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Itanium: the Great X86 Replacement that Never Was

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Itanium was once meant to be the next step in computing, to compete with the likes of IBM, Sun and DEC, but also for Intel to have an architecture that couldn’t be taken from it, as the PC was from IBM by its clones. Today, however, Itanium is a relic of the past. [Asianometry] tells us the story of Itanium . By the ’90s, servers were an established market dominated by RISC architectures and Unix-like operating systems. Intel wanted to compete in this market, due in part to worries of losing control over x86. So, when Hewlett Packard came to Intel in late ’93, Intel eventually agreed to collaborate on a new project in EPIC (Explicitly Parallel Instruction Computing). The project initially called PA-WW (later IA-64 and Itanium), was also a radical approach to ILP (Instruction-Level Parallelism). As HP engineers saw RISC architectures potentially hitting performance limits in the future, the idea was a compromise between fully compiler-driven VLIW and the fully hardware-driven super...
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The Electromechanical Computer of the B-52’s Star Tracker

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The Angle Computer of the B-52, opened. (Credit: Ken Shirriff) In the ages before convenient global positioning satellites to query for one’s current location military aircraft required dedicated navigators in order to not get lost. This changed with increasing automation, including the arrival of increasingly more sophisticated electromechanical computers, such as the angle computer in the B-52 bomber’s star tracker that [Ken Shirriff] recently had a poke at . We covered star trackers before , with this devices enabling the automation of celestial navigation. In effect, as long as you have a map of the visible stars and an accurate time source you will never get lost on Earth, or a few kilometers above its surface as the case may be. The B-52’s Angle Computer is part of the Astro Compass, which is the star tracker device that locks onto a star and outputs a heading that’s accurate to a tenth of a degree, while also allowing for position to be calculated from it. Inside the devic...
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Analog Circuitry Lets You Blow This LED Out

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LED candles are neat, but they’re very suboptimal for wish-making: you can’t blow them out. Unless you take the circuit from [Andrea Console]’s latest project that lets you do just that, using only analog electronics — no microcontroller in sight. He’s using the known temperature-voltage behaviour of the LED for control here– sort of like the project we saw in last year’s Component Abuse Challenge that let you illuminate the LED with a butane lighter . Here it’s a bit less dramatic, relying only on the small cooling effect your breath has on the LED. There are two parts to the circuit, really– a latching section to turn the thing on from a single button press, and breath-detecting section. The breath-detecting section relies on an op-amp acting as a comparator, comparing the voltage across the LED’s current-limiting resistor, and a reference stored in a 100 µF capacitor. Blowing on the candle spikes the voltage on the LED, and thus the current-limiting resistor too fast for the capa...
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2026 Green Powered Challenge: A Low Power Distraction Free Writing Tool

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Distraction free writing tools are a reaction to the bells and whistles of the modern desktop computer, allowing the user to simply pick up the device and write. The etyper from [Quackieduckie] is one such example , packing an e-paper screen into a minimalist case. These devices are most often made using a microcontroller such as an ESP32, so it’s interesting to note that this one uses a full-fat computer — if an Orange Pi Zero 2W can be described as “Full-fat”, anyway. There’s an Armbian image for it with the software pre-configured, and also mention of a Raspberry Pi port. It works with wired USB-C keyboards, and files can be retrieved via Bluetooth. It doesn’t look as though there’s a framebuffer or other more general driver for the display so it’s likely you won’t be using this as a general purpose machine, but maybe that’s not the point. We like it, though maybe it’s not a daily driver. This hack is part of our 2026 Green Powered Challenge . You’ve just got time to get your own...
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Cyberdeck Build Gets Closer To Regular Laptop Than Most

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Cyberdecks are typically reminiscent of weird computers in futuristic sci-fi films, moreso than the computers of today. The cool thing about cyberdecks, though, is you get to build them however you like. [WillTechBuilds] has put together a deck of his own that diverges from cyberdeck norms and ends up closer to something you might have bought off the shelf at Best Buy. For a start, the build eschews the typical Raspberry Pi or other single-board computer that normally lives at the heart of a cyberdeck. In its place is a motherboard harvested from a GMKTec NucBox G5. It runs the Intel N97 CPU. It’s an x86 processor that’s roughly equivalent in power to an i5 from 10 years ago, but it only sips 12 watts. The compact motherboard is installed in a compact 3D-printed case along with a porbable USB-C battery pack, a small widescreen LCD, and a Lenovo ThinkPad trackpoint keyboard. This latter design choice, along with the x86 chip, is what gives this build so much of a laptop feel. There’s...
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Growing Aluminium-Copper Alloy Crystals Using Hydrogen

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Having molten aluminium interact with atmospheric water forms a source of hydrogen which can be rather problematic if you’re trying to cast aluminium parts. As the molten metal cools down, the dissolved hydrogen is forced out, creating bubbles and other flaws that make aluminium foundries rather upset. While you can inject inert gases to solve the problem, you can also lean into this issue to make some rather fascinating aluminium crystals and geodes , as [Electron Impressions] recently did. The key here is to use a eutectic Al-Cu alloy at around 45% Cu by weight, as this alloy readily forms large crystals as it cools down. With hydrogen injected into the molten metal, this hydrogen forms large bubbles inside the cooling metal with crystals clearly visible. A way to create proper geodes involves very slow cooling and pouring off the still molten metal before the eutectic point is reached. As can be seen in this video, this creates a rather impressive looking geode after it’s been sm...
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Making the Most Pick-Proof Lock Yet

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3D cutaway of the lock with the handle engaging the cog that rotates the mechanism. (Credit: Works By Design, YouTube) Throughout the centuries the art of lock-making and lock-picking have been trapped in a constant struggle, with basic lock designs being replaced by ever more complex ones that seek to thwart any lockpicking attempts, as well as less gentle approaches. When it comes to the very common pin-and-tumbler lock design, the main issue here is that the keyway also provides direct access to the lock’s mechanism. This led [Works By Design] to brainstorm a lock design in which the keyway is hidden . The ingenious part here is that because the actual key is rotated away after insertion, there is no clear path to the pins. This did require some creative thinking to have a somewhat traditional style key as well as a way to turn the internal mechanism so that the key would be pressed against the pins. Here inspiration was drawn from the switchable magnet mechanism as seen with ...
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