New APS23 and APS25 Processors Designed for “Third Wave” of Computing Devices
If you could sell 700 million units of the product you’re designing right now, would that be a success?
Seven hundred million is a big number. That’s about the total number of cars sold by all the automakers in the world combined over the past ten years. Or more than double the number of copies of Windows 8, or the number of hamburgers McDonald’s flips out in four months. As I said, a big number.
You’d think that any company responsible for such impressive product movement would be well known, right? Especially if it’s a microprocessor company? We must be talking about Intel or ARM or Freescale or Renesas?
The responsible party is a 28-person group in Montpellier, France, overlooking the blue Mediterranean. They make a 32-bit CPU for low-power devices. It’s synthesizable. It’s licensed as IP. It’s used in a lot of mobile and handheld devices.
DesignInsight Brings Unique Debugging Superpowers
I have to prepare myself any time I go to meet with Steve Teig from Tabula. Steve is a bona-fide genius, and any time I talk with him I feel like I have to have my mental running shoes tightly laced. Steve brings a level of creativity and insight to the table that one seldom encounters, and when he’s telling you about a new thing, you can bet it will be something you didn’t expect.
So, when I went to Tabula for a briefing with Steve on what has now been announced as the new DesignInsight technology, I knew it wouldn’t just be another one of your typical hum-drum, “we added a completely predictable new feature to our chips” kinda deal. I wasn’t disappointed.
Tabula, for those of you who haven’t been following along, makes programmable logic chips that are probably most closely related to FPGAs. They are similar in that they feature an array of logic cells based on look-up-tables (LUTs) that can be programmed and interconnected to perform a variety of logic functions.
How You Can Detect Substances With or Without Electronics
OK, so you’ve got this hole. A really deep hole. I mean, reaaaaally deep: some miles, perhaps. And you’d really like to know what’s down there, at least gas-wise.
Problem is, there could be lots of different things down there. You want to cover a wide range of substances – say, a hundred of them – with a single sensor to get some answers faster.
Oh, and there’s one more thing: as your sensor drops down into the hole, it’s going to pass through all kinds of materials and metals and whatnot. That’s going to play havoc with any electrical signals coming back up telling you the answers. Besides, it’s hot down there – most electronics won’t do well anyway. So… yeah, no electronics. How’s that going to work?
Contrived problem? Perhaps, but only because it abstracts a real problem that real companies have sensing the environment in areas hostile to electronics. This down-hole scenario could definitely apply to mining and oil-exploration applications with little added context.
Liquid Metal, Communication Protocols, and Embedded MCUs
We all know it's coming. It's only a matter of time. Skynet is close at hand. This week's Fish Fry takes a look at a new study released by the University of North Carolina that has made reconfigurable metal a reality. But, before we can build Skynet (or build the counter-revolutionary forces led by the one and only John Connor) we must be able to connect the IoT communication dots. Today's episode also examines two of the many building blocks needed to get this sci-fi plot line from fantasy to fact. We chat with John Beal and Artem Aginskiy about a new RF-enhanced embedded microcontroller family from Texas Instruments (SimpleLink) and TI's C5000 fixed-point DSP products.
It Is Not iWatch! Write It Ten Times: Apple Watch, Apple Watch …
Well, holy cow: when Apple does a wearable, they REALLY do a wearable. Plenty of kudos, plenty of TBDs and a few issues in the big announcement. Let’s break it down using the framework I dropped some weeks back while lamenting the state of journalism.
“My point here is that the wrist is VERY PERSONAL real estate.”
Major kudos. Apple Watch (the product formerly known as iWatch) will be available in a dizzying array of sizes, metals, colors, and bands. Apple Watch is JEWELRY. The attention to detail—even if you consider nothing but the bands—is extraordinary, even when viewed through the lens of a beautifully designed piece of jewelry. (Next time you’re in an Apple store, take a look at the wall o’ cases selected by Apple; that ought to give you a sense of how very wrong these elements could have gone.)
Hierofalcon Processor Does Pretty Much What It’s Supposed To
I really wanted to like this chip. But then I talked to the manufacturer.
Let me explain. Your humble servants here at Electronic Engineering Journal talk to a lot of people at a lot of different companies. That’s what we do. The vendors tell us about their whizzy new chip, or new software, or new business venture, or whatever. We listen politely at first, knowing that the vendor will – quite rightly – present the product in its best possible light. That’s their job.
Now, if we were working for some other publications or online journals I could name, we’d just print whatever the vendor told us. “New chip promises to revolutionize Internet of Things!” or “Software update is a game-changer!” or “Company reveals new product and you’ll never guess what happens next!” We’ve all seen those types of breathless (and brainless) headlines. But here at EEJ we like to do a little better. That’s our job.