NVIDIA 1060 with Udoo Single Board Computer

Single Board Computer Plays Nice With NVIDIA GPU

November 10, 2018 by Drew Littrell 39 Comments

It’s about convenience when it comes to single board computers. The trade-off of raw compute power for size means the bulk of them end up being ARM based, but there are a few exceptions like the x86 based Udoo Ultra. The embedded Intel 405 GPU on the Udoo Ultra is better than most in the category, but that won’t begin to play much of anything outside of a browser window. Not satisfied with “standard” [Matteo] put together his build combining an Udoo x86 Ultra with a NVIDIA 1060 GPU. It seems ridiculous to have an expansion card almost three times longer than the entire computer its attached to, but since when did being ridiculous stop anyone in the pursuit of a few more polygons?

M.2 adapter board trim comparison — M.2 to PCIe adapter board (Top) Trimmed adapter board (Bottom)

Since the Udoo Ultra doesn’t feature a PCIe slot [Matteo] slotted in a M.2 to PCIe adapter board. There are two PCIe lines accessible by the Udoo Ultra’s M.2 port although trimming the adapter board was required in order to fit. The PCIe female slot was cut open to allow the 1060 GPU to slide in. All of the throughput of the 1060 GPU wouldn’t be utilized given the Udoo Ultra’s limitations anyway.

Windows 10 was the OS chosen for the machine so that all those NVIDIA drivers could be installed, and there’s also the added benefit of being able to sneak in a little Trackmania Turbo too. So to accompany the build, [Matteo] created a graphics comparison video to show the remarkable improvement over the embedded graphics chip. You can see the Time Spy benchmark results in the video below.

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What’s Inside That New Mac Mini Anyway?

November 10, 2018 by Drew Littrell 65 Comments

It’s been four long years since Apple has refreshed their entry-level desktop line. Those that have been waiting for a redesign of the Mac Mini can now collectively exhale as the Late 2018 edition has officially been released. Thanks to [iFixit] we have a clearer view of what’s changed in the new model as they posted a complete teardown of the Mac Mini over on their website.

One of the most welcomed changes is that the DDR4 RAM is actually user upgradeable this time around. Previously RAM was soldered directly to the motherboard, and there were no SO-DIMM slots to speak of. The 2018 Mac Mini’s RAM has also been doubled to 8GB compared to the 4GB in the 2014 model. Storage capacity may have taken a hit in the redesign, but the inclusion of a 128GB PCIe SSD in the base model fairs better than the 500GB HDD of old. The number of ports were flip-flopped between the two model generations with the 2018 Mini featuring four Thunderbolt ports along with two USB 3.0 ports. Though the biggest upgrade lies with the CPU. The base 2018 Mac Mini comes with a 3.6GHz quad-core Intel Core i3 as compared to the 2014’s 1.4GHz dual-core Intel Core i5.

Although Apple lacked “the courage” to drop the 3.5mm headphone jack this time around, they did retain the same footprint for Mac Mini redesign. It still provides HDMI as the default display out port, although the additional Thunderbolt ports provide additional options via an adapter. A quick overview of the spec differences between the 2018 and 2014 base Mac Mini models have been summarized below.

Model	2018 Mac Mini	2014 Mac Mini
CPU	3.6GHz quad-core Intel Core i3	1.4GHz dual-core Intel Core i5
Storage	128GB PCIe SSD	500GB HDD
RAM	8GB DDR4 @ 2666MHz	4GB DDR3 @ 1600MHz
Graphics	Intel UHD 630	Intel HD 5000
Ports	Thunderbolt 3 (x4), USB 3.0 (x2)	Thunderbolt 2 (x2), USB 3.0 (x4)
Card Slot	N/A	SDXC
WiFi	802.11a/b/g/n/ac	802.11a/b/g/n/ac
Audio	3.5mm Headphone Jack	3.5mm Headphone Jack
Video	HDMI	HDMI
Price	from $799	from $499

Source [MacWorld]

Back To School Online

November 10, 2018 by Al Williams 6 Comments

In 1961, FCC Commissioner [Newt Minow] famously described TV as a “vast wasteland.” But TV can do great things; educational programming, news coverage, and great performances do appear, just not all that often. You can draw the same parallels to the Internet. Sure, it’s mostly cat pictures, snarky comments, and posts of what your friends had for dinner. But it can also be a powerful tool, especially for education. Recently, top-name schools and other institutions have posted courses online for everything from Python to Quantum Mechanics to Dutch. The problems are finding these classes and figuring out which ones are gems and which are duds. A site called Class-Central aims to solve these problems.

The site aggregates class descriptions from a variety of sources like edX, Coursea, and more. Users can rate the classes. Many of these courses are free to take. The recent trend is to offer the content for free, but charge for people who want an assessment, such as a certificate of completion or even a full-blown degree. Even then, the cost is typically far less than traditional college costs.

There’s also news about courses. For example, a recent post highlighted that edX now offers nine online master’s degrees in conjunction with major schools. A computer science masters from the University of Texas, for example, runs about $10,000. A Georgia Tech cybersecurity masters degree costs even less. There are another seven not ready yet, including one for electrical engineering.

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What Good Are Counterfeit Parts? Believe It Or Not, Maybe A Refund

November 10, 2018 by Donald Papp 60 Comments

[Charles Ouweland] purchased some parts off Aliexpress and noticed that the Texas Instruments logo on some of his parts wasn’t the Texas Instruments logo at all, it was just some kind of abstract shape that vaguely resembled the logo. Suspicious and a little curious, he decided to take a closer look at the MCP1702 3.3v LDO regulators he ordered as well. Testing revealed that they were counterfeits with poor performance.

Left: counterfeit part. Right: genuine Microchip MCP1702-3302

Looking at the packages, there were some superficial differences in the markings of the counterfeit MCP1702 versus genuine parts from Microchip, but nothing obviously out of place. To conclusively test the devices, [Charles] referred to Microchip’s datasheet. It stated that the dropout voltage of the part should be measured by having the regulator supply the maximum rated 250 mA in short pulses to avoid any complications from the part heating up. After setting up an appropriate test circuit with a 555 timer to generate the pulses for low duty cycle activation, [Charles] discovered that the counterfeit parts did not meet Microchip specifications. While the suspect unit did output 3.3 V, the output oscillated badly after activation and the dropout voltage was 1.2 V, considerably higher than the typical dropout voltage of 525 mV for the part, and higher even than the maximum of 725 mV. His conclusion? The parts would be usable in the right conditions, but they were clearly fakes.

The usual recourse when one has received counterfeit parts is to dump them into the parts bin (or the trash) and perhaps strive to be less unlucky in the future, but [Charles] decided to submit a refund request and to his mild surprise, Aliexpress swiftly approved a refund for the substandard parts.

While a refund is appropriate, [Charles] seems to interpret the swift refund as a sort of admission of guilt on the part of the reseller. Is getting a refund for counterfeit parts a best-case outcome, evidence of wrongdoing, or simply an indication that low value refund requests get more easily approved? You be the judge of that, but if nothing else, [Charles] reminds us that fake parts may be useful for something perhaps unexpected: a refund.

Making Colored Smoke Devices, The Right Way

November 10, 2018 by Lewin Day 15 Comments

Pyrotechnics are fun, and, with the proper precautions taken, safe enough to play with at home (usually). While it’s typical to purchase fireworks and smoke devices off the shelf, it’s actually possible to brew these up in a properly stocked home lab. [Tech Ingredients] is here to share the techniques behind producing your own super vibrant colored smoke devices at home.

Producing colored smoke requires a slightly different tack than making a simpler white smoke device. Colored smokes use dyes that are temperature sensitive, and thus the reaction temperature must be controlled carefully. This is achieved by choosing a potassium chlorate oxidiser, and combining it with magnesium carbonate and sodium bicarbonate, which help stop the reaction getting too hot. Sugar is used as the primary fuel, with both lactose and sucrose being fit for purpose. Color is then added with solvent-based dyes, readily sourced online. These are stable at higher temperatures than typical water-based food grade dyes, and thus are the best choice for creating thick, vibrant colored smoke.

[Tech Ingredients] does a great job of explaining both the theory behind the work, as well as the practical considerations necessary to be successful. The video is the result of much experimentation and work off-camera, which shows in the final presentation. If you’ve been working on your own pyrotechnic creations, be sure to hit up the tips line. Video after the break.

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E-Mail Service Claims It Doesn’t Store Your Mail

November 10, 2018 by Al Williams 28 Comments

There have been many news stories lately about companies misusing your data, including your e-mails. What’s more, these giant repositories of data are favorite targets for hackers. Even if you trust the big corporations, you are also betting on their security. Criptext claims they have (possibly) the most private e-mail service ever. It uses the open Signal protocol and stores private keys and encrypted mail only on your device. All the applications to access your mail are open source, so presumably, someone would eventually spot any backdoors or open holes.

At the moment the service is free and the company reports that even when a paid offering is ready, there will still be a free tier. Of course, you can send and receive normal e-mail, too. You can also use a passphrase you send to someone else (presumably not by e-mail) so they can read an encrypted message.

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An Englishman’s Home Is His (Drone-Defended) Castle

November 9, 2018 by Jenny List 24 Comments

Retiring to the garden for a few reflective puffs on the meerschaum and a quick shufti through the Racing Post, and the peace of the afternoon is shattered by the buzz of a drone in the old airspace,what! What’s a chap to do, let loose with both barrels of the finest birdshot from the trusty twelve-bore? Or build a missile battery cunningly concealed in a dovecote? The latter is what [secretbatcave] did to protect his little slice of England, and while we’re not sure of its efficacy we’re still pretty taken with it. After all, who wouldn’t want a useless garden accoutrement that conceals a fearsome 21st century defence system?

The basic shell of the dovecote is made from laser cut ply, in the shape of an innocuous miniature house. The roof is in two sliding sections which glide apart upon servo-controlled drawer runners, and concealed within is the rocket launcher itself on a counterweighted arm to lift it through the opening. The (toy) rocket itelf is aimed with a camera pan/tilt mechanism,and the whole is under the control of a Raspberry Pi

It’s understood that this is a rather tongue-in-cheek project, and the chances of any multirotors falling out of the sky are somewhat remote. But it does serve also to bring a bit of light back onto a theme Hackaday have touched upon in previous years, that of the sometimes uneasy relationship between drone and public.