There was a time when the gulf between a new computer and one a decade or more old was so large as to be insurmountable; when a Pentium was the chip to have an older computer had a 16-bit 8086 or 286. Here in the 2020s, though, that divide is less stark. While a machine from the mid-2000s may no longer be considered quick, it can still run modern and useful software.
The problem facing the owner of such older hardware though is that as operating systems advance their requirements and eclipse their machine’s capabilities. A perfectly good machine becomes less useful, not because the tasks it needs to be used for are beyond it, but because the latest OS is built with higher-spec hardware in mind. The subject of today’s test is an operating system designed to make the best of older hardware, and it’s one with a pedigree. Damn Small Linux, or DSL, first appeared in 2005 as a tiny distro for the old machines of the day, and after a long hiatus it’s back with a 2024 edition.
I found myself in Milton Keynes, UK, a little while ago, with a few hours to spare. What could I do but rock over to the National Museum of Computing and make a nuisance of myself? I have visited many times, but this time, I was armed with a voice recorder and a mission to talk to everybody who didn’t run away fast enough. There is so much to see and do, that what follows is a somewhat truncated whistle-stop tour to give you, the dear readers, a flavour of what other exhibits you can find once you’ve taken in the usual sights of the Colossus and the other famous early machines.
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We expect you’ve heard of the classic text adventure game Zork. Well before that, there was the ingeniously titled “Adventure”, which is reported to be the first ‘interactive fiction’ text adventure game. Created initially by [Will Crowther], who at the time was a keen cave explorer and D & D player, and also the guy responsible for the firmware of the original Arpanet routers, the game contains details of the cave systems of Mammoth and Flint Ridge in Kentucky.
The first version was a text-based simulation of moving around the cave system, and after a while of its release onto the fledgling internet, it was picked up and extended by [Don Woods], and the rest is history. If you want to read more, the excellent site by [Rick Adams] is a great resource that lets you play along in your browser. Just watch out for the dwarfs. (Editor’s note: “plugh“.) During my visit, I believe the software was running on the room-sized ICL2966 via a VT01 terminal, but feel free to correct me, as I can’t find any information to the contrary.
A little further around the same room as the ICL system, there is a real rarity: a Marconi TAC or Transistorised Automatic Computer. This four-cabinet minicomputer was designed in the late 1950s as a ‘fast real-time computer’, is one of only five made, and this example was initially installed at Wylfa nuclear power station in Anglesey, intended as a monitoring and alarm system controller. These two machines were spare units for the three built for the Swedish air defence system, which were no longer required. Commissioned in 1968, this TAC ran continuously until 2004, which could make it one the longest continuously running computers in the world. The TAC has 4 kwords of 20-bit core memory, a paper tape reader for program loading and a magnetic drum storage memory. Unusually, for this period, the TAC has a micro-coded CISC architecture, utilising a whole cabinet worth of diode-matrix ROM boards to code the instruction set. This enabled the TAC to have a customizable instruction set. As standard, the TAC shipped with trigonometric and other transcendental functions as individual instructions. This strategy minimized the program size and allowed more complex programs to fit in the memory.
The motto of Sun Microsystems back in the day was “The Network Is The Computer” which might be kind of relevant when CPUs were slower and single-core affairs, but lately to get a faster compile, you’d simply throw more cores and memory at the problem. The thing is, most of us don’t do huge compilations all that often, we can’t remember the last time we even attempted a Linux kernel build. However if you do find yourself with a sudden need to do so, and have access to a pile of machines hooked to a network, then why not check out distcc: the fast distributed C/C++ Compiler? We’ve seen a few mentions in comments and a HaD links article referencing it, but never explicitly covered the tool. So here we go.
What to do if you have a really cool old HP MicroServer that just can’t keep up with the demands of today? [jacksonliam] decided to restomod it by installing a mini PC into the drive bay.
The HP N54L MicroServer was still running, but its soldered CPU and non-standard motherboard made a simple upgrade impossible. Evaluating the different options, [jacksonliam] decided to save the case and PSU by transplanting an Intel Alder Lake mini PC into the drive bay with 3D printed brackets and heat set inserts.
Selecting a fanless “router” model to increase reliability, he was able to find an M.2 to mini-SAS adapter to attach the four drive cage to the NVME slot on the new PC. Power is supplied via the 12 V line on the ATX power supply and one of the mini PC’s Ethernet lines was broken out to a 3D printed PCI slot cover.
You may have heard Linux pundits discussing x86-64-v3. Can recompiling Linux code to use this bring benefits? To answer that question, you probably need to know what x86-64-v3 is, and [Gary Explains]… well… explains it in a recent video.
If you’d rather digest text, RedHat has a recent article about their experiments using the instructions set in RHEL10. From that article, you can see that most of the new instructions support some enhancements for vectors and bit manipulation. It also allows for more flexible instructions that leave their results in an explicit destination register instead of one of the operand registers.
Of course, none of this matters for high-level code unless the compiler supports it. However, gcc version 12 will automatically vectorize code when using the -O2 optimization flags.
Origami can be an interesting starting point for a project, but we weren’t expecting [Thomas C. Hull] and [Inna Zakharevich]’s Turing complete origami computer.
Starting with the constraint of flat origami (the paper folds back on top of itself), the researchers designed a system that could replicate all the functionality of the previously-proven Turing complete Rule 110 automaton. The researchers walk us through the construction of AND, OR, NAND, NOR, and NOT gates via paper as well as the various “wires” and “gadgets” that connect the operators or filter out noise.
Everything ends up a large mess of triangles and hexagons with optional creases to make the whole thing work. While the origami computer probably won’t be helping you slice 3D prints anytime soon, much like a Magic computer, the engineering and math involved may prove useful in other applications.
Everybody knows you can’t install Windows XP on a 386, or Windows 95 on an original IBM PC. But for Windows 11, the goalposts seem to be changing with newer releases of the existing OS. As covered by The Register, it appears the latest Windows 11 24H2 update might be incompatible with older machines.
It’s all down to the POPCNT CPU instruction. As shared on Twitter by [TheBobPony], the instruction appears in a number of Windows 11 system files, including kernel and USB XHCI drivers. Thus, it appears that any CPU not able to run this instruction will not be able to boot Windows 11. POPCNT was first included in AMD’s Barcelona architecture in 2007, and Intel’s Core processors in 2008. It’s an instruction for counting set bits in a word.
Ultimately, the effect is that computers with older CPUs will no longer be able to run the latest version of Windows 11. It could be as simple as Microsoft engineers enabling more modern CPU instructions at compilation time. However, given affected hardware is more than 15 years old, it’s perhaps likely that Microsoft is perfectly willing to cut these machines off from using the latest versions of its main operating system. We’ve talked about this phenomenon before, too.
In any case, keep a close eye on Windows update if you’re running super-old hardware. Let us know if you’ll be affected in the comments.
