Biological storage

Recent news (1) that University of Washington researchers have successfully stored and retrieved data using DNA molecules is exciting. As the world accumulates data - already many tens of millions of gigabytes, growing at an alarming rate, storage capacity and efficiency are becoming top priorities in computing. With material sciences still lagging and computer scientists clinging to the Silicon status-quo, it is important that the field takes a biological direction. After all, nature has coded and retrieved complex information for ever. Using the same mechanism is likely a few orders of magnitude more efficient than what is currently available.

DNA, the most important biological breakthrough over four billion years, has been almost incomprehensible for humans, arguably, the best product of evolution. Lately, however, they have been able to understand it a bit better. Although some argues that the human genome map is the end game, it is likely that it is just a humble beginning. The multi factorial flexibility afforded by the DNA molecule may allow newer ways to store binary data, making it akin to the other belated innovation - quantum computing. Here, thus far, research focused on mechanistic attempts to force fit the idea into the Silicon matrix. Taking a biological route, perhaps aided by the best functioning quantum computer, the human brain, may be a more profitable path.

Biology could accelerate lagging innovation in material sciences and computer science.

(1) http://esciencenews.com/articles/2016/04/07/uw.team.stores.digital.images.dna.and.retrieves.them.perfectly

Bacteria rising

Recent research from Michigan State University (1) that demonstrates the rise of multi-drug resistant bacteria due to overuse of antibiotics in animals is troubling. It has long been known that flu originates in farms with multi-species interactions. As mentioned in the article, the swine farms in China are particularly problematic as they allow easy gene transfers among bacteria. This, in conjunction with lack of antibiotics research for decades due to declining commercial economics, could result in a perfect storm. 

Bacteria have been dominant all through the history of the planet. Robust architecture with fast evolution by sheer numbers, led them to largely supersede any other biological life form on earth. For the past several decades, they have been put on the back foot, for the first time, by humans. All they need, however, are sufficient number of trials to develop resistance against any anti-bacterial agent. Data shows that they are well on their way, thanks to a variety of experiments afforded to them by inter-species breeding and the overuse of known agents. 

The economics of this indicates that commercial organizations are unlikely to focus on it till it is too late. If R&D, commercial or publicly funded, is not focused on this developing problem, we may be heading toward a regime that may make Ebola look like a household pet. In a highly connected world of intercontinental travel, it is easy for the single cell organism to hitch a ride to anywhere they would like to go. Thus, local efforts are not sufficient and a true global push is needed to compete against the abundant experience, collected over four billion years.

R&D prioritization at the societal level needs to take into account the downside risk and value of investments. 

(1) http://esciencenews.com/articles/2016/04/12/antibiotic.resistance.genes.increasing

Hole in the soul

The super-void, that presented itself in the background radiation, sporting a size of close to two billion light years, has baffled scientists. A few years after its discovery, no reasonable explanation is forthcoming. The standard model, that most still pin their research on, has shown so many cracks that scientists who adhere to it are beginning to look like economists, who have similar difficulty letting go of established theories. Hunting in the particle forest, either to propose new ones or to prove the hypothesized ones indeed exist, has been the favorite past-time of physicists. Recently, they even measured the reverberation of gravity waves, generated by an event over billion years ago, to the tune of the diameter of a proton. Now, it is nearly impossible to disprove anything in Physics.

Biologists and chemists are in the same spot. Technology is advancing so fast that scientists are running out of hypotheses to prove. There are so many engineers and technologists, pumped out by the elite educational institutions around the world, who stand ready to prove anything in science. We are fast approaching a regime of dearth of ideas and an oversupply of proofs. Is this what was envisioned a few decades ago by visionary scientists, who predicted a future in which there would be nothing more to prove. If so, it would be bleak, indeed.

Creating hypotheses, a skill that was left undernourished for a few decades, may need to be brought back.

Return to hardware

Hardware design has been losing luster for many decades in the world of computers. Software has been riding high, partly aided by hype and partly due to the younger crowd plunging deep into apps to make a quick buck and associated fame. Monopolies have been created on inferior operating
systems and office automation, while those who are opposed to it have been chasing public domain noise. Even educational institutions, following the latest ephemeral trends, with half lives of runway fashions, have been churning out courses with little utility for the future. Some have been putting content on-line and others still want students to toil under fluorescent lighting on wooden desks, while picking up the skills of the future.

Computer science has gone astray. Humans, susceptible to incrementalism, have been chasing false dreams on antiquated frameworks. Just as their predecessors, modern humans always attempt to scale inferior performance by massive parallel processing. They stack circuits ever closer and they network computers ever larger in an attempt to squeeze out performance, Meanwhile, software companies, hungry for speed and scope have created clouds of silicon that appear to suck up most of the production capacity in energy. Data have been accumulating in warehouses, some never to see the light of day and others, creating havoc and panic in complex organizations. Economists often worry about bubbles, for some are not so sanguine about rationality but technologists never dream of a software bubble as they presuppose such conditions.

It's time to leave synthesized voices, fake artificial intelligence and bleak games behind and return to hardware. Without two orders of performance improvement, there are very few apps that would move humanity and that can only come from practical quantum computing. Notwithstanding the much anticipated version X of existing operating systems and mobile phones, without innovation in hardware, humans will swim in a sea of mediocrity for ever. There are glimmers of hope, however. Recent news that larger quantum circuits could be built in more direct ways (1) is encouraging.

Educational institutions have an obligation to move society to the future and not just following trends that will fill up class rooms - physical or virtual.


(1) http://esciencenews.com/articles/2016/03/26/unlocking.gates.quantum.computing