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.
Altera Redefines Non-volatile FPGAs
The venerable CPLD (Complex Programmable Logic Device), forefather of today’s flourishing FPGA and programmable logic industry, died peacefully in its sleep last night of natural causes. No memorial services are planned. The CPLD is survived by an incredible array of modern, capable devices that take the concept of programmable hardware to places never envisioned by the stately senior sum-of-products statesman.
If you visit the Wikipedia page for “CPLD” you will find a picture of an Altera MAX device (EPM7128), a 2,500 gate-equivalent, 128 macrocell “second generation” CPLD (or “EPLD” as the company was spinning it in those days) which, according to the datasheet, was capable of implementing “complete system-level designs.” That is, of course, if you were designing a “system” that could be implemented in well under 2,500 gates, was all digital, and had a 2-digit number of IOs.
Newer Tools Let You Do More than Just Electronics
Welcome to autumn. It’s usually a busy season – although the activity typically starts more with the onset of September and the resumption of school than with the equinox. But it also comes on the heels of a quiet season, even in the overworked US.
And EDA has seemed moderately quiet. So I started looking around to see what I might have been missing, and I’m not sure there’s a lot. But it did get me musing on why things might be quiet for the moment as well as what fills the gap – which gets to the topic of what qualifies as EDA. It’s more than you might think.
At the risk of being obviously over-simple, the legions of coders in EDA-land are doing one of two things: building new technologies or improving on old ones. The new technology category might include support for FinFETs or multi-patterning or the design kits for the latest silicon node. The improvement side of the tree is where performance and capacity and usability are juiced up – all in the name of productivity, of course.
The Cadence of IoT and the Sound of a Single Atom
The music is loud, the rhythm - infectious, but it's the backbeat that has us tapping our toes and coming back for more. We're all jamming to the same IoT tune, but what keeps the cadence in 4/4 time? My guest this week is Phil Callahan from Silicon Labs and we discuss this dance called IoT, from the internet infrastructure laying down its chord progression to the super cool demo solos Silicon Labs will be showing at this year's X-fest. Also this week, we check out another musical melody that has finally revealed...the sound of a single atom.
What Does the Future Hold for the Semiconductor Industry?
When I looked at the forecasts from London-based analysis company Future Horizons this time last year (Malcolmy: Entrails, Crystal Balls and Spreadsheets), I saw that they predicted that, while short-term (through 2014) sales volumes were set to increase, the long-term future of the industry was looking a little less than rosy. A year on, the picture Malcolm Penn, the MD of Future Horizons, is painting is much the same, with the pessimism for the long term even more marked.
First - the good news: Penn has revised upwards his forecast for the number of ICs shipping. His downside forecast shows growth of 9.8% and his upside predicts growth of 11.2%. For 2015 he is going for 15% growth, perhaps more.
Foundation Aims to Prevent MIPS Fragmentation
If a microprocessor is nothing but a machine that executes software, then it’s probably important to make sure that all of the machines are compatible with all of the software. That’s a lot harder than it sounds.
Some CPU families have a long and storied history of binary compatibility. Intel’s x86 architecture comes to mind, because of its slavish devotion to binary compatibility dating back to the 1970s. Love it or hate it, at least you know that every x86 processor ever made will run any x86 program ever written. It’s a huge burden to bear, lugging all of that ‘70s-era baggage around, but it’s also one of the architecture’s greatest strengths.