Astronauts have one of the most competitive jobs in the world — 18,300 people applied to be part of NASA’s 2017 class of astronauts, and only 12 made the final cut. But the process of finding astronauts with “the right stuff” has changed over time, and a lot of us Earthlings have the wrong idea about what NASA is looking for.
“I think a lot of the public conception is that we choose super-geniuses or super-jocks or super-pilots,” says Mike Barratt, a NASA astronaut and physician. “I would say that the astronaut office right now is full of people who are comfortable to be with. I mean, don’t get me wrong — we’ve got a couple of super-geniuses, but the main [goal] is that we’ve chosen well-rounded, well-behaved, professional people who are adaptable and resilient, and just someone you could see exploring a brand new world or locking yourself in a garage with for six months.”
Jupiter mission’s Ganymede flyby offers a dramatic ride-along. It is one of the highlights mission scientists shared in a briefing at American Geophysical Union Fall Meeting.
Sounds from a Ganymede flyby, magnetic fields, and remarkable comparisons between Jupiter and Earth’s oceans and atmospheres were discussed during a briefing today on NASA.
Lightelligence, a Boston-based photonics company, revealed the world’s first small form-factor, photonics-based computing device, meaning it uses light to perform compute operations. The company claims the unit is “hundreds of times faster than a typical computing unit, such as NVIDIA RTX 3080.” 350 times faster, to be exact, but that only applies to certain types of applications.
However, the PACE achieves that coveted specialization through an added field of computing — which not only makes the system faster, it makes it incredibly more efficient. While traditional semiconductor systems have the issue of excess heat that results from running current through nanometre-level features at sometimes ludicrous frequencies, the photonic system processes its workloads with zero Ohmic heating — there’s no heat produced from current resistance. Instead, it’s all about light.
Lightelligence is built around its CEO’s Ph.d. thesis — and the legitimacy it provides. This is so because when “Deep Learning with Coherent Nanophotonic Circuits” was published in Nature in 2017, Lightelligence’s CEO and founder Yichen Chen had already foreseen a path for optical circuits to be at the forefront of Machine Learning computing efforts. By 2020, the company had already received $100 million in funding and employed around 150 employees. A year later, Lightspeed has achieved a dem product that it says is “hundreds of times faster than a typical computing unit, such as NVIDIA RTX 3080”. 350 times faster, to be clear.
The PACE’s debut aims to charm enough capital to comfortably reach its goal of launching a pilot AI accelerator product to the market in 2022. That’s still only a stretch goal in the company’s vision, however, its goal is to develop and distribute a mass-market, photonics-based hardware solution as early as 2023, targeting the Cloud AI, Finance, and Retail markets. Considering how Lightelligence managed to improve the company’s 2019 COMET design performance by a factor of a million with PACE in a span of two years, it’ll be interesting to see where their efforts take them when it comes to launching.
From Earth’s vantage point in one of the Milky Way’s spiral arms, the structure of our galaxy is pretty difficult to reconstruct.
That’s because gauging the distance to something in space when you don’t know its intrinsic brightness is really, really hard. And there are a lot of objects in the Milky Way whose brightness is unknown to us. This means that sometimes, we can totally miss huge structures that you’d think should be right under our noses.
A new set of such enormous structures has now been unveiled at the outer regions of the Milky Way disk: massive, spinning filaments with unclear provenance. Astronomers will be conducting follow-up surveys to try and solve the mystery.
Albert Einstein and Stephen Hawking – the most famous physicists of the twentieth century — both spent decades trying to find a single law that could explain how the world works on the scale of the atom and on the scale of galaxies. In short, the Standard Model describes the physics of the very small. General relativity describes the physics of the very large. The problem? The two theories tell different stories about the fundamental nature of reality. Einstein described the problem nearly a century ago in his 1923 Nobel lecture 0, telling the audience that a physicist who searches for, “an integrated theory cannot rest content with the assumption that there exist two distinct fields totally independent of each other by their nature.” Even while on his deathbed, Einstein worked on a way to unite all the laws of physics under one unifying theory.
Scientists from the European Space Agency (ESA) will soon open a container of Moon soil that has gone untouched since it was collected by the Apollo 17 astronauts almost 50 years ago, a press statement reveals.
To open the sample, they will have to use a specialized piercing tool jokingly titled the “Apollo Can Opener” by members of the team. The tool was specially designed to open the specific soil sample, designated the number 73001.
A double-sealed 50-year-old Moon soil sample The Moon soil sample was collected on the Moon in 1972 at the Taurus-Littrow Valley by Apollo 17 astronaut Gene Cernan, the last person to have set foot on the Moon. Cernan hammered a 70-cm-long cylindrical tube into the Moon’s surface to retrieve a core sample of the lunar soil. The sample was then sealed in a vacuum-tight container on the Moon before it was returned to Earth. Once on Earth, the vacuum-sealed sample was then placed in a vacuum chamber for added protection.
Intricate patterns in the movements of millions of stars are revealing the history of our home galaxy in rich detail – and could even pinpoint the events that gave birth to our sun.
The world’s next generation cosmic observatory, the James Webb Space Telescope 0, is due for launch on an Ariane 5 from Europe’s Spaceport in French Guiana.
Webb is a joint project between NASA
Established in 1958, the National Aeronautics and Space Administration (NASA) is an independent agency of the United States Federal Government that succeeded the National Advisory Committee for Aeronautics (NACA). It is responsible for the civilian space program, as well as aeronautics and aerospace research. It’s vision is “To discover and expand knowledge for the benefit of humanity.”
The new machine-learning system can generate a 3D scene from an image about 15,000 times faster than other methods. Humans are pretty good at looking at a single two-dimensional image and understanding the full three-dimensional scene that it captures. Artificial intelligence agents are not.
The hunt is on for leptoquarks, particles beyond the limits of the standard model of particle physics —the best description we have so far of the physics that governs the forces of the Universe and its particles. These hypothetical particles could prove useful in explaining experimental and theoretical anomalies observed at particle accelerators such as the Large Hadron Collider (LHC) and could help to unify theories of physics beyond the standard model, if researchers could just spot them.
In what can be considered as a Christmas present for the world, NASA is looking to launch its new space telescope on coming Friday, which also happens to be ‘Christmas Eve’.
On Friday, NASA Administrator Bill Nelson said that the agency will blast off the $10 billion James Webb Space Telescope on December 24.
