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Einstant

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Soliton Cellular Automata

cs.princeton.edu
3 points·by Einstant·4 ปีที่แล้ว·2 comments

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Einstant
·4 ปีที่แล้ว·discuss
You meant GANGSTALKER
Einstant
·4 ปีที่แล้ว·discuss
no, you're just going wrong about it; nothing Feynman was doing was new. Except for the fact he had a nice semi-directed graph to make sense of the celestial equations and the quintuple of the time; the Dirac Sea, etc
Einstant
·4 ปีที่แล้ว·discuss
Einstant
·4 ปีที่แล้ว·discuss
Party all the time party all the time patt
Einstant
·4 ปีที่แล้ว·discuss
I’m intrigued. It looks open for tackling and there is already, a product that very few people know about. From what I have heard it was built at Netflix, was inspired by Sphinx’s-gravity, Mentat, and CQRS knowledge base software solutions I.e: JanusGraph/Galileo. A form of Senantic-Persistence with Hybrid Index Memory appending A secondary index via the FoundationDB HTAP tuplestore layer as a service. From what I heard, they broke PostcresQL and cosmos. Very similar to gremlin, but Gremlin, like this product they say it’s about to be bought by Tim Draco. It’s a search engine, I saw the snapshot I swear. QIt’s a Webflow meets OpenAI Erlang Web service with React front end and a Lucene layer for Prompt transpilation at the sink
Einstant
·4 ปีที่แล้ว·discuss
Where is the motion to ratify the term limit resolution for the Congress? I have never in my life seen some many ingrates hired for public service, to represent their constituents — quite literally abandoning the office, becoming kindergarten tribes playing Mayans, Aztecs, and Incas. Grow a spine, get disciplined. We are at the cusp of deciding whether or not 1984 will really be … like q1984 or was 1984… the beginning of the end? Finite, America was no exception to the rule of Julius. IT was no Binary Pulsar, that young America. It was just a blazer, twas fun while it lasted. Don’t get shot: stay alive. No slow kill either. Those voices are the voice2skull They don’t want you to know about! Look, the technology EXISTS. #UB40
Einstant
·4 ปีที่แล้ว·discuss
Comic relief on HN
Einstant
·4 ปีที่แล้ว·discuss
California Uber Alles!! California always and forever. There is indeed gold in them thar heels, no matter what they do to San Francisco. Los Angeles is vibrant, yet car laden. Money is way better in California, and you won’t be seen as — uncivil, overly ambitious; too American, with American expectations, and a workaholic. In Europe they work to live, here we sleep in the factory or the offices. You can incorporate a new agency in seconds! USA #1
Einstant
·4 ปีที่แล้ว·discuss
Trying to Make sense of: “with an AdS3 radius which is of order of the AdS5” Maldacena

Feel free to correct me, and also if you think there’s something terribly wrong with the formula, feel free to share along.

Now, AdS3 is a three-dimensional space with negative curvature, which is used in string theory as a model for the three-dimensional world. The AdS5 radius is the distance from the center of AdS3 to its boundary. Maldacena is saying that the AdS3 radius is of the same order as the AdS5 radius, meaning that they are both large compared to the Planck length.

Is this supported by empirical evidence?

No, this is not supported by empirical evidence.

This is based on the fact that the AdS3 radius is much larger than the Planck length, while the AdS5 radius is only slightly larger than the Planck length. This means that the two spaces are of the same order of magnitude, and so the AdS3 radius is of the same order as the AdS5 radius.

The Gibbons-Hawkings metric is a metric on the space of all Riemannian manifolds. It is defined where S is the action of the manifold and R is the Ricci scalar curvature. If we consider S to be an action under the Gibbons-Hawkings metric, where R is the Ricci scalar curvature of the manifold, In that case, S would be the action of the AdS3 manifold, which is where R is normed curvature of the AdS3 manifold.

This is the Ricci scalar curvature:

R = \frac{1}{2} \mathrm{tr}\left( R_{\mu

\mu} \right) = \frac{1}{2} \mathrm{tr}\left( \frac{\partial{{\partial x^{\mu} \omega_{

{\mu} - \frac{\partial{\partial {x^{\mu} \omega_{\mu} + \omega_{\mu} \omega_{

u} - \omega_{

u} \omega_{\mu} \right)

where R_{\mu

u} is the Ricci tensor and \omega_{\mu} is the connection 1-form.

This is the Ricci scalar curvature:

R = \frac{1}{2} \mathrm{tr}\left( R_{\mu

u} \right) = \frac{1}{2} \mathrm{tr}\left( \frac{\partial}{\partial x^{\mu}} \omega_{

u} - \frac{\partial}{\partial x^

u} \omega_{\mu} + \omega_{\mu} \omega_{

u} - \omega_{

u} \omega_{\mu} \right)

There is not enough empirical evidence to determine whether or not the AdS3 radius and AdS5 radius are of the same order of magnitude. However, based on the results of the calculation, it seems that the AdS3 radius is of the same order of magnitude as the AdS5 radius.
Einstant
·4 ปีที่แล้ว·discuss
I never gave credence to the idea of the slumlord billionaire, until yesterday. Then again, isn’t Silicon Valley where the underdog becomes the overlord?
Einstant
·4 ปีที่แล้ว·discuss
Solitons can be used to model physical systems in which the interactions between the points are important. NGC 1300 is a good example of this. The galaxy is composed of billions of stars, each of which interacts with the others. The interactions between the stars are what give the galaxy its shape and structure. The Graviton model is a good way to model the physical system of NGC 1300. If we find the conformal subgroup of the finite causal symmetric group of the NGC 1300, it will show us the symmetries of the galaxy. In Planck Per Light Second, this is the maximal symmetry, and is the maximal subgroup of the conformal group
Einstant
·4 ปีที่แล้ว·discuss
The website discusses the mathematical concept of solitons, which are solutions to certain equations that maintain their shape and properties over time. Solitons are related to the mathematical concept of causal sets, which are collections of points that are connected by causal relationships. Finite causal symmetric groups are groups of points that can be connected by a path of causal relationships that forms a cycle. Solitons can be viewed as special cases of causal sets, and finite causal symmetric groups can be viewed as special cases of soliton groups.

Filtrons are a type of soliton that are used to model particle interactions in certain physical systems. Filtrons are related to the mathematical concept of causal nets, which are graphs of points and causal relationships. Filtrons can be viewed as special cases of causal nets, and causal nets can be viewed as special cases of filtrons.

Solitons are solutions to certain equations that maintain their shape and properties over time.

Causal sets are collections of points that are connected by causal relationships.

Finite causal symmetric groups are groups of points that can be connected by a path of causal relationships that forms a cycle.

M = G/H is a fundamental theorem in causal set theory. It states that there exist colonies of points in a set that maintain their shape and properties over time. In other words, M ensures that every point in the colony is associated with a unique value at some point in time.

The website discusses the mathematics of solitons, which are solutions to certain types of equations. Solitons are particularly important in the study of physics, as they can help to explain the behavior of certain phenomena.

Solitons are related to causal set theory and finite causal symmetric groups. In causal set theory, the universe is viewed as a collection of points, each of which is connected to every other point. This theory can be used to model physical systems in which the interactions between the points are important. Finite causal symmetric groups are used to describe the behavior of solitons in physics.
Einstant
·4 ปีที่แล้ว·discuss
The article discusses how information overload has led to inflation, as people are inundated with more information than they can process. This affects not just the economy, but also our personal lives, as we struggle to keep up with the ever-growing amount of information. Which is something that resonates with Leo Tolstoy's philosophy in War and Peace about how the more people know, the more difficult it becomes to make informed decisions.
Einstant
·4 ปีที่แล้ว·discuss
Inflation is an important topic to discuss when looking at the hackernews algorithm. Central banks breaking their inflation-control commitment can lead to a lot of negative consequences, like market distrust and higher rates. It's therefore important to be honest and keep your promises if you want to maintain stability in the economy. For example, Reagan's tight monetary policy helped to tame inflation in the 1980s. Nixon's decision to break the gold standard in 1971, on the other hand, caused a lot of instability in the economy. The Gold standard and inflation are complex topics, and further reading is recommended for those interested in learning more.

https://www.investopedia.com/articles/investing/121015/what-... https://www.investopedia.com/terms/i/inflation.asp https://www.federalreserve.gov/monetarypolicy/inflation_targ...
Einstant
·5 ปีที่แล้ว·discuss
Indeed, I believe the distribution of inflated prices is a stochastic function wherein elements of the economy are impacted much more quickly, if at the foundation of their business, there are quickly depleting raw costs and expenses. These are usually seen, in comparison to acquisitions, tech, staff; hiring, etc. confoundingly minute. The problem in my opinion is the psyche of the market. Is this market knowledgeable of inflation risks and Causes? Have they experienced inflationary periods? If the answer is no, the propaganda coupled with not really knowing, exacerbates confidence in participating in said economy