader

Sure, but it's rather easy to setup (the command to generate the files is in my wiki that I linked)

the only thing is theres a bug that you need to manually fix (by getting the lines from the issue tracker)

Mysticial

@harold I've also found that on AMD, the FMA is kinda useless for FFTs.

The Bulldozer store unit is the problem.

And that's just for 128-bit stores. The 256-bit stores on AMD Piledriver have like 17 cycle R-Throughput.

harold

That's kind of ridiculous

I mean, 2 or something makes sense, but 17?

Mysticial

You can tell that their 256-bit SIMD is so heavily stitched together in a desperate attempt to be able to run everything that will run on Intels.

Borgleader

06:26

@Mysticial Thats not really worth using unless you can like, use that to get some result do other stuff in the mean time and get the result later? (I KNOW NOTHING)

Mysticial

@Borgleader You're correct. It's so bad that everyone recommends that you avoid 256-bit SIMD like the plague on AMD Piledriver.

It doesn't take an expert to realize that.

Borgleader

I'd be curious why they bothered to put it in then if it's so shitty.

gideon

hey, any chance there are linux kernel developers in here?

Borgleader

Marketing?

@gideon afaik there are none

Mysticial

@Borgleader So they can at least run programs that were designed for Intel.

Borgleader

06:28

Oh...

harold

Now if only Intel would do the same with XOP

please.

gideon

@Borgleader damn.

Borgleader

Isn't the linux kernel in C anyway?

Mysticial

@harold That's the other part that kills me. XOP has an instruction that I need badly. But when Bulldozer arrived, I found that the throughput was about as bad as the work-around.

harold

Which one?

Mysticial

06:30

Fractional part

the other side of rounding

So you'd emulate it with a round and subtract.

At least that's how I did it on Sandy Bridge.

harold

R-Throughput of 2, could be worse I suppose..

could have been 17 lol

Mysticial

@harold lol

On Haswell, fractional part got really bad since they nerfed roundpd. I ended up doing some really fugly bit hacks.

Borgleader

@Mysticial I need to start studying for interviews. Do you have a good intro to assembly on hand somewhere?

Mysticial

@Borgleader I'm self-taught. Mostly by looking at compiler output.

harold

there's assembly at interviews?

Borgleader

06:34

Ah ok

@harold There could be.

harold

Sounds interesting

Borgleader

I'm pretty confident that my C++ is at an appropriate level so I won't spend too much time on that.

Mysticial

Scumbag VC2013:

OH wait... wrong example:

Borgleader

That looks ok to me?

Mysticial

No wait... It was correct:

vmovapd	ymm1, ymm10
vfmadd231pd ymm1, ymm11, ymm0
vsubpd	ymm10, ymm3, ymm15

It will take a trained eye to see why VS2013 is being retarded.

IOW, VS2013 does not know how to compile FMA3 instructions.

Borgleader

06:42

Ok so the problem is its not using FMA and it should?

Mysticial

Right.

I can see that VS2012's support for FMA3 is very hacked in. They didn't spend any time trying to get it right.

Oh wait, this is VS2012. I haven't tried VS2013 yet.

harold

ok, I accept that I am a noob (apparently) - what's it doing wrong?

Mysticial

@harold The move is not needed.

Granted, they get renamed away anyway. But it's still hogging instruction space and decoding bandwidth.

harold

man, I should have seen that

I'll go stand in the noob-corner for a while

Mysticial

lol

harold

06:48

MSVC has always been like this - the first time they implement anything, there's a ton of stupid moves everywhere

Mysticial

You're not a noob. At least you actually write assembly.

@harold And to make it worse, it doesn't seem like VS2012 knows anything other than the 231 FMA instructions.

harold

so, they just threw in 1 codegen pattern, or something?

Mysticial

Yeah...

I can understand if you never issue 213 or 132. They're redundant. But you need at least one of them to overwrite a multiply input without a move.

But assuming they really did only 231. At least they picked that one since it's the most common use case.

harold

They added FMA4 a version earlier, what if.. they're actually trying to emit FMA4 instructions but they just rewrite them at the last possible moment?

Mysticial

@harold That's my guess too.

I don't see a single register-register move in my XOP version.

harold

06:56

Well, I hope it's improved in VS2013

Mysticial

I should probably do that some time.

I need to upgrade my toolchains.

I recently dropped ICC because my version didn't have sufficient C++11 support and I couldn't get a hold of the newest versions.

harold

I haven't even upgraded to VS2012 yet.. too lazy

Mysticial

I think VS2012 has all the Ivy Bridge and Haswell instructions.

I haven't checked if it has the Haswell bignum instructions though.

Which ironically, I'm not going to use for a while.

Despite y-cruncher being a "bignum" program.

harold

which instructions are that btw, mulx?

I usually use vsyasm btw so I'm not that bothered by missing intrinsics (or lame codegen)

Mysticial

mulx, adcx, and adox

harold

07:04

adcx isn't Haswell is it?

Mysticial

ah. Straight to assembler.

@harold It's in haswell.

GMP already started using it.

And no VS2012 does not have them.

harold

huh ok, I remember it being a Broadwell instruction

Mysticial

It looks like VS2012 has all the AVX2, FMA3, and BMI. But no bignum.

Unless I'm missing a header.

harold

my version of vsyasm doesn't like adcx

that's a bit disappointing

Mysticial

It seems like Intel shoved in a bunch of new instructions into Haswell as the last moment.

Nobody could keep up.

I certainly didn't know about BMI and bignum until it arrived.

Whereas everyone knew FMA3 and AVX2 were coming from a mile away.

harold

07:15

I knew pext and pdep were coming, not sure where I heard it though
maybe on chessprogramming

Mysticial

AVX512 has prefetch gather and scatter. That sounds amazing cool. Not sure if I'll be able to use it though. :P

harold

I hope it doesn't use a hundred µops though

Mysticial

It probably will. lol

harold

btw, do you have adcx in your manual? I only seem to have it in the opcode map

Mysticial

I can't even find it in the intrinsics guide that I bookmarked.

I've never used the Visual Studio assembler though.

harold

07:21

it's supposed to be 66 F6 [operands] right?

oh no, silly me

Mysticial

I actually have no idea.

harold

0x66, 0x0F, 0x38, 0xF6 [operands], that's it (I think)
gave an Illegal Instruction on my 4770K though

so maybe it's something else

why is this instruction so hard to find..

almost as if they're keeping it secret or something

it's not even on ref.x86asm.net

Mysticial

lol

The thing about mulx that bugs me is that it has horrible throughput. (according to Agner Fog)

It's almost as if you can do better with the single-operand mul with moves.

But apparently GMP does find that it helps.

harold

http://users.atw.hu/instlatx64/GenuineIntel00306C3_Haswell_InstLatX64.txt
says the throughput isn't that bad though

I'll just try it

Telkitty

poor poor kitty ...

Mysticial

07:31

@harold Agner's numbers can't be right...

He's got 3 cycle RT for all register mulx.

And 2 cycle RT for the one with the memory operand.

And 1 cycle RT for the single operand 64-bit mul.

Lightness Races in Orbit

So you're the night shift, huh

harold

@Mysticial I'm finding .. weird results

user3010322

@LightnessRacesinOrbit y u up so late? D:

Borgleader

Isnt it 8AM for him?

Lightness Races in Orbit

@ThePhD just got home

all the fucking takeaways are closed grrr

guess I'm going to bed hungry. yes, at 8am. fml

harold

07:47

maybe it's too early in the morning to write a proper benchmark, I give up for now

Mysticial

lol

R. Martinho Fernandes

What is a proper benchmark for you?

Genuine curiosity as I am currently working on that.

harold

One that answer a question instead of just raising more of them

R. Martinho Fernandes

Meh that didn't help.

harold

Well it's hard to give a general answer..

So I did this: http://pastebin.com/3TQskrYm
maybe someone else sees what's wrong with this

R. Martinho Fernandes

07:58

@harold What about an example then?

Mysticial

@harold Why are you writing into r10 multiple times?

harold

@Mysticial well I had to put it somewhere

Mysticial

Not that I know how well a processor will handle WW hazards.

Since compilers never do that.

harold

never had any trouble with WW hazards

user3010322

@R.MartinhoFernandes I should be able to specify experiments. An experiment is a sequence of code run multiple times over and over again. Once the experiment is over, it needs to collect the data and have available standard deviation, mode, median, etc. running times

user3010322

08:00

I need to be able to take a bunch of experiments. I want to compare them based on Predicates for a certain category of "better".

harold

I can find some other registers to write to

Telkitty

2013 must be a slow news year

user3010322

The experiments should be returned in a sorted array, from best to worst (or worst to best, who knows).

R. Martinho Fernandes

You're describing analysis mechanisms.

user3010322

Shrug.

user3010322

08:02

I would want those things in a benchmarking suite.

R. Martinho Fernandes

And that's not what I asked.

harold

@Mysticial yes that didn't help, as expected. The first thing takes 3 time units and the second thing takes 4 time units. I can't make sense of that.

Mysticial

dafuq

Try the single operand multiply in the first benchmark.

But you'll need to break the rax/rdx register dependency between each one.

So move something into them before each instruction.

user3010322

@R.MartinhoFernandes Optionally, it should also play this music:

user3010322

►

harold

08:05

hold on, I have an idea.

user3010322

^^ /cc @CatPlusPlus @Xeo

R. Martinho Fernandes

@ThePhD I'm interested in the subjects of such a tool. Not the tool itself.

user3010322

Oh.

user3010322

Uhm.

user3010322

You could literally benchmark.. ... anything?

Xeo

08:07

@ThePhD SH's soundtrack was really nice

user3010322

@Xeo Fooooooooooocuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuussssssssiiiiiiiiiiiiiiiiiii‌iing

Telkitty

Male kid 3 months old for sale - A$50.00

user3010322

Kid is a child goat, no?

Telkitty

:D

harold

@Mysticial they're about the same if I use xor eax, eax \ mul vs xor edx, edx \ mulx

Mysticial

08:12

Then maybe someone should ping Agner and tell him his numbers are off.

harold

They're definitely wrong, but I can't say I know for 100% certain what's going on

Oh well I might as well notify him I guess

bamboon

@harold Just ask him and have a discussion

Mysticial

@harold Sounds good.

That's probably only the second time I've Agner get something wrong.

The first time was the denormal float performance on Sandy Bridge.

He didn't test multiplies and published, "denormals have no penalties on Sandy Bridge".

Then shortly after my denormal float answer went viral, someone notified him and he redid the benchmarks and updated the statement to, "addition and subtraction on denormals have no penalty".

Borgleader

I startd watching Scrubs, that is hilarious

Telkitty

@MartinJames look Martin, you pet pie has grown ...

user3010322

08:51

@R.MartinhoFernandes I have a bit of a question, and I think I need your help to answer it.

user3010322

Actually, nevermind, after more careful thought it won't work that way.

user3010322

Goddamnit, trying to avoid extra allocations and indirection is hard as balls. =/

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