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Math

Submission + - World's Subways Share Common Mathematical Structure

Submitted by
Hugh Pickens writes
Hugh Pickens writes writes: "No two subway systems have the same design. New York City’s haphazard rail system differs markedly from the highly organized Moscow Metro, or the tangled spaghetti of Tokyo’s subway network. Now BBC reports that a study analyzing 14 subway networks around the world has discovered that the distribution of stations within each of the subway networks, as well as common proportions of the numbers of lines, stations, and total distances seem to converge over time to a similar structure regardless of where the networks were, when they were begun, or how quickly they reached their current layout. "Although these (networks) might appear to be planned in some centralized manner, it is our contention here that subway systems like many other features of city systems evolve and self-organize themselves as the product of a stream of rational but usually uncoordinated decisions taking place through time," write the study authors. The researchers uncovered three simple features that make subway system topologies similar all around the world. First, subway networks can be divided into a core and branches, like a spider with many legs. The “core” typically sits beneath the city’s center, and its stations usually form a ring shape. Second, the branches tend to be about twice as long as the width of the core. The wider the core, the longer the branches. Last, an average of 20 percent of the stations in the core link two or more subway lines, allowing people to make transfers. "The apparent convergence towards a unique network shape in the temporal limit suggests the existence of dominant, universal mechanisms governing the evolution of these structures.""
Facebook

Submission + - Facebook Adds 96 Million Shares to IPO, Raising Value to $18.4bn (ibtimes.co.uk)

Submitted by AlistairCharlton
AlistairCharlton writes: Facebook has made yet another amendment to its S-1 filing, adding a further 96 million shares, pushing its initial public offering up to a potential maximum of $18.4bn (£11.5bn).

In what is the eighth amendment to its S-1 filing with the Securities and Exchange Commission, Facebook has also increased the number of shares allowed for over allotment, up from 50.6 million to 63.2 million.
Wikipedia

Submission + - Kevin Bacon Meets Wikipedia With New Pathfinding Program (oracleofwikipedia.com)

Submitted by BLT2112
BLT2112 writes: Inspired by The Oracle of Bacon (oracleofbacon.org), The Oracle of Wikipedia (oracleofwikipedia.com) finds the shortest path between two Wikipedia articles, as in Wikipedia Golf. As explained in the site, "One selects one article as the tee and another article as the hole and then completes the course between them clicking as few links as possible. No typing is allowed. . . . The Oracle also allows you to search for the most challenging potential Wikipedia Golf courses. Can you find a longer course and merit a place in the 'records' section?"
IOS

Submission + - Popular "Circle" app steals your Address Book (reddit.com)

Submitted by
trustrdude
trustrdude writes: "We recently discovered that the "Circle" social networking app for iPhone steals your entire address book without asking permission or notifying the user of such actions. Further more, it steals the address book via an unencrypted connection therefore exposing it to anyone listening on the connection. So be careful using this app especially on a public wifi.

"Circle" app: http://itunes.apple.com/us/app/circle-whos-around-you/id488720081?mt=8

[Warning issued by TrustR iOS security]"
Science

Submission + - Study: Sugar Makes You Stupid (scienceworldreport.com)

Submitted by fishmike
fishmike writes: Attention, college students cramming between midterms and finals: Binging on soda and sweets for as little as six weeks may make you stupid.

A new UCLA rat study is the first to show how a diet steadily high in fructose slows the brain, hampering memory and learning — and how omega-3 fatty acids can counteract the disruption. The peer-reviewed Journal of Physiology publishes the findings in its May 15 edition.
ISS

Submission + - Star City and the Baikonur Cosmodrome (theatlantic.com)

Submitted by zyborg
zyborg writes: 44 photographs of the Baikonour Cosmodrome used by the ISS program. Photographs range from training, launch vehicle transport and assembly, launch, touchdown, pictures from space, etc. From the article "Earlier today, a Soyuz-FG rocket lifted off from the Baikonur Cosmodrome in Kazakhstan, carrying an International Space Station (ISS) crew into orbit. Baikonur, Russia's primary space launch facility since the 1950s, is the largest in the world, and supports multiple launches of both manned and unmanned rockets every year. With the U.S. manned space program currently on hold, Baikonur is now the sole launching point for trips to the ISS. Gathered here is a look at the facility, some of the cosmonaut training programs in Star City outside of Moscow, and a few recent launches and landings — plus a bonus: 3 spectacular long-exposure images of Earth from the ISS".
Google

Submission + - Facebook advertising failing to click with users (computing.co.uk)

Submitted by Anonymous Coward
An anonymous reader writes: A new study examining the effectiveness of advertising on Facebook has indicated that it is up to eight times less effective than more conventional web advertising via Google
United States

Submission + - F.D.A. Panel Backs First Rapid, Take Home H.I.V. Test (nytimes.com)

Submitted by
TheGift73
TheGift73 writes: "American consumers may soon be able to test themselves for the virus that causes AIDS in the privacy of their own homes, after a panel of experts on Tuesday recommended approval of the first rapid, over-the-counter HIV test.

The 17 members of the Food and Drug Administration advisory panel voted unanimously that the benefits of the OraQuick HIV test outweigh its potential risks for consumers. While the test, which uses a mouth swab to return a result in 20 minutes, does not appear to be as accurate as professionally-administered diagnostics, panelists said it could provide an important way to expand HIV testing.

The FDA will make its final decision on whether to approve the product later this year, weighing the opinion of the panel."
AMD

Submission + - CPU competition heating up in 2012? (eejournal.com)

Submitted by
jd
jd writes: "2012 promises to be a fun year for hardware geeks, with three new "Aptiv-class" MIPS64 cores being circulated in soft form, a quad-core ARM A15, a Samsung ARM A9 variant, a seriously beefed-up 8-core Intel Itanium and AMD's mobile processors. There's a mix here of chips actually out, ready to be put on silicon, and in last stages of development. Obviously these are for different users (mobile CPUs don't generally fight for marketshare with Itanium dragsters) but it is still fascinating to see the differences in approach and the different visions of what is important in a modern CPU.

Combine this with the news reported earlier on the DDR4, and this promises to be a fun year with many new machines likely to appear that are radically different from the last generation.

Which leaves just one question — which Linux architecture will be fully updated first?"
Chrome

Submission + - Chrome to support TCP and UDP sockets

Submitted by wannabgeek
wannabgeek writes: Chrome is adding support for raw tcp and udp sockets. The blog is pretty light on the details except for pointers into the source tree. The feature sounds a little scary to me. Are we going back in time with everything being stuffed into the browsers? What will be the security implications?

Submission + - PirateBay Seems Nullrouted at Every Carrier in the Globe (torrentfreak.com) 1

Submitted by Anonymous Coward
An anonymous reader writes: While TorrentFreak is talking about a "local" downtime, i can confirm from my trace-routes as well as various online tools that EVERY major carrier is dropping piratebay.se at their gateway level. While allot of mirror sites have popped-up , I would advise everyone to be very careful as some copy cats mallicious sites are appearing as fast. Is this the end of PirateBay?
Android

Submission + - Google's Grand Android Plan: Finally, It All Makes Sense (computerworld.com)

Submitted by
CWmike
CWmike writes: "Get ready, gang: Android may be on the brink of its biggest change yet — a shift that could redefine the platform and send waves through the entire mobile market, writes JR Raphael. Signs of something big have been brewing in AndroidLand for some time now: First, we've had the increasingly loud buzz about Google's top-secret mission to build an inexpensive Nexus-like tablet. Then, last month, Google opened the door to selling unlocked Nexus devices directly to consumers, eliminating the need for carrier meddling and contract commitments. Now, at long last, we're getting a glimpse at what's likely the final piece of the puzzle. Google is getting ready to expand its Nexus program, a report from The Wall Street Journal says, and will soon offer a "portfolio" of Nexus-like flagship devices. Instead of selecting a single manufacturer to make each Nexus model, as it's done in the past, El Goog will reportedly work with up to five different manufacturers in order to offer a wide selection of stock devices — both phones and tablets. But wait: There's more. According to the Journal, Google will sell all those Nexus devices directly to users through its new Google Play Device Store. It'll supposedly offer direct sales to users in the U.S., Europe, and Asia; it might even partner up with some retailers to expand the program. This, my friends, is huge."
Medicine

Submission + - Book Review: The Logic of Chance: The Nature and Origin of Biological Evolution (amazon.com)

Submitted by eldavojohn
eldavojohn writes: The Logic of Chance: The Nature and Origin of Biological Evolution is a comprehensive snapshot of the latest research of biological evolution. The text is written by Eugene V. Koonin, an editor for a journal and researcher at NCBI. The book, although lacking in foundational knowledge and often foregoing explanation of research, presents a comprehensive and well-referenced view of modern evolutionary research. It is heavily laden with acronyms and jargon specific to biology and evolution. As a result, reading it requires either prior knowledge or a high tolerance for looking up these advanced topics with the reward of it being an extremely eye opening and enjoyable read worthy of your time.

First off, my background is primarily in computer science although I took courses in bioinformatics in my undergrad and have maintained an interest in evolution since evolutionary and genetic algorithms were supposed to revolutionize computer science when I was in school. Unfortunately, my lack of biology caused the text to be extremely tedious (so much googling) for some chapters while my strong statistical background made other chapters very much enjoyable. For most readers this presents a large barrier of entry. When the author discusses neural networks being used to categorize prokaryotic genes, it may be insufficient to the reader to understand what that means. As a result, this book’s audience is a relatively small set of people: 1) biology graduates with strong statistical knowledge or 2) someone willing to work very hard to understand advanced terms and concepts in both fields. Please proceed knowing that a biologist’s review of this same book could very well sound entirely different from mine. Also, Koonin wastes very few words in this book, the text is dense and if you are unable to complete reading this review due to jargon there is a low chance you’ll be able to tolerate it in the book. To sample some of this book, there is a short PDF containing chapter one or Google Books offering the first 147 pages at the time of this writing — you will see that this review barely scratches the surface of what is covered in this information-dense book.

Secondly, I will preface my review of the technical aspects of this book with my reason for giving it a score of 7 out of 10. The introduction to this book sets very lofty goals. One of them being the hope that this book does for evolution what A Brief History of Time did for physics. That is a seriously tall order and gave me correspondingly high hopes for this book. Koonin, unfortunately, is a very gifted writer and is unafraid of using exceedingly complex sentences such as this gem from page 117 (deliberately taken out of context):

"It has been known for years that a widespread form of global regulation in bacteria is mediated by cAMP, with the participation of diverse adenylate cyclases (a striking case of NOGD); numerous proteins containing cAMP sensors, such as the GAF domain; and the CRP, FNR, and other transcription regulators, also containing cAMP-binding domains."

That sentence is typical of Koonin’s writing — lengthy and intricately peppered with many acronyms (only one of which had been described well enough for me earlier in the text). Of course, that paragraph comes with a reference to a paper (like almost all of the paragraphs in this book) from 2010 by Seshasayee so the reader is free to seek external resources if these sentences are daunting.

Considering all of this, I read A Brief History of Time in high school and, despite not having had a physics course yet, learned a lot from it. I attribute that, mostly, to the fact that the sentences are simple and straightforward. Not only that but A Brief History of Time did a great job of building upward from the foundational mechanics of physics while somehow remaining refreshingly brief. This is not the case in The Logic of Chance but I will rush to the book’s defense somewhat on that charge. Prior to having read this book, I would have stated my desire that the text start from the basics and work its way up. After reading this book and understanding this field better than I ever have, I now agree that the subject matter of evolution would demand quite the epic tome to accomplish such a feat. I do hope to see future versions of this book with more concise and clear sentences as well as more fundamental concepts explained. If I could have begged Koonin to add one thing to this book, it would be a glossary in the back spanning many hundreds of pages for ignorant readers like myself. Right now this book is for graduate students and academia whereas A Brief History of Time could almost be consumed by anyone who made it through the public school system.

I also sympathize with Koonin’s herculean task because modern evolutionary studies seem relatively young compared to other fields like particle physics. As a result, Koonin must (and does) concede in some sections that there still exists largely debated theories. These debates often concern things about which we may never know the absolute truth like the branching factor of a tree of evolution on Earth some indeterminable time ago. As more and more prokaryotes and eukaryotes are added to their statistical algorithms, this may become clearer and yield revelations like the genetic makeup of the last eukaryotic common ancestor (LECA) and free this text of many pages devoted to questions surrounding such origins of life. But for now Koonin must tediously cover all his bases to introduce such things to the reader.

The book starts off by establishing the fundamentals of evolution up until the consolidation of Modern Synthesis. This includes purifying selection, drift, draft, fitness landscapes, etc until Darwinian Evolution was combined with genetics. At this point, the substrate of evolution (the genome) lead to evolutionary genomics. In particular Koonin concentrates on the statistics applied at the molecular level including distance methods, maximum parsimony, maximum likelihood, Bayesian inference and a similar analysis of phylogenetic methods. Koonin establishes early on that evolutionary research can no longer rely merely on phenotypic effects but rather there is a vast array of concrete changes happening at a molecular level.

The book moves on into comparative genomics and discusses extensively the intricate differences between the genomes of viruses, bacteria, archaea and eukaryota. Koonin exhaustively compares these groups through statistics and lays a brief foundation of relationships between genes. From this point on the book is heavily infested with the terminology of homologous, orthologous and paralogous genes. In addition to those the author discusses In-/Out-paralogous, co-orthologous and groups of orthologous (COG) genes. For people unfamiliar with this world, bookmarking and referring to Box 3-1 on page 56 is strongly advised. For the layperson, I believe an expansion of such a graphic would be a great addition to this book. Inside this part, the book also covers a simple but often misunderstood core piece of evolution and that is that evolution has the basic elementary events at the level of gene and genome evolution: substitution, deletion/loss, insertion, recombination/HGT and duplication. Over and over on Slashdot, I see comments that indicate a confusion or perception of evolution being one big monolithic thing. Koonin obviously reads or even studies a lot of other academic fields and tries to explain “the gene universe” as a space-time where there are a few dense clusters of core genes represented in most genomes but most of that space-time is occupied by a huge number of increasingly sparse “nebulae” consisting of rare genes. The author says of this universe: “This organization of the gene universe is distinctly fractal--that is, it appears at all scales of evolutionary distances.”

As if that wasn’t enough to prove that a definitive phenome narrative (what I alluded to earlier as desired) would be a bad idea, the next section moves on to systems biology and a heavier statistical look at genomics. Beyond the gene status (present or not present) exist two classes of variables: intensive evolutionary variables and extensive phenomic variables. At this point, we’re not even talking about tangible things like eye or hair color but rather the underlying mechanisms to those sorts of things like proteins and how they are folded. Everywhere Koonin uses italics, the reader should pay special attention as I found these to be the most interesting key points (example: “Highly expressed genes evolve slowly”). In defining the nature of the evolutionary process, the author covers important concepts like fitness graphs that contain multiple local maxima to demonstrate how non-optimal progressions can occur. Furthermore this section makes it clear that adaptation is not the be-all end-all of evolution. The extensive discussion of the quantifiable properties of genome architecture, functioning and evolution are defined more so by non-adaptive, stochastic processes. Here (and in many later sections) Koonin attempts to use metaphors like Jacob’s tinkering and ratchets to help the reader understand these complex concepts but I felt that these metaphors were still so far abstracted that the text could use anything linking these processes to tangible observations in organisms. Again I cannot hold this as a flaw for, after reading the book, it’s clear that such a request would be viewed as sophomoric and evidence that I am unable to progress past The Origin of the Species (this book’s key objective).

Koonin then moves on to the prokaryotic world and examines their genes and operons while paying special attention to an odd case: cyanobacteria. Most importantly in the prokaryotic domain, extensive comparative genomics has revealed a concept called horizontal gene transfer (HGT). I was personally hoping that Koonin would seize upon this novel concept and its importance in bacterial antibiotic resistance and how bacteria can evolve to dissolve novel compounds. For better or for worse, Koonin sticks to the pure purpose of this book and extensively covers important HGT discoveries like the convergence of protein sequences in similar groups of bacteria and archaea. Some selfish genes rely so heavily on horizontal mobility that they are dubbed “mobilomes” and Koonin discusses their aspects extensively. Darwin’s Tree of Life concept was a very small eukaryotic part of the big picture that Koonin tries to re-invent as the “Forest of Life” or “Web of Life” (considering HGT). A whole chapter is devoted to discussing its properties and graphically visualizing its structure based on extensive surveys and what we know today.

From there the author discusses the origins of eukaryotes, Last Eukaryotic Common Ancestor (LECA), the branching factor of its evolution, its relative distance to the point of symbiogenesis in proposed evolutionary trees and the many competing theories about that tree. This section of the book spends considerable time examining the inferred origins of basic eukaryotic cell functioning and also discusses at length the archaeal roots of elaborate systems with the exception of the mitochondrion. This chapter also looks at the perplexing features of introns in eukaryotic genes. Koonin then tackles the misconceptions and abuses of the word complexity in all aspects of evolution. He applies information theory to the genetic code and notes that “information (entropy) tells us very little about the meaningful information content or complexity of a genomic sequence.” It is then suggested that a new way to compute entropy and complexity is to examine the alignment of orthologous sequences instead of single sequences. For people interested in information theory, chapter eight is the most fruitful where Koonin proposes a computable formula for biological (evolutionary) information density. Like Claude Shannon’s ability to infer many important aspects of communication, Koonin’s modifications allow us to calculate that perceptually complex organisms possess more “entropic” genomes while perceptually less complex organisms like bacteria have the tightly packed and information dense “informational” genomes. After establishing these studies in information theory, Koonin is able to argue that neutrality of mutations that are fixed during evolution is the null hypothesis for all molecular evolutionary theories. All of this aids the author in discussing why evolution progressed passed single celled organisms that already had 1,000 to 1,500 genes to larger sets of genes in multicelled organisms.

Chapter nine tackles the modalities of Darwinian, Larmarckian and Wrightean evolutionary theories. This chapter improves upon the simplistic triad of heredity-variance-selection that defines Modern Synthesis by showing that the relationship between population size and environmental stress determines which of the three modalities is expressed the most in evolution while at the same time observing the importance of entropy (noise) at all levels of transmission. Koonin shows that by combining very well known molecular mechanisms we can achieve a complex scenario like Jean-Bapteste Lamarck’s proposed modality of evolution. The text gives viruses the same treatment which, despite my assumption that they would be easier to analyze, appear to have many of the same complexities that prokaryotes and eukaryotes have. Possibly even more so given the effects of the Red Queen Hypothesis and all of the counterdefense genomes in some viruses. Furthermore the cellular empire and virus empires have two-way exchanges of genes. The truth is we know very little about the virus world — considering its size and history — and the author postulates that viromes in unknown and unstudied viruses consist largely of uncharacterized “dark matter” (again, borrowing terms from cosmologists).

Koonin then approaches the next logical step backwards: the last universal common ancestor (LUCA). He starts by listing the arguments that cellular life indeed had a common ancestor and looks at competing theories (for example cell organization complexity versus genetic complexity leading to different models of varying degrees of cellularity). In chapter twelve, Koonin covers the topic that is often the hardest to imagine — the origin of life. This is interesting and particularly difficult because the translation system itself at some point evolved. Interestingly enough, these 60 protein-coding genes and ~40 structural RNA genes are the only complex ensemble of genes that are conserved across all extant cellular life forms. So, of course, the point in the evolutionary tree where this had developed is discussed as well as the Darwin-Eigen cycle. The latter requiring a system of a far greater complexity in order to be started. So the author begins examining the proposition that over time and due to their catalytic properties ribozymes lead to processive synthesis of peptides (long enough to be the first proteins). After discussing the eleven stages this would have to encompass, the author discusses the existing skepticism of models that try to explain how replication and transcription came about. This chapter also tackles geochemical and chemical propositions on the origin of life — something that has been discussed on Slashdot before. This research centers on networks of inorganic compartments consisting of catalytic surfaces with gradients of heat and acidity that could have supported primordial organic chemistry.

The book ends with a chapter devoted to reiterating topics as well as asking important questions like whether or not another biological evolution model is necessary/feasible as well as caution against logic like the progress fallacy or criticizing a concept like “the selfish gene” because it sounds “undignified.” Though these are tempting arguments because of their simplicity, they have proven fruitless. A diagram on page 412 reminds us just how complex the flow of genetic material is between the virus empire and the cellular empire.

There are two appendices to this book and, perhaps because they use a softer language, they were much more accessible to me yet posed more questions than answers. Appendix A concentrates on the philosophy of postmodernism, the infeasibility of synthesis and the distrust of metanarratives. The author argues that any paradigm presented must include oversimplification and that we merely replace them with better metanarratives. It is also important to ask these questions about the current paradigms for without them we would never have come up with drift, draft and various neutral ratchets to improve old models. Koonin references Hawking and Mlodinow with the concept of model-dependent realism which stresses that scientists merely construct models that are in turn swapped out for better models given how well they explain data and predict the outcomes of experiments. Lastly Koonin refers to Popper’s famous falsification paradigm and his subsequent position on how invaluable evolution is purely on the grounds that it arms us to model and understand specific experiments. The second appendix deals with roughly estimating the probability of life arising given inflationary cosmology. I know this back of the envelope math has become popular given recent discoveries of exoplanets in the news but I felt the few references to the “many worlds in one” model deserved to be placed in a separate book. Nevertheless, Koonin covers both the strong and weak forms of the anthropic principle and looks at the connotations they hold for evolution.

The references at the end of this book are extensive — 38 pages of two line references. It should probably be mentioned that Koonin’s references to his own work consist of two of these pages although at no point did it sound like he was unfairly proffering his theories over others. At certain points I had to wonder whether or not I was reading a lightly adjusted abstract from a peer reviewed paper or a book. This is most evident in one of the figures of an appendix on page 437 that reads “This is a formulation of the ‘weak’ anthropic principle adopted for the context of this paper.” Since it is a graphic and in the appendix, it’s forgivable but caused me to wonder if the rest of the book couldn’t be more seamlessly tied together with transitionary language for novices like myself. Amazingly, I found maybe one grammatical error and no typos in this book which was a refreshing experience for a first edition. Also, this is one of the best bound books I’ve had the pleasure of reading, its spine has held up to hours of laying it flat open while I googled for a better understanding. While $50 is pricey, the book is built to last and this $10 premium over the kindle edition is worth it if you must hold a physical copy of a book. It saddened me to be reminded that some states struggle with including the core concepts of Darwinian evolution anywhere in their K-12 curriculum. And should those students desire to break new ground in this modern field, texts like The Logic of Chance are that much further away from them.

You can purchase The Logic of Chance: The Nature and Origin of Biological Evolution from amazon.com. Slashdot welcomes readers' book reviews — to see your own review here, read the book review guidelines, then visit the submission page.
Businesses

Submission + - What if intellectual property expired after five years?

Submitted by
ancientt
ancientt writes: "As a thought experiment, what if the constitution of the US was amended so that no idea (with exceptions only for government use like currency) could be protected from copy or use beyond January 1, 2035 for more than a five year period. After a five year span, any patent, software license, copyright, software NDA or other intellectual property agreement would expire. (This is not an entirely new idea, but would have had significant recent rammifications if it had been enacted in the past.)

Specific terms are up for debate, but in this experiment businesses must have time to try to adjust to sell services and make the services good enough to compete with other businesses offering the same basic products. Microsoft can sell a five year old varient of OSX, Apple can sell Windows 2030.

Cars, computers and phones would, or at least could, still be made, but manufacturers would be free to any technology more than five years old or license new technology for a five year competitive edge. Movie, TV and book budgets would have to adjust to the potential five year profit span although staggered episode or chapter releases would be legal.

Play "What if" with me. What would be the downsides? What would be the upsides?"
Science

Submission + - Worldwide: April Sizzles as La Niña Fizzles (weather.com)

Submitted by DaMattster
DaMattster writes: The waning influence of La Niña helped April 2012 to become the fifth warmest April worldwide in 133 years of recordkeeping, and the warmest April on record in the Northern Hemisphere, according to scientists at NOAA's National Climatic Data Center.
Advertising

Submission + - Big Media and Big Telcos getting nasty in landmark Australian law Case (delimiter.com.au)

Submitted by
Fluffeh
Fluffeh writes: "In Australia, we have the right to record TV and play it back at a later date, we also have the right to transcode from one format to another, so anyone with a media server can legally back up their entire DVD collection and watch it without all those annoying warning and unskippable content — as long as we don't break encryption (please stop laughing!). Optus, Australia's second largest Telco has been raising ire though with the new TV Now service they are offering and Big Media is having a hissy fit. They recently offered the service that does the recording on behalf of the customer. Seems a no brainer right? Let the customer do what they are allowed to legally do at home, but charge them for it. Everybody wins! Not according to Sports Broadcasters who made this statement when Optus said they would appeal their recent loss in an Australian Court to the highest court in the land: "They are a disgusting organisation who is acting reprehensibly again and now putting more uncertainty into sports and broadcast rights going forward I’m really disappointed and disgusted in the comments of their CEO overnight." Is this yet another case of Big Media clutching at an outdated business model, or should consumers be content with just doing their own work?"
Cloud

Submission + - NVIDIA GeForce GRID Clould Gaming Acceleration (pcper.com) 1

Submitted by Vigile
Vigile writes: NVIDIA today announced a new technology partnership with Gaikai, an on-demand gaming company that competes with OnLive, that brings GeForce GRID to the cloud gaming ecosystem. GRID aims to increase both the visual quality and user experience of cloud gaming by decreasing latencies involved in the process, the biggest hindrance to acceptance for consumers. NVIDIA claims to have decreased the time for game stream capture and decode by a factor of three by handling the process completely on the GPU while also decreasing the "game time" with the power of the Kepler GPU. NVIDIA hopes to help both gamers and clould streaming companies by offering 4x the density currently available and at just 75 watts per game stream. The question remains — will mainstream adopt the on-demand games market as they have the on-demand video market?
Science

Submission + - Why Are Cells Powered by Proton Gradients? (nature.com)

Submitted by Jeremiah Cornelius
Jeremiah Cornelius writes: Virtually all cells "breathe" by pumping protons, in the form of hydrogen ions, across a membrane. Molecular biologist Leslie Orgel considers this the single most counterintuitive idea in biology after Darwin's, and the only one to bear comparison with the concepts of Heisenberg, Schrödinger, and Einstein. Brainchild of biochemist Peter Mitchell, the concept was controversial for a twenty year period now known as the "ox-phos wars". The wars drew to an end only after Mitchell received the Nobel Prize in 1978. Complex life is dependent on this process, but only now are the pertinent questions being asked, about why this is so.
Politics

Submission + - Idiotic Copyright Comparisons in Canadian Parliament (torrentfreak.com)

Submitted by
TheGift73
TheGift73 writes: "Politicians are always going the extra mile for their supporters, and nothing spells that out more clearly than this video, taken from the Canadian Parliaments discussion into C-11, the current attempt to give Hollywood what they want in Canada.

In it, MP Dean Del Mastro tries to make a comparison for format shifting, and why it’s ‘bad‘, using socks.

“It’s like going to a clothing store and buying a pair of socks and going back and saying by the way it wasn’t socks that I needed, what i really wanted was shoes. So I’m just going take these, I’m gonna format shift from socks to shoes and I’m not gonna pay anything because it was all for my feet,” he says.

Of course he gets it COMPLETELY wrong....."

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