Register for free to join our community of investors and share your ideas. You will also get access to streaming quotes, interactive charts, trades, portfolio, live options flow and more tools.
Register for free to join our community of investors and share your ideas. You will also get access to streaming quotes, interactive charts, trades, portfolio, live options flow and more tools.
8/FUZE patent: Interoperability between RCS networks and proprietary messaging platforms.
android, msft, apple devices and rcs with the proprietary messaging platform interop of ai servers/services and such?
call valde? either v ip helped or was trumped? might need v ip social network and 8 ip user designated dynamic dns mapping?
goog wear os and gemini ai........side by side they say.
google interconnect to oracle cloud
vmware iip to oracle cloud
split screen to foldable devices rather than the head mounted......perhaps too disconcerting. they stream the wear os data screen to the device or arbitrary object framework ? v ip at work again?
experiments via massively huge parallel computing or quantum computation?
but need to ensure the science parameters/algorithms/components/microservices /everything going into the testing/experiments are uniform.
obvious is the reason why los alamos is the partner. but how long have they really been doing same? years? as it's the heart of darpa investments in these component companies, which i think includes vcsy.
8/1/2008? msft licensing date for the never ending license agreement, which we don't know what it stipulates...........empath engineers working on the apis of 744 family now cloudified by/with 8x8 and programmable for snappnet/time/emPath, etc. wags.
if not , why are we being tormented with all this how to use v ip and 8 ip?
is this the friday we learn our fate? maybe, biden's last gasp during nato conference.........or , use the nato conference to build his cred in the globe before exiting due to health?
bloomberg tv headline of los alamos and openai working on how to use generative ai in lab work. this is real juicy. bringing in others like google alpha fold, msft dna sequencing ip-burrows wheelerip, inovio/upenn syn con and syn dna......a service like no other..customers like pharmas can bring their molecules/treatments/diseases/protein deficiencies and the group can find/define/create syn dna formula which can correct/fix the ailment, infection, cancer in a fast personalized way? or, my hope for such.
and no big problems with associated side effects of treatment? or, that could be digitally tested for before animal/human testing?
potential segue with openai and los alamos partnership?
me: they say los alamos and openai in work to determine benefit of ai to lab work
now i remember los alamos was looking for emPath engineers in the past...this would seem ideal.....generative ai to help with this lab work and automation and use of ai......experimental environment requires strict adherence to lab protocols, steps and specs. like cooking the methamphetamine in breaking bad?
we are getting to the nitty gritty of what generative ai can do /facilitate/enable/discover/etc.
segue with google alpha fold, msft dna sequencer, inovio syn con and artificial/synthetic dna..........wags.
you ask/describe it builds it and away you go. aws app builder service. does it use templates of microservices and then connects them together with some emPath and time? wags.
"New generative AI-powered service empowers a new set of builders to create applications in minutes
NEW YORK, July 10, 2024--(BUSINESS WIRE)--At AWS Summit New York, Amazon Web Services, Inc. (AWS), an Amazon.com, Inc. company (NASDAQ: AMZN), announced AWS App Studio, a generative artificial intelligence (AI)-powered service that uses natural language to create enterprise-grade applications. A user simply describes the application they want, what they want it to do, and the data sources they want to integrate with, and in just minutes, App Studio builds an application that could have taken a professional developer days to build from scratch. Modifying App Studio applications is easy using its point-and-click interface, and users also get immediate guidance on how to accomplish a task by asking its generative AI-powered assistant. App Studio opens up application development to technical professionals without software development skills (such as IT project managers, data engineers, and enterprise architects), empowering them to quickly build internal applications that are secure and fully managed by AWS, eliminating the need for operational expertise. This allows users to focus on building applications that help solve business problems and increase productivity in their roles, while removing the heavy lifting of building and running applications. To learn more about AWS App Studio, visit aws.amazon.com/app-studio."
usa investing 2 billion dollars into chip packaging r and d. photonics/stacked 2d/3d ? need dynamic routing, networking, authentication? apis/zerotrust/inter component communications of cpaas type? call winning. optimization of soft fabric?
gemini:
how does quantum computer vortices relate to quantum computer entropy?
edit
Show drafts
expand_more
volume_up
Quantum vortices and quantum entropy are related in the context of quantum computing in a few ways:
Topological Quantum Computing: Quantum vortices, which are essentially localized disturbances in a quantum field, can be utilized in topological quantum computing. This computational model relies on the topological properties of quantum systems to encode and process information. The stability of these vortices makes them resistant to local disturbances, thus reducing errors due to entropy.
Error Correction and Decoherence: Entropy in quantum computing refers to the loss of quantum information or coherence due to interactions with the environment. Quantum vortices, due to their topological nature, can be more resilient to decoherence caused by entropy. This means they can potentially be used in error correction codes to protect quantum information and improve the reliability of quantum computers.
Quantum Algorithms and Simulations: Quantum vortices can be used to simulate complex quantum systems that exhibit vortex-like behavior, such as superfluids or superconductors. By understanding the dynamics of these vortices, researchers can develop new quantum algorithms for various applications, including materials science and condensed matter physics.
Measurement and Control: The ability to create, manipulate, and measure quantum vortices is crucial for harnessing their potential in quantum computing. Advances in quantum technology have enabled researchers to control these vortices with increasing precision, leading to potential breakthroughs in quantum information processing and quantum sensing.
In summary: Quantum vortices are an exciting area of research in quantum computing due to their potential for improving error correction, developing new quantum algorithms, and simulating complex quantum phenomena. While the relationship between quantum vortices and entropy is complex and still under investigation, it is clear that understanding their connection is crucial for advancing the field of quantum computing.
perplexity:
spin vectors as a means of reading a quantum computation
Sources
science.osti.gov favicon
arxiv.org favicon
View 2 more
Answer
Spin vectors play a crucial role in quantum computation as a means of representing and manipulating quantum information. They serve as a visual and mathematical representation of qubits, which are the fundamental units of quantum information.
In quantum computing, a qubit's state can be visualized as a vector on a sphere known as the Bloch sphere. This representation allows us to conceptualize the quantum state in three-dimensional space:
The north and south poles of the sphere represent the classical binary states (|0? and |1?).
Any point on the surface of the sphere represents a superposition of these states.
The spin vector's orientation on the Bloch sphere corresponds to the qubit's quantum state. This visualization is particularly useful because:
It provides an intuitive way to understand qubit manipulations.
It allows for the representation of complex quantum operations as rotations of the spin vector.
In practical quantum computing implementations, such as those using nitrogen-vacancy (NV) centers in diamond, the electron spin can be used to store and manipulate quantum information. The spin can be in a superposition of "up" (+1), "down" (-1), or any state in between, until it is measured.
Reading a quantum computation often involves measuring the final state of these spin vectors. This process, known as "readout," typically collapses the superposition to one of the basis states. In some systems, like NV centers in diamond, this readout can be performed using laser excitation and detecting the resulting fluorescence.
It's important to note that while spin vectors provide a useful conceptual framework, actual quantum computations involve complex mathematical operations on these states. Quantum gates, which are the building blocks of quantum circuits, can be thought of as operations that rotate or transform these spin vectors on the Bloch sphere.
In more advanced quantum computing schemes, such as those using nuclear magnetic resonance (NMR), multiple interacting spins can be used to represent and process quantum information. In these cases, the challenge lies in controlling the interactions between different spin systems while minimizing unwanted interactions with the environment.
In summary, spin vectors serve as a powerful tool for conceptualizing, manipulating, and ultimately reading quantum computations. They provide a bridge between the abstract mathematical formalism of quantum mechanics and the practical implementation of quantum algorithms.
canada/quantum computer/d -wave/cia and amazon? as i remember.
libraries for the encryption?
quantum vortices vs spin and entropy are related?
more stable platforms?
they already put a deadline on use of new outlook for email.
c4isrnet.com/cyber/2024/07 molly weisner;
pentagon zero-trust office aims to start data tagging labelind in '24. july 8 24
hello. she says they been working on it for 12-14 years..tagging and labeling....v needs to send uncle sam a letter?
mle? lol.
and dod pushing this; and biden talking to nato this week. hope he goes whole hog on it.
in a game, quantum computers are supposed to enable the characters you run into into more than a static few lines of dialog. you could have a whole unique conversation with them. acute learning in the 'game' in addition to the learning, options, potentials which have been learned from past historical and synthetic interactions of all types? more of a general intelligence. i think i had such a conversation of 8x8 investor relations....can't verify it, but.
how to read the outcome of a quantum computation event without collapsing the thing? look at the spin/vectors?
you don't stop it to read it because the phenomenon you are using would also collapse and be useless.
8x8 has motion vector estimation for non-linear stuff. perfect and amazing. add the vcsy ip and bring up the armored cars to the bank.
machine learning as a vector
Show drafts
expand_more
volume_up
In machine learning, a vector is a fundamental mathematical object used to represent data points, features, or characteristics in a structured way. It can be visualized as an ordered list of numbers, where each number corresponds to a specific attribute or dimension.
Here's how vectors are used in machine learning:
Data Representation:
Feature Vectors: Each data point in a dataset is transformed into a feature vector, where each element represents the value of a specific feature. For example, a vector representing a house might have elements for square footage, number of bedrooms, and price.
Word Embeddings: In natural language processing, words or phrases are represented as vectors in a high-dimensional space, capturing semantic relationships between them.
Image Representation: Images can be converted into vectors by flattening their pixel values or using more complex techniques like convolutional neural networks (CNNs), where each element of the vector represents a feature extracted from the image.
Algorithm Inputs:
Machine Learning Models: Vectors are the primary input for most machine learning algorithms. These algorithms learn patterns and relationships within the feature vectors to make predictions or classifications.
Distance Calculations: Vectors allow for easy calculation of distances and similarities between data points, which are essential for clustering, recommendation systems, and anomaly detection.
Model Outputs:
Predictions: Many machine learning models output predictions in the form of vectors, where each element represents a probability or a score for a particular class or value.
Embeddings: Some models, like autoencoders, learn to represent complex data (e.g., images, text) in a lower-dimensional space as vectors called embeddings. These embeddings can be used for various tasks, such as search, visualization, and anomaly detection.
Benefits of using vectors in machine learning:
Efficiency: Vectorized operations are often computationally efficient, especially when using specialized hardware like GPUs.
Flexibility: Vectors can represent various types of data, including numerical, categorical, and even complex structures like graphs.
Mathematical Foundation: Linear algebra, the study of vectors and matrices, provides a solid theoretical foundation for many machine learning algorithms.
Let me know if you'd like a deeper dive into a specific aspect of vectors in machine learning, such as word embeddings, image representation, or specific algorithms that use vectors as inputs or outputs.
share
more_vert
the use of vectors to 'read' a quantum computation?
edit
Show drafts
expand_more
volume_up
In quantum computing, vectors play a central role in describing and manipulating quantum states and operations. Here's how vectors are used to "read" a quantum computation:
Representation of Quantum States:
State Vectors: The state of a quantum system is represented by a state vector, which is a complex vector in a Hilbert space. The dimensions of this vector space correspond to the number of possible states of the system.
Basis States: A set of orthonormal basis vectors (often denoted as |0? and |1? for a single qubit) is used to represent the possible computational states of the system.
Superposition: Unlike classical bits, which can only be 0 or 1, qubits can be in a superposition of states, represented as a linear combination of basis vectors with complex coefficients.
Quantum Gates as Matrices:
Matrix Representation: Quantum gates, which are the basic operations that manipulate quantum states, are represented as matrices. These matrices act on the state vectors, transforming them to new states.
Unitary Matrices: Quantum gates must be represented by unitary matrices, which preserve the norm of the state vector (ensuring the probabilities sum to 1).
Reading the Output:
Measurement: To "read" the result of a quantum computation, we perform a measurement on the final state of the system. This projects the state vector onto one of the basis states, with a probability determined by the square of the absolute value of the corresponding coefficient.
Probability Amplitudes: The coefficients of the state vector before measurement are called probability amplitudes. They determine the probabilities of different outcomes upon measurement.
Multiple Measurements: To get a complete picture of the quantum state, we often need to repeat the computation and measurement multiple times to estimate the probability distribution of the outcomes.
Example:
Consider a simple quantum circuit with a single qubit. The initial state of the qubit is |0?. We apply a Hadamard gate (H), which puts the qubit into a superposition of |0? and |1?.
Initial state: |0?
After H gate: (|0? + |1?) / v2
Now, if we measure the qubit, we have a 50% chance of getting |0? and a 50% chance of getting |1?. By repeating this process many times, we would observe this probability distribution.
Key Points:
Vectors provide a mathematical framework for representing and manipulating quantum states.
Quantum gates are represented as matrices that act on state vectors.
Measurement collapses the state vector into one of the basis states, with probabilities determined by the state vector's coefficients.
By repeating the computation and measurement multiple times, we can estimate the probability distribution of the outcomes, which is the way we "read" the result of a quantum computation.
you like blue, suv, sports car, nfl football, uk football-soccer, t swift, rhianna, babara s, elvis, barry m, e john, kona, portuno?
embedded agent/ mle/ would mean on device agent doing the 744 and parsing ? marking up the created data/output?
arm would likely be doing the design architecture for such and could build in the sovereign data blockchain data which goes to the sovereign data storage?
the others like qualcomm would that that and oem solutions on top of it?
those who own the storage could be making good money from such work.
the non sovereign data could be anonymized or kept anonymous and used to tranch the user into certain ad groups by token........is it racist or token anonymous of race/ethnicity...purely on likes or dislikes or persuasions?
the tranch would determine the ads grouping seen by the user..........hey, didn't vcsy have an ad patent pending?
the tranch puts you into an over the top ploinks grouping with a certain puddle server?
now i could see how they could apply this idea to satisfy the eu/usa/etc.
and like i ready earlier today, today's 20 million was yesterdays 10 million..so make sure you adjust for inflation, devaluation, etc.
not knowing the specifics of emPath or ploinks and puddle., i think emPath is part of ploinks and puddle or vice versa for the cloud/mobile use...
an integral component/part of cpaas functionality...two way comms of data/instructions to other parts of the computing platform as a service?
and the social patent of vcsy a very important aspect to the current and future communications/computing of a .netcore centric network. guesses.
8 working on networking , they said. perhaps, networking for the .net core centric network.
news recently citing dod sources that say they can't do work without the huawei equipment, which goes against the government edicts. so, change the focus to the cloud. go .net core and broadcom will make and sell the new hardware software which will be less expensive anyway with the use of virtual machines and virtual cpu/gpu/etc of avgo.this will their networking equipment and the embedded admin for such to do what neoware was supposed to enable.....the update/change/transformation of thousands of such devices at the same time. ibm has already done the inventory of computing devices........now here's the thing to wave in front of china, russia, iran, noko.....you , dudes, wanted to hack your neighbors for money? well, find yourselves left out in the cold.
if russian was left out of the global banking network, get ready for all the rest.......winning and isolation of the badness. sbv /vcsy to the rescue?
just an integration of the past and future potentials? did the q emulators simulation of quantum situations....ready the yes, no, in betweens and looking for the probabilities......like a big crap shoot.
first place for a mobile q digital twinning......dice in casino? past table and historical results on table/pit boss/the dice used.......obviously, the pit boss is concerned about this scenario or else why change the dice? place your bets...got to be fast, but like a tax return per quarter, everything is ready for number insertion. v's first lawsuit was with a gamer. why?
cpaas , two way communications..........data flows like a browser but not from a request interchange .
and then data in the cpaas can be updated.
if this is an application to create a quarterly report...........done.
what is vcsy using for it's accounting? what is now solutions doing with the canadian tax authorities?
why the hubbub about paying for the accounting audit, might not now solutions have a digital solution for same? they just need to customize it
with the vcsy logo?
and what is msft doing? are they working with usa irs on online taxes?
me:
copilot is openai with generative capabilities which communicate with the application/document you're viewing/using via api? segue with cpaas. in cpaas it's machine generative ai interaction with the ai resources?
the apparent missteps of 8 management become realized in progressive webapplications needed for robotic/syn-biotic existence of digital twin? mobility requires mobile application and like neoware's neolinux a smaller on mobile device footprint? segue with apple vision pro and r/m processors? guesses.==================
v ip?744 family. experts work on what they're expert in separately if needed/desired and the answer is integrated into the webpage/application of applications?
embodied by multiple chat apps in an app with programmable api's of 8. wags.
ot,..from what they say the current president's cold clammy skin, not feeling well, pale complexion, weakness...gosh did he show signs of post covid complications? hemorrhagic anemia? jaundice? did they give him a transfusion and other treatments?
computer/computing platform as a service and vertical computing systems, inc?
now msft retires their msft 365 connector, maybe for 8 type of operator direct connect/p to p/two way comms?
openai integrated 8, openai monetizing via apis to the ai. openai making 'startup ai company ' investments? 8 chatbot with openai api. you can customize the chatbots, so they become your own brands chat app. further .netcore which is perhaps vcsy version of .net...in 744 is the 'so-called, new .net.
all of a sudden r wade is getting hi level lawyers of pro bono nature? this is pretty interesting.
is vcsy such a 'startup'?
gemini says:SoftBank has shown interest in the concept of small-scale energy trading using blockchain technology and tokens. While there are no widely deployed projects yet, they have explored the idea through pilot programs and investments:
Blockchain Pilot in Japan:
In 2018, SoftBank, along with other Japanese firms, announced a blockchain pilot project aimed at facilitating peer-to-peer (P2P) energy trading in rural areas. The pilot involved using blockchain to track and verify renewable energy production and consumption, enabling consumers to buy and sell excess energy directly with each other.
Investments in Energy Startups:
SoftBank's investment arm, the Vision Fund, has invested in several energy startups that are exploring blockchain-based energy trading models. For example, they have invested in companies like Power Ledger, LO3 Energy, and WePower, which are developing platforms to enable P2P energy trading and renewable energy certificate (REC) trading.
Potential Benefits of Small-Scale Energy Trading with Tokens:
Empowering Consumers: Allows individuals and small businesses to become active participants in the energy market, selling excess energy they generate from solar panels or other sources.
Promoting Renewable Energy: Incentivizes the adoption of renewable energy by creating a market for surplus energy, making renewable energy sources more financially attractive.
Increased Efficiency: Optimizes energy usage by allowing for real-time trading and balancing of supply and demand, reducing wastage and increasing grid efficiency.
Transparency and Security: Blockchain technology ensures transparency and immutability of energy transactions, reducing fraud and increasing trust in the system.
SoftBank has shown interest in the concept of small-scale energy trading using blockchain technology and tokens. While there are no widely deployed projects yet, they have explored the idea through pilot programs and investments:
Blockchain Pilot in Japan:
In 2018, SoftBank, along with other Japanese firms, announced a blockchain pilot project aimed at facilitating peer-to-peer (P2P) energy trading in rural areas. The pilot involved using blockchain to track and verify renewable energy production and consumption, enabling consumers to buy and sell excess energy directly with each other.
Investments in Energy Startups:
SoftBank's investment arm, the Vision Fund, has invested in several energy startups that are exploring blockchain-based energy trading models. For example, they have invested in companies like Power Ledger, LO3 Energy, and WePower, which are developing platforms to enable P2P energy trading and renewable energy certificate (REC) trading.
Potential Benefits of Small-Scale Energy Trading with Tokens:
Empowering Consumers: Allows individuals and small businesses to become active participants in the energy market, selling excess energy they generate from solar panels or other sources.
Promoting Renewable Energy: Incentivizes the adoption of renewable energy by creating a market for surplus energy, making renewable energy sources more financially attractive.
Increased Efficiency: Optimizes energy usage by allowing for real-time trading and balancing of supply and demand, reducing wastage and increasing grid efficiency.
Transparency and Security: Blockchain technology ensures transparency and immutability of energy transactions, reducing fraud and increasing trust in the system.
Challenges and Considerations:
Regulatory Framework: Developing a clear regulatory framework for P2P energy trading is crucial to ensure fair and transparent market operation.
Technology Adoption: Widespread adoption of blockchain and token-based energy trading requires user-friendly interfaces and education for consumers.
Grid Integration: Integrating P2P energy trading into existing grid infrastructure can be complex and requires collaboration between energy providers, grid operators, and technology companies.
Future Outlook:
While still in its early stages, the concept of small-scale energy trading using blockchain and tokens holds significant potential for transforming the energy sector. SoftBank's interest and investments in this area indicate that it is a technology worth watching as it could lead to a more decentralized, efficient, and sustainable energy system.
avgo splits on theend of day july 12th....splits trade 15th.....i expect some news to buoy the stock split.
softbank talking energy provisioning for generative ai uses. remember alibaba is cloud partner of softbank .. remember ukraine has been accused of stealing gas and oil and data on transit across ukrainian territory/land. it was one of the things that started the conflict. why won't putin and z stop the war? someone wants continued conflict and interruption of energy products to eu from russia, but a former soviets piple/cable to nothern europe could change the distribution architecture of eu from south to north......from china fusion reactor ? they must be getting close as the world's scientists have been working on same including the transmission system to be use.
softbank and alibaba's cloud partnering was even said to be for energy grid/grip ip.
enron guys jumped the gun.....v ip and 8 i think are crucial to this work. as such it is likely worth in excess of portuno's 75 billion, but are we ready to wait. a 50/50 payout might help. some stock to keep us in the game. i'd have been po'ed if i took cash in the avgo acquisition of vmware....then a 10 for 1 split.......120 became 128x2.3 or so?
open source ai........ .NET core is open source.......
hopefully, vcsy is important and the r wade decision , the key to opening it.....
i am hopeful it's soon because of connector for msft 365 for teams retirement first weeks of august.
no more new connectors for them and then no msft connectors.
i reckon it must be soon. need corporate agreements in place and filed and insuranced , etc.
can't have users/partners left out cuz they didn't know, weren't ready, unless they are really not good anyway?
gemini ai says:""why hasn't money from ai work flowed down to other partner companies?
There are several reasons why the financial benefits of AI work haven't fully trickled down to other partner companies:
Uneven Distribution of AI Investment and Adoption:
AI investment is concentrated in a few large tech companies and industries. These companies have the resources to invest in research and development, and they are often the first to adopt and implement AI solutions.
Smaller companies and industries may not have the same level of resources or expertise to invest in AI, which can limit their ability to benefit from AI advancements.
Complex Value Chain:
The AI value chain is complex and involves multiple players, including research institutions, technology providers, service providers, and end-users.
The financial benefits of AI can be distributed unevenly across this value chain, with some players capturing a larger share of the value than others.
Time Lags:
It takes time for AI technologies to mature and for their benefits to be fully realized. Even after successful AI projects, it may take time for the resulting cost savings or revenue increases to translate into profits that can be shared with partners.
Additionally, the adoption of AI can require significant changes to business processes and infrastructure, which can take time to implement and may not always be successful.
Intellectual Property and Licensing Agreements:
AI technologies are often protected by patents and other intellectual property rights. Licensing agreements can determine how the benefits of AI are shared between the technology provider and the partner company.
In some cases, the terms of these agreements may favor the technology provider, limiting the financial benefits that flow to partner companies.
Skills Gap:
There is a significant shortage of AI talent, making it difficult for smaller companies to find and hire the expertise needed to develop and implement AI solutions.
This skills gap can create a barrier to entry for smaller companies, preventing them from fully participating in the AI economy.
Potential Solutions:
Increased Investment in AI Research and Education: Governments and industry can invest in AI research and education to make AI technology more accessible and affordable for smaller companies.
Collaborative Partnerships: Encouraging partnerships between large and small companies can help to share knowledge and resources, enabling smaller companies to benefit from AI advancements.
Open Source Initiatives: Open-source AI platforms and tools can democratize access to AI technology, making it more readily available to a wider range of organizations.
Fair and Transparent Licensing Agreements: Developing fair and transparent licensing agreements can ensure that the benefits of AI are shared more equitably across the value chain.
By addressing these challenges, we can create a more inclusive and equitable AI ecosystem where the benefits of AI are distributed more broadly across partner companies and industries."
why has ai wealth only shown for a few companies? it takes them all to create the stuff of ai and generative ai and applications.
is all their money going into escrow? might that change with the txs sco ruling ?
that would be grand. but we all need to know admin of wh needs some great pr.
cancer treatments, ai winners all around in the usa. new jobs for the tech workers laid off?
tax base.
did some of them move to Tennessee and txs and fld to skirt the state taxes.....also, the other dem stuff like reoperations.
amazon web services to move australian intelligence to the cloud......they are in direct line of fire of china hackers but must also do business with china, a lot of business.
vmware multi cloud.
did australia get hacked via remote take over of devices via their sbc/365 connectors weaknesses? now they msft connector is getting retired. is msft going .net core, which might be the basis of msft /vcsy patent fight and msft licensing of v?
now they move the whole kitty to the cloud and maybe use 8 and partners ip for the to and fro?
first to the second, cuda-q, and all that. australia is a platform to watch space and near space on going stuff as well. pine gap isn't just a netflix show?
air gap isn't just a sci fi deal.
atlassian sold jitis to 8 and 8 improved it, including security. were they using old broadsoft ip, which 8 updated in uk voicenet.
now , broadsoft was part of the old legacy verizon and lu i-merge......a big open platform; which is evidently a hacker's paradise. enter 8 to help the v iip world become all that it can be.
now , we wait on txs sco on wade....but to me it looks like the wheels are in motion, and might use the msft licensing anniversary as a do by date, i hope. good luck to us
the guy didn't even seem to respond to the court proceedings in the first place. is he feigning the same symptoms of hur's deposition victim to avoid criminal prosecution? two hours time difference from et? makes it like 11:30?
amazon to cloudify australian digital storage....is amazon using 8 operator connect to msft teams architecture and removing and not using the old msft connector ip which uses their session border controller ip? i wonder if they go to 8x8, cloudfront, and google cloud worker agent? instead of connector they use apis of 8? ar?e they building the hybrid cloud envision by vmware
then employ the networking required to use v ip as we all envision including in ploinks and puddle?
with a different promt, gemini chimes in with different emphasis / take on wade's case::
texas supreme court case of richard wade vs vcsy and valdetaro
The Texas Supreme Court case of Richard Wade vs. VCSY and Luiz Valdetaro (Case No. 23-0443) is an ongoing appeal where Wade is challenging a lower court's judgment awarding over $21 million to VCSY (Vertical Computer Systems, Inc.) and its CEO, Luiz Valdetaro, for breach of fiduciary duty, fraud, and embezzlement.
Case History:
Lower Court Ruling: The trial court in Dallas County ruled in favor of VCSY and Valdetaro, finding Wade liable for the aforementioned charges.
Appeal: Wade, representing himself (pro se), appealed the decision to the Texas Fifth Court of Appeals.
Appellate Court Ruling: The Fifth Court of Appeals affirmed the trial court's judgment in April 2023.
Supreme Court Appeal: Wade then filed a petition for review with the Texas Supreme Court in June 2023.
Current Status: The Supreme Court requested full briefing on the merits of the case in October 2023. The case is currently pending on merits briefs, with recent filings including a motion for leave to file corrections and a sur-reply brief in March 2024.
Key Points:
The case revolves around allegations of financial misconduct by Wade during his time as an executive at VCSY.
The lower courts found Wade liable for substantial damages, but he is now seeking to overturn those rulings in the Supreme Court.
The case has garnered attention due to the large sum of money involved and the complex legal issues surrounding corporate governance and fiduciary duty.
msft .net core is the favored collaborative platform for alll for one? it's sounds like v ip .........net lawsuti against msft?
.net core is app driven........the main theme of v ip 744 family which needs the other v ip patents to function. thanks to valdetaro.
8 gets it from here to there? with networking/routing/authentication with their partnrs like rapid7?
i see aug date firming up and potential for resolution of our problems before then. .
365 connectors connecct 365 apps to 3rd parties apps. some api's needed. espsecially because .net core is app oriented.
msft 365 connectors gone aug 1?
now 8x8 has operator direct connect. i wonder if this means the msft sbc is going away, which changes the fabric thing of msft.
peer to peer direct routing, is going to need new networking and authentication an security?
gemini ai says regarding the association of quantum votices and quantum photonic spin::
how is the quantum vortices associated to the quantum photonic spin?
edit
Show drafts
expand_more
volume_up
Quantum vortices and quantum photonic spin are closely related in several ways:
Topological Properties: Both quantum vortices and quantum photonic spin are characterized by topological properties. In the case of a quantum vortex, the topology is manifested in the quantized circulation of the superfluid velocity around the vortex core. For photonic spin, the topology is related to the winding of the polarization vector around the propagation axis.
Angular Momentum: Both quantum vortices and quantum photonic spin carry angular momentum. The angular momentum of a quantum vortex is associated with the circulation of the superfluid, while the angular momentum of a photon is related to its spin angular momentum (SAM) and orbital angular momentum (OAM).
Quantum Statistics: The quantum statistics of twisted photon pairs, which carry OAM, are essentially determined by their spin states. This means that the behavior of photons in a photonic vortex depends on their spin.
Interaction: Quantum vortices can interact with light carrying spin angular momentum. This interaction can lead to the transfer of angular momentum between the vortex and the light, resulting in interesting phenomena like the generation of twisted light.
Applications: The connection between quantum vortices and quantum photonic spin has potential applications in various fields, including:
Quantum communication: Twisted light, which can be generated by the interaction of quantum vortices and light carrying spin angular momentum, could be used for secure communication channels.
Quantum information processing: Quantum vortices could be used to manipulate the spin of photons, potentially enabling new types of quantum logic gates.
Quantum sensing: The interaction between quantum vortices and light carrying spin angular momentum could be used to develop new types of sensors for detecting rotation and magnetic fields.
In Summary:
The association between quantum vortices and quantum photonic spin is a fascinating area of research with potential applications in various fields. By understanding the connection between these two phenomena, scientists can develop new technologies and gain insights into the fundamental nature of quantum mechanics.
am i giving the dem governors too much credit? did admin show them some strategic pr's for tomorrow? otherwise , they come out looking pathetic? we already know they exhibit such if they believe in b's resurrection?
like a zombie cult? x these people are in it to save their jobs and advancement.
security increased over non-q'ed. routing and networking and authentication improves the comms use of energy, electricty, heat, bandwidth, etc. reducing the total cost of 'ownership' wags.
ploinks and puddle, kona, you hit the nail on the head.
now would it be interesting if admin were to announce it tomorrow , july 4th, and v starts trading aug 1 , 2024? or, was it aug 6th when msft licensing of v?
are we ready for digital twinning after the dod /hpc information?
i wonder if nvidia was forced to remove the cloud connectivity from alibaba gpu farm?
also, heavy lifting from mobile device to monolithic/distributed/collaborative/integrated /resilient backends of cloud service.
unfortunately, more Sabre rattling in the ukrainian and israeli wars?
and go back to v ip....filepointer and the file/application?
why, cuz they are built to allow such digital twinning? wags.
dod and hpc and azure cloud/msft teams/8 voice for teams
msft teams and dod
cuda-q?
an army of one?
all the information pertaining to what you're doing and how it might/could affect other things, short and long term? wags.
but i think we always thought v was held up cuz of the dod applications.
now supreme court of texas has nothing on it's schedule . no more work orders.
i think, we see action soon which will preserve r wade's money and give v ip money and power?
the forensic exam of the books for a trial have to be deeper, you hope, that a quarterly report.
the admin is hanging by a follicle and needs to provide acuteness of thought, or the preception of such?
can digital twin include a mobile version of the application?
Show drafts
expand_more
volume_up
Absolutely! Digital twins can definitely include a mobile version of the application. In fact, having a mobile version of a digital twin application can be incredibly beneficial for many use cases.
Advantages of Mobile Digital Twins:
Accessibility: Mobile digital twins allow users to access and interact with the digital representation of a physical asset or system on their smartphones or tablets, making it more convenient and accessible on the go.
Real-time Monitoring and Control: Mobile apps can provide real-time updates on the status of the physical asset, enabling users to monitor performance, detect anomalies, and even control certain aspects of the system remotely.
Data Visualization: Mobile devices can display interactive 3D models, charts, and graphs, making it easier to visualize and understand complex data related to the digital twin.
Collaboration: Mobile apps can facilitate collaboration among teams by enabling users to share information, annotations, and insights about the digital twin in real time.
Augmented Reality (AR): Mobile digital twins can leverage AR capabilities to overlay digital information onto the physical world, providing users with a more immersive and interactive experience.
Examples of Mobile Digital Twin Applications:
Manufacturing: Monitor and control production lines, track inventory, and predict maintenance needs.
Healthcare: Track patient health data, monitor medical devices, and provide remote consultations.
Smart Cities: Monitor traffic flow, optimize energy consumption, and manage infrastructure assets.
Retail: Track customer behavior, optimize store layouts, and personalize shopping experiences.
Construction: Monitor construction progress, track equipment usage, and identify potential safety hazards.
Considerations for Mobile Digital Twins:
User Interface: Designing a user-friendly and intuitive interface is crucial for mobile digital twins, as the smaller screen size and touch-based interaction present unique design challenges.
Data Optimization: Mobile devices have limited processing power and bandwidth compared to desktop computers. Optimizing data transfer and rendering is essential for smooth performance and efficient operation of mobile digital twins.
Security: Mobile digital twins often deal with sensitive data, so robust security measures like encryption and authentication are essential to protect against unauthorized access and data breaches.
Overall, mobile digital twins offer significant potential for improving efficiency, productivity, and decision-making across various industries. By leveraging the power of mobile technology, businesses and organizations can unlock new ways to interact with and derive value from their digital twins.
share
more_vert
8 work desktop and mobile versions
edit
Show drafts
expand_more
volume_up
8x8 Work is a unified communications platform that offers both desktop and mobile versions to provide seamless communication and collaboration experiences across different devices.
Desktop Version:
Operating Systems: Available for Windows and macOS.
Features: Offers a full range of features, including voice and video calling, messaging, file sharing, screen sharing, virtual backgrounds, and integration with other business applications.
Benefits: Provides a rich and powerful communication experience on larger screens, ideal for multitasking and extended use.
Mobile Version:
Operating Systems: Available for iOS and Android devices.
Features: Offers core communication features like voice and video calling, messaging, and file sharing, optimized for mobile devices.
Benefits: Provides on-the-go access to communication tools, allowing users to stay connected and collaborate from anywhere.
Both versions of 8x8 Work are designed to seamlessly integrate with each other, ensuring consistent communication and collaboration experiences across devices. Users can easily switch between the desktop and mobile versions without losing context or missing important messages.
Additional Information:
8x8 Work for Mobile: You can find more information about the mobile version of 8x8 Work, including features and download links, on their website: https://www.8x8.com/university/catalog/8x8-work-for-mobile?locale=us
What's new in 8x8 Work for Mobile 11.7 release?: This page provides details on the latest updates and enhancements for the mobile version: https://docs.8x8.com/8x8WebHelp/virtual-office-mobile-android/Default.htm
I hope this helps! Let me know if you have any other questions.