By Lisa Grossman
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While the Winter Olympics are going on, here’s.
A story of mine on the dream of a future Transhumanist Olympics: https://www.huffingtonpost.com/zoltan-istvan/is-it-time-for-…77194.html #transhumanism
Oracle Team USA made a historic comeback to beat Emirates Team New Zealand in the American’s Cup in San Francisco last month. I have closely followed the sport of sail racing for over 30 years, and what astonishes me is how much faster and better the boats are today than they were three decades ago. Sailing speeds and performances have doubled in some cases.
The same cannot be said about most other major sports. Even Michael Phelps, considered by many the greatest living athlete, is only a few seconds faster than swimming world records set 30 years ago. Most sports have not allowed scientific improvements or technology upgrades to their athletes and the equipment they use. I find that disappointing.
This month, the power of artificial intelligence will be coming to more augmented reality developers as a leader in the game and 3D software development space and a major force behind the current school of cloud-based AI have officially announced a new partnership.
In a post on Unity’s website on Tuesday, the company revealed a partnership with computing giant IBM to launch the IBM Watson Unity SDK. This programming interface will open up new cloud-based AI services for developers to use in their applications. And, with AR and AI having become increasingly intertwined technologies, this is only good news for AR developers.
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A study on dozens of galaxies within several billion light years of our own has revealed black holes that far exceed our expectations on just how big these monsters can grow.
The discovery not only helps us better understand the evolution of our Universe’s building blocks, it leaves us with a new intriguing question – just how do black holes like these get to be so incredibly massive?
By now, the collapsed cores of massive stars known as black holes need no introduction. We’ve heard about their cosmic crashes rippling space-time, watched them belch, and expect to capture the closest look yet at their nature very soon.
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Scientists from the University of Washington and Microsoft are improving their system for preserving digital data in strands of synthetic DNA — and they’re giving you the chance to participate.
The UW-Microsoft team laid out the method in a research paper published this week in Nature Biotechnology.
For the experiment described in the paper, text files as well audio, images and a high-definition music video featuring the band OK Go were first digitally encoded, and then converted into chemical coding — that is, adenine, thymine, cytosine and guanine, which make up the ATCG alphabet for DNA base pairs.
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