All the compute being built out is very impressive and it's nice to think it could be used to further science, further our understanding, just in some way for the greater good. But I think mostly it will be used to serve ads.
Amazons business is just cloud services tbh. I dont know what Amazons customer base looks like in aggregate but I bet its more interesting than just ads.
Unpopular take I know. But ads are a source of revenue for much of the free and open internet. The alternatives are paid features that are a regressive tax on poorer people who can't afford them or fork up larger amounts of their discretionary budget.
While popups and bad ad practices have always been a problem, it's sad to see that they became so bad that the response to them is to paygate web content. More and more sites are locked behind paywalls.
Ads create a terribly perverse incentive to increase users viewing time on platforms. It's the whole reason most of the internet has become so horrible. My email provider doesn't try to drive up my engagement because they have no incentive for me to use the product more than I naturally want to. I'd also be willing to bet that the current ad funded system ends up costing the average person more than just paying for services when they get influenced to buy the things in the ads. That's the whole point of advertising after all.
We have already long since had a solution for low income people getting access to paid content, libraries provided access to paid books and newspapers for free. People with higher income would still buy copies themselves for convenience but there was a free option. We also have public funded news orgs providing ad free news and reporting.
I'm relieved to hear it's 138 megawatts instead of 6 to 10 gigawatts we keep hearing about elsewhere.
For 6–10 gigawatt data centers I consider what else that amount of power could support. At current desalination efficiencies, 6 gigawatts of continuous power could produce roughly 11–14 million acre-feet of freshwater per year, comparable to the historical annual flow of the Colorado River.
So a single 6 GW power supply could theoretically generate enough freshwater to replace most or all of the Colorado River's annual flow. The famous river that is stretched thin but supports up to around 45 million people from Denver all the way to San Diego and even Mexico. So the comparison is we can have a single AI datacenter or a drought-proof water supply for a region constantly under drought restrictions.
I'm not saying don't build the other dozen or so 6 to 10 gigawatt data centers everybody keeps talking about. I'm just saying maybe we can do one less of those and use some of that power to support ocean water desalination instead.
So what does one of these full time data center jobs look like, day to day? If I’m a software engineer I feel like I’d have to move and get a pay decrease to actually work at one of these? I mean until AI finally puts me out of a job. I guess I wouldn’t really be qualified to work one of these jobs?
The blokes I meet who work 8x5 from a data center tend to spend their days installing hardware, deinstalling hardware, providing remote hands (usually cabling, sometimes console access)building racks, managing power supplies and maintaining asset registers. And escorting idiots like me around when things get technical.
That's startup to mid sized traditional company thinking. Not at the hyperscaler enterprise scale.
Anybody working in even classic datacenter physical ops already knows how to plug a KVM with a cell modem into a box to let the engineers remote in. That's assuming the racks aren't already built to support this natively these days.
Come on, this is the industry that is going gangbusters on the fetish of mass unemployment and deskilling, you don't think they're doing everything they can to have to only hire a few local bodies at minimum wage to basically pull a bad rack out and slot a new spare in?
If you've never had an opportunity to spend time in a datacenter as a software developer, that's unfortunate but also far too common. What things look like on the inside vary company to company. Generally you're in an OSHA-abiding environment, so safety shoes, ear and eye protection, sometimes gloves.
There's a variety of roles. Security, electricians, HVAC engineers, generally some type of site foreman-ask role, logistics (depending on the size of the place), and technicians (for a lack of a better word, feels like every place calls them something different). There's a variety of roles that often float between sites or oversee many sites, depending again on the scale of the place. AWS is huge. Bigger than you're imagining, so there's quite a few levels deep and include real estate folks as well as construction roles. If you go and look at job postings, you'll even see roles for nuclear engineers at some companies.
But generally what you're talking about here are what I'm calling the technicians. They're responsible for wheeling racks into place (depending on the company they may also be responsible for unloading the trucks). Cabling is nearly always outsourced these days (though not the design of the cables), so rolling a rack into place generally involves securing it to the floor and connecting power, data, and more often than not now-a-days liquid cooling.
The other part of their job is "troubleshooting" failed hardware. Again, really depends on the company. Big big shops have "dumbed down" troubleshooting as much as they can - for a lot of reasons. You don't have to pay folks as much because they're thinking and doing less, the more time they spend troubleshooting the longer the server is offline, and if there's no troubleshooting there's not much for them to screw up. I'm sure there are some great places to be a tech where you get to rip apart servers and bust out the multimeter, that to my understanding is not how the hyperscalers who actually hyper-scale do it.
There's some cleaning, parts management, destroying broken hard drives, shoveling snow off the roof (no lie), and a variety of other odd tasks.
If you ever have the opportunity to check out one of those places it can be a riot and a real eye opener. Depends again on the company though, some of those places have insane security (metal detectors, badge+pin, turnstile door procedures) which make visits super un-fun if they're even allowed outside of legit business reasons. Other companies... well I'm glad that's not where I store my data.
Back "in the day" (2005 give or take a handful of years) techs would often write their own automation and even build some simple services.
And yes, the jobs don't pay particularly well depending upon what it is. Electricians and such command decent wages, but the security guards and techs don't make crazy amounts. I think folks doing contract cabling can come out ahead.
Anyhow, SWEs are wildly insulated from the realities of what things look like on the ground. Maybe that's a good thing, IDK.
It's not easy, actually. You will likely need to be a licensed electrician or a licensed plumber. Both occupations require around 4000 hours of apprenticeship.
Some states don't need a license for low-voltage work, so you might be able to do data wiring.
I imagined the location has to do with the nearby Callaway Nuclear power plant, and the solar projects that Ameren have been putting up in Montgomery County for the past few years.
While popups and bad ad practices have always been a problem, it's sad to see that they became so bad that the response to them is to paygate web content. More and more sites are locked behind paywalls.
We have already long since had a solution for low income people getting access to paid content, libraries provided access to paid books and newspapers for free. People with higher income would still buy copies themselves for convenience but there was a free option. We also have public funded news orgs providing ad free news and reporting.
Perhaps voice your concern with your elected government representative?
Unless of course, you think your effort is useless.
For 6–10 gigawatt data centers I consider what else that amount of power could support. At current desalination efficiencies, 6 gigawatts of continuous power could produce roughly 11–14 million acre-feet of freshwater per year, comparable to the historical annual flow of the Colorado River.
So a single 6 GW power supply could theoretically generate enough freshwater to replace most or all of the Colorado River's annual flow. The famous river that is stretched thin but supports up to around 45 million people from Denver all the way to San Diego and even Mexico. So the comparison is we can have a single AI datacenter or a drought-proof water supply for a region constantly under drought restrictions.
I'm not saying don't build the other dozen or so 6 to 10 gigawatt data centers everybody keeps talking about. I'm just saying maybe we can do one less of those and use some of that power to support ocean water desalination instead.
Outside of construction I don't believe datacenters employ many people locally.
It would be rather silly is a multi-billion dollar investment went down because, for some reason, admins couldn't remote in.
Anybody working in even classic datacenter physical ops already knows how to plug a KVM with a cell modem into a box to let the engineers remote in. That's assuming the racks aren't already built to support this natively these days.
Come on, this is the industry that is going gangbusters on the fetish of mass unemployment and deskilling, you don't think they're doing everything they can to have to only hire a few local bodies at minimum wage to basically pull a bad rack out and slot a new spare in?
There's a variety of roles. Security, electricians, HVAC engineers, generally some type of site foreman-ask role, logistics (depending on the size of the place), and technicians (for a lack of a better word, feels like every place calls them something different). There's a variety of roles that often float between sites or oversee many sites, depending again on the scale of the place. AWS is huge. Bigger than you're imagining, so there's quite a few levels deep and include real estate folks as well as construction roles. If you go and look at job postings, you'll even see roles for nuclear engineers at some companies.
But generally what you're talking about here are what I'm calling the technicians. They're responsible for wheeling racks into place (depending on the company they may also be responsible for unloading the trucks). Cabling is nearly always outsourced these days (though not the design of the cables), so rolling a rack into place generally involves securing it to the floor and connecting power, data, and more often than not now-a-days liquid cooling.
The other part of their job is "troubleshooting" failed hardware. Again, really depends on the company. Big big shops have "dumbed down" troubleshooting as much as they can - for a lot of reasons. You don't have to pay folks as much because they're thinking and doing less, the more time they spend troubleshooting the longer the server is offline, and if there's no troubleshooting there's not much for them to screw up. I'm sure there are some great places to be a tech where you get to rip apart servers and bust out the multimeter, that to my understanding is not how the hyperscalers who actually hyper-scale do it.
There's some cleaning, parts management, destroying broken hard drives, shoveling snow off the roof (no lie), and a variety of other odd tasks.
If you ever have the opportunity to check out one of those places it can be a riot and a real eye opener. Depends again on the company though, some of those places have insane security (metal detectors, badge+pin, turnstile door procedures) which make visits super un-fun if they're even allowed outside of legit business reasons. Other companies... well I'm glad that's not where I store my data.
Back "in the day" (2005 give or take a handful of years) techs would often write their own automation and even build some simple services.
And yes, the jobs don't pay particularly well depending upon what it is. Electricians and such command decent wages, but the security guards and techs don't make crazy amounts. I think folks doing contract cabling can come out ahead.
Anyhow, SWEs are wildly insulated from the realities of what things look like on the ground. Maybe that's a good thing, IDK.
Some states don't need a license for low-voltage work, so you might be able to do data wiring.
The AWS status page still shows UAE as disrupted https://health.aws.amazon.com/health/status