Slashback: Centrinissimo, Damages, Software

Slashback with more on open code in government, Intel's new low-power mobile chips, the nature of the engineers, craftsmen or whatchamacallims who spend their days forging software, the CD price-fixing settlement, and more -- read on for the details.

Formalization schmormalization. kaisyain's review today of Software Craftsmanship raised a spirited conversation about the nature of software, software engineering, and related disciplines. cconnell conveniently submits a great companion piece: "I wrote this article a couple years ago but it has continued to get good readership within the software engineering community. Should provoke some interesting discussion..."

The bleeding edge costs money. JeffyVernon writes with an followup to CNET's early review of Centrino laptops: "AnandTech published two articles on Centrino today, an overview of the CPU architecture (including some interesting history behind the chip) and a roundup of four notebooks including the new Dell that wasn't in CNet's roundup. It looks like the 4.9lbs IBM T40p ended up winning the roundup, it lasted over 6 hours on battery!"

What scarcity was this exactly? RadBlock writes "Lawrence Lessig is addressing the issue of radio spectrum on CIO Insight... something that was talked about on Slashdot the other day. Lessig states that the spectrum has been defined too generally as if there can only be one message per frequency, when better equipment will vastly increase the amount of 'spectrum' that is usable."

I like that phrase "general welfare." We've mentioned eGovOS several times before -- now, here's a last-minute announcement that may be of interest: free registration is still open for next week's (March 17-19) eGovOS conference in Washington D.C., "Open Standards/Open Source for National and Local eGovernment Programs in the U.S. and EU." Perhaps some folks there ought to consider the question eugene ts wong raised the other day, namely, Which North American government offices won't move to Linux? Someone needs to set up a big map with different colored countries and states!

Who's laughing and where is his bank? deelowe writes "From ars. Back in September we reported on a class action suit leveled at a number of Music industry players that accused them of anti-competitive price-fixing. Back in January, we reported that victims of said price fixing could hit this website and sign up (too late now), and eventually receive up to $20 in the settlement, provided of course that you had actually purchased a CD between January 1 1995 and December 22, 2000. 3.5 million Americans made their way to the on-line form, and it appears that victims will receive $12.60 apiece, should a judge approve it."

They still have a while to go ... sp1nl0ck writes CNet News.com.com.com are reporting that The Neo Project guys have restarted the attempt to crack the 2048-bit XBox key following advice from their lawyers. CNet are citing a link to Operation Project X, but it was a bit temperamental in loading earlier. Maybe it's been CNetted..."

I'll still think of it as the GIMP for a few years ;) Agermain writes "CinePaint has just released its first Windows build. From their website: "CinePaint is an open source painting program used by motion picture studios to retouch images in 35mm films. It was formerly called Film Gimp. It has been used in a dozen feature films including Harry Potter, Scooby-Doo, and the Fast & the Furious... This first Windows beta release is mainly intended for developers and testers.""

How will you spend your settlement money?

[Metallic+Matty]

I fully intend to reinvest that 12.60 back into my music collection =)

Although; thats probably what they want you to do..

Re:How will you spend your settlement money?

[JonMisurda]

I'll buy some blank cds ;)

ya the victims

The victims will receive $12.60 each.

The lawyers will receive $20 million each.

There's no justice like american justice!

Ya baby!

What to do with the $12.60

[The+Bungi]

Donate it to the guy that runs Kazaa Lite.

Re:What to do with the $12.60

[SquadBoy]

The guy that runs Kazaa Lite is a hypocrite. Here he is building an unofficial client that lets you use Kazaa without looking at their ads and yet when I try to go to his site I get blocked by Anti-Leech for not allowing popups. He is a true and royal asshole and I hope he dies. Well not really but kind of.

Re:What to do with the $12.60

[The+Bungi]

If you feel constrained by something as dumb as anti-leech, we need to work on your geek skillz =)

Re:What to do with the $12.60

[Bios_Hakr]

kazaalite.com is not the page for Kazaa Lite. That guy is. from what I have heard, a domain squatter.

Try www.kazaalite.tk instead.

Also, kazaa lite runs just fine under WINE.

Operation Project X

[kiwirob]

Operation Project X is a project to run linux on the x-box. But to run the client to crack the code you have to be running windows!!! Where the hell is my linux hack the evil empire client??

a ROT-13 decoder if you need it (ROT-13 encoded)

#vapyhqr <fgqvb.u>

vag znva()
{
vag p;

juvyr ((p = trgpune()) != RBS) {
vs (p >= 'n' && p <= 'm')
chgpune('n' + (p-'n'+13)%26);
ryfr vs (p >= 'N' && p <= 'M')
chgpune('N' + (p-'N'+13)%26);
ryfr
chgpune(p);
}
}

$12.60 for your Opt-In

[ziggr]

Sounds like a bargain! In exchange for a paltry $50M, they now have a confirmed list of 3.5 million music consumers, their names, email and physical addresses, birth dates, and last 4 digits of their social security numbers. I wonder how much they'll be recoup by reselling that list, or just using it themselves.

As much as I wanted to see the RIAA's wrists slapped for being naughty, it felt like *I* was going to be the one to suffer if I filled out that form.

Re:$12.60 for your Opt-In

[SirSlud]

The kind of list you're charging them with suddenly being able to use to advertise, which even then is a pretty glib assumption, is not worth 50 million dollars.

Email lists with 3.5 million opt-in targetted blue-chip collected address would costa tiny fraction of that money. The idea that 50 million dollars is a good price for that tiny amount of contacts, even if you *were* allowed to suddenly spam them, is insane. That kind of price would get you absolutely laughed out of any online advertising campaign sales meeting.

Take off the tinfoil, buddy!

My $12.60

[dacarr]

Oh boy! Now I can buy socks!

Improved equipment == improved use of spectrum

[L-Train8]

This has been going on, there is just room for improvement. Back in the late '70's, my father was into radio-controlled airplanes and had a nice set-up. He got out of that hobby after a few years and the plane and controller went up in the attic. Ten years later, I thought I might try my hand at it, and he gave me his old stuff. I found out that while I could still use the model plane, I had to replace the controller and servos. They were too old and used to much of the spectrum. In the intervening years, more efficient equipment replaced the stuff my dad used. The old stuff used too much of the spectrum and interfered with other planes and other RF uses.

Nice one

CNet are citing a link to Operation Project X, but it was a bit temperamental in loading earlier. Maybe it's been CNetted...

So you decided to submit it to Slashdot?

Wow.

Centrinissimo, Damages, Software

[kEnder242]

Did anyone read that as "Centrinissimo damages software."?

I know the crusoe mangles assebly a bit but...

No $12.60 for me

[Powercntrl]

With all the, ahem, interesting stuff I have downloaded off P2P, I think it's best to keep my mouth shut.

Sure they have been price fixing, but I haven't been playing fair either. I call it even.

Centrino is way overrated

[dracvl]

It looks like the 4.9lbs IBM T40p ended up winning the roundup, it lasted over 6 hours on battery!

I get 7 hours out of my widescreen Fujitsu P2120 sporting a Crusoe 933MHz, and it's 3.4lbs and half the price. If you're interested in more, here's the specs.

I'm not affiliated with Fujitsu, I just can't praise this laptop enough ;)

You should have 20/20 vision though, at 1280x768 in 10.4" widescreen, the pixels are small. But with sub-pixel rendering, the fonts are a visual orgasm for typography nerds like myself ;)

Re:Centrino is way overrated

[Tackhead]

> I get 7 hours out of my widescreen Fujitsu P2120 sporting a Crusoe 933MHz, and it's 3.4lbs and half the price. If you're interested in more, here's the specs [fujitsupc.com].

Yes, which is cool for ultra light/thin. But if you're going for a desktop replacement, getting 6 hours out of a 14-15 inch screen and the gaming performance of a 2.0 P4, r0x0rz.

But the marketing... Gack. Disgusting. I gotta rant.

"Centrino". A Pentium-M (and 855PM chipset) and an Intel WLAN card.

So lemme get these three CPUs straight...

Pentium-III-M: That icky old Pentium 3, yuk, you don't want a Pentium 3! That's old!

Pentium-4-M: That awesome new Pentium 4, but mobile! That's new!

Pentium-M: We spent millions to train people that "Pentium 4" was the hot new thing... And see, "Pentium III", that must suck, because "3" is less than "4". So what do we call our newest, bestest, fastest mobile chip? You know, the one that so handily beats a P4 on an IPC basis that at 1.6 GHz, it beats a 2.4 GHz Pentium-4-M? The one with the huge-azz 1M cache, and the 5-6 hour battery life? Well, we decided we should call that CPU the "Pentium-M"! You know, so it sounds like the mobile version of the 133 MHz thing you had back in 1995 or so!

All this so that the consumer will ask for a "Centrino" instead of "the laptop with that newer, faster P3 that had the 1M cache, 400 MHz FSB, and P4's branch prediction unit, and insanely low power consumption" -- so that manufacturers, in order to say "Centrino! Comin' right up!" will sell them a laptop with an Intel WLAN card as opposed to any other manufacturer's WLAN card.

(No Intel WLAN card? Sorry, not a cool fast buzzword-compliant Centrino! Icky slow Pentium-M that doesn't even have a "3" or "4" after it!)

I want one of these things, awright, but I want it for the (Banias / Pentium-M) CPU and battery life. I don't give a rat's ass who makes the frickin' WLAN card! So if you also don't give a rat's ass about who makes the WLAN card, remember that "Pentium-M" is just as good as a "Centrino".

In addition to (possibly) saving you a few bucks, there's the added benefit that with a non-Intel WLAN card, your laptop won't be branded with a logo that looks like it came off a box of tampons.

WTF is a Latitude 8200?

[McSpew]

The AnandTech review made numerous comparisons between the Dell Latitude D800 and the Dell "Latitude 8200." There is no such product. I suspect the comparisons were to the Inspiron 8200, which is not being replaced by the Latitude D800. Ultimately, the Latitude D800 will replace the Latitude C8xx series, but the two products will coexist for a while, because a lot of companies (mine included) own a lot of Latitude Cxxx hardware for which all the docking stations, batteries and CD-ROM/CD-RW/DVD-ROM drives are interchangeable.

In the meantime, the Dell Centrino-based product most comparable to the Inspiron 8200 is the Inspiron 600m.

Justice, American-style

[Tumbleweed]

> There's no justice like american justice!

Hey, I'll have you know that America has the best justice money can buy! :)

frequency reuse

[throwaway18]

>as if there can only be one message per frequency

There are already systems allowing radio users such as taxi's and security guards to use the same frequencys.

The same frequency is often allocated to firms in geographically seperate locations. A system called CTCSS is used so that even if a signal from the base transmitter of a building reaches the walkie talkie of a security guard miles away it dosn't come out of the speaker. CTCSS sends a low frequency tone along with the voice, the receivers only turn on the audio output when the correct tone is detected.

Security guards don't talk on their radio all the time and the wanted signal are usually closer and stronger so it works well.

Digital trunked radio systems, similar to cellular phone systems are also gaining ground.

Re:Xbox Concern?

[SymLink-Dyn]

Good lord. We're supposed to be geeks here, right? Let's do the math on this.

The Xbox uses a keyspace of 2^2048. So far, the project has manage to do a little over 17 billion keys, call it 2^34 keys. That means, they have managed to test roughly fuck all. If Microsoft sent a negative result back for the actual key, the chances are higher that a couple of inopportune cosmic rays would change the result to positive, than they are that these guys are going to test even 3*(fuck all), before people figure out that the method is hopeless. Vague mumblings on their site about "a chaos thing" does not make brute force search in that sort of keyspace any less hopeless.

You can make $10,000 by solving a problem that's 1/(2^1472) as difficult by cracking RSA-576. Why are we paying attention to these guys?

Remember those old "100x compression" claims?

[Christopher+Thomas]

When the world of personal computing was young, and new compression utilities seemed to be coming out every week, every so often you'd hear someone claim that they'd achived the holy grail - written a compression program that could compress its own output, or compress arbitrary files 100x, or perform some other impossibility. Wise people didn't believe them, because information theory strongly limits your ability to compress arbitrary data.

In recent years, we've started hearing similar claims about the spectrum. Remember when impulse-based signal transmission was going to give us limitless bandwidth? This is more of the same.

First, I'll explain the limits to transmission bandwidth. Then, I'll explain how Mr. Lessig is planning to get around them. Finally, I'll explain why it doesn't work.

The spectrum, at the location of any given broadcast transmitter or broadcast receiver, is limited. The bandwidth - range of frequencies - available is fundamentally limited by the receiver's sampling rate (or frequency cutoff, for analog signals). There is no way to get around this, short of using more of the spectrum (by having a higher frequency cutoff). In the past, it was difficult to access even this much, due to the nature of the electronics used (response wasn't perfect, filtering wasn't perfect), but modern electronics are much better (as Mr. Lessig points out in his radio airplane example). The bandwidth limit, however, remains.

The amount of information you can transmit within a given region of the spectrum doesn't depend solely on the bandwidth - it depends on both the bandwidth and the fidelity of your sampling within the band of interest (how many levels you can decode without noise if you're quantizing, or what your signal-to-noise ratio is if you're using a fully analog system or a digital system with very high fidelity). The number of bits of information you can stuff into a spectrum region per second is the log to the base 2 of the number of levels you can reliably distinguish from each other.

This limit applies to any limited-bandwidth signal, regardless of the encoding scheme used. Use spread-spectrum transmission to smear a narrow-band signal over a wider region of the spectrum, and the limit just tells you how many signals you can broadcast this way before the noise floor swamps all signals. The mention of spread-spectrum transmission in the article is a red herring - it doesn't gain you data capacity (it's used for other reasons).

If your system is purely a broadcasting one - sending in all directions, receiving in all directions, no wormholes or relays - this is the best you can do.

You can improve the situation somewhat by trying to beamcast messages instead of broadcasting them. However, this still has problems. Firstly, your "beam" is really a cone. Secondly, your transmitter/receiver is larger, as you need a dish or a carefully shaped antenna or a large array of antennas and some signal processing to get direction-selectivity. Both are caused by diffraction limits related to the wavelengths of the signals being used - a fundamental process that can't be avoided. Thus, while it's used for transmitters (take a look at a cell tower some time), it's not practical for receivers. Either way, you end up with a fixed, finite gain in capacity, as the narrowness of a transmitter's beam can't be made smaller than a certain amount without requiring an extremely large transmitter.

So what about the idea of having short-range transmitters/receivers, and relaying between them? Well, this works to some extent. However, you must have a non-broadcast backbone. Solely relying on the short-range units for signal relaying bogs down very quickly. Consider an area with transceivers uniformly distributed in it, with source and destination points for any given communication chosen at random. Draw a line through the middle of the region. With N transceivers, the number of signals crossing the boundary goes up as O(N), but the number of nodes on the boundary that can do

EFF-it

[mlknowle]

Here's my suggestions:

everyone who receives their $12 check DONATE IT to the EFF right away - what a great gesture, and what a great fundraising opportunity.