A Heavily Modified Rivian Attempts The Cannonball Run

December 21, 2025 by Bryan Cockfield No comments

There are few things more American than driving a car really fast in a straight line. Occasionally, the cars will make a few left turns, but otherwise, this is the pinnacle of American motorsport. And there’s no longer, straighter line than that from New York to Los Angeles, a time trial of sorts called the Cannonball Run, where drivers compete (in an extra-legal fashion) to see who can drive the fastest between these two cities. Generally, the cars are heavily modified with huge fuel tanks and a large amount of electronics to alert the drivers to the presence of law enforcement, but until now, no one has tried this race with an EV specifically modified for this task.

The vehicle used for this trial was a Rivian electric truck, chosen for a number of reasons. Primarily, [Ryan], the project’s mastermind, needed something that could hold a significant amount of extra batteries. The truck also runs software that makes it much more accepting of and capable of using an extra battery pack than other models. The extra batteries are also from Rivians that were scrapped after crash tests. The team disassembled two of these packs to cobble together a custom pack that fits in the bed of the truck (with the tonneau closed), which more than doubles the energy-carrying capacity of the truck.

Of course, for a time trial like this, an EV’s main weakness is going to come from charging times. [Ryan] and his team figured out a way to charge the truck’s main battery at one charging stall while charging the battery in the bed at a second stall, which combines for about a half megawatt of power consumption when it’s all working properly and minimizes charging time while maximizing energy intake. The other major factor for fast charging the battery in the bed was cooling, and rather than try to tie this system in with the truck’s, the team realized that using an ice water bath during the charge cycle would work well enough as long as there was a lead support vehicle ready to go at each charging stop with bags of ice on hand.

Although the weather and a few issues with the double-charging system stopped the team from completing this run, they hope to make a second attempt and finish it very soon. They should be able to smash the EV record, currently held by an unmodified Porsche, thanks to these modifications. In the meantime, though, there are plenty of other uses for EV batteries from wrecked vehicles that go beyond simple transportation.

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A Tiny Reflecting Telescope For Portable Astronomy

December 20, 2025 by Jenny List No comments

For most of us who are not astronomers, the image that comes to mind when describing a reflecting telescope is of a huge instrument in its own domed-roof building on a mountain top. But a reflecting telescope doesn’t have to be large at all, as shown by the small-but-uncompromising design from [Lucas Sifoni].

Using an off-the-shelf mirror kit with a 76mm diameter and a 300mm focal length, he’s made a pair of 3D-printed frames that are joined by carbon fibre rods. The eyepiece and mirror assembly sit in the front 3D-printed frame, and the eyepiece is threaded so the telescope can be focused. There’s a 3D-printed azimuth-elevation mount, and once assembled, the whole thing is extremely compact.

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A device within a vertical rectangular frame is shown, with a control box on the front and an LCD display. Within the frame, a grid of syringes is seen held upright beneath two parallel plates.

Building A Multi-Channel Pipette For Parallel Experimentation

December 20, 2025 by Aaron Beckendorf 1 Comment

One major reason for the high cost of developing new drugs and other chemicals is the sheer number of experiments involved; designing a single new drug can require synthesizing and testing hundreds or thousands of chemicals, and a promising compound will go through many stages of testing. At this scale, simply performing sequential experiments is wasteful, and it’s better to run tens or hundreds of experiments in parallel. A multi-channel pipette makes this significantly simpler by collecting and dispensing liquid into many vessels at once, but they’re, unfortunately, expensive. [Triggy], however, wanted to run his own experiments, so he built his own 96-channel multi-pipette for a fiftieth of the professional price.

The dispensing mechanism is built around an eight-by-twelve grid of syringes, which are held in place by one plate and have their plungers mounted to another plate, which is actuated by four stepper motors. The whole syringe mechanism needed to move vertically to let a multi-well plate be placed under the tips, so the lower plate is mounted to a set of parallel levers and gears. When [Triggy] manually lifts the lever, it raises the syringes and lets him insert or remove the multi-well. An aluminium extrusion frame encloses the entire mechanism, and some heat-shrink tubing lets pipette tips fit on the syringes.

[Triggy] had no particularly good way to test the multi-pipette’s accuracy, but the tests he could run indicated no problems. As a demonstration, he 3D-printed two plates with parallel channels, then filled the channels with different concentrations of watercolors. When the multi-pipette picked up water from each channel plate and combined them in the multi-well, it produced a smooth color gradient between the different wells. Similarly, the multi-pipette could let someone test 96 small variations on a single experiment at once. [Triggy]’s final cost was about $300, compared to $18,000 for a professional machine, though it’s worth considering the other reason medical development is expensive: precision and certifications. This machine was designed for home experiments and would require extensive testing before relying on it for anything critical.

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The map in action, along with a sample of the video feeds.

Hardware Store Marauder’s Map Is Clarkian Magic

December 20, 2025 by Tyler August 5 Comments

The “Marauder’s Map” is a magical artifact from the Harry Potter franchise. That sort of magic isn’t real, but as Arthur C. Clarke famously pointed out, it doesn’t need to be — we have technology, and we can make our own magic now. Or, rather, [Dave] on the YouTube Channel Dave’s Armoury can make it.

[Dave]’s hardware store might be in a rough neighborhood, since it has 50 cameras’ worth of CCTV coverage. In this case, the stockman’s loss is the hacker’s gain, as [Dave] has talked his way into accessing all of those various camera feeds and is using machine vision to track every single human in the store.

Of course, locating individuals in a video feed is easy — to locate them in space from that feed, one first needs an accurate map. To do that, [Dave] first 3D scans the entire store with a rover. The scan is in full 3D, and it’s no small amount of data. On the rover, a Jetson AGX is required to handle it; on the bench, a beefy HP Z8 Fury workstation crunches the point cloud into a map. Luckily it came with 500 GB of RAM, since just opening the mesh file generated from that point cloud needs 126 GB. That is processed into a simple 2D floor plan. While the workflow is impressive, we can’t help but wonder if there was an easier way. (Maybe a tape measure?)

Once an accurate map has been generated, it turns out NVIDIA already has a turnkey solution for mapping video feeds to a 2D spatial map. When processing so much data — remember, there are 50 camera feeds in the store — it’s not ideal to be passing the image data from RAM to GPU and back again, but luckily NVIDIA’s “Deep Stream” pipeline will do object detection and tracking (including between different video streams) all on the GPU. There’s also pose estimation right in there for more accurate tracking of where a person is standing than just “inside this red box”. With 50 cameras, it’s all a bit much for one card, but luckily [Dave]’s workstation has two GPUs.

Once the coordinates are spat out of the neural networks, it’s relatively simple to put footprints on the map in true Harry Potter fashion. It really is magic, in the Clarkian sense, what you can do if you throw enough computing power at it.

Unfortunately for show-accuracy (or fortunately, if you prefer to avoid gross privacy violations), it doesn’t track every individual by name, but it does demonstrate the possibility with [Dave] and his robot. If you want a map of something… else… maybe check out this backyard project.

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The ‘Hidden’ Microphone Inside The Sipeed NanoKVM

December 20, 2025 by Maya Posch 14 Comments

Recently, [Jeff Geerling] dropped into the bad press feeding frenzy around Sipeed’s NanoKVM, most notably because of a ‘hidden’ microphone that should have no business on a remote KVM solution. The problem with that reporting is, as [Jeff] points out in the video below, that the NanoKVM – technically the NanoKVM-Cube – is merely a software solution that got put on an existing development board, the LicheeRV Nano, along with an HDMI-in board. The microphone exists on that board and didn’t get removed for the new project, and it is likely that much of the Linux image is also reused.

Of course, the security report that caused so much fuss was published back in February of 2025, and some of the issues pertaining to poor remote security have been addressed since then on the public GitHub repository. While these were valid concerns that should be addressed, the microphone should not be a concern, as it’d require someone to be logged into the device to even use it, at which point you probably have bigger problems.

Security considerations aside, having a microphone in place on a remote KVM solution could also be very useful, as dutifully pointed out in the comments by [bjoern.photography], who notes that being able to listen to beeps on boot could be very useful while troubleshooting a stricken system. We imagine the same is true for other system sounds, such as fan or cooling pump noises. Maybe all remote KVM solutions should have microphone arrays?

Of course, if you don’t like the NanoKVM, you could always roll your own.

Top image: the NanoKVM bundle from [Jeff]’s original review. (Credit: [Jeff Geerling])

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Two-Wheeled Arduino Robot Project For Beginners

December 20, 2025 by John Elliot V 26 Comments

Here’s a fun build from [RootSaid] that is suitable for people just getting started with microcontrollers and robotics — an Arduino-controlled two-wheeled robot.

The video assumes you already have one of the common robotics kits that includes the chassis, wheels, and motors, something like this. You’ll also need a microcontroller (in this case, an Arduino Nano), a L293D motor driver IC, a 9 V battery, and some jumper wires.

The video goes into detail about how the two wheels connected to one motor each can move the robot in various directions: forward, backward, left, and right. The motors can be made to spin either forward or backward, depending on the polarity of the power supply, using an H-bridge circuit.

The L293D motor driver IC powers and controls the motors connected to the wheels. The L293D takes its commands from the Arduino. The rest of the video is spent going over the software for controlling the wheels.

When you’re ready to go to the next level, you might enjoy this robot dog.

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Retrocomputing: Simulacrum Or The Real Deal?

December 20, 2025 by Elliot Williams 20 Comments

The holidays are rapidly approaching, and you probably already have a topic or two to argue with your family about. But what about with your hacker friends? We came upon an old favorite the other day: whether it “counts” as retrocomputing if you’re running a simulated version of the system or if it “needs” to run on old iron.

This lovely C64esque laptop sparked the controversy. It’s an absolute looker, with a custom keyboard and a retro-reimagining-period-correct flaptop design, but the beauty is only skin deep: the guts are a Raspberry Pi 5 running VICE. An emulator! Horrors!

We’ll admit to being entirely torn. There’s something about the old computers that’s very nice to lay hands on, and we just don’t get the same feels from an emulator running on our desktop. But a physical reproduction like with many of the modern C64 recreations, or [Oscar Vermeulen]’s PiDP-8/I really floats our boat in a way that an in-the-browser emulation experience simply doesn’t.

Another example was the Voja 4, the Supercon 2022 badge based on a CPU that never existed. It’s not literally retro, because [Voja Antonics] designed it during the COVID quarantines, so there’s no “old iron” at all. Worse, it’s emulated; the whole thing exists as a virtual machine inside the onboard PIC.

But we’d argue that this badge brought more people something very much like the authentic PDP-8 experience, or whatever. We saw people teaching themselves to do something functional in an imaginary 4-bit machine language over a weekend, and we know folks who’ve kept at it in the intervening years. Part of the appeal was that it reflected nearly everything about the machine state in myriad blinking lights. Or rather, it reflected the VM running on the PIC, because remember, it’s all just a trick.

So we’ll fittingly close this newsletter with a holiday message of peace to the two retrocomputing camps: Maybe you’re both right. Maybe the physical device and its human interfaces do matter – emulation sucks – but maybe it’s not entirely relevant what’s on the inside of the box if the outside is convincing enough. After all, if we hadn’t done [Kevin Noki] dirty by showing the insides of his C64 laptop, maybe nobody would ever have known.