Japanese phones are check lists of who has the most features: The one with the most sells the best.
Things like TV and radio are just silly features concocted to make the feature list even longer -- the next crazy idea is adopted by all the manufacturers in the next product iteration.
It's this mindset that people look for, unfortunately. And the industry caters to the demand.
PS: This also extends to other products too. Japanese motorcycles, for example, revolve around who has the largest numbers for that manufacturing year.
Sand belongs to a group of things called granular media. This includes things like pellets, ores, polymers, etc.
We typically regard the size of the particles to be larger than 1Âm. Any smaller and you have to start to take into account interparticle forces such as electrostatics and Van der Waals.
Trying to work out exactly how granular media behaves is tricky. Sometimes it behaves like a solid (sand on a beach, say -- you don't sink into it) and sometimes it behaves like a fluid (you can pour the grains of sand from a beach through your fingers). The example given here shows how it can behave inbetween solid objects (mechanics) and liquids (fluid dynamics). There's a large body of statistical and simulation results that try to understand what's going on, but nothing exists like Navier-Stokes does for liquids.
There's a lot of strange and unintuitive behaviour that arises out from studying these sorts of materials, and it's *extremely* important to industry. For example how granular media has a self-sorting behaviour when you subtly vary the size or mass of each particle.
I was good enough at programming to pass the modules, but I never really programmed for pleasure or got involved beyond what was required of me academically. I know that makes me a blasphemer and a poser on here!
Programming is as much to Computer Science as telescopes are to Astronomy.
> I'm always amazed that theoretical physicists can manipulate such immensely complex abstract objects in their heads and still be able to breathe and maintain bladder control.
That's easy. You just imagine n dimensions, and let n tend to 11...
Linux already supports SSD's and other flash media by having a noop scheduler. The basic premise is that devices that don't depend on mechanical movement to access data don't need reordering of requests. This is also the scheduler you use if you have an advanced controller (RAID, etc) that is capable of doing it's own I/O rescheduling.
To see what scheduler you are running (on this case/dev/sda):
I wonder if they have fixed the throttling bug where if you're streaming media over a wireless link, Vista throttles the connection down so much that it causes buffer underruns and severe clipping. I can't listen to FLACs in VLC unless I set buffering to at least 20 seconds.
What brand of motherboard do they put in these things? What's the wattage of the Power Supply? What kind of RAM is used? DDR Dual Channel? What brand is the RAM? What brand is the hard-drive? What is the rotational speed of the hdd? How much cache does the hdd have? Sounds like a decent deal as long as they are using decent hardware.
If this sort of stuff matters to you, why are you buying a Dell?
Slashdot Mirror
File modification date.
Terror from the deep...
Japanese phones are check lists of who has the most features: The one with the most sells the best.
Things like TV and radio are just silly features concocted to make the feature list even longer -- the next crazy idea is adopted by all the manufacturers in the next product iteration.
It's this mindset that people look for, unfortunately. And the industry caters to the demand.
PS: This also extends to other products too. Japanese motorcycles, for example, revolve around who has the largest numbers for that manufacturing year.
Game design is as much about programming as telescopes are to Astronomy.
Sand belongs to a group of things called granular media. This includes things like pellets, ores, polymers, etc.
We typically regard the size of the particles to be larger than 1Âm. Any smaller and you have to start to take into account interparticle forces such as electrostatics and Van der Waals.
Trying to work out exactly how granular media behaves is tricky. Sometimes it behaves like a solid (sand on a beach, say -- you don't sink into it) and sometimes it behaves like a fluid (you can pour the grains of sand from a beach through your fingers). The example given here shows how it can behave inbetween solid objects (mechanics) and liquids (fluid dynamics). There's a large body of statistical and simulation results that try to understand what's going on, but nothing exists like Navier-Stokes does for liquids.
There's a lot of strange and unintuitive behaviour that arises out from studying these sorts of materials, and it's *extremely* important to industry. For example how granular media has a self-sorting behaviour when you subtly vary the size or mass of each particle.
The article shows another example of it.
Although it's surprisingly mentioned quite a lot on /., howabout Australia or New Zealand?
money is not the motivation for everything in this world
But it's waaaay ahead of what's in second place.
I was good enough at programming to pass the modules, but I never really programmed for pleasure or got involved beyond what was required of me academically. I know that makes me a blasphemer and a poser on here!
Programming is as much to Computer Science as telescopes are to Astronomy.
Or send out a anti-infection worm, that cleans out the host and itself.
> I'm always amazed that theoretical physicists can manipulate such immensely complex abstract objects in their heads and still be able to breathe and maintain bladder control.
That's easy. You just imagine n dimensions, and let n tend to 11...
> Opera 10 proved itself to outperform every other desktop browser on the planet, and there are graphs to prove it.
Well damn, colour me impressed!
Linux already supports SSD's and other flash media by having a noop scheduler. The basic premise is that devices that don't depend on mechanical movement to access data don't need reordering of requests. This is also the scheduler you use if you have an advanced controller (RAID, etc) that is capable of doing it's own I/O rescheduling.
/dev/sda):
/sys/block/sda/queue/scheduler
/sys/block/sda/queue/scheduler
To see what scheduler you are running (on this case
# cat
noop anticipatory deadline [cfq]
Here the completely fair scheduler is currently running. To swap to the noop scheduler:
# echo noop >
[noop] anticipatory deadline cfq
I wonder if they have fixed the throttling bug where if you're streaming media over a wireless link, Vista throttles the connection down so much that it causes buffer underruns and severe clipping. I can't listen to FLACs in VLC unless I set buffering to at least 20 seconds.
Wish I could mod you up.
There's a whole big world outside the US, and none of us have heard of or use Hulu.
Am I missing something?
Yes.
The system learns the quality of photo, not the abstractions we place upon it.
The photograph, in strict terms of quality alone, is rather poor and achieves an appropriate rating. It cannot measure the value of the image.
Now's the time to invest! Buy buy buy!
Gentoo is all about choices, and the choice to run 2.6 has been available for some time now.
What brand of motherboard do they put in these things?
What's the wattage of the Power Supply?
What kind of RAM is used? DDR Dual Channel? What brand is the RAM?
What brand is the hard-drive? What is the rotational speed of the hdd? How much cache does the hdd have?
Sounds like a decent deal as long as they are using decent hardware.
If this sort of stuff matters to you, why are you buying a Dell?
He's right, however.
insightful?