The Dirty Carbon Secret Behind Solid State Memory Drives (discovermagazine.com) 146
Solid state drives use far less power than hard disc drives. But a new study unexpectedly reveals that their lifetime carbon footprint is much higher than their hard disc cousins, raising difficult questions for the computer industry. From a report: The benefits of SSDs over HDDs are legion. They are smaller, mechanically simpler, faster to read and write data than their hard disc cousins. They are also more energy efficient. So with many computer manufacturers and datacenter operators looking to reduce their carbon footprints, it's easy to imagine that all this makes the choice of memory easy. But all is not as it seems, say Swamit Tannu at University of Wisconsin in Madison and Prashant Nair at the University of British Columbia in Vancouver. SSDs have a dirty secret. Tannu and Nair have measured the carbon footprint per gigabyte of these devices across their entire lifetimes and, unexpectedly, it turns out that SSDs are significantly dirtier. "Compared to SSDs, the embodied [carbon] cost of HDDs is at least an order of magnitude lower," say the researchers.
Tannu and Nair come to their conclusion by adding up the amount of carbon emitted throughout the estimated 10-year lifespans of these devices. This includes the carbon emitted during manufacture, during operation, for transportation and for disposal. The carbon emitted during operation is straightforward to calculate. To read and write data, HDDs consume 4.2 Watts versus 1.3W for SSDs. The researchers calculate that a 1 terabyte HDD emits the equivalent of 159 kilograms of carbon dioxide during a 10-year operating lifespan. By comparison, a 1 terabyte SSD emits just 49.2 kg over 10 years. But SSDs are significantly more carbon intensive to manufacture. That's because the chip fabrication facilities for SSDs operate at extreme temperatures and pressures that are energy intensive to maintain. And bigger memories require more chips, which increases the footprint accordingly. All this adds up to a significant carbon footprint for SSD manufacture.
Tannu and Nair calculate that manufacturing a 1 terabyte SSD emits the equivalent of 320 kg of carbon dioxide. By comparison, a similar HDD emits just 40 kg. So the lifetime footprint for a 1 terabyte SSD is 369.2 kg of carbon dioxide equivalent versus 199 kg for an HDD. So HDDs are much cleaner. That's a counterintuitive result with important implications. At the very least, it suggests that computer manufacturers and cloud data storage operators should reconsider the way they use SSDs and HDDs. For example, almost 40 per cent of the carbon footprint of a desktop computer comes from its SSD, compared to just 4 per cent from the CPU and 11 per cent from the GPU.
Tannu and Nair come to their conclusion by adding up the amount of carbon emitted throughout the estimated 10-year lifespans of these devices. This includes the carbon emitted during manufacture, during operation, for transportation and for disposal. The carbon emitted during operation is straightforward to calculate. To read and write data, HDDs consume 4.2 Watts versus 1.3W for SSDs. The researchers calculate that a 1 terabyte HDD emits the equivalent of 159 kilograms of carbon dioxide during a 10-year operating lifespan. By comparison, a 1 terabyte SSD emits just 49.2 kg over 10 years. But SSDs are significantly more carbon intensive to manufacture. That's because the chip fabrication facilities for SSDs operate at extreme temperatures and pressures that are energy intensive to maintain. And bigger memories require more chips, which increases the footprint accordingly. All this adds up to a significant carbon footprint for SSD manufacture.
Tannu and Nair calculate that manufacturing a 1 terabyte SSD emits the equivalent of 320 kg of carbon dioxide. By comparison, a similar HDD emits just 40 kg. So the lifetime footprint for a 1 terabyte SSD is 369.2 kg of carbon dioxide equivalent versus 199 kg for an HDD. So HDDs are much cleaner. That's a counterintuitive result with important implications. At the very least, it suggests that computer manufacturers and cloud data storage operators should reconsider the way they use SSDs and HDDs. For example, almost 40 per cent of the carbon footprint of a desktop computer comes from its SSD, compared to just 4 per cent from the CPU and 11 per cent from the GPU.
OMG! (Score:2, Insightful)
Who gives a Fuck?
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Who gives a Fuck?
SSDs are demonstrably better, just like HDDs are demonstrably better than storing data on a clay tablet (despite being more Carbon-costly than the clay tablet).
Just like beef is demonstrably better tasting than crickets, despite being more carbon-costly.
Use the better stuff.
Re: OMG! (Score:5, Insightful)
What's better is depending on the purpose.
A SSD has saved many man-hours of time just by allowing the computers to be more responsive.
Boot in less than 20 seconds v.s. boot in 5 minutes - that's a lot of wasted time and emitted CO2 just in wait time.
Platter HDDs are however still better at storing large amounts of data.
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Exactly, was wondering if they considering the efficiency improvements which are provided by SSDs.
If one unit average work takes 1 hour using a HDD and one unit takes 55 minutes using a SSD, over 10 years (as per this study) it adds up. And that means less wear and tear / power usage on the other components (CPU, motherboard, RAM, and so on) for a similar amount of work performed.
Not to mention savings on manpower, which can be used for other things or to perform more work.
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> Tannu and Nair calculate that manufacturing a 1 terabyte SSD emits the equivalent of 320 kg of carbon dioxide.
> By comparison, a similar HDD emits just 40 kg. So the lifetime footprint for a 1 terabyte SSD is 369.2 kg of
> carbon dioxide equivalent versus 199 kg for an HDD. So HDDs are much cleaner.
Much cleaner? I produce 1 kg per day by exhaling, so 12 times this amount even if I don't use an SSD.
What twaddle.
Solar Panels (Score:5, Interesting)
Put a bunch of solar panels on the roof of the TSMC fab they are building in Arizona. That's why the Sunbelt is awesome. Solar works great there. Domestic manufacturing allows us to better control the carbon footprint.
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It doesn't but it is.
Also great analysis, but what are you and/or the article implying? Climate conscious people/companies should buy less SSDs? Not sure I agree with that.
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It doesn't but it is.
Also great analysis, but what are you and/or the article implying? Climate conscious people/companies should buy less SSDs? Not sure I agree with that.
Humor warning in advance...
They left out the points in the article that the same climate-conscious should not purchase motherboards. Also, "studies" show they shouldn't purchase memory or processors. In another "group study", power supplies' manufacture costs more green than the electricity they consume/convert in their lifetime. In addition, "scientists" have shown that servers produce more CO2 per year of use than home/handheld computers. On top of it all, it's shown that purchasing a new computer of
Comment removed (Score:5, Insightful)
Re:Solar Panels (Score:4, Insightful)
Instead of the whole fk cars and roads mentality, maybe we should cut down by doing things like working from home when a physical presence isn’t required. That alone would make a truly massive impact.
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It raises a good point that's usually forgotten. And quite honestly, yes, energy can be gotten from green sources, but the key word is "can", in reality we get energy from the cheapest legal source, which isn't always green.
Depends on what country you live in, but for the US only about 20% of electricity comes from coal (the worst form) and it's dropping. Then there's NG, but solar and wind seems to be halting its growth, mostly. So the prospects are looking better.
The enthusiasm, for example, for electric cars belies the fact that even outside of possible manufacturing CO2 outputs, there's issues with the fundamental concept of the car itself - the requirements of ever more concrete and tarmac to provide infrastructure for cars in an "everyone is forced to drive" policy to drive on which is way in excess of virtually every other means of transportation. Are average electric cars better for the environment than a Ford SUV? Sure! Are they significantly better? No. Not at all. Measuring one metric - fuel converted to CO2 - doesn't give you the full picture.
Yes, EVs are significantly better. Have you ever looked at how gas comes to be near you? There's the initial drilling, the pump jacks (lots of electricity there), transportation to a refinery, refining, transportation to storage, transportation to the stations, pump
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It doesn't make sense to take away existing roads, but it may make sense to scale back the number of lanes in a number of cases. It also doesn't make any sense to build more highways, or even highway lanes. I agree that we still need roads, but we should have less cars on them.
Instead of the whole fk cars and roads mentality, maybe we should cut down by doing things like working from home when a physical presence isnâ(TM)t required.
How about both?
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It doesn't make sense to take away existing roads, but it may make sense to scale back the number of lanes in a number of cases. It also doesn't make any sense to build more highways, or even highway lanes. I agree that we still need roads, but we should have less cars on them.
It really depends. If you cut back the ability of traffic to flow on already busy streets without adding alternatives then travel times increase greatly. Maybe with electric cars this would only be bad for massively wasting peoples time but in ICE vehicles this causes massive increases in pollution as going very slowly and starting and stopping incessantly is hard on gas mileage. Even just getting the same pollution from more people giving up on moving around because of the time and expense is going to h
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...Instead of the whole fk cars and roads mentality, maybe we should cut down by doing things like working from home when a physical presence isn’t required. That alone would make a truly massive impact.
OMG. Please don't mod this comment up or down. This is for the commenter quoted.
burtosis, personal story and viewpoint; just don't read if you're not interested, please.
First thing that popped into my mind when reading that was: Oh. My. God. Try telling the owner of the company that I work for that. Doesn't understand IT; thinks that everything he wants is magically possible in no time flat with any computer and a desktop is the same as a server but just is being used as a workstation. What's redundan
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Should we encourage people to get electric cars? Probably not. Getting policy makers to legalize walkable neighborhoods and remove tax incentives against public transportation, allowing people who do not want to drive to not drive, would reduce emissions several times as much as replacing every car on the road with an electric one.
Saying no to electric cars is simply saying yes to an equivalent number of gasoline cars, which is absurd. Should we encourage public transportation? Yes. Should we also encourage people to get electric cars? Absolutely.
I'm guessing the limitations of public roads are partly what drove the people behind Tesla to push for full self driving, which would allow for greater traffic density (supposedly). If you are going to be the future of transportation you need to think about these things.
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Let's also not lose sight of the fact that with EV cars you are concentrating power generation. Instead of 100s of thousands of ICE you end up with centralized power generation which is far easier to focus on. You could potentially even use coal because you focus all your energy on cleaning one spot instead of maintaining, upgrading, and cleaning all the engines out on the road.
We all know EVs are going to replace everything in the near or even medium term but while they do create new problems are much mor
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Full self-driving would also mean all the cars can be autonomous taxis which would remove all the need for parking spaces which is actually a good deal more area than the roads in this country.
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Full self-driving would also mean all the cars can be autonomous taxis which would remove all the need for parking spaces which is actually a good deal more area than the roads in this country.
Really? So I drive 30+ minutes to get somewhere in my own car because auto-taxis don't service where I live, and I don't need a parking space? What do you expect my car to do, circle the building for the hour or two I'm inside taking care of business, watching a movie, whatever? Your statement comes across as if you think everyone lives in a city; we don't.
Re:Solar Panels (Score:5, Informative)
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So why do we hear about fabs cutting production when there's droughts? They just haven't bothered to do wastewater recycling?
Its cheaper to do the dirty thing and not recycle/clean up the mess. Its why a lot of manufacturing left the USA and other western countries and moved to countries who are ignoring the mess for profits and Nationalistic reasons
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It is indeed because the cleaning process is not perfect. The water is clean enough to meet environmental standards, but if they kept recycling it the pollutants would build up. Then they would have water that they can't clean adequately and can't dump into the environment, a massive headache.
Forgetting something (Score:3, Interesting)
So they claim that the manufacturing of the ICs make SSDs worse. However, HDs also use multiple chips in their design so that nullifies their advantages.
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bigger chips, lower yields on those chips, and the drives are being replaced more frequently.
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silicon refineries are more energy intensive than production of iron oxide, which is a by product of the steel industry rather than mined directly by the hard drive and tape industry.
but to your general point, I would also like to see a general accounting that compares solid state to spinning platters in terms of energy and materials. I suspect they are actually very close and that a 2.5" SATA form factor SSD is worse than a HDD, but a simple PCB form factor like mSATA or NVMe are better.
There is quite a bi
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There is quite a bit more aluminum, neodymium, and copper in a HDD than in SSD. Those materials take quite a bit of energy to refine and form.
True, but they're also highly recyclable and take far less energy to reform - much of the chips in an NVMe are going to be far more energy intense to refine out the precious metals than just chucking the aluminium case, copper, and reuse the neodymium magnets in a new build; you could likely reuse the plastic bits as well if the form factor isn't changing.
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once you pull out the electronics and magnets you just throw the aluminum into the pot and melt that fucker. since aluminum melts at 1250 and steel at 2200, all the little steel inserts and shit are easy to separate.
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Itâ(TM)s not cost effective nor is it practical. You canâ(TM)t just have a whole bunch of trash contaminating everything and you cant simply fish out steel bits from molten aluminum as itâ(TM)s going to cling to the surface of everything not melted. We donâ(TM)t have the technology yet
O RLY [researchgate.net]?
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Not until you melt the steel.
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Yeah I don't seem to be able to access the original paper and I don't want to assume professors are being stupid here as I am not a professor but the gap in manufacturing resources seems way off, especially considering the HDD just has a die cast and machined aluminum/steel casing, metal covering, glass or metal platters that are precisely coated, a lot of screws and hardware and as you said a decent PCB with lots of components.
Maybe there is something inherent to NAND memory production that makes it way mo
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before SSD: our bloated Windows systems endlessly thrash the drive for minutes at a time, wasting millions of man-hours world wide
after SSD: wow how did we ever do without it?
Re:Forgetting something (Score:4, Funny)
Except now they are free to make the software worse until the SSD is just as slow to use as the HDD was.
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Everything seems to be a carbon emitter. (Score:3)
Is this the point where we start discussing space as a viable manufacturing alternative? I mean, everything we build creates a carbon footprint down here. Up there? *SHRUG*. You get far enough out of the atmosphere that you aren't just dropping CO2 trails throughout the upper atmosphere, it'll dissipate. Is it the correct solution? Probably not forever, but us humans are short-sighted creatures. We'll find a way to end ourselves long before we corrupt the entire universe with our CO2 output.
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In truth we should have been talking more about it a long time ago. We spent a whole lot of money and effort on the space race only to turn it into the cold war instead of exploiting that advantage to its fullest. The people who own everything on this planet were no doubt concerned that they wouldn't wind up owning everything in space. One might argue that treaties forbidding commercialization of space were a mistake in this regard — if the dominant paradigm is going to be capitalism, you have to figu
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Or, or, you can think about doing things differently. I know it's hard because people are fucking stupid, but you can do things differently.
Even if you have a different plan, you also have to have a plan which explains how to get from here to there.
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This brings to mind something related :
Even with space based manufacturing, what happens to the CO2 or other unwanted things produced? If you just vent them out in a low earth orbit factory, how much will reenter the planet's atmosphere?
And what of toxic stuff created as an unwanted byproduct - will that get burned up upon reentry and become harmless or will it be adding toxic gases into the atmosphere? And that's assuming it all burns up and does not reach the surface - and if it reaches the surface, will
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There's no advantage to making SSDs in space. Most of the emissions are from gathering the raw materials, which only exist on Earth in the quantities needed, and from power generation. Power generation in space means solar panels, but they are much cheaper to install on top of your terrestrial factory.
When you factor in the emissions created launching and de-orbiting stuff, it's going to be worse than doing it on the ground.
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... We'll end ourselves long before we corrupt the entire universe with our CO2 output. (-find a way)
Tidied that up a hair for you, you know, to reduce the carbon footprint of generating it on more readers' computers. Pay no attention to the fact that this comment offsets that 100% (or more). ;)
10 year life span? (Score:4, Insightful)
I can't get a heavy use SSD past a year or two. Seriously, I'm changing the damned things out all the time at work. I've literally had to replace a CFast three times an an SSD twice on a system that still has the original spinning disk in it. Yes, some of our industrial systems have all three in them, and the solid state stuff just doesn't last like the spinners do.
They're great in my laptop, but damn, I don't put too much trust in them.
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Are you exceeding the write allotment or something?
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Absolutely.
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Are you doing SQL database related things on the SSDs?
I was always told not to use solid state drives for SQL databases, because although the performance is great, it always causes you to exceed the lifetime read/write capabilities of the media.
I've heard the same thing to a lesser extent about putting SSDs into RAID arrays (other than a RAID 0 mirror anyway).
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Yes.
We are "sort of" doing RAID with them. We are using DRBD across two systems so the database is ready in case of fail over. I'm trying to convince my company to allow me to put in spinning disks as replacements. Some engineer before I was hired decided we needed SSDs everywhere and it's proving to be a costly decision. We have to use "wide temperature range" industrial SSDs. Regular laptop HDDs survive just fine in the the rugged (lot of heat but little to no vibration) environments.
There are some S
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I can't get a heavy use SSD past a year or two. Seriously, I'm changing the damned things out all the time at work. I've literally had to replace a CFast three times an an SSD twice on a system that still has the original spinning disk in it. Yes, some of our industrial systems have all three in them, and the solid state stuff just doesn't last like the spinners do.
They're great in my laptop, but damn, I don't put too much trust in them.
There are a lot of counter-intuitive realities when it comes to SSD vs HDD.
In database applications that are not write limited we always recommend sticking with HDDs and investing in more ram. The nature of wear leveling adds risks of unrelated non-logged data loss during uncontrolled shutdown, unpredictable write amplifications and inherently reduced durability of data. There are some very nasty feedback loops as cells age out due to writes as oxide is eaten away they will leak more reducing their reliab
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That's why optane should have been a success.
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If you're going through them that fast, then you should either be using an array of them, or you should have a lot more RAM, and be doing a lot more caching. And if all that's not enough, then it's back to disk arrays for you.
SSDs Are Not Aways Writing (Score:4, Interesting)
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current numbers? (Score:2)
161 kg carbon for a few grams of silicon? (Score:2)
I find it very hard to believe it takes the energy equivalent of burning 161 kg of carbon to produce a chip which is, at best, no more than a few grams of silicon. I could easily understand that for the entire crystal, or even perhaps a wafer, but there are hundreds, if not thousands of chips on a wafer. The estimate sounds off by a few orders of magnitude.
By way of comparison, two pounds of charcoal is sufficient to melt about pound of aluminum.
Another option to consider (Score:3)
Never underestimate the carbon footprint of a station wagon full of tapes hurtling down the freeway.
(Especially if it's something like a '71 Chrysler Town & Country with a big block V8.)
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(Especially if it's something like a '71 Chrysler Town & Country with a big block V8.)
Man, what I would give to have one of those land yachts today!
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(Especially if it's something like a '71 Chrysler Town & Country with a big block V8.)
Man, what I would give to have one of those land yachts today!
Mercedes has you covered if all you want is a big wagon with respectable power. Sadly, they quit bringing over the E63, which was a big wagon with the ability to shred its own tires.
Total cost, or just cost of making? (Score:2)
There are a ton of carbon costs when making drive parts. If a SSD outlasts hard drives by an order of magnitude, then that is one thing. Similar, if a SSD's performance is better than a bunch of HDD spindles that are being striped.
Wear comes to mind. SSDs have a definite wear life, and when they are done, they are done. HDDs don't have as definite a life, although they do definitely wear out, be it bearings, motors, head actuators, and other mechanical parts. If a drive takes more carbon to make, but l
Energy differential calculation wrong (Score:3)
Re: Energy differential calculation wrong (Score:2)
Citation please?
According to a study from 2014, total desktop and notebook energy usage in the USA was 30 terawatt-hours per year.
Source: https://www.osti.gov/servlets/... [osti.gov]
According to this study, the total data center energy consumption in the USA was 70 terawatt-hours per year.
Source: https://www.osti.gov/servlets/... [osti.gov]
Let's do the maths (Score:2)
Delta of HDD v SSD = 10kg / year
1 hectre of trees sequesters 4,000-40,000kg / year
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Let's keep things in context. (Score:2, Insightful)
Re: Let's keep things in context. (Score:2)
I believe the entire point of the article is that we need to start thinking about carbon footprints in more areas of our existence - and that there may be some things we do that are unexpectedly carbon-heavy compared to alternatives.
This is the way the future (preferably, the extremely near future) is going to look. The need to consider the environmental impact of our choices is going to have to trickle down from large infrastructure (power plants) into smaller and smaller domains (what food do I buy).
Meh. (Score:2)
According to TFA, IT accounts for 2% of global carbon output and is on the rise (big surprise). Basically, this particular thing is a rounding error. Switch from coal to nuclear. Next!
40% of carbon from PC is in the SSD? how? (Score:2)
The majority of the carbon footprint they stated was in the fabrication of the chips used in the SSD.
This same fabrication method is used in all high density chips to much of the same extent and to less of an extent all chips in general. They all require super clean, high temp or at least very controlled temp and high energy processes to be produced. Though that's spread out across however many hundreds or thousands they produce at the same time using that energy.
Ignoring that though, how is it that a h
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> the power usage of ssd's and hdds in this post also dont seem to consider cooling costs either. How much additional energy is needed to cool the hdds vs the ssd? In the comments they made about data centers, the difference here is not negligible.
Correct. You usually figure 3x power for cooling as a rule of thumb (4x power draw total).
They cannot leave that out and claim to have done a serious analysis.
Same trash thinking as BEV critics (Score:2)
For the study to mean anything they need to run the numbers at the two extremes, 100% coal powered fabs and 100% clean energy powered fabs, and present the two sets of numbers. Their summary should then probably point out that new fabs should be required to use clean energy sources to operate if we want to benefit from moving from HDD to SSD.
"Order of magnitude" abuse (Score:5, Insightful)
To say something is big these days it seems like you must include the term "order of magnitude!!!!!" to sound awesome, but that term actually has a meaning. It's like people who abuse "literally" in (not-literally) every single sentence. "I laughed so hard I literally died!" No, you didn't.
From the first paragraph quoting the researchers:
"Compared to SSDs, the embodied [carbon] cost of HDDs is at least an order of magnitude lower"
From the third paragraph:
"...lifetime footprint for a 1 terabyte SSD is 369.2 kg of carbon dioxide equivalent versus 199 kg for an HDD"
Since all of the numbers cited appear to be decimal (base 10), an order of magnitude means that that something is ten (10) times something else, e.g. SSDs are 10x worse, or HDDs are 1/10 as bad. Unfortunately for the writer, 199 kg * 10 is nowhere near 369.2 kg; the 369.2 number isn't even double, much less 10x worse.
I appreciate that somebody did some number crunching to show differing technologies in a light I had not considered before, but the inability of the researchers to either do basic math or understand the words that quantify numeric differences makes me wonder if they could really do the real math required to calculate the carbon footprint of these processes in a meaningful way.
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Amen, brother. That literally pisses me off.
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Okay, you haven't literally done so, but clearly their editors are doing a piss-poor job. Is it not supposed to be a scientific publication?
Does that math add up? (Score:2)
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Carbon is only 12/44 of the mass of CO
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Sounds completely implausible to me considering the cut the retailer will take and that energy will still only be a fraction of the cost taking into account wages, profits, building costs etc.
A new 1TB starts from around $60 so the electricity used much be a small fraction of that. The authors have fucked up, the numbers are wrong, perhaps very very out of date.
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I calculate $40 - $60 of electricity (in the US) to make that much carbon.
Just curious, when was the last time you bought an SSD fabbed in the US? Was it NEVER?
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A surprising result demands a second look (Score:5, Insightful)
The authors used Life Cycle Analyses (LCAs) from 3rd parties [arxiv.org] - they did not do their own. So when they get results like:
They should have known they were comparing apples to kumquats. This result is bonkers. There's no way that a single SSD has 4 times the carbon footprint of a GPU. Have the authors ever looked at a GPU? It's on a huge PCB, has an IC with literally hundreds of millions of transistors, surrounded by 4, 8, or 16 DRAM chips with even more hundreds of millions of transistors, and consumes hundreds of watts in operation.
There's nothing unique about the carbon footprint of IC fabrication for SSD flash memory chips compared to DRAM chips, CPUs, or GPUs. A HDD contains chips too - DRAM cache, interface controller, etc. Did they consider those? The CPU consumes dozens or hundreds of watts in operation, with a huge IC die of over 9 billion transistors.
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toilet manufacturer... sunk carbon... I had to chuckle. Boom-whoosh. Can't post a turd with eyes on here, but yeah, imagine that [here]. /humor
Ya know whats also carbon intensive? (Score:2)
Come on people. Priorities. Let’s make our cars electric and require heavy industries to be cleaner, for sure. Tell the coal industry to go f*&k itself and build tons of solar, wind and nuckear power. But can we please make a few allowances for the hospitals and maybe we can tolerate the
I wonder if the other components make up for it? (Score:2)
Reduce, Reduce, Reduce (Score:2)
False equivalence... C != W (Score:3)
The truth is SSD's use more power than HDD for the same period of time. OK. And how much more? 3W... We can't even get rid of incandescent bulbs that use 150W. We're selling GPU's that expect to draw 100's of watts. I'd rather have my GPU be 10% more efficient (I'm looking at you AMD/ATI) and keep my SSD's random access speeds.
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"For example, almost 40 per cent of the carbon footprint of a desktop computer comes from its SSD, compared to just 4 per cent from the CPU and 11 per cent from the GPU."
At first you might think, "oh no, I was wrong about wanting a more efficient GPU", and if you are, stop. Why? Because your next thought will be, "Wait a sec, that's obvious bullhonkey. This must not have been worth the time it took to read
Difficult questions, like... (Score:2)
Who cares?
And of course: Why are you bothering me with this?
Re:Running costs ignored (Score:5, Informative)
Not only does it actually do so, but it was included in the send paragraph of the quote in the summary:
To read and write data, HDDs consume 4.2 Watts versus 1.3W for SSDs. The researchers calculate that a 1 terabyte HDD emits the equivalent of 159 kilograms of carbon dioxide during a 10-year operating lifespan. By comparison, a 1 terabyte SSD emits just 49.2 kg over 10 years.
And that would be the point of the second half of the second quoted paragraph and the entire third quoted paragraph adding manufacturing and operating emissions together
Tannu and Nair calculate that manufacturing a 1 terabyte SSD emits the equivalent of 320 kg of carbon dioxide. By comparison, a similar HDD emits just 40 kg. So the lifetime footprint for a 1 terabyte SSD is 369.2 kg of carbon dioxide equivalent versus 199 kg for an HDD. So HDDs are much cleaner.
Reading is fundamental.
Re:Running costs ignored (Score:4, Insightful)
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It isn't just he power for the device, but the network behind that device which waits on it.
This is definitely something to consider - how much energy is wasted while the interconnected systems sit around idle waiting for the spinning rust to catch up to the various requests?
This HDD vs NVMe debate, especially with the way you've frame it, reminds me of the similar EV vs ICE vehicle debate - yes, an EV takes far more material and energy to construct than a gas car, but those who say such a thing often overlook the continual energy and materials cost refining the petroleum fuel adds to the lifetime
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That maybe true, but we should also consider as SSD get faster programmers will stop optimizing for speed.
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Phones must be full of faster SSDs then.
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they're quite similar.
both floppy drives and m.2 drives are about 3.5mm in thickness, so they stack up fairly evenly.
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"So this is bad for the environment, what are we supposed to do? Something difficult or inconvenient?"