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The growth potential of intelligent machines is attaining milestones almost every other day. Each day, new publications and media houses are reporting the new achievements of AI. But there were still questions about the creative potential of AI. Experts believe that artificial intelligence machines will never be able to achieve the creative consciousness that human intelligence possesses. Well, AI has again proved them wrong! The technology is now capable of creating its own art, out of its own imagination, and also poetry, that only the most deeply conscious human brains can do.

There have been several instances where programming and poetry have converged into generating some of the most outstanding pieces in the history of tech. Programming itself has its own set of minimalist aesthetics that does not take up much space and does not take too long to execute. Also, there have been many programmers who had links to poetry and art, which makes it easier for them to curate a mindblowing tech that can yield the same standard of results. Nowadays, companies like OpenAI create futuristic technology that is not only advanced but also boldly creative. In fact, its poetry-writing AI has made huge strides over the internet!

Continue reading “Computers as Poets: OpenAI’s Algorithmic Poetry” »

Using electrical simulation to address damaged nerves is en established way to treat pain or speed up healing in the event of an injury. This type of therapy is usually delivered via invasive procedures where electrodes are implanted to administer the electrical stimulation, but scientists are making promising advances towards alternative approaches.

Recent examples include softer electrodes instead of the stiff ones used today, dissolvable implants that offer two weeks of ongoing stimulation, and belt-like devices that wrap around bladders to restore organ function. Adding another to the pool is a team from Austria’s Graz University of Technology, the University of Zagreb and CEITEC in the Czech Republic, whose solution starts with light-sensitive color pigments.

China and Europe are driving most of the adoption, with North America a distant third source of sales. Up next: emerging markets.

Summary: Brain mapping study reveals memory engrams are widely distributed throughout the brain, including among regions not previously realized.

Source: picower institute for learning and memory.

A new study by scientists at The Picower Institute for Learning and Memory at MIT provides the most comprehensive and rigorous evidence yet that the mammalian brain stores a single memory across a widely distributed, functionally connected complex spanning many brain regions, rather than in just one or even a few places.

Results from early-stage clinical trials show two drugs that target the DNA damage response (DDR) pathway in cancers — ATR inhibitor elimusertib and PARP inhibitor AZD5305 — are safe and clinically beneficial in treating patients with advanced solid tumors. Principal investigator Timothy Yap, M.B.B.S., Ph.D., associate professor of Investigational Cancer Therapeutics, today presented new data from the trials at the American Association for Cancer Research (AACR) Annual Meeting 2022.

“DDR orchestrates a complex network of mechanisms that detects and repairs damage to DNA, such as double strand breaks and replication stress,” Yap explained. “However, when DDR defects occur, it promotes uncontrolled cancer cell growth and enables cells to evade apoptosis. The studies suggest that PARP1-selective and ATR inhibitors, which block two key mediators of the DDR signaling pathway, are a promising class of new drugs that offer significant therapeutic potential for patients with cancers harboring synthetic lethal genomic alterations in DDR pathways.”

Expansion trial of ATR inhibitor shows encouraging clinical activity against DDR defects (Abstract CT006)

For the first time ever, doctors have successfully transplanted a kidney from a pig to a human — and, they say, the organ functioned normally.

The procedure occurred between a genetically-altered pig and a brain dead human patient at NYU Langone Health, according to The New York Times. The pig was genetically engineered to grow a kidney that would be accepted by a human body. The organ was then attached to the patient’s blood vessels in the upper leg, outside of the abdomen, where the researchers observed it functioning normally.

“It was better than I think we even expected,” Dr. Robert Montgomery, director of the NYU Langone Transplant Institute, told the NYT. Montgomery helped perform the procedure in September and told the paper that it “looked like any transplant I’ve ever done from a living donor. A lot of kidneys from deceased people don’t work right away, and take days or weeks to start. This worked immediately.”

The most distant exoplanet discovered by the Kepler Space Telescope (17,000 ly), the most distant individual star (12.9 billion ly), and the most distant galaxy ever seen (13.5 billion ly) have all been reported.

Quantum computers, machines that leverage quantum states to perform computations and store data, could soon revolutionize the computing industry, achieving significantly greater speeds and performance than existing computers. While countless companies worldwide, including Google and IBM as well as smaller start-ups, have started working on quantum technologies, the exact architecture that will lead to their mass production remains unclear.

Researchers at Leibniz University Hannover have recently conducted a theoretical study investigating the possibility of realizing flying-qubit gates for quantum computers that are insensitive to the wave shapes of photons, and also fully preserve these shapes during processing. Their paper, published in Physical Review Letters, could serve as the basis for the development of new gates that can process entangled photonic wave packets more effectively than unentangled ones.

“There are several candidate architectures for the development of quantum technology, including superconductors, ion traps, solid state, optical, and so on,” Ihar Babushkin, one of the researchers who carried out the study, told Phys.org. “Regardless of what architecture we consider, photons, the quanta of light, will play an important role, since in almost all architectures the mediators between quantum information bits (qubits) are photons.”

Closes July 31st at Midnight

The Texas Cyber Summit is a three day multi-track novice to ninja technical cybersecurity event held annually with an expectation of over 1,200 participants in-person. Note that the in-person will take place in September 22nd – 24th, and the Virtual Conference will take place in November 5th. Featuring five dedicated learning tracks for the aspiring Cybersecurity novice to the expert operator. Deeply technical, research and management briefings that address the entire cyber threat landscape. The Texas Cyber Summit is held in Austin, Tx and is a IRS 501C3 Non-Profit Organization.

Austin is home to major fortune 500 companies, Cyber Futures Command, Defense Logistics Agency, and Air force logistics. We host Specialized tracks include teaching, training, responsibilities, and ethics in specialized fields such as digital forensics, Scada, Supply Chain, Red Team Tools, Tactics and Procedures, Blue Team and the Art of Defense, and much more.