Why We Don’t Ship Software as Fast as We Used To
Don’t blame it all on bloat—the reason is complicated
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Id software—the company that produced Doom, Quake, Wolfenstein, and other popular video games in the nineties—has a reputation for shipping fast. Total development time for Wolfenstein 3D was half a year; the first alpha version of Doom was playable after two months; the networked-mode for Doom took two weeks. Remarkably fast—anecdotally, much faster than most software projects today. (Some of these stories are outlined in John Romero’s memoir Doom Guy and David Kushner’s Masters of Doom.)
I found this tweet commenting on Romero’s Doom Guy very interesting:
The author of the tweet goes on:A SNES port in three weeks? No matter what is being ported, three weeks for a platform port is fast. Has software development indeed become “bloated, overengineered, and slow”?
Software is not as simple as it used to be
Let’s start with that first adjective—bloated. It comes up repeatedly on the internet: software has become bloated, meaning it uses too much memory, it’s slow, it’s inefficient, and it’s often unclear why we need all that crap.
I’m not sure that I buy it. Yes, if we compare CPU speeds from today with those from 1999, it’s easy to conclude that things should be a lot faster. The SNES, to which Doom was ported, had a nominal clock speed of 3.58 MHz—the computer I’m writing this on has eight CPUs and each one has 3.9 GHz.
The comparison is not quite that simple, though. Hardware has gotten better and faster, but the workloads we throw at computers have also grown. To start, our screen resolution isn’t 640x480 anymore—we have 120Hz displays and watch 4K movies. Instead of text, we routinely share screenshots of text that take up more disk space than all of the images in a Windows 2000 installation combined (don’t fact-check me). Windows 95 had a 256-color palette, but when I open Slack today, there’s a chance I see three high-resolution, 200MB GIFs playing at the same time—of course, that uses more memory than paint.exe. That’s only one dimension—asset sizes—but you get the idea.
I’ve seen similar comparisons happen elsewhere. When we built our house three years ago, we’d wonder why it was so much more expensive than the house my parents built in the eighties—even though ours was smaller. Turns out expectations and standards slowly rose over the past 40 years: houses in the eighties didn’t have things like proper insulation, floor heating, multiple (triple-pane) windows, multiple power sockets, and Ethernet cables in every room. Quality and prices went up, but it’s hard to notice—most of it is hidden behind walls or floorboards. You end up with a comparison that doesn’t make a lot of sense.
Or take phones: a few years ago, non-tech friends of mine would say, “A thousand bucks for a phone?! I remember when I could get a phone for $100 and its battery lasted for five days!” Sure, but did that phone have a megapixel camera with post-processing software that made your DSLR look bad? Was that phone also constantly connected to the internet? Did it have a high-resolution, 120Hz display? Did you also use it for three hours every day? Did you use it as a navigation system in your car, your entertainment console at home, your book library, your video library, and as your online shopping device? That phone from a few years ago is not in the same league as the “phone” you use today. They don’t even play in the same stadium.
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Much of today’s complexity is invisible
I don’t want to brush off the claim that software has become bloated. I think it has, but it’s more complicated than comparing memory usage and required disk space.
There are two other adjectives in the tweet from above—“overengineered” and “slow.” These two got me thinking—yes, the time-to-ship numbers that id Software put up do seem hard to achieve.
I have two thoughts here. The first is similar to the one about bloat: software has become more complex, which makes shipping take longer. But you don’t necessarily see the complexity, which is why the speed (or lack thereof) seems hard to explain. This is a hunch, a gut feeling, so instead of pointing to clear evidence, let me throw some ideas into the room and wave my arms wildly.
Doom was released for DOS first in 1993. DOS is a lot thinner than today's Windows or macOS. It didn't even have virtual memory: each program could only access the memory of other programs.
Software in the nineties didn't have to worry about multiple devices with different resolutions (like iPhone X and iPhone 15), or different network speeds (there was no network to speak of), or a lot of different hardware (because there wasn't that much hardware).
Have you ever tried to implement an OAuth authentication flow? Ever compared the sweat that came out of you with whether a user even thinks about what goes on in the background when they click “Login with …”?
Ever implemented something that works for hundreds of thousands of users at the same time? If so, have you ever heard a user say, “Wow, I can’t believe that 100,000 other people use this at the same time as me, without any problems—that’s magical”? Okay, I didn’t think so.
Ever made a website look nearly the same in four different browsers on desktops, phones, and even gaming consoles, just for one user to ask, “Why don’t you use this native element here?”
My point is that a lot of complexity is required just to meet today’s baseline expectations. When you meet them, a user doesn’t scream out in joy—they just use it. Maybe that’s one reason why software development has become slower.
Slower is not necessarily worse
I’m going to leave you my second thought in classic give-’em-something-to-chew-on-and-walk-out fashion.
Maybe, maybe, software development has become slower, because that’s just what happens when you add more people to software projects (Doom was created with a team of 5-6 people). And maybe that’s also what happened with the software ecosystem as a whole.
You start out knowing the whole stack of your project. You can move fast because you know where everything is. If you bump into a problem and something over here feels hard and cumbersome, you know that you can change something all the way over there, which will turn the problem you’re currently facing from I-need-to-duct-tape-this into oh-now-it’s-just-a-matter-of-configuration.
But then you realize you want to add more people and that won’t scale. But you also want to add more people because you want to ship more and faster. You add another person to your project and say, “You worry about this bit, I worry about that bit.” Then, later, when you bump into a similar problem as before, you know your bit, but you can’t make the change all the way over there. You have no clue how that system works anymore. So you need to wait for your buddy to change it for you.
You end up not knowing the full stack anymore. Adding more people grows the stack in a way that makes it unknowable.
This happens everywhere—on small projects with abstractions between programmers, on large projects with abstractions between teams, and on projects throughout the larger software ecosystem. We build and share libraries that other people and companies and teams can use. We build our software on top of other people’s code that we haven’t looked at once. When you sit on the shoulders of giants—giants that are made up of millions and millions of lines of code—nearly everything becomes an I-need-to-duct-tape-this problem, because you can’t wait for 100 people to make whatever change you want to make easy.
Does that mean the speed of software development is a function of programmers knowing the full stack? Well, I guess so. But there are caveats: what even is the “full stack”? Does it include the OS? The file system? The network? You have to have limits somewhere, don’t you? Even John Carmack, co-founder of id Software and a famously productive programmer, didn’t write his own OS to ship a game. He built his software on top of the existing OS.
Adding more people and abstractions slows you down. But while a 12-person team might not move as fast as a two-person team, the former is much faster at doing more.
Thorsten Ball is a software engineering manager at Sourcegraph. He is the author of programming books Writing an Interpreter in Go and Writing a Compiler in Go. He also writes the Register Spill newsletter, where this piece was originally published. You can also find him on X.
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You missed the bit where someone determines that the team has become bloated and downsize. Now your buddy who looked after that bit over there isn't around. Now things get really slow, or buggy, or both.
Interesting. Users expectations have also grown dramatically. The same has happened in cars. They used to be purely mechanical and drivers were happy with a car that got them there. Now they are rolling computers.
Just a curiosity question from someone that doesn't program. Is it possible for an AI to know the full stack, and return that power to the programmer?
CS & especially developing of the first 3D video games was a domain for insane/brilliant/insanely brilliant nerdos. Now 5% of the population creates software in some capacity.
This has good insights and I agree with your viewpoints. There are more facets to consider, as those below have pointed out, but the overall conclusion is sound. I'd really like to see effort put into solving the problem with resetting the expectations in the industry. Upper management needs a wakeup call and I'm not sure how that is done.
I haven't thought about the complexities of software in this way. It does make a lot of sense though. Expectations are higher and therefore complexities will increase. I would add though that many people are not taking into account that even today, we move a lot faster due to open source tech. Without it we would be much slower. Imagine having to write that OAuth flow completely by yourself instead of leveraging open tech, or private for that matter.
Thanks for the write up, definitely gave me a lot to think about.