Launch times draw near for Aalto satellites
By Jaan Praks – The Aalto-2 satellite, designed and built by students, is ready and waiting to be launched inside the Cygnus space shuttle at the Cape Canaveral Space Launch Complex in the US.
On 22 March, the shuttle will be launched with an Atlas V booster rocket up to the orbiting international space station, where the astronauts will release it later to orbit independently.
Aalto-2 will take part in the international QB50 Mission, the aim of which is to produce the first ever comprehensive model of the features of the thermosphere, the layer between the Earth’s atmosphere and space. Dozens of satellites constructed in different countries will also be part of the mission.
Construction of the Aalto-2 satellite began in 2012 as a doctoral project when the first students graduated as Masters of Science in Technology after working on the Aalto-1 project.
Since the start of the Aalto-1 project in 2010 and the Aalto-2 project two years later, around a hundred new professionals have been trained in the space sector. The impact is already visible in the growth of space sector start-up companies. more> https://goo.gl/yKLrez
Posted in Business, Construction, EARTH WATCH, Economic development, Economy, Education, Healthcare, Nature, Net, Science, Technology
Tagged Aalto University, Business improvement, Construction, Earth, Ecology, Electronics, Manufacturing, Space, Technology
By Geoff Tate – The cost and the time to design ASSP/ASIC/SoCs keeps rising.
Also, customers are demanding more flexibility in chips so their systems can be upgraded for critical changes (such as protocols/standards), which increases the useful life of their systems and increases their ROI.
For example, in data centers, customers are now seeking reconfigurability. Rather than a fork-lift upgrade when standards evolve, data centers want programmable chips so they can upgrade the data center’s ability during the life of the center without touching the hardware. This also gives the data center the option to customize for added competitive advantage. As Doug Burger of Microsoft said at a recent talk at FPL 2016, (Re)Configurable Clouds will change the world with the ability to reprogram a datacenter’s hardware protocols: networking, storage, security. Adding FPGA technology into the mix is a key in doing this. Embedded FPGA technology is now available to increase performance while lowering cost and power.
Another example is microcontrollers. In older process nodes such as 90nm where mask costs are cheap, a line card can have dozens or hundreds of versions. This offers each customer the small differences in, for example, the number and types of serial interfaces (SPI, I2C, UART, etc). However, now that leading edge microcontrollers are moving to 40nm where masks cost $1M each, microcontroller manufacturers need a programmable way to customize their chips and offer multiple SKUs. Adding this capability also opens the path for their customers to customize the MCUs themselves, similar to how they now write C code for the on-board processors. There are a few microcontrollers today, such as Cypress’ PSoC, which offer some limited customizability. However, only embedded FPGA can provide more and scalable customizability. more> https://goo.gl/9xx7sC
Posted in Broadband, Communication industry, Economic development, Education, Net, Product, Technology
Tagged Broadband, Business improvement, Electronics, FPGA, Manufacturing, Technology
By Paul Blanchard – Up to now, our technological progress has largely been a matter of trial and error. We make something new, evaluate its performance, then alter some part of the fabrication process and see whether it performs better or worse, all without direct knowledge of what is changing at the atomic level.
But if we could see what’s going on at that scale—if we could map out each individual atom and understand the role that it plays—we could create new and better materials not through blind experimentation, but through design.
For all that we’ve been able to accomplish while ignoring them, the fact is that individual atoms matter. The speed of a transistor, the efficiency of a solar cell, and the strength of an I-beam are ultimately determined by the configuration of the atoms inside. Today, new and improved microscopy techniques are getting us closer and closer to the goal of being able to see each and every atom within the materials we make—a very exciting prospect.
Over the past three years, I’ve been lucky enough to be part of a team working with one such new and improved microscopy technique, a method called 3-D atom probe tomography, or APT for short. APT is very different from conventional microscopy—at least, the sort of microscopy that I’m accustomed to. In conventional microscopy, we shine a beam of light particles or electrons on our specimen, whatever it is we want to look at, and create a magnified image using lenses or by mapping how our beam bounces off it.
In atom probe tomography, on the other hand, we don’t just look at our specimen—we literally take it apart, atom-by-atom. more> https://goo.gl/c0VdE3
Posted in Economic development, Education, How to, Nature, Science, Technology
Tagged 3-D atom probe tomography, APT, Electronics, Physics, Technology, Test & measurement
The Health Informatics Revolution
By John Toon – Using massive data sets, machine learning, and high-performance computing, health analytics and informatics is drawing us closer to the holy grail of health care: precision medicine, which promises diagnosis and treatment tailored to individual patients. The information, including findings from the latest peer-reviewed studies, will arrive on the desktops and mobile devices of clinicians in health care facilities large and small through a new generation of decision-support systems.
“There are massive implications over the coming decade for how informatics will change the way care is delivered, and probably more so for how care is experienced by patients,” said Jon Duke, M.D., director of Georgia Tech’s Center for Health Analytics and Informatics.
“By providing data both behind the scenes and as part of efforts to change behavior, informatics is facilitating our ability to understand patients at smaller population levels. This will allow us to focus our diagnostic paths and treatments much better than we could before.”
Georgia Tech’s health informatics effort combines academic researchers in computing and the biosciences, practitioners familiar with the challenges of the medical community, extension personnel who understand the issues private companies face, and engineers and data scientists with expertise in building and operating secure networks tapping massive databases.
“It takes all of these components to really make a difference in an area as complex as health informatics,” said Margaret Wagner Dahl, Georgia Tech’s associate vice president for information technology and analytics.
“This integrated approach allows us to add value to collaborators as diverse as pharmaceutical companies, health care providers, large private employers, and federal agencies.” more> https://goo.gl/63pIZd
- Climate Change: Potentially Good News on Methane and Peat Carbon, R.M. Wilson, J.P. Chanton, et al.
- Construction Begins on Transformational Coda Project, Laura Diamond
- Georgia Tech to Play Key Role in New Federally-Funded Chemical Processing Initiative, Lance Wallace
- ‘Spooky’ Sightings in Crystal Point to Extremely Rare Quantum Spin Liquid, Ben Brumfield
- Simple Processing Technique Could Cut Cost of Organic PV and Wearable Electronics, John Toon
- White House Highlights Georgia Tech-Created Computer Science Teaching Tool, Jason Maderer
- Manufacturing comes to Life, Josh Brown
- Composite Repairs Revisited, Josh Brow
- 3-D Printing Gets a Heart, Josh Brown
- Legacy Equipment Learns New Tricks, Josh Brown
- A Honey of an Idea, Shelley Wunder-Smith
- See the Unseen, Josh Brown
- Genomics Technique Could Accelerate Detection of Foodborne Bacterial Outbreaks, John Toon
- $17 Million Contract Will Help Establish Science of Cyber Attribution, John Toon
- Hybrid Approach Predicts and Confirms Structure of Complex Metal Nanoparticles, Brian E. Conn, Aydar Atnagulov, Bokwon Yoon, Robert N. Barnett, Uzi Landman, Terry P. Bigioni
- Secret Phenotypes: Disease Devils in Invisible Details, Ben Brumfield
- Actually, Men and Women Don’t Communicate Differently, at Least In Writing, Jason Maderer
- Catching Molecular Dances in Slow Motion by Adding White Noise, Ben Brumfield
- Noninvasive Visual Stimulation May Illuminate a Path for Alzheimer’s Disease Treatment, Walter Rich
- The Gift of Investment, Michael Baxter
Posted in Broadband, Business, Economic development, Economy, Education, Healthcare, Leadership, Media, Nature, Net, Science, Technology
Tagged Broadband, Business improvement, Climate change, Earth, Electronics, Georgia Tech, Industrial economy, Manufacturing, Physics
By Mike Keller – After you land, you hire an autonomous taxi to take you home. Along the way, the vehicle slips through intersections without stoplights, a technology made obsolete when robotic systems started communicating with each other in real time to avoid collisions. Meanwhile, your smartphone alerts your smart home that you’re coming, engaging its high-efficiency battery banks to power your environmental, lighting and sound preferences.
This is, of course, the future. The key to making this scenario a reality isn’t about developing crazy new technologies — much of what we need already exists. It involves ultrafast telecommunications that can shuttle massive amounts of information between millions of wirelessly connected devices at the same time. It’s also about the ability to control power quickly, seamlessly and with extreme efficiency, as well as better battery management and machines made more intelligent by the liberal deployment of sensors that help them understand the world around them. And it turns out that the critical component to all of this could be something decidedly unsexy: a switch.
We are all familiar with switches. The best-known type of switch, when moved to the on position, completes a circuit between the power source and the bulb, allowing electrons to flow and the light to glow. This same current control — with varying levels of complexity — is used in every device that needs electricity, from computers and medical equipment to big industrial machines. It’s also critical to systems that transmit and receive radio frequencies such as cellphone networks.
Amazingly, though, these electrical relays’ fundamental operation has remained relatively the same over the last 50 years.
But that’s about to change. A new company says it has brought these switches into the 21st century. Using advanced metallurgy and tricks learned from the semiconductor industry, California’s Menlo Micro has shrunk the traditional device down to the width of a human hair. The company is a spinoff of GE with significant investments from semiconductor maker Microsemi, Corning and Paladin Capital Group. It is commercializing 12 years of research inside GE Global Research, whose engineers were originally tasked with re-inventing the electromechanical switches used inside GE’s machines. more> https://goo.gl/jMf1Rr
Posted in Broadband, Communication industry, Economic development, Economy, Net, Science, Technology
Tagged Broadband, Business improvement, Electronics, GE, Switch, Technology
Boeing – The mission of the Wideband Global SATCOM (WGS) system is to provide broadband communications connectivity for U.S. and allied warfighter s around the world. WGS is the highest – capacity military communications system in the U.S. Department of Defense arsenal, providing a quantum leap in communications capability for the U.S. military.
Boeing’s investments in phased array antennas and digital signal processing, combined with innovations in the commercial satellite market, have resulte d in a flexible WGS system that
delivers the capacity, coverage, connectivity and control required by the most demanding operational scenarios.
WGS is designed for coverage, capacity and connectivity, and can process more than 3.6 gigabits per second of data – more than 10 times that of the previous system. Operating at both X-band and Ka-band, the system will enable networks for tactical Command, Control, Communications, Computers, Intelligence, Surveillance, and Reconnaissance (C4ISR).
WGS supports communication links throughout the allocated 500 MHz of X-band and 1 GHz of Ka-band spectrum. Through frequency reuse and digital channelization, each WGS payload can exploit more than 4.8 GHz of usable communications bandwidth. more> boeing.com/innovation
Posted in Broadband, Business, Communication industry, Economy, Media, Net, Science, SPACE WATCH, Technology, Transportation
Tagged Boeing, Broadband, Business improvement, Electronics, Technology, United States, WGS
Like A Diamond In The Rough, This Abrasive Material Finds Its Place In The Sun
By Mark Egan – In 1891, Edward Acheson was working at Thomas Edison’s famed Menlo Park laboratory, trying to make artificial diamonds by heating clay and powdered coke in an iron bowl with a carbon arc light. The result wasn’t pretty.
Instead of diamonds, he created silicon carbide—a hard and rough compound used for decades mostly as an abrasive in industrial sandpaper, grinding wheels and cutting tools, and later a grip tape for skateboard decks.
But Acheson’s accidental discovery is getting a second life as a miracle material for power management chips that could revolutionize everything from planes and locomotives to medical equipment. One of silicon carbide’s latest applications is inside solar inverters, the devices that switch direct current (DC) from solar panels into alternating current (AC) that flows from the wall outlet.
GE has been testing the first utility-scale prototype SiC inverter in the GE Power Conversion lab in Berlin for the past two years.
The technology included in the LV5+ Solar eHouse Solution solves another quandary facing solar plants—how to turn power plant transformers on and off safely. Shutting them down at night can cause voltage spikes, and reconnecting them to the grid produces a large inflow of current, putting mechanical stress on equipment and shortening its life.
As a result, many operators leave equipment on overnight, consuming a couple of kilowatts while the inverter is not producing power during the nighttime hours—a cost of $800,000 over a 100MW plant’s life.
Using intelligent controls, the LV5+ equalizes the voltage at the transformer and at the grid, allowing transformers to be connected or disconnected smoothly and cleanly.
The end result is more cost savings for customers, Schelenz says. more> https://goo.gl/OB1eYf
Posted in Broadband, Economic development, Economy, Energy, History, Product, Science, Technology
Tagged Business improvement, Electronics, GE, Industrial economy, Silicon carbide, Technology