By timothy from Slashdot's if-only-he-was-an-analyst-and-therapist department
Hugh Pickens DOT Com writes "Joseph Stromberg writes at the Smithsonian that one afternoon in October 2005, neuroscientist James Fallon was sifting through thousands of PET scans to find anatomical patterns in the brain that correlated with psychopathic tendencies in the real world. 'Out of serendipity, I was also doing a study on Alzheimer's and as part of that, had brain scans from me and everyone in my family right on my desk,' writes Fallon. 'I got to the bottom of the stack, and saw this scan that was obviously pathological.' When he looked up the code, he was greeted by an unsettling revelation: the psychopathic brain pictured in the scan was his own. When he underwent a series of genetic tests, he got more bad news. 'I had all these high-risk alleles for aggression, violence and low empathy,' he says, such as a variant of the MAO-A gene that has been linked with aggressive behavior. It wasn't entirely a shock to Fallon, as he'd always been aware that he was someone especially motivated by power and manipulating others. Additionally, his family line included seven alleged murderers, including Lizzie Borden, infamously accused of killing her father and stepmother in 1892. Many of us would hide this discovery and never tell a soul, out of fear or embarrassment of being labeled a psychopath. Perhaps because boldness and disinhibition are noted psychopathic tendencies, Fallon has gone in the opposite direction, telling the world about his finding in a TED Talk, an NPR interview and now a new book published last month, The Psychopath Inside. 'Since finding all this out and looking into it, I've made an effort to try to change my behavior,' says Fallon. 'I've more consciously been doing things that are considered "the right thing to do," and thinking more about other people's feelings.'"Read Replies (0)
By Unknown Lamer from Slashdot's perl-accelerator department
An anonymous reader writes "As Nicole Hemsoth over at HPCwire reports 'In a nutshell, the Automata processor is a programmable silicon device that lends itself to handing high speed search and analysis across massive, complex, unstructured data. As an alternate processing engine for targeted areas, it taps into the inner parallelism inherent to memory to provide a robust and absolutely remarkable, if early benchmarks are to be believed, option for certain types of processing.'"
Basically, the chip is designed solely to process Nondeterministic Finite Automata
and can explore all valid paths of an NFA in parallel, hiding the whole O(n^2) complexity thing. Micron has a stash of technical documents
including a paper covering the design and development
of the chip. Imagine how fast you can process regexes now.Read Replies (0)