The Next Big Thing
Posts about next generation technologies and their effect on business.

HP Matter: Healthcare

Mobile Healthcare.pngEarlier this month HP released a Healthcare industry specific issue of its HP Matter e-magazine that is created in partnership with FastCompany.

 

This joint activity covers a wide range of design, culture, experience and trending issues. For example:

Just to name a few of the articles. This wide-ranging set of material is taking the previous industry specific material to a whole new level from a range of perspectives. Next month will be focused on the Telecom industry.

A new dimension of sensing for smartphones?

 

molecule2.pngIEEE Spectrum had an interesting article about Tricorder-like Mobile Phones Enabled by Nanotechnology. It the article it describes how spectrometer-like capabilities could be built into it. For some people, it could change the whole view of the value of the smartphone.

 

Similar to phones having special modes for sports or low light photography, they could have modes for sensing the ripeness of fruit based on the gases given off (Ethylene). They may even be useful in detecting illnesses, like diabetes. There is even an Xprize in this space. HP labs did some work on this kind of sensing as well.

 

Now if you only had the battery life to make it through the day.

 

NanoTech and new ways to compute

I recently came across an HP labs video on the excitement of one of the researchers on next wave developing to compute and gather information.

 

 

It shows some of the efforts to be more efficient and yet more powerful. Innovation’s role is in resolving conflicts like this, and that’s exciting.

 

The whole industry is at a tipping point where new generations of capability will be arriving simultaneously for computing, storage, networking and sensing… which should allow for a novel, innovative dimension of applications and services to take advantage of the new abilities and generate new levels of business value.

Relays instead of transistors?!

This month’s IEEE Spectrum had an interesting feature about the use of MEMS switches instead of transistors for low power computing.

 

“It turns out that the best way to design a digital relay circuit block is to take a page from the first half of the 20th century, when large discrete relays were still used to build computers. Instead of grouping the nanorelays into discrete simple gates, as you would do with transistors, the best approach is to arrange many of them in series and in parallel to make as few gates as possible. If all the devices can be arranged into one single gate, all the nanorelays can be switched simultaneously, and the time required to perform any function is reduced to a single mechanical delay.”

 

They are not nearly as fast, but they consume significantly less power, one of the constraints that prevents putting computing and sensing into many situations. It will be interesting to see where this leads.

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About the Author(s)
  • Steve Simske is an HP Fellow and Director in the Printing and Content Delivery Lab in Hewlett-Packard Labs, and is the Director and Chief Technologist for the HP Labs Security Printing and Imaging program.
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