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In machine learning, understanding why a model makes certain decisions is often just as important as whether those decisions are correct. For instance, a machine-learning model might correctly predict that a skin lesion is cancerous, but it could have done so using an unrelated blip on a clinical photo.

While tools exist to help experts make sense of a model’s reasoning, often these methods only provide insights on one decision at a time, and each must be manually evaluated. Models are commonly trained using millions of data inputs, making it almost impossible for a human to evaluate enough decisions to identify patterns.

Now, researchers at MIT and IBM Research have created a method that enables a user to aggregate, sort, and rank these individual explanations to rapidly analyze a ’s behavior. Their technique, called Shared Interest, incorporates quantifiable metrics that compare how well a model’s reasoning matches that of a human.

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Throughout the past decade, several metaphors and labels have evolved to describe the software that curates the data storage. Some were called warehouses; they generally offered stronger structure and compliance, but they were often unable to manage the larger volumes of information from modern web applications. Another term, the “data lake,” referred to less structured collections that were engineered to scale easily, in part because they enforced fewer rules. Google wants BigLake to offer the control of the best data warehouses with the seemingly endless availability of cloud storage.

“All of these organizations who try to innovate on top of the data lake found it to be, at the end of the day, just a data swamp,” said Kazmaier. “Our innovation at Google Cloud is that we take BigQuery and its unique architecture, its unique Serverless model, its unique storage architecture and a unique compute architecture and [integrate it] with open-source file formats and open-source processing engines.”

The open-source architecture is intended to allow customers to adopt Google’s tools slowly through integration with existing data infrastructure. These open formats simplify sharing information, making it a more welcoming environment.

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StarshipBocaChica: https://www.youtube.com/channel/UCBfh… Please check out OrbitalAssemblyCooperations for their amazing Artificial Gravity concept. https://youtube.com/watch?v=M-XLPrw-lSA For the first time in the history of humanity, we stand a good chance of walking on the surface of Mars! And this is thanks to the dogged ambition of Elon Musk. The billionaire is building a mighty spacecraft, the Starship, that will take volunteers across the vast distance between Earth and Mars! However, since the trip will take months in deep space, Musk’s company, SpaceX, has to find a way to protect the travelers from the effect of microgravity during the duration of the journey! This is why SpaceX has come up with an artificial gravity Starship! What is this spacecraft, and how does it work? Join us as we explore SpaceX’s insane artificial gravity Starship.

Please check out OrbitalAssemblyCooperations for their amazing Artificial Gravity concept.
https://www.youtube.com/c/OrbitalAssemblyCorporation/videos.

For the first time in the history of humanity, we stand a good chance of walking on the surface of.

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These chips might be the future of neuromorphic computing.

Honey could be the next material used to create brain-like computer chips. Its proven practicality marks another step toward creating efficient, renewable processors for neuromorphic computing systems, using biodegradable products.

Research engineers from WSU’s School of Engineering and Computer Science, Feng Zhao and Brandon Sueoka, first processed honey into a solid. Then they jammed it between two electrodes, using a structure design similar to that of a human synapse. They’re known as ‘memristors,’ and are proficient at learning and retaining information just like human neurons.

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(Bloomberg) — Alphabet Inc.’s Wing is set to begin the largest drone-delivery test program so far in the U.S., starting Thursday in the Dallas suburbs. Most Read from BloombergU.S. Drones for Ukraine Will Include Latest Tank KillersRussia Skirts Nearer Default After Dollar Payment BlockedCanada to Ban Foreigners From Buying Homes as Prices SoarEx-Oligarch Says Putin Sees War With the West Already UnderwayIf Stocks Don’t Fall, the Fed Needs to Force ThemWing LLC, which had announced its intention to begin the Texas deliveries last October, has obtained permission for the program from the Federal Aviation Administration, the company said in a statement Monday.

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San Francisco-based startup Astranis has purchased a dedicated launch on a SpaceX Falcon 9 rocket, eschewing the less expensive “ride-share” model favored by new space companies for an exclusive mission that Astranis says will put its package of four communications satellites closer to their target orbit in a much faster amount of time.

“We’re actually using substantially less than the max capability of a Falcon 9,” Astranis CEO and founder John Gedmark explained. “This is just four small satellites that [will be] on there. So we’re actually able to use all of that extra performance to put those four satellites much closer to GEO than you would normally be able to do with with this kind of launch.”

How much faster? At least twice as fast, cutting down the time from up to six months to as little as three months. Purchasing a dedicated launch on a Falcon 9 — a first amongst space companies — also means that Astranis will have much more control over when the rocket takes off and the payload insertion orbit.

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