It was to talk about “team restructuring”

  • Zushii@feddit.de
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    1 year ago

    I personally always try to engineer away from cloud services. They cost you ridiculous amounts of money and all you need is documentation afterwards. Then it can be easier and faster than AWS or GC

      • wim@lemmy.sdf.org
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        1 year ago

        Got to agree with @Zushii@feddit.de here, although it depends on the scope of your service or project.

        Cloud services are good at getting you up and running quickly, but they are very, very expensive to scale up.

        I work for a financial services company, and we are paying 7 digit monthly AWS bills for an amount of work that could realistically be done with one really big dedicated server. And now we’re required to support multiple cloud providers by some of our customers, we’ve spent a TON of effort trying to untangle from SQS/SNS and other AWS specific technologies.

        Clouds like to tell you:

        • Using the cloud is cheaper than running your own server
        • Using cloud services requires less manpower / labour to maintain and manage
        • It’s easier to get up and running and scale up later using cloud services

        The last item is true, but the first two are only true if you are running a small service. Scaling up on a cloud is not cost effective, and maintaining a complicated cloud architecture can be FAR more complicated than managing a similar centralized architecture.

        • 1984@lemmy.today
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          1 year ago

          You are paying aws to not have one big server, so you get high availability and dynamic load balancing as instances come and go.

          I agree its not cheaper than being on prem. But it’s much higher quality solutions.

          Today at work, they decided to upgrade from ancient Ubuntu version to a more recent version. Since they don’t use aws properly, they treat servers as pets. So to upgrade Ubuntu, they actually upgraded Ubuntu on the instance instead of creating a new one. This led to grub failing and now they are troubleshooting how to mount disks etc.

          All of this could easily be avoided by using the cloud properly.

          • ElectricCattleman@lemmy.world
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            1 year ago

            That could be avoided by using on prem properly, too. People are very capable of making bad infrastructure whether on prem or cloud.

          • wim@lemmy.sdf.org
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            1 year ago

            I used to work on an on premise object storage system before, where we required double digits of “nines” availability. High availability is not rocket science. Most scenarios are covered by having 2 or 3 machines.

            I’d also wager that using the cloud properly is a different skillset than properly managing or upgrading a Linux system, not necessarily a cheaper or better one from a company point of view.

            • merc@sh.itjust.works
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              1 year ago

              where we required double digits of “nines” availability

              Do you mean 99% or 99.99999999%? Because 99.99999999% is absurd. Even Google doesn’t go near that for internal targets. That’s 1/3 of a second per year of downtime. If a network hiccup causes 30s of downtime, you’ve blown through a century of error budget. If you’re talking durability, that’s another matter, but availability?

              For ten-nines availability to make any sense, any dependent system would also have to have ten nines availability, and any calling system would have to have close to ten nines availability or it’s not worth ten nines on the called system.

              If the traffic ever goes over TCP/IP, not even if it ever goes over the public internet, if it ever goes over Ethernet wires, ten nines sounds like overkill. Maybe if it stays within a mainframe computer, but you’d have to carefully audit that mainframe to ensure that every component involved also has approx ten nines.

              If you mean 2 nines availability, that’s not high availability at all. That’s nearly 4 days of downtime a year. That’s enough that you don’t necessarily need a standby system, you just need to be able to repair the main one within a few hours if it goes down.

              • wim@lemmy.sdf.org
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                1 year ago

                Sorry, yes, that was durability. I got it mixed up in my head. Availability had lower targets.

                But I stand by the gist of my argument - you can achieve a lot with a live/live system, or a 3 node system with a master election, or…

                High availability doesn’t have to equate high cost or complexity, if you can take it into account when designing the system.

                • merc@sh.itjust.works
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                  1 year ago

                  you can achieve a lot with a live/live system, or a 3 node system with a master election, or…

                  “A lot”, sure, but not say 5 nines. 99.9% (8 hours of downtime per year), is reasonable. That’s enough time to fire up an instance in another location if that turns out to be necessary.

                  99.99% (50 minutes of downtime per year) is harder. It means you need automatic systems doing the switchover, geographical separation, people on call 24/7 to diagnose and fix any issue in minutes.

                  99.999% is only 5 minutes of downtime per year. At that rate, you can’t even afford for someone on call to respond. You do still want them on call to verify the automated systems did the work, but you need to rely on automated systems fully handling any possible emergency. The system needs to fail over perfectly without any human intervention. For that, a 3 node system isn’t enough. You need geographical redundancy, as well as redundancy within each geographic region. You need to be able to do software upgrades without affecting that redundancy, so you need at least a secondary 3-node system so that you can do a blue/green deployment, testing out handing over traffic to the new system with the ability to instantly roll back if something doesn’t work.

                  Each “nine” you add reduces the “error budget” by a factor of 10, so as you start getting above 4/5 nines, you really do start to need specialized engineering which tends to come with high cost and complexity.

                  For a typical Lemmy instance, 3 nines is probably good enough. 2 nines might even be acceptable if people aren’t paying. But, for something like Netflix, 8 hours of downtime per year is far too much. For something like a high frequency trading platform, 8 nines might not even be enough. For them, the custom engineering and obscene cost of chasing 7+ nines is worth it because every second of downtime could cost millions.

        • shiftymccool@lemm.ee
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          1 year ago

          I worked in operations for a large company that had their own 50,000 sq ft data center with 2000 physical servers, uncountable virtual servers, backup tape robots, etc… Their cooling bill would like to disagree with your assessment about scaling. I was unpacking new servers regularly because, when you own you own servers, not only do you have to buy them, but you have to house them (so much rented space), run them, fix them, cool them, and replace them.

          Don’t get me wrong, I’ve also seen the AWS bill for another large company I worked for and that was staggering. But, we were a smaller tech team and didn’t require a separate ops group specifically to maintain the physical servers.

          • wim@lemmy.sdf.org
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            1 year ago

            If you really need the scale of 2000 physical machines, you’re at a scale and complexity level where it’s going to be expensive no matter what.

            And I think if you need that kind of resources, you’ll still be cheaper of DIY.