What we poor souls didn't understand all these years is that we're effectively helping other companies to steal from Apple by running software that isn't distributed via their app store [1].
I think now that Apple has learned from iOS how profitable a walled garden business model is they are trying to bring that model to the PC world as well. Shipping hardware with their own processors is an important step in that direction because it gives them control over the IP of arguably the most important component of the computer, which in turn makes it easier to control software distribution for their architecture as well.
The transition will be slower of course because people have to get used to seeing computers as closed-source devices with app stores, there are still too many of us who have the mindset that you can just install anything you want on a computer without asking Apple for permission and without paying tax to them.
At this point I really wonder how any serious "hacker" can work on such a device, it's becoming the antithesis of everything that the original Hacker culture stood for.
Good thing said hacker culture spent 15 years buying inflated laptops and desktops from them ultimately for convenience to give them the market presence to do this in the first place. Its the same thing with Windows.
People will preach all day that they won't make any personal sacrifices to try to avoid feeding literal cancers that are eating the software industry and are shocked when said all consuming voids take away their autonomy but they are so locked in to their ecosystems they are trapped.
These are for profit corporations, not your friends. Their bottom line dictates they maximally abuse copyright and their ability to sell and distribute proprietary software out of your control to maximum effect. Microsoft, Google, et al want you using devices you cannot control, because then they hold all the keys and can demand the greatest ransoms for you to do what you want. Its inevitable, and the persistent total arrogance and hubris on display in the tech hive mind in regards to any of these walled gardens is just... depressing.
Free software isn't going anywhere, especially with RISC-V now being an established failsafe if UEFI PC and ARM totally lock down, but it would just make the struggle a lot easier if the principle victims would stop martyring themselves for the corporate ecosystems they have no say, influence, or control over.
What's worse is the number of other posts with the top comments being vociferous defenses of these companies as if they needed these people to defend them or cared one iota for their welfare. It feels like it's Stockholm Syndrome on a mass scale.
I worry for Gen Z because they're tiny-mobile-device native. And the only usable tiny mobile devices are walled gardens. They scream outrage when they're not allowed their tiny little dance-jig operators provided courtesy of an abusive regime.
Sure, I reflect that I may be now nearing the curve of an obsolescent person attached to such silly outmoded principles like "ethics" but if we're all just selling ourselves out constantly to the angry god-machine of the id, is this really the future we want for our daughters and sons?
> I worry for Gen Z because they're tiny-mobile-device native. And the only usable tiny mobile devices are walled gardens.
Without the ability to grow up playing with system level software, combined with the software industry's unwillingness to pass on institutional knowledge to younger generations, I fear we are already on a path towards a civilization that loses a lot of the technological capability we currently enjoy.
I recommend Jonathan Blow's talk "Preventing the Collapse of Civilization"[1] for an unsettling view of how far we have already traveled down that path.
Gen Z can get real general-purpose computers with a development environment for cheap. The new Raspberry Pi 400 is a modern take on home computers like the C64, but 15 times cheaper. Pi 400 full kit: $100, C64: $595 (1982) / $1576 (inflation adjusted for 2019).
The computers are not just getting cheaper, educative material is easier than ever to find.
Because modern computers are much more complex and do much more than before, you don't do much bare metal programming anymore, but then again, nothing is stopping a kid from buying a microcontroller and playing with it. It cheap and information is plentiful. I would even say that it is easier for Gen Z to play with electronics than it was for millennials.
But that unprecedented availability of computers didn't turn everyone into a nerd. Just because someone has a smartphone doesn't mean he has any interest in computing. When computers were limited and expensive, only those who had some affinity with them had them, now everyone have them, so mechanically, you can't expect the same average level of interest.
Learning about the Raspberry Pi is nice, but that doesn't help preserve the institutional knowledge needed to build system/low-level features in a modern OS. I'm not talking about teaching kids to program; I'm concerned about preserving in the future the knowledge of how to create all of the complex tech we use today. Many civilizations throughout history collapsed after they lost the technical knowledge on which their civilization depended.
> Because modern computers are much more complex and do much more than before, you don't do much bare metal programming anymore
Yes, that's the problem! Unless those skills are actively used and passed on to the next generation of engineers, that knowledge decays. Part of the reason you don't see a lot of bare metal programming anymore is due to the knowledge decay that has already happened!
> nothing is stopping a kid from buying a microcontroller and playing with it
This article is about how those same kids are being stopped from learning the complex systems we currently use.
> didn't turn everyone into a nerd.
Nobody is trying to turn everyone into a nerd. I'm talking about making sure the nerds of he future have the ability to learn about the tech they use, so the ability to understand and make that tech isn't lost. Locking down the OS into an "appliance" that cannot be inspected or changed is a direct attack on the ability to learn,
The problem with low level programming is just the general trend of specialization.
The modern computer is the pinnacle of human civilization, a thing so complex that it requires thousands of people to fully understand how it works. Low level programming is just a small link in the chain of complexity. From mining the materials, to producing silicon of incredible purity, to designing circuits at quantum scale, to CPU design and finally the guy who places the frame that will display cat videos. So if you argue that no one knows how to program the bare metal (that is not that bare anymore), one can argue that the knowledge of how to make logic gates from transistors or the metallurgy of copper traces is getting lost.
Maybe less people will know how to program on the bare metal. But think about it, it has been thousands of years since most people are unable to hunt and gather. This is a great deal more worrisome than not knowing how to program computers, and yet, human civilization have been thriving.
The important thing is that it is still accessible, and it is.
What you're saying was truer in the '00s when 'scopes, logic analyzers, etc. were professional instruments costing thousands and FPGAs were inaccessible to all but the most dedicated and wealthy hobbyists. Today, with adequate hobbyist-grade instruments and dev boards available in the $100-200 range pretty much anywhere you look, really, the situation for low level engineers and developers is better than it's been for years and, in some ways, even better than the '70s heyday of homebrew computers.
The problem is more the lack of interest. Low level systems development is hard, a computer engineering degree is hella hard, and all the hype and easy money was in following the webdev career path starting from the late '90s dotcom boom.
It was always a tiny minority of the general population that had real knowledge and capabilities of creating the actual technological equipment widely used by the said general population. In the same vein, there are no less people capable of low/OS level programming than before, and you can't expect every proficient user, even a power user or e.g. the now numerous web developers, to be at this level of ability.
What changed is that the very things capable of eliciting interest in programming also offer overpowering content consumption functions with huge, never ending catalogs of games, movies, videos, short funny clips etc.
As computing and "content" proliferate, the uncompetitiveness of creation, esp. symbolic creation such as programming, is increasing. At some point, broadening of the access no longer offsets this effect, and the talent pool may start to shrink even if capability and permeation is a million times higher than it was.
There is nothing wrong with teaching Python as an introduction to programming methods and data, then diving deeper. My son started with Python in his Junior year of high school and as a senior is now learning Java.
It is just top down learning, instead of bottom up. For programming, I think either works.
I just happened to learn the other direction because of the year (early 1980s). On CP/M, you had a macro assembler right there, and it took me a while to get my hands on a Basic interpreter.
Excellent book! Although written with Pascal in mind, it became really useful to me. Always brought it at work along with the K&R 2nd Ed. and the famous TCP/IP networking book by W. Richard Stevens.
I think the point is that before, if you had a computer, you had the ability to inspect, modify and program, and with curiosity you'd learn. Now, most people get computers where those things are forbidden. You still can get "programmable" computers, but you have to do it explicitly. Before, it was implicit. So there's a filter that some people won't pass and won't learn, and the pool of people shrinks.
>I think the point is that before, if you had a computer, you had the ability to inspect, modify and program, and with curiosity you'd learn.
That's a rose-colored view that maybe reflects a small window in time.
But take the 80s. First of all that computer was maybe $5,000 in today's money. (Yes, there were some limited alternatives like the Sinclair and Commodore 64 that were cheaper.) Long distance telephone calls were expensive as were the big BBS systems like Compuserve. Any software you purchased was costly. A C compiler was hundreds of dollars. (Turbo Pascal at $50 was an innovation.)
Perhaps more to the point, most people didn't just have a computational device of any sort. So the fact that, if you had one, you could use it for a lot of different purposes is sort of irrelevant.
My experience being born in 1992 is that as a kid I could toy with QBasic for instance (and then with Dev-C++ a bit later) ; as well as go peek & change stuff in random files (hello red alert save files :D) - can't really do that with an iPad.
I was a QBasic kid as well, but I think it was pretty clear to me even at the time that QBasic was a mickey mouse environment. You couldn't get into 32-bit mode, or dynamically allocate memory with pointers, much less blt sprites or backgrounds around at a usable speed.
I'm not saying it's exactly equivalent, but there's certainly a perspective which could argue that a) the free JavaScript interpreter available on every device is more featureful and interesting than anything available to us 80s and 90s kids, b) low-cost SBCs running free open source operating systems and compilers are more accessible and better supported than the commercial compilers that few could have accessed back then, and c) the overall ramp from curious/creative gamer kid to capable hacker is much smoother now than it was then, with a lot of interim options between JavaScript and commercial environments in which to gain comfort and achieve interesting results (thinking stuff like GameMaker and RPGMaker, modding communities for existing games, hacking/homebrew/porting communities for consoles, etc).
I get the argument that many kids are growing up today without necessarily touching a "real" computer, just a tablet. That said, as someone who got into PCs quite early on, I'm a bit skeptical that the world we live in today where you can assemble a working computer based on a Raspberry Pi with loads of open source software for probably about $100 somehow is less accessible to a kid who wants to hack around on computers.
I think the key with the Pi is that it needs to find its way into the house for some other reason than just to be an educational aid. Positioned that way it will be about as interesting to most kids as a plate of cold spaghetti— am thinking here of the book I was given as a teenager on developing ActiveX components, because it was an enterprise-y thing, when what I really wanted was a book on DirectX, for making games.
But yeah, if the Pi shows up as part of an IOT system, or as a TV/streaming box, or to play retro games on, or whatever, then it's there and it's available to be tinkered with; and from my limited experience, basically none of those use cases will run on their own without at least a little bit of tinkering. :) Even my little Linux-running Powkiddy emulation handheld has probably consumed about as much of my tinkering time as it has my retro gaming time.
Right. So quite a bit later than the period I'm talking about. Late 90s/2000s period is arguably when commonly-used hardware was most accessible/hackable.
Eh, I mean the kids who are passionate about how systems work will find a way to dig deep. I don't think this is going away with lock-down systems regardless.
The only thing it will do is make it easier for the general public to work with machines and the masses never cared to begin with and to be frank that's a good thing. They are less likely to install malware and cause trouble for themselves.
Plus you're forgetting that these companies still need engineers to build and maintain their infrastructure so it's not like the knowledge is going to disappear, never mind the fact that the corporations heavily rely on OSS.
The lockdown and controlling of distribution of software.
Great, you can write a script, it's checksum is then sent over the net and verified to not be malicious or if the service on the other side is experiencing lag..well... gotta wait, and wait.
To the point where, all choice is removed from an operating system. So much for root access.
It's not about the ability to write programs, but the ability to write programs that influence your base system in a meaningful way. Yes, you can write programs, but can you write a different /bin/init for your system? I'm not sure you can (either because Apple will not let you, or your lack of ability to do things like setting up a system to be used). Maybe you can, we're wrong about this, and more power to you. But it's quite likely that you can't.
$100 isn't cheap for a curious kid with no income, especially if they're not already sold on it as an interest.
There's a big difference between buying a computer explicitly for the purpose (even if it's cheaper), vs being able to play around with the hardware that you already have, for no new monetary investment at all.
But computing tools are cheaper now than they have been in ages.
You can buy an Atmel dip version of the chip in an arduino really cheap, and build basically what is an arduino on a breadboard. Then get a USB programming adapter (again, cheap) to get it running.
Then you can get in expensive USB logic analyzers that are plenty capable of monitoring I2C and SPI buses and learn how all that works.
None of that existed in the 1990s. It simply wasn't there.
The the price and the availability of tools is so much better today. You don't even need to buy any books, it is all online, with community members jumping in all the time to help.
Get involved in the local community board. Present to the library council that this is a good investment for education. Purchase 20, lead a community class to teach the next generation of students.
If a kid with a phone but no money wants to know if programming is something they might like to study, and somehow the school also can’t afford a Pi, I’d point the kid at something like https://js.do/
The problem is that's not really how people get started. Hello world is how you get started in a university intro course, not in your parents' basement.
What happens there is that you have a pile of photos that are all in one folder and you want to organize them into separate folders by date. A problem you're actually having, not a homework assignment. Which is possible to do automatically, because they all have metadata with that information in it. So you find a python script somebody wrote to do that, and it works! Then you realize the script is just a text file and you can modify it to sort using geotags or something else instead, and now you're down the rabbit hole. But only if it's easy to see and modify the code that runs on the device you actually use.
Not everyone learns the same way or for the same reasons.
For example, I learned to read at the same time I learn to code, and from the same source — I had the unusual combination of not just the right birth year, but well-off parents and two elder siblings that had gotten bored of their Commodore 64 just as I was reaching reading age.
Back then my coding was, naturally, 95% transcribing from the manual, but it was fun. One of the few ones I can remember reasonably well this far removed from the experience was a sentence generator that had a list of nouns, verbs, etc and picked from them to build grammatically correct gibberish.
Hello world is how a lot of us started in C with the K&R book, wherever we were. Most of us didn't want to organize photo folders, we wanted to make the computer display something cool or play a song or something, and usually we had to start with something elementary when tackling a new language, especially a complicated one like C.
I can still remember being 11 years old and meticulously keying in the hello world program on my dad's aging Tandy Model 16, then saying 'cc hello.c' and watching as the compiler chugged through the tiny program for a minute or two. (It #includes stdio.h, so there was more code to go through than it seemed, plus there was a linking step. And not much actually happened, because Unix C compilers are silent if there are no errors.)
When I ran a.out and saw "hello world" appear, I was over the moon. It was like clearing 1-1 in Super Mario Bros. for the first time. Like I had surmounted the first obstacle and was thus ready for all the challenges that lay ahead.
I don't know why a raspberry pi is supposed to be a good device to learn programming other than the fact that it forces you to use Linux. Do kids really ssh into their raspberry pi from their phones? Or do they really buy an expensive screen, expensive cases and expensive peripherals adding up to $200?
I also doubt that raspberry pis are actually the type of device that schools are interested in. What they'd want is the TI-84 equivalent of a laptop. It should be easy to reset the laptop to factory conditions and it would only run a few specific preinstalled programs (one of which would be a barebones IDE, probably for Java). To me it feels like the raspberry pi fails at all of these. You have to mess with hardware and then mess with the software. A school provided Chromebook with student accounts managed by the school would be way more practical.
However, if you actually want people to learn programming organically, it's much simpler to just get a Windows laptop and use that as the main device.
I too have doubts about the real-world suitability of the Raspberry Pi in formal education environments, but certainly the business of resetting it _is_ a solved problem; every kid is issued their own SD card, and can flash it back to the starting image whenever they want.
On a RPi, with a standard laptop on the side (Windows/Mac/Linux, doesn't matter), and some basic installed tools, you can pull down and configure Alpine Linux and run a bare bones IoT Linux platform. If you want to get really gritty, you also configure and build U-Boot as a primary loader.
Once you get passed that point, you pull docker into your Alpine build and start running containers.
Stepping through that full process will teach you research (because you are going to be reading a lot about how to pull that off), it will teach you about Linux kernel configuration. It will teach you to be at least comfortable with git.
There is a lot you can learn on a Raspberry Pi, cheaply, that only involves plugging in an ethernet port and power supply, and never seeing anything on a terminal.
> The computers are not just getting cheaper, educative material is easier than ever to find. [...]
Being accessible and being accessed are two different things.
I'll make a more general parallel.
Never in history was such an enormous amount of audiovisual media about the decades preceding the birth of their generation ever produced, during those decades of later. And this astonishing amount of written documents, audio, films, both fiction and non-fiction, live takes, documentaries, is readily available: often immediately, often gratis.
And yet this generation is disconnected from the previous ones in an unprecedented manner. And yet this generation seems to be the most ignorant about how stuff was just a couple decades before them. I've never seen such a break in the flow. The material is present but not reached or understood.
Yes and no. At least it created a modest tinkering culture while the mainstream went with smart phones. I wonder if RISC-V will help us getting over ARM* or if RISC-V SoC vendors will try to create their own walled garden, proprietary interfaces and GPUs/codec support.
* = The issues with the Raspberry PI are both with Broadcom's closed source hardware (there are other tinkering boards with more open hardware) and of course with the license model of ARM.
I agree there are other 'tinkering' boards with more open hardware, but the Pi has the advantage of a huge community of very nice supporters. Maybe even as nice as the community over on arduino. The biggest problem with Broadcom on the Pi is the videocore block, and if you never run the video (using it for IoT), you avoid the biggest black hole on the device.
As far as the ARM license goes, very few people are ever going to spin their own hardware, and at least the ARM programming API/ISA is very well documented. We'll see if that continues under NVidia.
Certainly MOS, ST, National, Zilog, Motorola, INtel, IBM, Dec, (etc etc) CPU were always closed source. That did not prevent anyone from learning about computer systems and programming then, and it won't stop them now.
That said, I doubt Apple will ever make the M1 available for purchase. Which is where this thread started.
>> The biggest problem with Broadcom on the Pi is the videocore block, and if you never run the video (using it for IoT), you avoid the biggest black hole on the device.
Avoiding the black hole does not solve the part of the problem where you are financally supporting closed hardware and disincentivising the Rasberry PI foundation fron doing the right thing.
This is the same problem we had with TiVo: you could get the operating system, tinker with it, and run it. Just not on your TiVo. What good is having the source if you can only run it on toy hardware? You need to be able to alter the code on the tools you use so you aren't beholden to a company that drops warranty and support within 5 years and may never fix the problems you have even while it's supported.
I just made the C64 <-> Pi 400 comparison to someone last week. It is completely analogous.
Pair that up with an arduino, and maybe wiring, and you can a have hardware interaction with a Linux desktop on the 400.
I just helped a young arduino user with reading an analog pot yesterday. There are still young people out there playing with hardware, and it is way easier today than it was for me in 1984.
Then go over and look at the people configuring and compiling custom versions of Marlin for their 3D printers.
Or the nerds designing flight computers for solid fuel model rockets.
Wouldn’t it be great if you could route the mac’s internet through the raspberry keyboard, strip the surveillance automatically, and continue to use the internet like normal?
> Without the ability to grow up playing with system level software, combined with the software industry's unwillingness to pass on institutional knowledge to younger generations, I fear we are already on a path towards a civilization that loses a lot of the technological capability we currently enjoy.
Gen Z here. I tried to give manufacturers the finger and try to play with systems level software on modern PC's and ended up retreating after realizing, among other things, just how much modern computers are not for hackers. Everything feels like a "undocumented" (by which I mean the documentation is likely only accessible to OEM's and those with large business deals woth them) mess. Even when it is available, I'm too scared to touch it. I found something I wanted to try to to hack around with till I saw the license agreement I had to read in order to access the docs. I couldn't parse out the legalese, especially regarding open source works and I'm not consulting a lawyer to figure out if I can post some project I might hack together online under an OSS license. The few things that do get open sourced are incredibly half assed and you can still tell they're designed for corporations, not hackers (i.e. edk2)
Conversely, I have an old IBM XT compatible luggable sitting in my closet. The manual for that has the full BIOS source llisting. Nowadays I mostly just hack around woth old non-PC devices, but for the most part computing just isn't fun for me anymore.
As other commenters have said, just picking up an open source *NIX is a great start.
If the lack of open hardware bothers you, there are several non-x86 architectures that are fully open source. Chief among them is RISC-V[0]; SiFive[1] is taping out RISC-V processors to real hardware, selling dev boards, and stuff like that. These are real, competitive, Linux-capable CPUs, although widespread adoption has not happened yet.
On the more minimalist front, the ZipCPU[2] is simpler (though has less software support), and it's author writes some really great blog posts about HDL[3] (Hardware Description Language -- how these CPUs are defined).
You might also enjoy developing for very small embedded systems. I like AVR CPUs such as the ATMega328P (of Arduino fame) for this purpose. Although not open-source, they have quite good and thorough datasheets. AVRs are very small 8 bit systems, but as a result, you can fit most of the important details in your head at once.
If you want to talk more about these topics, feel free to get it touch with me. You can find my contact info on my profile, and on my website (also listed in my profile).
At the OS level sure. Its still running on a completely non-free / hardly hackable platform though riddled with all sorts of backdoors and other curiosities. I'm aware of things like coreboot / libreboot, but support is even more limited there and porting involves a deep understanding of the x86 platform in my brief experience.
You don't need any of that to understand how x86 or the OS works. Realistically you can do the entire learning with QEMU/VM and not be restricted by the hardware at all?
At some institutions they teach how OS work by students implementing Pintos, a full x86 OS.
In my first year I had to build a full raspberry pi emulator from scratch and then code an assembler for it. These programs would then run natively on the raspberry pi. People wouldn't even touch the hardware until much, much later into the project when the emulator has confirmed to be working.
I disagree with the view that you need a full FOSS hardware to understand a platform. You can do a lot with a VM/QEMU.
It really depend on what you want to do - Linux distro on x86 is IMHO good start, but of course its not the only option - there are now some reasonably open arm devices (including an atm laptop) from pine, there is the very open Tales workstation running on Power & RiscV showing up everywhere.
Why do people make these kinds of comments? Talos isn’t showing up anywhere, and even during the Kickstarter it was more than $3000 for just a motherboard.
> Without the ability to grow up playing with system level software, combined with the software industry's unwillingness to pass on institutional knowledge to younger generations, I fear we are already on a path towards a civilization that loses a lot of the technological capability we currently enjoy.
Kids today aren't as skilled with computers as I would've expected years ago. I feel the app culture stunts deeper learning.
I'm aware that I am looking at this through the lens of self-bias, but I have definitely found that much of what I know about computers came from being able to (and sometimes needing to) poke around and figure out how to do something.
I am not a software developer and have little formal education in computer software or hardware. With that said, I've picked up enough just by growing up with Commodore, DOS, Linux, etc. to at least have the basic understanding needed to research or just figure out solutions to most common problems.
I work in media production and IT in an educational setting, and while I'm far enough along the Dunning-Kruger graph to know just how little I know, the sort of things I see from students (grad and post-doc at that) definitely give me pause sometimes. Often, the mention of basic things like how to change a setting or search for a file in MacOS or Windows is met with glazed eyes or signs of discomfort. Apologies for how "I'm not really tech savvy" follow talk of anything more complex than pointing at pictures on a screen or doing something outside of the web browser.
And yes, I do understand that the very nature of these students' specialization in other fields can mean they haven't had the need or opportunity to learn much about computing. I just feel like I only picked it up because it was how you got things done or because it was there for poking and prodding when I got bored or curious.
I think in the end it's not just that I have a personal connection to computing and think everyone should share my interests. It's more akin to a basic competency that opens a lot of doors and prevents you from being taken advantage of.
My analogy is usually along these lines: if your job requires you to drive a car, you don't need to be a mechanic or be able to build a car...but you should at least know the basics of how to operate and maintain a vehicle beyond just gas pedal, brake pedal, and wheel.
10 years ago when I started working I feared the younger generation and their enthusiasm and energy. Then I had to teach a few of them how to ssh and that fear was dissolved. Most of these kids will not cut it in heavy reading/comprehension jobs.
In my experience the up-and-coming generation are far, far better at branding than my own generation ever was. Talking to my younger colleagues I generally get a deep feeling that they know what they are talking about, are thoughtful and make good decisions.
But the thing is, that's just branding: they aren't actually much more competent or thoughtful than my generation was at that age, they just seem like it. When I look at the code they write, it is as bad as the code I wrote. They have startling gaps in their knowledge and experience, just as I did (and no doubt still do — there is always something to learn!).
The thing that worries me is that until one gets to more objective measures, they really do seem more competent and trustworthy — which means that others are more likely to trust them, which is likely to lead to more bad decisionmaking at scale.
I wonder, though, if there is really a difference at all. Maybe my generation actually seemed more competent to our betters than we really were, too!
not really meant as a hard judgement, just sharing my experience. i am 100% sure there are folks at all age levels that can be and are better than me. i have definitely worked with some.
> Perhaps it is considered more of a commodity now?
It is and it should be. What the white beards all too often forget is the fact that the generation before them would say the exact same thing about them (lack of enthusiasm, lack of interest and knowledge, etc.).
This is a story as old as time:
> The children now love luxury; they have bad manners, contempt for authority; they show disrespect for elders and love chatter in place of exercise. Children are now tyrants, not the servants of their households.
attributed to Socrates (469–399 B.C.)
How many 80s kids were into HAM radio or actually building computers (Ben Eater-style: https://www.youtube.com/c/BenEater/videos ) instead of toying with micros or basically playing Lego with PC components? Same difference.
Today's computers have reached a level of tight integration and complexity that simply cannot be grasped by a single individual anymore.
People keep whining about that when it comes to computers but happily accept the very same thing in other commodities like cars, clothes(!), highly processed food(!), hygiene and cleaning products (soaps, hair gels, rinsing agents, ...), utility grids, etc.
It's hard to get young people enthusiastic about glue or forging metals, even though both are essential to our daily lives - often in ways we don't even realise. Same deal, no whining from metallurgists or chemists.
> It's hard to get young people enthusiastic about glue or forging metals, even though both are essential to our daily lives - often in ways we don't even realise. Same deal, no whining from metallurgists or chemists.
that is perhaps the most poignant take on this i have come across in a while. thanks that got the cogs turning in... different directions. i do need to ease up. :)
There has been a significant increase in demand and cost for pre-owned vehicles that do not have integrated entertainment systems and drive-by-wire systems.
The used truck market, I have seen vehicles triple in value over the last decade.
Problem is the pipeline. Schools that really bought iPads for "digitalization" will produce learn results that are significantly worse for understanding tech applications and information technology, because the principles get obscured by fancy UI. Nevermind that it wouldn't even be different from their phones.
A problem is that teachers would require some extensive training first before they can even try to teach kids something they didn't know before.
I do appologise if this will sound condescending : What are you on about?
I do agree that the majority are limited in terms of technical knowledge but I think that was always the case. It's always a (driven)minority that are responsable for tech advancements, preservation and magic.
I wish I was 14 in this day and age with this much information, how-to's, cheap(and expensive) tech and microcontrollers(when is the last time you checked places like aliexpress and git's?).
We live in a potential golden age for technology education:
- Hardware is ridiculously cheap and powerful and widely available
- Inexpensive educational computers such as the BBC micro bit and Raspberry Pi are widely available along with associated educational materials; these devices are easily interfaced to the real world, and can often be programmed at a very low level or high level as desired
- Overall, robotics and real-world computing is cheaper and more accessible than it has ever been
- FPGAs are ridiculously cheap and powerful and allow you to explore processor and digital hardware design
- Nearly every computer, smartphone, or tablet contains a web browser that can be programmed in JavaScript, webasm, and dozens of other languages that compile to JavaScript or webasm; web apps can display 2D, 3D and vector-path graphics, generate sound, and interact with all sorts of input devices
- Nearly every computer, smartphone, or tablet has a Python implementation as well
- Free and open source software is widely available
- Free and open source game engines are widely available
- Games are often moddable and many contain built-in level editors
- Source code of almost any type of software you can imagine, from operating system kernels to compilers and libraries to databases to to web browsers to scientific computing to games and productivity software is widely available
- Billions of people have internet access
- Tons of free and often high-quality educational materials are available from universities, khan academy, and many other sources on youtube, on github, and all over the web
- Many books including textbooks and tutorials are available for free as PDFs or readable on the web
etc.
The materials are out there, but the challenge is empowering people to find and make use of them.
Omg, I can’t up vote this enough. I have been telling principal/director-level engineers this for almost a decade. We shouldn’t be making hiring bar so high that it requires a PhD but rather hire on aptitude and hunger for knowledge and feed them. So much of being a senior+ in tech is knowledge sharing which we don’t do enough of. I’m guilty of this too! I value my personal time and don’t want to spent it building training materials.
The whole “playing” with system level software is how I became an engineer in the first place!
It’s also extremely apparent when you suggest a new way of doing things and older folks look at you like you’re crazy or worse, actively block because “we’ve always done it this way”. Those youngsters in those tiny screens have big ideas, from a different perspective, and we should acknowledge that and learn what they know.
Back to topic, I think the maturity of software engineering has enabled a lot of what we see today due to the macro cash grab of capitalism. There are things that stand firm beyond it, but 80%> of software written is logical duplication of software already written (for another company perhaps).
I’m guessing on the percent but it’s important to know that global overall LOC is really just hashing out the same stuff we’ve been doing (albeit in maybe a slightly more novel way) to get business value.
> We shouldn’t be making hiring bar so high that it requires a PhD but rather hire on aptitude and hunger for knowledge and feed them.
As a self-taught developer with just a few years of experience, I appreciate seeing this sentiment. I have this burning desire to be a great engineer and to learn as much as I can, but I'm not exactly sure what I should be doing or learning.
Do you have any advice as to activities, books, or other resources that you think would benefit a young engineer who would like to learn how to do things right?
I’m on year 20 of this amazing ride. I have another 20, possibly 40 in me. I love it!
I was self-taught. The trick is to find something you’re super super interested in and learn as much as you can from books, youtube, Google, blogs, other members of HN.
I was really into games and wanted to make quake-style fps games. I started with art. Went to college for graphic design and hated it so I dropped out. Worked on games while I did crap jobs. Eventually made a few small ones and got really into web development. Got a new job...
I can’t really tell you what books without knowing your interests.
As an old dude, I agree with you completely. We push way to much on the degree/school thing in HR, long before we get to interview them. For most positions, I would rather have an enthusiastic learner with a BS, or even an associates, and have them learn how it is done from experienced staff. If they really like it, and want to pursue more college, fine. If they want to dive in and learn by doing, fine.
I am in my retirement position now, stepped back to staff engineer, because I don't want to spend any more time stuck in meetings. The best principles, the best directors, all came up through the ranks. Yes, some of them returned to college for a few years before coming back, but the best ones just came in as enthusiastic green horns and dove straight it.
I have worked long enough now (36 years in this field, and this is my third 'career') to have seen people I mentored grow into director level positions, and that is perhaps the most rewarding thing there is.
On a related note, game consoles seem to be going the same direction, focusing on services and downloadable content or games over physical media (and even those that are physical seem to have a large online/multiplayer component). After a console generation or two, these services get taken offline as they are no lonher profitable, leaving a portion of your system useless.
I can go back and play old games I grew up on any number of platforms thanks to emulation or buying old physical media. This generation won't be able to do the same in 10-30 years.
> What's worse is the number of other posts with the top comments being vociferous defenses of these companies
I slowly tend to think that some of those commenters, who fiercely defend all and any action taken by Apple to limit the freedom of its users, are paid marketing and PR firms who scan forums to oppose any opinion that is not in line with Apple‘s vision of a closed system.
I understand the sentiment, but how many people were ever going to understand their systems at that level? I'm sure Gen Z will have their own tech equivalent of Roy Underhill telling them to put down the Ikea bookshelf and grab an axe and a log, and that the number of people who respond then will be about the same as now.
It is a choice to buy or not buy a device from a company. In this particular case the greatest threat is that devices that were always used by powerusers, are a step away from preventing us having superuser privileges on them, and instead have a moderator like on an iDevice.
At the same time Gen Z has way more choice and exposure to "computers", so worrying about them sounds very diminishing to their prospects. Sure, adoption of computers, even if they fit your bag or your pocket, is much greater nowadays which leads to way wider range of usages, for better of for worse.
In the end same could be said about the Edison generation and electricity. In the end I barely have a clue how electricity networks operate. Can I experiment with it? Sure. Do I need to if I just want to power on my computer? No.
Next laptop for me is going to be from a company that explicitly supports linux. Probably dell or lenovo.
A lot of people like to rag on Ubuntu. I agree with some of the criticisms. But the one thing they have done right is broker partnerships with hardware vendors like dell and lenovo.
Highly recommend the Dell XPS 13 if you enjoy the Macbook build quality. The edge-to-edge screen feels like the future.
I run EndeavourOS which is like a GUI installer for Arch. Arch's package management with (AUR -- Arch User Repo) will remind you a lot of Homebrew. And their wiki helps you get up to speed quickly.
I did that already with a ThinkPad T495. Couldn't be happier. With Arch Linux and KDE it's objectively far superior to Mac OS for development (I do mostly TypeScript and Rust).
The crazy thing is that I've been blind to the massive improvement that happened in Linux-land for the 7 years I was using Mac OS.
Of course there is still some PITA with missing productivity software (in my case for hobby photography), but so far I am determined to suffer with open source tools and maybe try to contribute a little.
superfish was reason enough for me to never touch lenovo and all the other malware they've infested their systems with since have only made me feel better about that decision. Dell might be okay though.
Hah, I've become a skater relatively recently. It's my Zen place.
It's s good analogy, you have to want it, either skater or hacker, any label really, must be earnt with time and effort. True for all things, and those who have earnt it can spot the pretenders a mile away.
Not the most productive comment, but I always wait 6-12 month before doing a major upgrade - I let other people find issues like this. Or just wait a month if you're in a hurry for some reason.
That's wrong, Docker will run fine on M1/Big Sur after an ARM release and probably some patching. Not too different what you'd expect on any major OS release.
Apple showed it on stage at WWDC, along with Debian ARM running inside a VM. It's coming, if for no other reason than developers inside Apple need it when writing infrastructure software. (Honestly, I'm surprised that Docker didn't get the same pre-release hardware Parallels did)
Because M1 has virtualization and emulation support, unlike the A12Z (not M1) ARM processor on which the docker issue was opened. This is explained here: https://news.ycombinator.com/item?id=25073010
And Docker has the motivation and means to patch and build the M1 Arm version.
You can take it directly from the Docker people:
> Thanks. We're working closely on this with Apple. This is expected right now (and indeed there's nothing we can do about it yet) as the new chips don't have virtualisation support yet.
I find that statement a bit dubious, but I guess if you only use tools that are in the repo and Chrome that's probably easy enough to accomplish. I remember fairly recently having to compile my own dosbox because of a many-years-old bug that remains unfixed and causes garbage graphics in black borders [0].
My history of using Linux desktop is riddled with crap like that.
No, I expect you to buy a well built tool from a Linux-first manufacturer, where you pay a premium to get a device that "just works". This is, after all, the Apple way right? You pay a premium for a Mac because it "just works", right?
Doesn't even need to be "Linux-first." Our standard Linux laptops at Red Hat are Thinkpads, many of which are used by people who are not particularly technical and use a locked-down corporate build. (Many others run Fedora or CentOS.) I'm sure we have many thousands in use.
The Dell XPS 13 is supposedly good too although I don't have personal experience.
I use Macs quite a bit but the idea that running Linux on a properly-selected modern laptop is likely to be an exercise in frustration is just a myth at this point.
I was mostly being tongue-in-cheek, making a point that one doesn't have to buy a Mac to get a great software-hardware combination from a recognized manufacturer.
But you are absolutely correct, and my Linux laptop is a Thinkpad X1 Carbon. It's also well supported under OpenBSD but for what I do with it (mostly media consumption and some light gaming mixed in with the usual laptop stuff), Linux works out better.
Dell XPS 13 is a solid choice, network card/wifi card may have to be changed out, but they support ubuntu natively. Cheap to buy used and generally very good.
It's funny because almost nobody uses Apple where I live (Poland). The only people who use MacBooks are some "artsy" types and some managers (because they only need office and outlook to work :) ).
Developers never use apple because it has tons of compatibility issues.
Is it really the case though? I am also from Poland (though I do not live there anymore) and based on my experience it was rather a popular dev machine a couple of years back, easily seen at conferences. It is of course less popular due to pricing but definitely not absent.
Can you maybe also comment further on the compatibility issues? Mac is perfectly fine for any general-purpose frontend/backend development. Unless you work in a Windows-centric environment or in a setting that clearly rules out a Mac (e.g. Linux system programming), I cannot really imagine what compatibility issue would prevent you from using a Mac e.g. for Typescript, Java, Python or Go development. Not sure why Poland would be less friendly for developer Macs than the rest of the world.
It is a luxury brand in the US. Every tech person that has made it would never buy anything but Apple. Yes, things like battery life are great. But if you are seen working at a coffee shop, there is a 100% guarantee of a that glowing apple logo on your laptop.
An open computing device doesn't need to be unusable, and a usable computing device doesn't need to be locked up. There's a lot of space to explore between those extremes.
This is not the case any more. A few months ago I migrated out of the MacOS ecosystem and got myself a Thinkpad X1 Carbon. I run Fedora on it. It works seamlessly just like MacOS did on a Macbook. Haven't had a single hardware compatibility issue till date.
I've had a Thinkpad and Ubuntu for 5 years.
The 'hardest' thing i've had to deal with is some flaky drivers with displaylink. I'm not at all putting crap on Displaylink. It's been fantastic, I just upgraded to 20.4 and hit a few small issues.
Ubuntu's been really solid. Boring even. Which may not seem like a compliment, but I don't nerd out on OS stuff, I just want a computer that I can do stuff with when I need it. And I personally found previously with mac and windows my ability to 'just do work' wasn't there.
How could it be that people are all about freedom when it comes to governments but have no problem if private companies censor and controll what they write and do?
Nobody wants to take away their right to do so (ok well maybe some do; I'm not one of them). Just that there should be rules we all agree to when we do.
We accept this in other venues. Seatbelts. Stoplights. Nutrition labeling on packaging. etc..
No such rules exist for software, which is odd. It does seem to suggest the industry is ripe for regulation. It's always disappointing to me that we only accept limits when the law places them, as though ethics and morals are somehow not good things to pursue for their own reasons.
Which goes back to OP's point: just because a company CAN be as dystopian as they can imagine, doesn't mean they should be.
We already have general rules against fraud and other kinds of crime which apply to software just like any other product.
Only a very small set of products have special regulations, generally those which we deem unsafe for consumers unless regulated.
“Seatbelts. Stoplights. Nutrition labeling on packaging. etc.”
A good set of examples. Every one of them is about consumer health and safety. This is consistent with liberal democracy - people should be free to do what they want unless it hurts someone else. That is why all product related regulations are related to safety.
It seems reasonable to assume you are arguing for rules which prevent the installation of unsafe software on computers which are sold to consumers.
Apple would be the most compliant company with such rules, and would benefit greatly.
A touchpad is not really a proper tool for work (a laptop is hardly one anyway except in cases which require it), more of a handy last resort solution that comes included hence always available with the laptop.
It won't change anything switching to RISC-V, if those same hackers just build SaaS placed behind a server wall with a pretty Web interface implemented in WebAssembly talking over gRPC.
The one thing that gives me hope is the pendulum of open->closed->open has swung back and forth so many times now that even as depressing as current trends may be, I'm confident things will swing back again.
Not sure when, but I'm certain it will.
It is one of those strange things, the more closed things become, the greater the incentive is to open them back up again.
The hacker ethic is still out there, just this recent boom has dulled it a bit. A steady diet of locked down computing will fix that.
One of the major drivers is app developers. You can't build an iOS app without buying a mac, and if you're buying a mac.
It's kinda abusive how you need to pay the hardware tax, the yearly $100 USD rent, and 30% percent of your sales to have the privilege of developing for their platform.
I'm glad windows server lost to linux so we'll at least be able to run our own servers for the foreseeable future. But I see platform layers being the threat there (AWS, Azure, GCP).
> literal cancers that are eating the software industry
Like all subcultures when the hacker ethos went mainstream it's spirt died and all that was left was fashion. No one cares anymore if their consumer choices are a threat to freedom as long as they look cool. Outward appearances are now more important than principles. Prickly principles require sacrifice and why have character when you can have a disposable "personality".
The hacker ethos didn't go mainstream. People who don't deserve the moniker started self applying it.
I'm not a hacker, I'm a corporate shill because I work for my own profit within a system that's set up to ensure its own continuity. I'd like to be a hacker, but I have a family to support and am too weak or addicted to lifestyle or scared or realistically-minded to actually commit to what's required to earn the title of hacker. Same with anyone working towards advertising, marketing, consumer data collection. Doesn't matter how intelligently you solve a problem in those fields, ain't no starry eyed kids ever wanted to grow up to make the world a better place by more accurately identifying and individuals preferences on the internet.
Fuck fake hackers. The best thing I've done with my life is being a good husband to a teacher.
The ethos went "mainstream" in the sense that it was fashionable to play the part and be in your words a "fake hacker". And for future historians and those unfamiliar with the jargon, hacker ethos isn't about criminally breaking into computer systems.
And yet, Apple still has a reputation of being really privacy- and security- conscious. Windows' telemetry has had all the alarms raised for years now, and how does e.g. Canonical earn money?
Same on mobile, Android phones - especially in the cheaper ranges - are dodgy as fuck when it comes to privacy and security.
Does Apple really have literally all telemetry disabled by default, out of the box, on all devices? Is there an independent audit proving that? If so, I would buy all their products in an instant.
Then how do they know what to fix/improve without that? I can't imagine average iOS/OSX users, who aren't devs, are writing and submitting detailed bug/crash reports on a regular basis.
Or is it just bias and personal preference where "I don't mind Apple collecting my telemetry because I like Apple but Microsoft collecting my telemetry is evil because I hate Microsoft"?
I don't have a dog in this fight but don't trust any for-profit company when it comes to privacy, no matter how good their PR is on the matter, especially since both of them(and most SV companies) were part of the NSA Prism bulk collection program[0].
Apple gives you the option to turn telemetry on/off as part of the machine setup & OS upgrade process. This option is explained in simple english and not buried in the legalese.
There's a conundrum that requires further investigation which is the intertwining of the concepts of privacy and security and how in order to increase security protections of their products there must be a decrease of privacy. Security requires a probing knowledge of the details of what is running on the device.
The same information that can contribute to increased security for the end user is also valuable to sell to advertisers if, delightfully ironically, the security vendor is ok sharing private information with said advertisers.
you can't apply nearly the same heavy accusations on canonical as you do on MS and apple, cannonical makes the glut of its money from ubuntu server. The os is just a byproduct, if you really want to get technical, you could say that ubuntu popcon tracks you, but you can disable that from the package manager settings, because "oh no! they have anonymized package usage records of me!"
The PC world only happened due to singularity point that IBM was unable to prevent, even though they tried it.
Everyone else was vertically integrated, if anything Apple is the survivor of those kind of systems, and now everyone (OEMs) else wants that model back.
> people have to get used to seeing computers as closed-source devices with app stores
Consider all of the school age kids using chromebooks, many of them their 1st computer.
Will they care in 10 years as adults that their Mac doesn't allow programs to be installed from "untrusted sources"? Unfortunately, this transition probably won't phase them.
They won't be able to build a disruptive startup or a modest lifestyle business anymore without having to pay upfront and play by the rules of big tech. But nobody will be so they won't feel that something was taken away from them.
This actually describes my feelings about all this at the moment. I imagine that now and in the future, the 2 Steve scenario in the "garage" will be next to impossible
it's becoming the antithesis of everything that the original Hacker culture stood for.
A hacker in the “Hacker News” sense is more than likely working on an ad-supported web app and dreams of working at a FAANG. The old hacker dream is dead, sadly.
You're not looking hard enough, which is also part of the problem.
Back in the "golden years" you'd have to put effort in to finding and participating in the community. The real hackers are still somewhat underground simply because they're anti establishment; actively seeking out the high effort, loss making niches that attract fringe thinkers and the unique characters required for true innovation.
Crypto parties, maker faires, get to one. If nothing exists locally, build it and they will come. (And admittedly I need to take my own advice).
We have an open space workshop and hack shop in my town, and it’s frequented by quite a lot of people. You’ll see anything IoT, 3D printing and Linux you can imagine being hacked upon. You can also see people building race cars, or ideas that eventually turn into businesses.
Everyone has an Apple or android device, and macs are easily make up 90% of the personal workhorse laptops. Because at the end of the day, technology that just works, is nice too.
I get that it’s probably very different in crypto communities, but we don’t really have any of those around here. I wouldn’t say that real hackers aren’t using walled gardens though.
Long gone. The last time I had a conversation here about what a "hacker" is, there was a sizeable contingent who defined it as "someone who knows how to write computer programs".
If that hacker ethic lives, it's not in people labelled "hackers" anymore.
I know so many CCC people who have trouble to make a living or are (un/happily) employed by companies that went all in Apple, Google, Mirosoft, AWS.
Many for sure are brilliant brains but they lack to monetize it. To break or stop near-monopoly/walled garden systems you have to dismantle them through the market. Build better/cheaper (primary) alternatives which are free and open (secondary).
IMHO mainstream only values convenience and price, freedom is only a "nice to have" item and when it requires more work it is a no-starter.
Fortunately Apple has like 3% market share in the desktop market globally[1] , so it doesn't really matter what they do.
[1] browsing data shows around 10% market share but it is based mostly on English websites which are minority (and English-speaking countries have significantly higher apple users percentage than the rest of the world).
Even English speaking countries don’t have that high Macbook usage, because the premium sticker price is extremely high; unlike in phones, where an iPhone is comparable or in some cases less expensive than equivalent Android flagships, Macs tend to be several hundred dollars more than even their flagship laptop or PC counterparts, and from my personal experience a computer running Win10 is not that flaky compared to some Androids I’ve used.
But also Windows phones home.m and Linux desktop is still a shitshow (pardon the French) arguing over and over again about the same melange of disputes that should have been settled a decade ago...
Not sure if it’s a sign of aging, but I’m losing hope and interest in most of these pantomimes /s
Linux desktop. I just use what's presented and get on with my work. I don't have a particularly complicated setup, but I found something that works and I've been using it happily enough for over a year having migrated from Windows.
I don't know what disputes are being argued over, so I bothers me not in the slightest. Would it help if you just ignored the detail and just worked with what's presented?
Dual booting is still a problem. I just tried to install ubuntu as dual-boot on a separate SSD from windows (which I keep around for video games) and I ran into 13 bugs (I wrote them down!) within two hours - including two which caused fatal issues in the installation process itself which I had to run around eight times before it succeeded. Then it somehow permanently trashed the ability of windows to boot. After spending three hours trying to fix that I said fuck it and nuked both OSs with a fresh windows install.
This is the first time I've tried installing linux in about a decade, after using a stable dual-boot setup during university. Things seem to have gotten worse. It'll be another decade before I try again, probably. I lost two days of pay and probably years of non-grey hair dealing with this fiasco.
really? I just set up lvm2 on my new dell, partitioned some space, ran the windows installer and it just worked(tm). I do still remember how hard it was to dual boot on my old laptop, I don't know why it was different for me this time
There are many reasons to choose Linux over the alternatives that have nothing to do with one's ability to customize it.
One example is the simplicity of system management. Desktop oriented Linux distributions tend to take care of everything from application installation to updates with a single interface with minimal interruption to my work flow. This is only sometimes the case with macOS and Windows. Android, iOS, and ChromeOS are not realistic contenders in the application space for some users.
Cost of ownership is another factor. Linux may not make sense for some businesses if they have to hire someone to manage their systems, but an end user who can handle often trivial tasks can usually support their own system and benefit from less downtime. While paying for software is a good thing, it frequently adds many constraints on what can be done while modern business models can make licenses prohibitively expensive (e.g. subscription models or various forms of forced obsolescence).
Other reasons include: sometimes the desired software just works better under Linux since it was designed for Linux, a desire for privacy or a need to ensure confidentiality, compatibility with older hardware that is no longer supported by the vendor (but may be supported by open source developers).
Working with what's presented simply means that you are unlikely to modify what is shipped by the vendor. You can still add to it or benefit in other areas.
Most Linux distributions are also easier to audit than commercial operating systems and some go as far as encouraging it. While this is optional and requires a deeper understanding of what you're looking at, it does not require handing control over to a third-party (including the vendor). You can choose to trust the vendor by clicking a button, you can use integrated tools to choose what is done and when it is done, you can use those tools to audit what is done before it is done, or you can audit it down to the source code level. This is a far cry from Apple, Google, and Microsoft's approach where you have very little control and what little control you do have is complex to access.
To be clear: my commentary on "work with what's presented" was merely in response to above comment about Linux desktop shit-show. The following is about choosing Linux over alternatives.
I avoid Apple because of the slow descent into vendor / walled garden lock-in, which suits neither my wallet nor personality.
I have a couple of ChromeOS devices for the kids' schooling, but they're unwieldy for my workflow.
You didn't ask, but I moved away from Windows because of increased bloat, telemetry and the dual issue of decreasing control of "services running" alongside noticeable slow-down of performance frustratingly too soon after a fresh install. I've also had two occasions (which is two too many) where Windows decided, upon it's own, to install updates and reboot, losing whatever I had open at the time, no message pre- or post-update just clean login screen next time I went to use the machine. I think they've made that better, and there are options to control the nature of how updates are dealt with, but I've already made the jump.
"what's presented" by Linux may not be perfect, but it's closer to my perfection than the alternatives I've tried (to be clear, this is what works for me, not necessarily anyone else).
People, outside of HN, don't care about operating systems. They are all good enough and have been for a long time. What people care about are applications. If you want to play games, you are probably going to buy a Windows computer. If you want to run Logic, you're going to buy a Mac. If all you really need is a browser and email, you are going to choose by other criteria like price or beauty.
Microsoft tried this with Windows RT. It didn’t go down well at all. The slow burn might be what’s needed, but if they do this, it could damage why people still buy macs vs just buying iPads. Lets see, time will tell here.
"What we poor souls didn't understand all these years is that" computing and information processing started out as tactical and then strategic components of military, intelligence, and industry. The central computing infrastructure ("the Cloud") and attendant closed/dumb psuedo-terminals (closed systems, walled gardens) is precisely the vision outlined in the 60s if not the 50s.
Two unexpected events in information processing technology threw monkey wrenches in the industrial and geopolitical policies of the strategic thinkers dreaming in DARPA, SRI, and elsewhere:
1 - Personal Computing was an unexpected event. It has taken all of 4 decades to put that genie back in the bottle. The topic of this thread.
2 - AI. This mainly threw a big wrench in the planned integration of Communist China into the Western system. AI enabled CCP to maintain control of the Chinese society, which was completely unexpected.
Having advanced general purpose, user programmable, computing machines networked globally in the hands of peasants is simply unacceptable to the folks who gifted humanity with these tools.
> 2 - AI. This mainly threw a big wrench in the planned integration of Communist China into the Western system. AI enabled CCP to maintain control of the Chinese society, which was completely unexpected.
Could you expand on this or better yet, point to some reading on the subject? This sounds like a very interesting topic.
Pure speculation on my part, trying to understand the nature of the relationship between Communist Party of China and Western power centers.
Back in the early 70s, when the deal that Kissinger and Mao shook hands on was made, there were no PCs, or pervasive networking and mobile communication and computing. It was always my speculation that the risky gambit of fast forwarding China's development and economy and freely transfering crown jewels of technology was made with the conviction that the process of integrating with the West would naturally create a power base in Chinese society that would push aside the Communist Party. Tiananmen ("June Fourth Incident") was a manifestation of this correct original prognosis of the planners of the deal, that it would cause political headaches for the CCP. A cultural instead of a kinetic overcoming by the West.
I think the consensus now in the West is that CCP armed with AI, pervasive networking, and the emergence of a digital society in the true sense, can stifle any possible organic formation of alternative poles of power in Chinese society. The only remining challenge to CCP were the Tech Mandarins (like the Senior Self Crowned Bozo in the West, a certain Bill Gates) and just this week Jack Ma was reminded as to who is in charge in New China.
And of course, Eric Schmidt et al. are now salivating at the "Chinese Model" and we're gonna get the same, regardless of what little you and little me thinks about it.
There is always a war on when property is not democratized. In the Anglophone world, the easiest example to think of is enclosure[1] which was a war between the mercantile class on one side and the lazier half of the lords and the little people on the other.
If any company, be they Google, be they Apple, should experience total "victory" in the war on intellectual property they would find everyone who is not
* An investor
* In management
* An employee
* A temp/contractor, or
* A happy customer
Set against them and they would fall. Imagine there was a neural network or network of neural networks that could arrange bits into entertaining movies. It would print money and it would not be strategic for whatever company had the resources to do that to hoard the benefits, they would have no customers if they did (I suppose if they had enough compute and memory resources to succeed in such a task they might already have a monopoly on money).
I used to understand the CEO's job as cheerleader, for the investors, for the employees. I still think that is how they operate tactically, but strategically, I think the goal of a CEO in a Obama-era neo-liberal is to put the whole world in one of those categories above I suppose, with the acceptable additions of
* Vendor/supplier
* Companies in partnership
* Competitors who participate in a trade association together in a reasonably civil manner, or
* Members of government who are lobbied to advocate for your firm or industry or a strategic need that you hold in common with the broader public
In the long run the alternative is to perish. Utopia I think may have been inevitable by the 50s/60s when people started to believe that some companies really would last forever. On a long enough time scale, it is best to do everything in everyone's best interest considered in toto.
So all of that to say that I expect one day, maybe 40 years from now, maybe 80, that IP as it operates today will be transformed into an index of ideas that everyone can take and implement who might put them to use beneficially for the citizenry and other residents. It will be nice after all of that work to have a primary key for the ideas that have been created so far, so I don't think we the people will burn down the USPTO or the LOC or anything like that.
I hate walled in gardens and in Microsoft land it did get a lot of flack which I am thankful for. I doubt many Apple users have the foresight of a Stallman to see where their environment is headed.
There is money in creating apps for Apple systems, but you are giving up a lot in exchange.
Some developers use it for convenience but I would not say it is widespread and most are fundamentally opposed to use a mac.
Our advertising department is the only one with macs. Sadly, we still support Apple because every sales rep gets the whole suite. iPhones and iPad Pros (because the others are too small and you cannot work with them... what a new revelation...), that is a few thousand bucks for every employee that Apple gets. They even get the ridiculously priced pen (120$?) and keyboard (300$+). And our sales people still complain about not have notebooks, because they are superior devices. There is just the presentation argument.
Probably 90% of developers I've worked with in the past 5 years used a Mac, and really wanted to do so. I know a handful that left Linux to do it, and have told me they can't imagine going back. I'm not sure that your'e right about developers.
I do know that my next machine will be Linux. I'm probably going to put together a desktop for my office, and I'll buy a System76 laptop or whatever for those times when I want to work from the porch.
Anecodote- I was on OSX for ~9 years +/-1 or 2 years. Came from Linux (Ubuntu) and Windows for ~10 years before. I made a switch a year ago back to the same (Windows + Linux) and I've been nothing but happy. I know people tend to complain about Linux on the desktop, but I had great experiences a decade ago, and I do again.
I always have complaints about my Linux system, until I realize that my Windows colleagues do the same. It shit here, shit there, shit anywhere I imagine. I personally had good luck so far, each of my machines worked well with Linux out of the box, and I have to realize that I had around the same amount of issues as I did in my Windows days.
Estimated 1-3% developers of developers I worked with run MacOS. Maybe it is a local or SV thing, but most I know prefer the freedom. In the industry I work there aren't many tools for Apple ecosystems available.
IBM has nearly all of it's developers on Mac at this point. I came from using exclusively linux for 10+ years and have decided to switch my personal machine to a Mac and my phone to an iPhone because it's been so good.
Mac has everything I liked about Linux but with zero cognitive overhead. With brew and a window manager (amethyst) I'm not missing any features I enjoyed in Linux.
I hope that changes with the acquisition of Red Hat. I think they did it to help Red Hat, but they also wanted to buy the community of developers in my opinion.
I think now that Apple has learned from iOS how profitable a walled garden business model is they are trying to bring that model to the PC world as well. Shipping hardware with their own processors is an important step in that direction because it gives them control over the IP of arguably the most important component of the computer, which in turn makes it easier to control software distribution for their architecture as well.
The transition will be slower of course because people have to get used to seeing computers as closed-source devices with app stores, there are still too many of us who have the mindset that you can just install anything you want on a computer without asking Apple for permission and without paying tax to them.
At this point I really wonder how any serious "hacker" can work on such a device, it's becoming the antithesis of everything that the original Hacker culture stood for.
1: https://arstechnica.com/gaming/2020/11/judge-dismisses-apple...