Vertical Computer Systems Inc (fka VCSY)

[doc2016]

webrtc is important in cpaas and 8x8 /jitsi as a service supports webrtc. transformation of data to encrypted form for webrtc transport is important and is vcsy related in my honest opinion. webrtc or something like it is likely important in qnodeos work which seems to include ionq software defined quantum computer and nvidia cuda-q. at least. either way we might begin to learn more this week from jensen and partners.

[doc2016]

gemini ai says:
fermion and arbitrary fermion object


When discussing "fermions" and "arbitrary fermion objects," it's important to clarify the distinction between the fundamental nature of fermions and the various forms they can take. Here's a breakdown:

Fermions: The Fundamental Nature

Definition:
Fermions are particles that obey Fermi-Dirac statistics.
A key characteristic is that they obey the Pauli exclusion principle, which states that no two identical fermions can occupy the same quantum state simultaneously.1  
1.
www.vaia.com
www.vaia.com
They have half-integer spin (e.g., 1/2, 3/2).
Examples:
Electrons, protons, neutrons, quarks, and neutrinos are all fundamental fermions.
Arbitrary Fermion Objects: The Variety

Composite Fermions:
Fermions can combine to form composite particles.
These composite particles can also behave as fermions if they contain an odd number of fundamental fermions.
For example, protons and neutrons are composite fermions made up of quarks.
Quasiparticles:
In condensed matter physics, "quasiparticles" are emergent phenomena that behave like particles.
Majorana fermions, for example, are often discussed as quasiparticles that might arise in certain materials.
These quasiparticles can exhibit fermionic behavior, even though they are not fundamental particles.
Arbitrary Arrangements:
Any collection of an odd number of fermions will behave as a fermion. Therefore, an "arbitrary fermion object" could be any collection of particles that end up having the properties of a fermion.
Key Distinctions:

Fundamental vs. Composite:
Fundamental fermions are the basic building blocks of matter.
Arbitrary fermion objects can be composed of multiple fundamental fermions or be emergent quasiparticles.
Context:
The term "arbitrary fermion object" is often used in theoretical physics and condensed matter physics to emphasize the general properties of fermionic behavior, rather than focusing on specific types of fermions.
In essence:

All fundamental particles that obey Fermi-Dirac statistics are fermions.
However, many objects that behave like fermions are not fundamental particles but rather composite particles or quasiparticles.
"Arbitrary fermion object" is a way of describing any entity that follows the rules of fermions.

[OraclePhoenix71]

WebRTC developed by Google and supported by Apple, Meta and Signal secure messaging service. Supports peer to peer with no server in the middle other than to connect the two parties and then gets out of the way, the same as the dropp router does in Ploinks. You guys still have your heads buried in the sand. Google has solid patents on WebRTC so don't get it in your head to sue them. WebRTC is open source anyway. Meta and Apple are using it for their secure messaging. Signal uses it for peer to peer calls with no server in the middle. There's nothing left. If you had removed Richard sooner, it might have gone somewhere but you're all basically screwed.

[Konaploinks]

What is more reliable than Ploinks? Let’s hear it or just stfu and stop lying. No money? Another lie. We have the Canadian irs contract for empath still last I heard. So we have money. We can’t sell our shares. Can you? We are not trading. Please tell us how liar , then move on. You are f o s . Beat it with your incessant lies. You fool no one. Pfftttttttt. Next mirrorboy. Lmfaoayda

[OraclePhoenix71]

They have no money and no prospects of getting any. I'm not sure why they just don't declare bankruptcy. They have no assets to speak of. You all listened to Port and he was wrong. There were voices saying all along this was a scam. Ploinks had potential but that's long gone. There are other technologies that do what Ploinks does only much more reliably. You need to admit to the mistake and move on.

[doc2016]

light/off load? jitsi as a service?
me:

is this an 8 work client?:"msft remote app for cloud apps they say allows specific cloud-hosted apps to be streamed to an rdp client without a full desktop session. this would be helpful for hosting business apps on azure or other cloud servers while keeping the local system light. "

[doc2016]

gemini ai said, "can neural ray tracing of nvidia be used in weighting vectors of quantum spins?


The intersection of NVIDIA's neural ray tracing and quantum spin weighting vectors is a very advanced and emerging area. While a direct, widespread application might still be in development, there are conceptual connections and potential future uses. Here's a breakdown:

Understanding the Concepts:

NVIDIA Neural Ray Tracing:
This technology uses AI, particularly neural networks, to accelerate and enhance ray tracing, a rendering technique that simulates light behavior.  
It allows for more realistic and efficient rendering of complex scenes by using AI to predict and approximate light paths.  
Quantum Spin Weighting Vectors:
In quantum computing, spin qubits (using the spin of electrons) are a type of qubit.  
"Weighting vectors" would refer to the mathematical representations of the probabilities of those spins being in certain states.
Controlling and manipulating these weighting vectors is crucial for performing quantum computations.
Potential Connections and Applications:

Quantum Simulation:
One of the most promising applications of quantum computing is the simulation of complex physical systems.  
Ray tracing, at its core, is also a simulation of light behavior.  
There's potential for NVIDIA's neural ray tracing technology to be adapted to visualize and analyze the results of quantum simulations, including those involving spin systems.
Essentially, neural ray tracing could be used to create visual representations of the probability distributions of quantum spin states.
Optimization of Quantum Control:
Controlling quantum spins is a very challenging task.
Neural networks, like those used in NVIDIA's ray tracing, are excellent at optimization problems.  
It's conceivable that neural networks could be used to optimize the control signals that manipulate quantum spin weighting vectors.
Visualization of Quantum Data:
Quantum data is often very abstract and difficult to interpret.
Neural rendering techniques could be used to create more intuitive visualizations of quantum data, potentially aiding in the development of quantum algorithms.
Key Considerations:

This is a very cutting-edge area, and practical applications are still emerging.
The computational demands of both neural ray tracing and quantum computing are very high.
There is a large amount of ongoing research within both of these fields.
In essence, while not a common application today, there are conceptual overlaps that point to potential future uses of NVIDIA's neural ray tracing in the analysis and visualization of quantum spin systems."

[doc2016]

airpods are doing realtime translation work which is tranforming object per gemini:
"Compiling in a different language12345 involves transforming source code from one language to another. Compilers can be written in the same language as the source code, which makes them easier to understand, or in a different language, which allows for more flexibility and portability."

now apple is using vcsy and 8 ip. also , vcsy 's ip for moving processing off device to more able infrastructure as needed. wags.

hopefully, one more paying customer for ploinks.

[doc2016]

see ihub ionq and konaploinks. by george, i think his ai has done it in answering what about ploinks. wags.
i just asked which ai he used and what prompts.
if kona got this information from a free ai, wade, the new management, valde, the lawyers, the court, etc would also have access to the importance of vcsy and 8 i hope.

in fact the media analysts are blaming trump policies for the stock market action today, but in a vcsy glasses world i wonder if the price action is due to those companies now owing v/8 money? wouldn't that be a hoot.

[doc2016]

nvidia and msft in neural ray tracing reader/manipulator ....for ionq quantum computer gate array work? kona, more connections between ionq/vcsy/8x8?motion vector estimation of non-linear type..8 ip?

see m kaku book on quantum computers. chapter 5.

[doc2016]

sawblade and intel/qualcom?
intel with potential jv with nvda, avgo amd, tsmc?
potential for vcsy/sbv chip?

[doc2016]

"XML plays a significant role in cloud infrastructure, primarily by facilitating data exchange and configuration. Here's how:  

Key Uses of XML in Cloud Infrastructure:

Data Exchange and Interoperability:
Cloud environments often involve diverse systems and services that need to communicate. XML's standardized format enables these systems to exchange data seamlessly, regardless of their underlying technologies.  
This is especially crucial in service-oriented architectures (SOAs), where loosely coupled services interact with each other.  
Web Services:
XML is fundamental to web services, which are a cornerstone of cloud computing.
Protocols like SOAP (Simple Object Access Protocol) rely heavily on XML for message formatting, allowing applications to communicate over networks.  
Configuration Files:
Many cloud platforms and applications use XML for configuration files.  
XML's structured format makes it suitable for defining complex configurations, such as settings for virtual machines, network devices, and application deployments.  
Storage APIs:
Cloud storage services sometimes offer XML-based APIs for accessing and managing data.  
For example, some cloud storage providers have XML APIs that allow developers to programmatically upload, download, and manage files. Google cloud storage for instance, has an XML API.  
Metadata Management:
XML can be used to store and manage metadata, which is data about data.  
In cloud environments, metadata is essential for tasks like resource management, data cataloging, and security.  
In essence:

XML's ability to provide structured, self-describing data makes it a valuable tool in cloud infrastructure. It helps to ensure that different systems can communicate effectively and that configurations can be managed consistently.  


Sources and related content
"

[doc2016]

webrobots are spiders and crawlers.....reallly? 266?
"do robots use xml?


When discussing "robots" in the context of the web, it's crucial to differentiate between physical robots and web robots (also known as web crawlers or spiders). In the web context, XML plays a significant role. Here's a breakdown:

Web Robots and XML:

XML Sitemaps:
Web robots, particularly search engine crawlers, heavily utilize XML sitemaps.  
An XML sitemap is a file that lists the URLs of a website, providing search engines with a roadmap of the site's content.  
This helps search engines discover and index pages more efficiently.  
Therefore, web robots do indeed use XML sitemaps to navigate websites.  
robots.txt:
While not XML, the robots.txt file is another crucial file that web robots interact with.
This file provides instructions to web robots about which parts of a website they are allowed or disallowed to crawl.  
Within a robots.txt file, you can specify the location of your XML sitemap. So in a round about way, the robots.txt file, is used to tell robots where the xml sitemap is located.  
Data Exchange:
In broader terms, XML is a standard format for data exchange. So, if a robotic system (software or hardware) needs to exchange structured data, XML is a possibility. This is not limited to web robots.  
In summary:

Web robots, especially search engine crawlers, actively use XML sitemaps to understand website structure.  
The robots.txt file is used to help robots locate those xml sitemaps.
XML is a common data exchange format, so robots in general could utilize it.  

Sources and related content
"

[doc2016]

robots and xml?
Alphabet (NASDAQ:GOOG) is making a bold play in AI-powered robotics with the launch of Gemini Robotics, a new AI model designed to make robots more adaptable and capable of handling unpredictable real-world scenarios. Google DeepMind unveiled the initiative as part of its broader push into automation, with a second model, Gemini Robotics-ER, focused on spatial awareness. This move signals a fresh push into robotics for Alphabet, which previously scaled back its efforts in the space. With Tesla (NASDAQ:TSLA), Meta (NASDAQ:META), and OpenAI all doubling down on robotics, Alphabet is re-entering the race at a pivotal moment.

Investor interest in AI-driven automation is skyrocketing, and Alphabet is betting that its generative AI expertise will set it apart. In a recent demo, its robots successfully performed tasks they'd never encounteredlike spelling words and making a miniature basketball dunkby leveraging the Gemini model's ability to process abstract concepts. Google previously pulled back from robotics in 2023, but this time, it's taking a different approach: focusing on AI-powered reasoning rather than just mechanical engineering. The strategy aligns with the broader industry trend of using AI to make robots more versatile, potentially unlocking new commercial applications.

Alphabet isn't doing this alone. The company is already working with robotics firms like Apptronik, Agile Robots, and Boston Dynamics to integrate Gemini's capabilities. But this remains an early-stage effort, and Google is emphasizing a cautious, safety-first rollout. Still, the broader AI robotics market is heating up, and investors will be watching closely to see if Alphabet's renewed push translates into a competitive edgeor if it's just another ambitious bet in the AI arms race.

[doc2016]

microsoft windows app to replace remote desktop app in may 27, 2025, they say.
one native app for all os/platforms?

this is interesting for vcsy.

[Konaploinks]

The ceo we elected to take over. Where were u 4 years ago? Jeez.

[Fencman1]

I have never heard of this Len guy. Who the hell is he? What happen to the 5 board members that was voted in to replace Wade's fing mess? Do we have another embezzler since he is avoiding questions?
It is time to do something. Shit or get off the pot.I wish so eone would please answer my post. This is the second post today. If we all stick together and share what we learn along the way we will not be on the dark and pissed off.
WHO IS LEN? THANK YOU

[doc2016]

is oracle stargate to contain all the nodes of data for use? all data lakes accessible?


Oracle's Project Stargate is indeed a significant initiative aimed at simplifying and unifying data management across various environments. However, it's crucial to understand the nuances of how it works and what it intends to achieve.

Here's a breakdown:

Oracle Stargate's Goal:

Unified Data Access:
Stargate is designed to provide a unified layer for accessing data across diverse sources, including on-premises databases, Oracle Cloud Infrastructure (OCI), and other cloud providers.
The goal is to eliminate data silos and make it easier for organizations to access and analyze their data.
Data Mesh Architecture:
Stargate aligns with the data mesh architecture, which emphasizes decentralized data ownership and access.
This means that data is treated as a product, with domain-specific teams responsible for its management.  
Simplified Data Movement:
Stargate aims to simplify data movement and integration, reducing the complexity of data pipelines.
Data Governance and Security:
It also incorporates data governance and security features to ensure that data is accessed and used in a controlled and compliant manner.
Regarding "All Nodes of Data" and "All Data Lakes Accessible":

Federated Access:
Stargate focuses on providing federated access to data, meaning it allows users to query data across different sources without necessarily moving all the data into a single location.
This is very important, because moving all data to one location is often not practical.
Data Virtualization:
It leverages data virtualization techniques to create a virtual layer that abstracts the underlying data sources.
This allows users to access data as if it were in a single database, even though it may be distributed across multiple systems.
Access Control:
Access to data is governed by security policies and access controls.
Therefore, while Stargate aims to make data more accessible, it does not imply that all data lakes will be accessible to everyone.
Access will be controlled by security and governance policies.  
Practical Limitations:
There are practical limitations to how much data can be accessed in real-time.
Network bandwidth, data latency, and processing power can all affect performance.
Therefore, while the goal is to make all relevant data accessible, there are real world limitations.
In essence:

Oracle Stargate aims to provide a unified and simplified way to access data across diverse sources.  
It focuses on federated access and data virtualization, rather than moving all data into a single repository.
Access to data is controlled by security and governance policies.
It is designed to make data access much easier, but does have practical limitations.

[Fencman1]

I am tired of all the excuses. Who is Len? I've never heard that name. VCSY went from one corrupt board member that is guilty of embezzlement to 5 board members that does not seem to know what is going on. At this pace I will be one of the 300 year old getting Social Security.
Why was Wade protected from being prosecution? Seems there is shady stuff going on for years now. Shit or get off the pot.

[doc2016]

gemini i said, "Yes, absolutely. Voice can be transmuted (or converted) to SMS messaging. This is a common feature in many communication systems and is achieved through a combination of technologies. Here's how it works"

it would suggest sms can be converted/transformed into voice........so m teams could have voice or sms made into voice or sms communications at the least?

[doc2016]

combo 8 and vcsy?: gemini ai says, "how is voice integrated with ai?


The integration of voice with AI is a multifaceted process that involves several key technologies working together. Here's a breakdown of how it happens:  

1. Voice Input and Speech Recognition (ASR):

Microphones: Capture human speech.  
Analog-to-Digital Conversion: The analog audio signal is converted into a digital format that computers can process.
Automatic Speech Recognition (ASR):
AI models, specifically deep learning models like recurrent neural networks (RNNs) and transformers, analyze the digital audio.  
These models are trained on vast datasets of spoken language, enabling them to transcribe the audio into text.  
Modern ASR systems are highly accurate, even in noisy environments or with different accents.  
2. Natural Language Processing (NLP):

Text Analysis: Once the speech is converted to text, NLP techniques are used to understand its meaning.
Intent Recognition: The AI identifies the user's intent or what they want to achieve (e.g., "set an alarm," "play music," "get directions").  
Entity Extraction: The AI extracts relevant information from the text, such as names, dates, locations, or other entities.
Sentiment Analysis: The AI can analyze the emotional tone of the speech, allowing for more nuanced interactions.  
3. AI Processing and Response Generation:

Knowledge Bases and Databases: The AI accesses knowledge bases and databases to retrieve information relevant to the user's request.
Machine Learning Models: AI models are used to generate appropriate responses, which can range from simple answers to complex actions.  
Dialogue Management: AI systems can manage conversations, maintaining context and responding appropriately to follow-up questions.  
Large Language Models (LLMs): Models like Google's Gemini, or OpenAIs GPT, are used to create very natural and human like responses.
4. Text-to-Speech (TTS):

Voice Synthesis: The AI's response, which is in text format, is converted back into spoken language.  
TTS Systems: AI models generate synthetic speech that sounds natural and human-like.  
Voice Customization: Some TTS systems allow for voice customization, enabling users to choose different voices or even create personalized voices.  
5. Integration and Interaction:

APIs and SDKs: AI voice platforms provide APIs and SDKs that developers can use to integrate voice capabilities into their applications.  
Voice Assistants: Virtual assistants like Google Assistant, Amazon Alexa, and Apple Siri integrate all of these components to provide seamless voice interactions.
Devices and Platforms: Voice AI is integrated into a wide range of devices and platforms, including smartphones, smart speakers, cars, and home appliances.  
In summary:

Voice integration with AI involves a chain of processes, from capturing and recognizing speech to understanding its meaning and generating appropriate responses.

Advances in deep learning and NLP have significantly improved the accuracy and naturalness of voice AI, leading to more intuitive and engaging user experiences.  


Sources and related content
"

[doc2016]

cuda-q is a programming platform... goodness.
so it is using programming language/s that might allow browser like functionality in the vmware cloud foundation 9 release?

[doc2016]

how to find a client in a plethora of wire connections and wires and such?
ambient corp and 8?
nat traversal ip?
?8x8, Inc., a provider of enterprise communications solutions, has been awarded several patents related to proxy server technologies, particularly focusing on Network Address Translation (NAT) traversal in Voice over IP (VoIP) communication systems. Notable patents include:?
Unified Patents
+5
channelvisionmag.com
+5
smartcustomerservice.com
+5

U.S. Patent No. 9,473,452: Titled "NAT Traversal in VoIP Communication System," this patent details innovations that enable a call control server to use algorithms to select from various proxy servers when routing VoIP sessions between endpoint devices. ?
patents.justia.com
+3
channelvisionmag.com
+3
smartcustomerservice.com
+3

U.S. Patent No. 10,637,824: This patent describes systems where a set of proxy servers is configured to relay communications through mapped paths of the NAT during VoIP sessions, ensuring seamless connectivity despite NAT-related challenges. ?
uctoday.com
+4
Unified Patents
+4
Google Patents
+4

These patents underscore 8x8's commitment to enhancing VoIP communications by addressing NAT traversal issues through advanced proxy server methodologies.?
smartcustomerservice.com

[doc2016]

8x8, Inc., a provider of enterprise communications solutions, has been awarded several patents related to proxy server technologies, particularly focusing on Network Address Translation (NAT) traversal in Voice over IP (VoIP) communication systems. Notable patents include:?
Unified Patents
+5
channelvisionmag.com
+5
smartcustomerservice.com
+5

U.S. Patent No. 9,473,452: Titled "NAT Traversal in VoIP Communication System," this patent details innovations that enable a call control server to use algorithms to select from various proxy servers when routing VoIP sessions between endpoint devices. ?
patents.justia.com
+3
channelvisionmag.com
+3
smartcustomerservice.com
+3

U.S. Patent No. 10,637,824: This patent describes systems where a set of proxy servers is configured to relay communications through mapped paths of the NAT during VoIP sessions, ensuring seamless connectivity despite NAT-related challenges. ?
uctoday.com
+4
Unified Patents
+4
Google Patents
+4

These patents underscore 8x8's commitment to enhancing VoIP communications by addressing NAT traversal issues through advanced proxy server methodologies.?
smartcustomerservice.com

[doc2016]

proxy is the entangled partner, and it streams to the client's htlm access of vmware cloud foundation 9?
8 and vcsy both have proxy patents

[doc2016]

ploinks/puddle;
creator and majorana quantum entanglement with recipients of admin controlled connectivity.
recipient views allowed by programming language like a browser but not.
views controlled by the admin/creator.
etheral on the viewers side and can't be captured other than transiently via quantum dot ip?
call samsung and lg?
msft with the majorana ip
hp/neoware with the client?
8 with the networking/dynamic routing/authentication/
vcsy with the patent on the 521/emily? or some construct of such?

[doc2016]

msft now charging money for use of ai.........hopefully, so they can pay vcsy and 8

[doc2016]

like a browser:

What are the benefits of the ‘266 Patent?

The ‘266 Patent allows a programming language to have the ability to very easily download Markup Documents (such as HTML or XML) from web servers (as if it was an internet browser), store and parse such documents in their discreet parts. Among other benefits, it can help a programmer more easily write “spiders” and “crawlers” programs. VCSY has used the underlying technology of this patent to write its Emily™ XML Enabler Agent, Emily™ XML Broker and Emily™ Portal products.===============

the programming language used by the automated/ai process/work flow can obtain a download of the desired/needed data? wow. this is something they need for the ai assistants ? wags.

[doc2016]

borland delphi objects vs arbitrary objects in the manner of vcsy?

vcsy is ore in keeping with quantum topological ways?

[doc2016]

You're likely thinking of Microsoft's Majorana 1, a quantum processor that utilizes topological qubits. It's a significant step towards fault-tolerant quantum computing. Here's how it relates to "logical" in the context of quantum computing:

Topological Qubits: These qubits are based on Majorana zero modes, which are exotic quasiparticles with unique properties that make them less susceptible to errors. This inherent stability is a key advantage.

Logical Qubits and Error Correction: In quantum computing, logical qubits are built from multiple physical qubits and use error correction codes to protect the information. This is essential because qubits are very fragile and prone to errors.

Majorana 1's Approach: Microsoft's approach with Majorana 1 aims to reduce the overhead of traditional error correction by using topological qubits. The idea is that these qubits are inherently more stable, so they require less complex error correction schemes.

Measurement-Based Control: Majorana 1 uses a digital, measurement-based control system. This means that measurements are used to perform computations and manage the qubits, rather than relying solely on complex analog control signals.

Scalability: The ultimate goal is to create a scalable quantum computer. By using topological qubits and digital control, Microsoft believes Majorana 1 provides a path towards a million-qubit processor.

In summary:

Microsoft's Majorana 1 quantum computer uses topological qubits and a digital, measurement-based control system to move towards fault-tolerant quantum computing. This approach aims to reduce the complexity of error correction and enable the construction of larger, more scalable quantum computers.






topological and transformation


"Topological" and "transformation" are closely related concepts, particularly in the field of mathematics known as topology. Here's a breakdown of their connection:

Topology

What it studies: Topology is a branch of mathematics that deals with the properties of shapes and spaces that remain unchanged under continuous transformations.  
Focus: It's concerned with connectivity, continuity, and the overall "shape" of spaces, rather than precise measurements like distances or angles.
Topological Transformations

What they are: Topological transformations are ways of deforming or changing a space without tearing it, gluing parts together, or creating new holes.  
Examples:
Stretching a rubber sheet  
Bending a wire
Transforming a coffee cup into a donut shape (both have one hole)
Key Properties of Topological Transformations

Continuity: The transformation must be continuous, meaning that points that are close together in the original space remain close together in the transformed space.
Invertibility: The transformation must be reversible. You can undo the transformation and get back to the original space.
Why This Matters

Understanding Space: Topological transformations help us understand the fundamental properties of spaces and how they can be deformed.
Applications: Topology has applications in various fields, including:
Physics: Studying the shapes of universes, the behavior of materials, and quantum field theory.  
Computer science: Network design, data analysis, and image processing.  
Biology: Understanding the structure of DNA and proteins.  
In Summary

Topological transformations are the allowed ways to change or deform spaces in topology.

They preserve fundamental properties like continuity and connectivity, helping us understand the essential "shape" of spaces and their relationships to one another.  


Sources and related content

[doc2016]

transformation and 744..........in the manner of vcsy , which seems to be consistent with supersymmetry/transformation: from gemini ai:
"mathematical transformations and point 3:"In supersymmetry (SUSY), the relationship between bosons and fermions isn't caused by specific events or qualities in the way we typically think of cause and effect. Instead, it's a fundamental symmetry that is built into the theoretical framework. Here's how it works:

1. Supersymmetry as a Principle

Not an event: SUSY isn't something that happens, but rather a principle that governs the relationship between particles. It's a way of looking at the universe where certain transformations can seamlessly switch fermions and bosons without altering the underlying physics.
2. Mathematical Transformations

The heart of SUSY: The core of supersymmetry lies in mathematical transformations that connect fermions and bosons. These transformations are not physical events, but rather mathematical operations that reveal a deeper connection between the two types of particles.
3. Superpartners

Theoretical consequence: A key consequence of SUSY is the prediction of superpartners. For every known fermion, there should be a bosonic superpartner, and vice versa. These superpartners have not been observed yet.
4. Unification and Implications

Motivation: SUSY offers a potential path toward unifying all fundamental forces and particles. It has implications for:
Quantum gravity: SUSY is a key ingredient in supergravity and string theory, which are attempts to unify quantum mechanics and general relativity.
Hierarchy problem: SUSY could help explain the vast difference in strength between the weak force and gravity.
Dark matter: Supersymmetric particles are candidates for dark matter.

Key takeaway:

The supersymmetry between bosons and fermions is not caused by events or qualities, but rather is a fundamental symmetry that is assumed to exist within the theoretical framework of SUSY. This symmetry has profound implications for our understanding of the universe and is an active area of research in particle physics.""

[doc2016]

remember vcsy patent page and comments about html being on client side and vcsy more on the internet side? v cloud foundation 9 and html access. allows access to virtual desktop without additional software via browser. a key vware thing/now owned by avgo.

[doc2016]

private cloud? ploinks and puddle, msft fabric +?
"?Broadcom has initiated a closed beta program for VMware Cloud Foundation (VCF) version 9, aiming to simplify private cloud management. This beta introduces several enhancements:?
The Register
+3
Daily.dev
+3
heise.de
+3

Integrated Private Cloud Creation: Users can now set up private cloud environments directly within VMware's vCenter management application, eliminating the need for multiple tools. ?
thetechstreetnow.com
+2
heise.de
+2
The Register
+2

Unified Access: The beta offers single sign-on across various private cloud components, streamlining user access and management. ?
thetechstreetnow.com
+1
The Register
+1

Improved Automation and Licensing: Enhancements in automation and license management tools aim to boost operational efficiency. ?
thetechstreetnow.com
+1
The Register
+1

Enhanced Self-Service Provisioning: The beta enhances self-service provisioning capabilities for virtual machines, Kubernetes resources, and storage, providing users with more control over their environments. ?
thetechstreetnow.com
+1
The Register
+1

These updates are part of Broadcom's efforts to integrate individual virtualization tools into a unified platform with a consistent interface. The closed beta is currently accessible to a select group of customers, with plans to expand testing in the coming weeks. While a specific release date for VCF 9 has not been announced, interested customers can monitor Broadcom's Beta Portal for updates on broader beta availability"

and snowflake could be a partner helping to store the creator specific data being kept separate, but available on privileged demand?

[doc2016]

msft financials releases dragon copilot , a voice assistant for healthcare to do the drudge data entry work? hello, vcsy?
doctors and their demo information into insurance/billing type of forms? snapnett?
ok, msft didn't license snapnett that i heard about. did you? and besides this would seem a tight admin of payroll and hr...especially coming for financials ........wags

[doc2016]

segue with msft skype going out in may and being replaced with msft teams.......msft fabric and snowflake platform?
and teams adding sms.

[doc2016]

snowflake and microsoft.

data creators data on the snowflake platform, privately ai'ed by openai and presented in the applications of msft azure cloud node.
for eyes of the creator and those allowed to see on the snowflake platform.

duh, would seem it's ploinks/puddle/ markup executives to include transformer transformations in the manner of vcsy.

msft is a 744 licensee but not mle/etc.
snowflake , none of vcsy that's publicly known or by us vcsy stockholders.
best to use the lawyer money on msft and snowflake? or , it it part of the nda?

[doc2016]

ploinks usa?
msft teams to offer sms, but only in usa!!!
maybe the msft is the 13% non vcsy/vcsy shareholder owners? wags.
sms encrypted version might be the 8x8 unified communcations.?

[doc2016]

You said:
supermicro computer's telecom partners are?
ChatGPT said:
Supermicro collaborates with a diverse array of partners to enhance its offerings in the telecommunications sector. Notable partnerships include:

NVIDIA: Together, they deliver AI-powered infrastructure tailored for telecommunications companies, enhancing operational efficiency, network management, and customer experiences.
SUPERMICRO.COM

Mettle Networks: This partnership focuses on pre-testing and validating Mettle's Virtual Broadband Network Gateway (vBNG) on Supermicro platforms, ensuring reliability and performance in business-critical deployments.
METTLENETWORKS.COM

Converge ICT Solutions: Collaborating to establish AI-ready data centers in the Philippines, Supermicro provides advanced servers with liquid cooling technology to support intensive AI computing tasks.
TELECOMTV.COM

World Wide Technology (WWT): This partnership delivers advanced technology solutions across various sectors, including telecommunications, focusing on innovations in 5G Telco/Edge IT infrastructure.
WWT.COM

SK Telecom: Supermicro collaborates with SK Telecom to develop AI data centers, enhancing the telecom company's capabilities in artificial intelligence and data processing.
PULSE.MK.CO.KR

Napatech and Saviah Technologies: In this collaboration, Supermicro provides optimized server platforms for private 5G networks, enhancing performance and efficiency in network edge locations.
NAPATECH.COM

These partnerships underscore Supermicro's commitment to delivering robust and efficient solutions for the evolving needs of the telecommunications industry.


Sources











You said:
dell telecom cloud and use of microsoft teams?
ChatGPT said:
Dell Technologies collaborates with Microsoft to enhance telecom cloud environments and offers comprehensive services for Microsoft Teams integration.

Transforming Telecom Cloud Environments

In partnership with Microsoft, Dell is redefining the deployment and operation of multicloud, disaggregated networks for communications service providers (CSPs). This collaboration focuses on:

Network Modernization: Utilizing cloud technology to modernize and monetize networks, aiming to lower total cost of ownership, enhance operational efficiency, and improve security.

Simplified Deployment: Dell plans to develop engineered systems that streamline telecom cloud network deployment and management, reducing operational expenses and accelerating service delivery.
DELL.COM

Microsoft Teams Integration Services

Dell provides a range of services to assist organizations in adopting and optimizing Microsoft Teams:

Consulting Services: Guidance on transitioning to a chat-centric workspace, deploying Teams clients, and optimizing security and compliance.
DELLTECHNOLOGIES.COM

Onboarding and Adoption: Support for seamless integration of Teams into existing workflows, ensuring effective adoption and change management.
APPSOURCE.MICROSOFT.COM

Calling and Meeting Services: Assistance in implementing voice and video communication features within Teams, enhancing collaboration capabilities.
APPSOURCE.MICROSOFT.COM

By leveraging its expertise and strategic partnership with Microsoft, Dell aims to provide robust solutions that address the evolving needs of the telecommunications industry and enhance organizational collaboration through Microsoft Teams

[doc2016]

8 and msft teams:
Supermicro, a leading provider of enterprise computing, storage, and networking solutions, offers a comprehensive range of products tailored for telecom cloud applications. Their solutions are designed to meet the demanding requirements of modern telecommunications infrastructure, including 5G networks, edge computing, and cloud-based services.

Key Offerings for Telecom Cloud:

High-Performance Servers: Supermicro provides servers optimized for telecom workloads, featuring high-speed DDR5 memory, multiple PCIe slots, and advanced networking options. These systems are engineered for enhanced power efficiency and performance-per-watt, enabling operators to develop high-performance, customized solutions.
TECHPOWERUP.COM

Collaboration with Industry Leaders: Supermicro has partnered with companies like Rakuten Symphony to deliver next-generation servers and storage systems for cloud-based mobile services. This collaboration offers operators blueprints for implementing cloud-based Open RAN mobile networks, facilitating easier adoption of advanced networking architectures.
PRNEWSWIRE.COM

Integrated Cloud Solutions: Through alliances with organizations such as Hammerspace, Supermicro offers unified data platforms that integrate seamlessly into existing environments. These solutions cater to both file and object storage workloads, meeting the performance and scalability demands of modern AI, high-performance computing (HPC), and hybrid cloud environments.
HAMMERSPACE.COM

By focusing on innovation and strategic partnerships, Supermicro delivers robust and efficient solutions that empower telecom operators to build and manage advanced cloud infrastructures.

[doc2016]

supermicro and their secret deal? level 3 and dark fiber? dell a partner via nvidia or other?
"Supermicro, a leading provider of enterprise computing, storage, and networking solutions, offers a comprehensive range of products tailored for telecom cloud applications. Their solutions are designed to meet the demanding requirements of modern telecommunications infrastructure, including 5G networks, edge computing, and cloud-based services.

Key Offerings for Telecom Cloud:

High-Performance Servers: Supermicro provides servers optimized for telecom workloads, featuring high-speed DDR5 memory, multiple PCIe slots, and advanced networking options. These systems are engineered for enhanced power efficiency and performance-per-watt, enabling operators to develop high-performance, customized solutions.
TECHPOWERUP.COM

Collaboration with Industry Leaders: Supermicro has partnered with companies like Rakuten Symphony to deliver next-generation servers and storage systems for cloud-based mobile services. This collaboration offers operators blueprints for implementing cloud-based Open RAN mobile networks, facilitating easier adoption of advanced networking architectures.
PRNEWSWIRE.COM

Integrated Cloud Solutions: Through alliances with organizations such as Hammerspace, Supermicro offers unified data platforms that integrate seamlessly into existing environments. These solutions cater to both file and object storage workloads, meeting the performance and scalability demands of modern AI, high-performance computing (HPC), and hybrid cloud environments.
HAMMERSPACE.COM

By focusing on innovation and strategic partnerships, Supermicro delivers robust and efficient solutions that empower telecom operators to build and manage advanced cloud infrastructures.

[doc2016]

device/application to device/application connectivity.
like p2p?creator and creation into the platform for same with content life cycle management?
and tmforum and ipsphere .org like use...vcsy and valde vendor and vendor rep to such, as i remember.

[doc2016]

Does Telecom Cloud Use PCIe?
Yes, Telecom Cloud relies on PCIe (Peripheral Component Interconnect Express) for high-speed data transfer, low-latency processing, and hardware acceleration. 5G, AI, and virtualized telecom networks (like vRAN & Open RAN) require powerful compute infrastructure, where PCIe plays a crucial role in interconnecting key components.

🔹 How PCIe Is Used in Telecom Cloud?
1️⃣ Network Function Virtualization (NFV) & AI Acceleration
✔ NFV & AI-powered telecom workloads run on PCIe-connected GPUs, FPGAs, and SmartNICs for high-speed processing.
✔ AI-driven traffic optimization & predictive analytics are accelerated using PCIe-based AI cards in telecom data centers.

🔹 Example: Telcos like Verizon, AT&T, and Deutsche Telekom use PCIe AI accelerators (NVIDIA, Intel, AMD) to improve 5G traffic management and customer experience.

2️⃣ 5G & Open RAN (O-RAN)
✔ Open RAN (disaggregated 5G network architecture) uses PCIe-powered AI accelerators & NICs for real-time signal processing.
✔ PCIe-based FPGAs enhance radio access network (RAN) performance, reducing latency in telecom cloud infrastructure.

🔹 Example: Rakuten Mobile & Dish Network deploy PCIe FPGA accelerators for Open RAN 5G network processing.

3️⃣ PCIe & High-Speed Networking (5G Core & Edge Computing)
✔ PCIe-based DPUs (Data Processing Units) enable ultra-fast packet processing in 5G core networks.
✔ PCIe NICs (100G/200G/400G Ethernet) connect telecom cloud servers to high-speed fiber backbone networks.

🔹 Example: Ericsson & Nokia use PCIe-powered SmartNICs for low-latency 5G core packet routing.

4️⃣ PCIe Storage for Telecom Data Centers
✔ PCIe Gen4/Gen5 NVMe SSDs deliver high-speed storage for telecom applications like cloud-native 5G, video streaming, and AI inference.
✔ Edge storage devices use PCIe-based NVMe SSDs to cache content closer to users, improving latency.

🔹 Example: Telcos use PCIe-based NVMe storage clusters for caching 4K video, VoLTE call data, and IoT telemetry.

🔹 Why PCIe Is Essential for Telecom Cloud?
✅ Ultra-fast AI & network processing (critical for Open RAN, 5G, and NFV).
✅ Low latency & high bandwidth (essential for real-time telecom applications).
✅ Scalable infrastructure (allows flexible deployment of AI accelerators, FPGAs, and SmartNICs).
✅ Energy-efficient computing (reduces power consumption in cloud-native telecom networks).

[doc2016]

supermicro got up to date on their reporting. what was their issue? perhaps, vcsy's issues can similarly be obtained? would they go on the texas stock exchange?

[Konaploinks]

I think him and Port are passing a joint at Alice’s Restaurant to Peter. Stay tuned.

[doc2016]

The fermion qubit is based on physical phenomena, but its control and interaction within a quantum computer involve layers of abstraction and virtualization. This virtualization simplifies development and resource management but doesn't fully virtualize the qubit itself, as it retains its unique quantum properties."
call,winning

[doc2016]

at least super micro computer has turned around. they think they can provide the sec the missing quarters' reporting soon.:
" The company has yet to file accounts for the year ended June 30, although Super Micro said in last week’s update that it expects to do so before next Tuesday—the deadline the Nasdaq has set to avoid a delisting."
i wonder what their deal was? something wade involved vcsy in/with?

6 days at least to find out the deal with super micro computer. they put the parts together for the customer and make it work?
would be deux ex machina, if it was systems based on vcsy method and systems ip. lol.

nyse texas exchange? something for dod?

[Lazerator]

Blah, blah, blah, quantum this, quantum that. What a joke you are kona.

[doc2016]

broadcom and intel? intel servers for the two factor id?
and if they used 8x8 network for the networking, authentication, dynamic routing?

[doc2016]

machine learning....storing weights from gate vectors on chips ?
like the old pc, isolation, but ai is learning of many cores of computers.
how to share the knowledge between cores, nodes, higher levels and lower levels?
a vertical computing architecture and stack? this now seems to be almost here.
is it the vcsy chip?
nomenclature and all that.
first to the second computer communications.
sawblade venture and log state of the device/communications management.
i can see it. i hope it's the truth and will be supported with payment for it's use to 8 and vcsy. yes, others will participate it's a big complex process which has been divided up and now all parts can come together in the manner of stanford research institute management of complex problems?

[doc2016]

huang said april for the mini supercomputer? is it stacked? gemini ai 2.0 flash said,
"While specific details about the internal architecture of the NVIDIA mini supercomputer, Project DIGITS, haven't been fully disclosed, it's highly probable that it utilizes stacked die technology. Here's why:

High Performance in a Small Form Factor: Project DIGITS is designed to be a compact, personal AI supercomputer delivering petaflop-level performance. Achieving this level of computing power in such a small device necessitates the use of advanced packaging technologies like stacked dies to maximize chip density and minimize power consumption.  

GB10 Grace Blackwell Superchip: The supercomputer is powered by the GB10 Grace Blackwell Superchip, which integrates a Blackwell GPU and a Grace CPU. Both of these components are likely built using stacked die technology to enhance their individual performance and enable efficient communication between them.  

Industry Trend: The semiconductor industry is increasingly relying on stacked die technology to create more powerful and efficient chips. This trend is driven by the need to continue Moore's Law and deliver ever-increasing performance. NVIDIA is at the forefront of this trend, and it's logical to assume they would employ this technology in their latest supercomputer.  

Memory and Interconnect: High-bandwidth memory (HBM) is often used in conjunction with stacked die technology to provide the necessary memory bandwidth for high-performance computing. Additionally, advanced interconnect technologies are required to enable efficient communication between the stacked dies and other components on the chip.  

While we don't have explicit confirmation, the combination of high performance, small form factor, and the use of the GB10 Grace Blackwell Superchip strongly suggests that Project DIGITS leverages stacked die technology."