Definitely for the EU budget. Now it will receive at least 2.25€ per package (75%[1] of 3€) where they got 0€ before.
For the individual countries and their customs systems and personnel on the other hand...
Why? Intel making and keeping it workstation/Xeon-exclusive for a premium for too long. And AMD is still playing along not forcing the issue with their weird "yeah, Zen supports it, but your mainboard may or may not, no idea, don't care, do your own research" stance. These days it's a chicken and egg problem re: price and availability and demand. See also https://news.ycombinator.com/item?id=29838403
E.g. EU enforced mandatory USB-C charging from 2025, and pushes for ending production of combustion engine cars by 2035. Why not just make ECC RAM mandatory in new computers starting e.g. from 2030?
AMD is already one step away from being compliant. So, it's not an outlandish requirement. And regulating will also force Intel to cut their BS, or risk losing the market.
OMG no. Politician have no business making technological decisions. They make it harder to innovate, i.e. to invent the next generation of ECC with a different name.
I would argue that in the present conditions, regulation can actually foster and guide real innovation.
With no regulations in place, companies would rather innovate in profit extraction rather improving technology. And if they have enough market capture, they may actually prefer to not innovate, if that would hurt profits.
Ethernet was once carried over thick coax at like 2 then 3 megabits per second. By the time it was standardized as IEEE 802.3 it was at 10 megabits. 802.3 was thin coax. 802.3e took a step back in speed to 1 megabit, but over phone-type wire. 10 base T, Ethernet over twisted pair at 10 megabits per second, wasn’t until 802.3i in 1990. Then 10 base F (fiber) in 1992.
Then there are various speeds of 100 M, 1000 M / 1G, 2.5 G, 5 G, 10 G, 25 G 40 G, 50G, 100 G, 200 G, and 400 G. Some of the media included twisted pair, single mode fiber, multimode fiver, twinax cable, Ethernet over backplanes, passive fiber connections (EPON), and over DWDM systems.
There have also been multiple versions of power over Ethernet using twisted pair cable. Some are over one pair, some two pairs, and some over the data pairs while other use dedicated pairs for power.
There are also standards for negotiation among multiple of these speeds. There have been improvements to timestamping. There have been standards to bring newer speeds to fewer pairs or current speeds over longer distances.
There’s currently work on 1.6 Tbps links up to 30 or possibly 50 meters. There has been work on the past to use plastic optical fibers instead of glass ones. Oh, and there are standards specific to automative Ethernet.
Ethernet itself, the name and the first implementation of a network with that name, were from 1972 and 1973. It was on the market in 1980 and first standardized in 1983 as ECMA-82.
Ethernet supports in its different configurations direct host-to-host connections, daisy chains, hubbed networks, switched networks, tunnels over routed protocols like TCP or UDP, bridges over technologies like MOCA or WiFi, and even being tunneled across the open Internet.
All of these are Ethernet. They have a common lineage. They are all derived from the same origin. Token Ring, FDDI, ATM, and SONET have all been more than one thing over time too. So has WiFi. 802.11a is very little like 802.11be, but those are also similar enough to carry the same family name.
The IEEE 802.3 series has a lot of history buried in those documents.
ECC has only 10-15% more transistor count. So you're only making one component of the computer 15% more expensive. This should have been a non-brainer, at least before the recent DRAM price hikes.
Also, while computers may not be used much for cosmic rays to be a risk factor, but they're still susceptible to rowhammer-style attacks, which ECC memory makes much harder.
Finally, if you account for the current performance loss due to rowhammer counter-measures, the extra cost of ECC memory is partially offset.
Thanks for the details. I agree and had the same experience, trying to figure out if an AMB motherboard supports ECC or not. It is almost impossible to know ahead of trying it. At least we have ZFS now for parity checks on cold storage.
It doesn't work everywhere though as there are still apps that don't offer a plain text paste, and as you have noted the shortcut can be different in different applications.
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