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This week, scientists at IBM Research and the California Institute of Technology announced a scientific advancement that could be a major breakthrough in enabling the semiconductor industry to pack more power and speed into tiny computer chips, while making them more energy efficient and less expensive to manufacture. IBM is a leader in solid-state technology, and this scientific breakthrough shows promise.
But first, a discussion of how solid-state chips are made in the first place. Basically, a round thin wafer is etched using [photolithography] with lots of tiny transistor circuits. The same chip is repeated over and over on a single wafer, and once the wafer is complete, it is chopped up into little individual squares. Wikipedia has a nice article on [semiconductor device fabrication], but I found this [YouTube video] more illuminating.
Up until now, the industry was able to get features down to 22 nanometers, and were hitting physical limitations to get down to anything smaller. The new development from IBM and Caltech is to use self-assembling DNA strands, folded into specific shapes using other strands that act as staples, and then using these folded structures as scaffolding to place in nanotubes. The result? Features as small as 6 nanometers. How cool is that? While NAND Flash Solid-State Drives are available today, this new technique can help develop newer, better technologies like Phase Change Memory (PCM).
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Back in June, I mentioned this blog was [Moving to MyDeveloperWorks] which is based on IBM Lotus Connections. Finally, the move is complete for all bloggers. If you are having problems with the redirects, you might need to unsubscribe and re-subscribe in your RSS feed reader. Here are the new links for several IBM bloggers that have moved over:
Let me know what you think of the "XIV" color scheme of Black and Orange. I have not yet "tricked out" the template with all the latest bells and whistles, widgets and so on, that is still work to do.
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Well, it's Tuesday, and you know what that means? IBM announcements!
Today we had several for the IBM System Storage product line. Here are some of them:
technorati tags: IBM, DS8000, thin provisioning, Linux, UNIX, Windows, zHPF, z/OS, XIV, SMI-S, asynchronous mirroring, TSM, LDAP, SVC, TS7650, deduplication, dedupe, replication, GPFS, supercomputers, cloud computing, cloud storage, burning man[Read More]
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As I mentioned in my post [Moving Over to MyDeveloperWorks], those of us bloggers on IBM's DeveloperWorks are moving over to a new system called "MyDeveloperWorks" which has a host of new features.
Fortunately for me, I missed the note to volunteer to be one of the first bloggers on the block to volunteer to move over. I was traveling and decided not to deal with it until I got back.However, fellow IBM Master Inventor, Barry Whyte, was not so lucky. It is safe to say he was stupid enough to volunteer, and is probably regretting the decision every day since. In case you lost his RSS feed, or can't find him anymore on Google or whatever search engine, here is his[new blog].
Today, he posted an interesting discussion on [SVC Split Cluster - How it works].
As for my blog, I have asked to postpone the move until all the problems that Barry has encountered are resolved. That might be a awhile, but if you lose access to mine sometime in the near future, hopefully at least you have been warned as to what might have happened.Read More]
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Continuing this week's theme of doing important things without leaving town, I present our results foran exciting project I started earlier this year.
For seven weeks, my coworker Mark Haye and I voluntarily led a class of students here in Tucson, Arizona in an after-school pilot project to teach the ["C" programming language] using [LEGO® Mindstorms® NXT robots]. The ten students, boys and girls ages 9 to 14 years old, were already part of the FIRST [For Inspiration and Recognition of Science and Technology] program, and participated in FIRST Lego League[FLL] robot competitions.Since the students were already familiar building robots, and programming them with a simple graphical system of connecting blocks that perform actions. However, to compete in the next level of robot competitions, FIRST Tech Challenge [FTC],we need to leave this simple graphical programming behind, and upgrade to more precise "C" programming.
Mark is a software engineer for IBM Tivoli Storage Manager and has participated in FLL competitions over the past nine years. This week, he celebrates his 25th anniversary at IBM, and I celebrate my 23rd. The teacher, Ms. Ackerman, and the students referred to us as "Coach Mark" and "Coach Tony".
This was the first time I had worked with LEGO NXT robots. For those not familiar with these robots, you can purchase a kit at your localtoy store. In addition to regular LEGO bricks, beams, and plates, there are motors, wheels, and sensors. A programmable NXT brick has three outputs (marked A,B, and C) to control three motors, and four inputs (marked 1,2,3,4) to receive values from sensors. Programs are written and compiled on laptops and then downloaded to the NXT programmable brick through an USB cable, or wirelessly via Bluetooth.
We used the [RobotC programming firmware] and integrated development environment (IDE) from [Carnegie Mellon University].The idea of this pilot was to see how well the students could learn "C". With only a few hours after class on each Wednesday, could we teach young students "C" programming in just seven weeks?
My contribution? I have taught both high school and college classes, and spent over 15 years programming for IBM, so Mark asked me to help.We started with a basic lesson plan:
At the completion of these seven weeks, I sat down to interview "Coach Mark"on his thoughts on this pilot project.
This is a practical programming skill. The "C" language is used throughout the world to program everything from embedded systems to operating systems, and even storage software. This would allow the robots to handle more precise movements, more accurate turns, and more complicated missions.
Can kids learn "C" in only seven weeks?
Part of the pilot project was to see how well the students could understand the material. They were already familiar with building the robots, and understood the basics of programming sensors and motors, so we were hoping this was a good foundation to work from. Some kids managed very well, others struggled.
Did everything go according to plan?
The first two weeks went well, turning on motors and having robots move forward and backward were easy enough. We seemed to lose a few students on week 3, and things got worse from there. However, several of the students truly surprised us and managed to implement very complicated missions. We were quite pleased with the results.
What kind of problems did the kids encounter?
Touch sensor required loops waiting for pressing. Motors did not necessarily turn as expected until more advanced methods were used. Making 90 degree left and right turns accurately was more difficult than expected.
Any funny surprises?
Yes, we had a Challenge Map representing the Mars planetary surface from a previous FLL competition that was dark red and divided into squares with thick black lines. An active light sensor returns a value of "0" (complete darkness) to "100" (bright white).However, the Mars surface had craters that were dark enough to be misinterpreted as a black line causing some unusual results. This required some enhanced programming techniques to resolve.
Did robots help or hurt the teaching process?
I think they helped. Rather than writing programs that just display "Hello World!" on a computer screen, the students can actually see robots move, and either do what they expect, or not!
And when the robots didn't do what they were expected to?
The students got into "debug" mode. They were already used to doing this from previous FLL competitions, but with RobotC, you can leave the USB cable connected (or use wireless Bluetooth) and actually gather debugging information while the robot is running, to see the value of sensors and other variables and help determine why things are not working properly.
Any applicability to the real world of storage?
We have robots in the IBM System Storage TS3500 tape library. These robots scan bar code labels, pull tapes out of shelves and mount them into drives.The programming skills are the same needed for storage software, suchas IBM Tivoli Storage Manager or IBM Tivoli Storage Productivity Center.
The world is becoming smarter, instrumented with sensors, interconnected over a common network, and intelligent enough to react and respond correctly. The lessons of reading sensor values and moving motors can be considered the first step in solutions that help to make a smarter planet.Read More]