US-built quantum computer, Mathematician solves algebra’s oldest problem:
US-built quantum computer outshines world’s top supercomputers in key tests
https://www.msn.com/en-us/news/technology/us-built-quantum-computer-outshines-world-s-top-supercomputers-in-key-tests/ar-AA1DZMKB?ocid=msedgntp&pc=U531&cvid=a7c6270004424fdef1b4365fe7d1e67c&ei=21
Mathematician solves algebra’s oldest problem
https://www.msn.com/en-us/news/technology/mathematician-solves-algebra-s-oldest-problem/ar-AA1E0BSl?ocid=msedgntp&pc=U531&cvid=d1a3dca86f7445699ec099f5cd92ae00&ei=41
Rumble- https://rumble.com/v6sud9p-us-built-quantum-computer-mathematician-solves-algebras-oldest-problem.html
Facebook Live- https://www.facebook.com/share/v/18kBgybLxg/
Yahoo- https://youtu.be/fKz5PYiB_Mc
US-built quantum computer outshines world’s top supercomputers in key tests
https://www.msn.com/en-us/news/technology/us-built-quantum-computer-outshines-world-s-top-supercomputers-in-key-tests/ar-AA1DZMKB?ocid=msedgntp&pc=U531&cvid=a7c6270004424fdef1b4365fe7d1e67c&ei=21
Mathematician solves algebra’s oldest problem
https://www.msn.com/en-us/news/technology/mathematician-solves-algebra-s-oldest-problem/ar-AA1E0BSl?ocid=msedgntp&pc=U531&cvid=d1a3dca86f7445699ec099f5cd92ae00&ei=41
Rumble- https://rumble.com/v6sud9p-us-built-quantum-computer-mathematician-solves-algebras-oldest-problem.html
Facebook Live- https://www.facebook.com/share/v/18kBgybLxg/
Yahoo- https://youtu.be/fKz5PYiB_Mc
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NewsTranscript
00:00evening good afternoon or good morning depending on where you are in the world
00:03we'd like to introduce to you two articles of interest before i start the broadcast as a
00:09disclaimer i would like to like would like to let you know that this is for review
00:14informational and educational purposes it is not to take the credit for the intellectual property
00:19of the article the full credit to the intellectual property of the article goes to the publisher
00:24which in this case is interesting engineering and the story by prabhat ranjan mishra before i start
00:32the broadcast i would like to thank all the people watching this on facebook live i hope you enjoyed
00:39it and get something out of it for value as it is always beneficial to be informed of the news so
00:46let's continue headline reads u.s built quantum computer outshines world's top supercomputers and
00:54key tests and ahead of you you see such a device here
00:59caption reads u.s built quantum computer outshines world's top supercomputers and key tests and a new
01:09demonstration the u.s researchers showcase that a quantum computer outperforms supercomputers and
01:15approximate optimization tasks the university of southern california led usc study demonstrated the
01:21first quantum scaling advantage or approximate optimization problem solving using a quantum
01:28annealer quantum annealing is a specific type of quantum computing that can use quantum physics
01:36principles to high quality situation to difficult optimization problems rather than require an exact
01:43optimal solutions the study focused on finding solutions within a certain percentage that is a greater
01:50than or equal to one percent of the optimal value according to researchers many real world problems don't
01:58require exact solutions making this approach practically relevant for example it is often good enough to be a
02:07leading market index and determining which stocks put in mutual fund rather than beating every other stock portfolio so that's the analogy the way quantum annealing works is finding low energy energy
02:08states in quantum systems in quantum systems which correspond with optimal or near optimal solutions to the problems being solved
02:26unquote says daniel lidar that is the corresponding author of the study and professor of electrical and computer engineering
02:33chemistry and physics and astronomy at usc viterbi school of engineering
02:42in the related video how quantum computers actually worked mind-blowing tech explains simply
02:48uh as per and i'm gonna pause this here veritsasium veritasium veritasium
02:58this uh video will be available upon a publishing of this review but only on rumble as youtube does not allow links to the article even if it is an embedded link going back on the site to uh youtube so what i'll do in the youtube comment section is
03:16so what i'll do in the youtube comment section i'll actually put a link to my rumble channel so i have the name and the link what you'll do is you go to my rumble channel
03:25you'll click on the link and you'll be able to watch the video accordingly
03:30alternatively you can actually access it in facebook live okay and then you'll be able to watch it that way as well
03:37so let's continue on d-wave advantage quantum annealing process are used
03:43researchers use a d-wave advantage quantum annealing processor to demonstrate our algorithmic quantum scaling advantage
03:50the processor is a specialized quantum computing device installed at usc's information sciences institute
03:56like with all current quantum computers noise plays a major role in spoiling quantum advantage in quantum annealing
04:02now the team implemented a quantum annealing correction or qac and de-waste processor to overcome this problem
04:11it created over 1 300 error suppressed logical qubits
04:17this error suppression was key to achieving the advantage over parallel tampering of iso uh energetic cluster moves that stands for PTICM as it's actually a
04:30acronym the most efficient current classical algorithm for comparable problems
04:37the study published in physics review later presented evidence for quantum annealing scaling advantage in approximate optimization
04:45quote the advantage is relative to the top classical heuristic algorithm parallel tampering with iso energetic cluster moves that is PT-ICM
04:55the setting is a family of 2d spin glass problems with high precision spin-spin interaction said researchers
05:07the article goes on to say quote to achieve this advantage we implement quantum annealing correction or qac
05:14an embedding of a bit flip error correcting code with energy penalties that that leverages the properties of d-wave advantage quantum annealer to yield over 1 300 error suppressed logical qubits
05:27on a degree 5 interaction interaction graph on quote added researchers in the study
05:33with qac quantum computer exhibits a scaling advantage
05:37the experiment demonstrated that with qac quantum annealing exhibits a scaling advantage over PT-ICM
05:48at sampling low energy states with an optimally gapped of at least 1.0 percent
05:55this is the first demonstration of the algorithmic quantum speedup and approximate optimization
06:00the researchers aim to extend the findings the denser high dimensional product problems excuse me
06:07and explore applications in world world optimization
06:11lidar said further improvements in quantum hardware and error suppressions could amplify the observed advantage
06:17according to researchers the experiment now
06:20opens new avenues for quantum algorithms and optimization tasks where near optimal solutions are sufficient
06:29so that will do it for that first article so let's go to the second article
06:34and as disclaimer as usual I would like to let you know that this is for review
06:39informational and educational purposes it is not to take the credit for the intellectual property of the article
06:45the full credit to the intellectual property of the article goes to the publisher which in this case is popular science
06:50you've probably heard of it before right
06:52and the story by Andrew Paul
06:57headline reads
06:59mathematician solves algebra's oldest problem
07:02that's interesting
07:03most people's experiments with polynomial equations don't extend much further than high school algebra and the quadratic formula
07:11still these numeric problems remain a foundational component of everything from calculating planetary orbits to computer programming
07:21although solving lower order polynomials where x is the equation is raised to the fourth power is often a simple
07:28task things
07:29a simple
07:30a simple
07:31a simple
07:32a simple
07:33a simple
07:34and he has dot dot dot there
07:35most people's experiments and polynomial equations don't extend much further than high school algebra and the quadratic formula
07:39still these numeric puzzles remain a foundational component of everything from calculating planetary orbits to computer programming as I mentioned before
07:46now
07:48although solving lower order polynomials where x and an equation is raised to the fourth power is often a simple task things
07:56get complicated once you start seeing powers of five or greater
08:02for centuries a mathematician accepted this
08:05as simply an inherent challenge to their work but not
08:08Norman Wilderberger
08:10according to this new approach detailed and the American mathematician
08:15or that is the excuse me
08:18the American mathematical
08:20mathematical
08:21monthly it's sort of a
08:24tongue twister here
08:26illiterate
08:28tongue twister or alliteration of a tongue twister
08:32there is a much more elegant approach to high order polynomials all you need to do is get rid of pesky notions like irrational numbers
08:39well
08:40all of it's part of science just like
08:43just like just like all the elements are part of
08:46chemistry
08:48Babylonians first can see the two degree polynomial around 1800 BCE
08:54but it took around
08:56took until that is 16th century for mathematicians to evolve the concept and incorporate three and four degree variables using root numbers also known as radicals
09:06polynomials
09:07polynomials
09:08polynomials remain remained there
09:10excuse me for another two centuries with larger examples stumping experts until 1832
09:18that year the French mathematician
09:21the first day
09:23Galois
09:24finally is illustrated why this was such a problem the underlying mathematical symmetry and the
09:32established methods for lower order polynomials simply became too complicated for a degree of five or higher
09:39for Galois
09:41this meant there was just a general formula available for them and ahead of you this is the man in question
09:50now the caption reads Norman Wilderberger mathematical work rejects concepts like irrational numbers
09:56mathematicians have since developed approximate solutions but they require integrated concepts like irrational numbers into the classical formula to calculate such an irrational number quote you would need to have or you would need an infinite number of work and hard drive larger than the universe explain
10:13Wilderberger
10:15a mathematician at the university at New South Wales Sydney and Australia
10:20now in a related video
10:22if we can skip past this ad here
10:25past that
10:28thank you
10:30related video entitled how imaginary numbers were invented as per Verde Essium
10:35this video will be available upon publishing review but on not on YouTube as YouTube does not allow links in its content
10:42section
10:44so what I'm going to do is I'm going to put the name the name and the link to my rumble channel
10:49what you'll do is you'll go to my rumble channel
10:52you'll click on the link and you'll be able to go to it alternatively you can actually look at the link from Facebook live
10:59with that said let's continue with the article
11:02the infinite number of possibility is the fundamental issue according to Wilderberger the solution toss out the entire concept meaning I don't
11:11believe in irrational numbers he said indeed his approach relies on mathematical functions like adding multiplying and squaring
11:18Wilderberger recently approached this challenge by turning specific polynomial variants called power series as he has in quotes here
11:26which possesses infinite terms in which the powers of x to test it out he had computer scientist Dean Rubin use a famous cubic equation used by Wallace and the 17th century to demonstrate Newton's method.
11:44You don't need
11:46You don't need that is you don't need to try wrapping your head around all that, however, just try Wilderberger when he said the solution quote worked beautifully on quote the same goes for cattle and numbers a famous sequence of numbers that describes a number of ways to dissect any given polygon.
12:03These appear in natural world in areas like biology where they employ to analyze possible folding patterns of RNA molecules.
12:10So just as a refresher, just in case you weren't familiar, you have two types of things, you have DNA and you have RNA.
12:17Now DNA is the actual genetic material that you think of that comprises it up. RNA is the proteins that are used in DNA.
12:25That's my understanding. So one is deoxyribonucleic acid and rublaic nucleic acid is RNA.
12:41So anyway, continue with the article.
12:43The article continues with saying, quote, the cattle in numbers understood the intimately connected with the quadratic equation, unquote, explained Wilderberger.
12:53Our innovation lies in the idea that we want to solve higher equations, we should look for higher analogs of the cattle in numbers, unquote.
13:01Outside of the head spinning concepts on paper, Wilderberger believes the new approach to higher power polynomials could soon result in computer program capable of solving equations without the need for radicals.
13:13It may also help to improve algorithms across a variety of fields.
13:17Well, this is a dramatic revision of basic chapter in algebra, unquote, argued Wilderberger.
13:23Luckily, none of this will be on your next pop quiz to be a little bit funny.
13:28But yes, that will do it for our second article.
13:33And before I conclude the review, I would like to ask your opinion about the two articles.
13:37The first one namely is the first article, US built quantum computer outshines world top supercomputers and key tests.
13:46The second one is mathematician solves algebra's oldest problem.
13:51What do you think of those two articles?
13:53Are they interesting?
13:55Are they relevant to your life?
13:57And do they provide enough information to get a gist of what the subject is about, such as what the article provides?
14:04You're welcome to give your opinion in the comments below.
14:07I do ask that you, number one, keep it relevant and keep it civil as we're only trying to add something positive to this experience.
14:13Remember that what we're trying to do is grow the user base and provide the highest quality, up to date news for everybody who would like to be up to date with the news.
14:26What I typically choose is either something science, technology, mathematics, or something with politics, something that people want to see.
14:35If you have any suggestions about particular articles or subjects you'd like to see that's appropriate for this general genre that I'm referring to, then I welcome you to put that in the comments below.
14:47Just, again, make sure you keep it relevant and keep it civil.
14:51Okay?
14:52I do appreciate that.
14:53Now, remember, relevancy is key.
14:56Okay?
14:57This is not a gaming channel.
14:59This is not a whatever channel.
15:01This is an article and news channel that I do a review of, so keep that in mind.
15:08Excuse me.
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16:51Let me get some water here.
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17:52So I'd like to wish you a great day wherever you are in the world.
17:56Take care.
17:57And I'll certainly talk to you next time.
18:01Bye for now.
18:03Bye for now.
18:04Bye for now.
18:05Bye for now.