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Mar 11, 2022

Critical Security Patches Issued

Posted by in category: security

Microsoft’s Patch Tuesday update for the month of March has been made officially available with 71 fixes spanning across its software products such as Windows, Office, Exchange, and Defender, among others.

Of the total 71 patches, three are rated Critical and 68 are rated Important in severity. While none of the vulnerabilities are listed as actively exploited, three of them are publicly known at the time of release.

It’s worth pointing out that Microsoft separately addressed 21 flaws in the Chromium-based Microsoft Edge browser earlier this month.

Mar 11, 2022

Hackers Abuse Mitel Devices to Amplify DDoS Attacks by 4 Billion Times

Posted by in category: cybercrime/malcode

Hackers abuse Mitel devices to perform high-impact amplification attacks to stage massive DDoS attacks with a record-breaking amplification ratio.


Researchers have discovered three critical vulnerabilities in APC Smart-UPS.

Mar 11, 2022

Critical Bugs Could Let Attackers Remotely Hack, Damage APC Smart-UPS Devices

Posted by in category: cybercrime/malcode

Researchers have discovered three critical vulnerabilities in APC Smart-UPS.

Mar 11, 2022

The Incident Response Plan — Preparing for a Rainy Day

Posted by in category: cybercrime/malcode

Just as it wasn’t raining when Noah built the ark, companies must face the fact that they need to prepare — and educate the organization on — a well-thought-out response plan if a successful cyberattack does occur. Obviously, the worst time to plan your response to a cyberattack is when it happens.

With so many companies falling victim to cyberattacks, an entire cottage industry of Incident Response (IR) services has arisen. Thousands of IR engagements have helped surface best practices and preparedness guides to help those that have yet to fall victim to a cyberattack.

Recently, cybersecurity company Cynet provided an Incident Response plan Word template to help companies plan for this unfortunate occurrence.

Mar 11, 2022

The Simplest Math Problem No One Can Solve

Posted by in category: mathematics

Multiply an odd number by an odd number and then add 1 always gives an even number.

Divide an even number by 2 gives an odd number half of the time and an even number half of the time.

Therefore these formulae leans towards even numbers as the output and hence if you do the calculation enough times, you will eventually end up in the 4−2−1 loop.

Mar 11, 2022

Is it the end of the Voyager spacecraft?

Posted by in category: space travel

Mar 11, 2022

Deep Learning Is Hitting a Wall

Posted by in category: robotics/AI

Brain Scans of 1. rat, 2. crow, (both completed by end of 2022) ; 3. pig, 4. chimp, (both completed by end of 2023) 5. ending on human, (completed by end of 2025). While we create an AI feedback loop, to use best AI to build better AI s, all at same time. Aiming for Agi 2025–2029.


What would it take for artificial intelligence to make real progress?

Mar 11, 2022

‘Heartbeat’ of Black Holes Solves Decades-Old Mystery of Plasma Jets

Posted by in categories: cosmology, materials

Fluctuating light from a black hole, observed over 15 years, has revealed more about the way these enigmatic objects feed.

First, a structure called a corona forms around the outside of the event horizon. Then, powerful jets of plasma launch from the poles, punching material from the corona out into interstellar space at speeds close to that of light in a vacuum.

Continue reading “‘Heartbeat’ of Black Holes Solves Decades-Old Mystery of Plasma Jets” »

Mar 11, 2022

Shackleton’s legendary ship is finally found off the Antarctic Coast, a century later

Posted by in category: futurism

Endurance” is discovered beneath sea ice, nearly two miles beneath the ocean.

Mar 11, 2022

Stronger and Faster Than Lightning: Scientists Achieve Rare Quantum State in Polycrystals

Posted by in categories: chemistry, climatology, particle physics, quantum physics

Scientists from the Max Planck Institute for Polymer Research, Paderborn University, and the University of Konstanz have succeeded in achieving a rare quantum state. They are the first to have demonstrated Wannier-Stark localization in a polycrystalline substance. Predicted around 80 years ago, the effect has only recently been proven — in a monocrystal. Until now, researchers assumed this localization to be possible only in such monocrystalline substances which are very complicated to produce. The new findings represent a breakthrough in the field of physics and could in future give rise to new optical modulators, for example, that can be used in information technologies based on light, among other things. The physicists have published their findings in the well-respected technical journal, Nature Communications.

Stronger and faster than lightning

The atoms of a crystal are arranged in a three-dimensional grid, held together by chemical bonds. These bonds can, however, be dissolved by very strong electric fields which displace atoms, even going so far as to introduce so much energy into the crystal that it is destroyed. This is what happens when lightning strikes and materials liquefy, vaporize or combust, for example. To demonstrate Wannier-Stark localization, the scientists’ experiments involved setting up electric fields of several million volts per centimeter, much stronger than the fields involved in lightning strikes. During this process, the electronic system of a solid — in this case, a polycrystal — is forced far from a state of equilibrium for a very short time. Wannier-Stark localization involves virtually shutting down some of the chemical bonds temporarily. This state can only be maintained for less than a picosecond — one millionth of one millionth of a second — without destroying the substance.