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Comment Re:Just another case.... (Score 4, Interesting) 183

We did workarounds on the ATA bus spec for known hardware bugs in older VIA chipsets. These were silicon bugs, not chipset firmware so they couldn't be fixed afterwards with patches and there were millions of these boards out there. Declaring our devices (CD-ROM and DVD-ROM drives) wouldn't work with these boards was not going to happen for sales reasons so our code included a lockup-recovery function that was invoked when the rare bug conditions were met and the IDE bus froze. The average user never noticed these lockups and we didn't tell them about them.

Out-of-spec bugs like this were well-known in the industry and workarounds were easy to produce as long as you had access to a few million bucks worth of test equipment and a good team of professional engineers with decades of experience, not something that's common in the Linux world.

Comment Re:In other news... (Score 1) 484

Right now, as I type this, France is importing 2.5GW of electricity from Germany and 450MW from Switzerland. It is exporting 2GW to Britain, 2.6GW to Italy and 890MW to Spain though, a next export from France of 3GW.

You can find real-time details of France's generating capacity, imports and exports at this website, http://gridwatch.templar.co.uk....

I've seen times on this page when France has been exporting as much as 10GW of electricity to other countries (Britain in particular takes 2GW of cheap French nuclear electricity nearly all the time). I don't think I've ever seen a case where France was importing more electricity than it exported.

Comment Somewhat misleading (Score 2) 111

The title of this submission talks about "phones", the Fine Article discusses Nokia's possible entry into the smartphone world after the noncompete agreement with MS lapses. This being /. I can comprehend that "smartphones" and "phones" are synonymous in most readers minds but Nokia is still building and selling dumb phones and feature phones (profitably, I presume) and has been all the time they were being funded by MS to make the Lumia range.

The Nokia board probably have a good idea about their ability to leverage the good name of Nokia in the Android smartphone biz by looking at the sales of their N1 Android tablet in the markets it's already been released in. No public numbers yet though.

The two big differentiators that Nokia could bring to a new smartphone design based on its long phone-making track record would be voice call quality and the radio hardware, not something any of the other smartphone makers (with the exception of the Lumia series spawned by Nokia) seem to bother with much.

Comment Re:Energy Storage? (Score 1) 80

Pumped storage and all other storage systems cost money to build and operate (construction costs for pumped storage are about $200 million/GWh) and they waste energy in the storage/regeneration cycle (about 30% losses for pumped storage round-trip). The renewables boosters never mention these costs and resulting energy losses when claiming how economic solar and wind are, focusing instead only on the peak generating capacity of new-build renewable plant and pretending the large amount of combined-cycle gas and coal generating plant "backing up" renewables doesn't exist.

Comment Lazertag (Score 3, Interesting) 210

Back in the day friends were into doing Lazertag with the original retail guns and detectors and they came to me to see what I could do for them. I reverse-engineered a gun, scoped the output to the IR LED in the muzzle and discovered it was a simple short burst of 1kHz, nothing complicated for the target detectors to register.

By the time I had finished they had a couple of hand grenades (push a button, toss it at the Other Guys, three seconds later it fired a burst of 1kHz through a bunch of small IR LEDs peeking through holes of the plastic casing made from laundry detergent globes) and a "knife" (push the handle down against the Other Guy's body close to their target, another short burst of IR from LEDs in the handle shielded from the holder). The best item though was the "bomb on a stick", an omnidirectional radiator on a short pole, just push it round a corner and fire it off. That one emitted for as long as the switch was held down and it had a LOT of IR LEDs. One-shot room clearance FTW.

Comment Re:Forgetting something? (Score 1) 316

Something went wrong with this Falcon 9 flight. Assuming little has changed in its design over previous flights then that something could have happened on any previous flight and SpaceX were just lucky it didn't happen on an earlier flight.

The goalpost-shifting criteria of "how many successful launches do you achieve before the first bad one happens" is not something the insurers will look on with equanimity. What they want to see is a long unbroken string of successful launches like, say, the Ariane V which had its last failure back in 2002 and which has launched sixty-four times since then with every mission an unqualified success (no OrbComm-style failure-to-achieve-correct-orbit in that sequence BTW).

As for the Japanese HII failure, a strap-on motor on an HII-A failed to separate after burnout and it was aborted by the range safety officer. It was flight number 6 of that design.

The larger HII-B has four successes for four attempts to its credit, all cargo flights to the ISS. Hmmm, just ran some numbers -- the four Japanese HII-B resupply missions have delivered 19.8 tonnes of supplies, spare parts etc. The six successful SpaceX CRS missions have delivered 9.7 tonnes of cargo in total, slightly less than half that amount.

Comment Forgetting something? (Score 4, Informative) 316

Where's the Ariane Vega, or the Japanese H2 launchers or the PSLV in that list?

Vega - five launches, five successful.

H2 (A and B variants) - thirty-two launches, one failure.

PSLV - twenty-nine launches, one total failure (the first), one partial where the final stage underperformed but the payload satellite used its own propulsion system to get to the correct orbit.

That moves the Falcon 9 down the listings a bit, I think.

Comment Re:Don't rule out sabotage (Score 5, Informative) 316

"The only alternatives to SpaceX are NASA's AtlasV and the Russian offerings. That's well known."

Well, apart from Arianespace (the Ariane V medium-lift and Vega small-capacity launcher), the Japanese H2-B launchers (one will fly a cargo resupply mission to the ISS in August), the low-cost Indian PSLVs, the Chinese Long March series of man-rated launchers etc. etc. That's well-known.

Saying that this launch failure has certainly put a crimp in SpaceX's plans to nuzzle up to the DoD/NSA funding teat.

Comment Re:Obligatory reading (Score 1) 419

That's via ENEnews, the Chicken Littles of the science journalism world especially when it comes to nuclear power and the radiation releases from Fukushima. They never let statements by wild-eyed panic merchants or serial exaggerators go by without blasting it out on their website.

Comment 4k is the new black (Score 1) 558

I've got a 4-core 955 AMD CPU running at 3.2GHz in a generic ASUS motherboard populated with 8GB of DDR3 RAM, a 120GB Sandisk SSD on SATA-3 for OS and programs with a 3TB spinning-rust Toshiba drive for data. The video card is a lowish-end AMD R250 with 1GB of video RAM, nothing special, chosen because it was the cheapest card I could find with DisplayPort.

Why DisplayPort? Because my mad money went on buying a 32" IPS 4k monitor, the Dell Ultrasharp UP3214Q and I needed DisplayPort to drive it at 60Hz. I have no peripheral vision left. It's the best computer upgrade I've ever spent money on, even better than fitting an SSD as a boot drive. My eyes aren't getting any younger after all.

My previous monitor, a 27" Dell IPS 2560x1440 display is running in portrait-mode as a sidekick off the same card with no hassles but I do most of my computing (video, graphics, photoediting, browsing) on the 4k monitor directly in front of me. If you're hesitating about going 4k, my advice is don't wait. The IPS panels like this Dell are more expensive than the smaller TN 4k displays but I really wanted the extended colour gamut and good off-axis viewing the TN displays lack.

Comment Re:Ericson and Nokia? (Score 1) 86

There are the Asha model Nokia phones which are intended for the Indian market but there are also other cheap featurephones like the 105, 120 etc. which are sold here in the UK from Amazon and other sources either SIM-free or locked to carriers as PAYG. They are branded Nokia and, I presume, built by them.

The Lumia smartphones are being rebranded as MS devices with the Nokia name being deprecated although a lot of sales listings still refers to them as Nokia Lumia.

The rumours suggest Nokia want to get (back) into smartphones after the non-compete agreement with MS runs out in 2016. We'll see.

Comment Re:Ericson and Nokia? (Score 1) 86

Nokia do make mobile phones. At the moment they don't make small tablet computers with a GSM/CDMA voice stage like the Lumias, Samsung Androids or iPhones. They're called featurephones. You'll find them for sale in out-of-the-way stores like Amazon with options like dual-SIM, basic social networking support and the like for twenty or thirty bucks, no contract.

Comment Re:Yes. What about them? (Score 2) 169

That's... odd. Australia doesn't have any nuclear power reactors. It burns coal for a lot of its power requirements and exports a shitload more to other countries who do the same. Of course it doesn't take back all the CO2 emitted by the foreign power stations when they burn that coal...

A quick Giggle shows that Australia has sent spent fuel from at least one of its research reactors, HIFAR to France for reprocessing. The waste from that reprocessing operation would normally be returned to Australia after being vtirified.

HIFAR (it's shut down and now being decommissioned) was small with only 7kg of fuel compared to the hundred tonnes plus of fuel oxide in a typical power reactor of today. The problem seems to have been that initially HIFAR was fuelled with highly-enriched uranium which was a proliferation danger hence the desire to reprocess the spent fuel. Most research reactors of this type around the world (such as HIFAR's replacement, OPAL) have been now reconfigured to use low-enriched uranium which poses less of a proliferation threat and in such cases long-term storage on site of spent fuel is probably more appropriate and cheaper.

Comment Re:Yes. What about them? (Score 4, Insightful) 169

France imports yellowcake (refined U3O8 uranium oxide powder) and turns it into fuel (enriched UO2 uranium oxide pellets), burns it and reprocesses its spent fuel to make more fresh fuel. The small amount of resulting waste is vitrified and is currently stored above ground until the time there's enough of it to be worth putting in an underground repository which will be built in France, not Australia.

Where you get the weird idea that the countries selling uranium are required to accept and dispose of other people's spent fuel I don't know. In some cases spent fuel from other countries has been recycled by nations with the capacity to do so -- the UK, for example has processed spent Magnox fuel from Japan, turning it into fresh fuel rods which were shipped back to Japan. The deal involved the resulting vitrified waste also being returned to Japan in separate shipments. Japan's last Magnox reactor was decommissioned a few years back and the shipments of spent fuel, recycled fuel and vitrified waste have now come to an end.

Russia's Rosatom is offering some countries like Jordan and Vietnam a turnkey nuclear power capability where they supply fresh fuel and take away the spent fuel at each refuelling meaning the host country does not need to build its own waste disposal and processing facility.

Comment Re:Thorium (Score 1) 169

The RBMK-4 reactors were putatively dual-use in that they could be used to expose uranium to a neutron flux for short periods, a necessary step to produce high-purity Pu-239 without much Pu-240. The British Magnox reactors[1] could also be operated in this mode, as can the CANDU family. However by the time many of these reactors (and especially the second-generation RBMK-4s) had been brought online in the mid to late 70s the major nuclear powers such as the Soviet Union had already produced and stockpiled all the weapons-grade Pu they'd ever need as weapons control programs started massively reducing the numbers of deployable weapons any nation possessed. Indeed today's stockpiles of surplus Pu-239 are an expensive logistical headache for the owners as it's difficult to downblend such material to use in power reactors, unlike highly-enriched uranium U-235.

[1] It is thought by some historians that the US test-fired at least one nuclear device which used Pu created in a British Magnox reactor. The US made nearly all if not all of its own nuclear weapons Pu in specialised breeder reactors in places like Hanford. In Britain's case most of its weapons Pu was created at Windscale (now called Sellafield) in an air-cooled reactor which famously caught fire in 1957.

Where are the calculations that go with a calculated risk?

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