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avgo.......network infrastructure, injected with the soft fabric allowing ip for a multiverse application?
mutiversX and transaction processing using sharding?
it would seem to be a upgrade for tpf......ibm. and xml ; multivers X and xml?
or how to upgrade the xml tpf ip's /data/apps/etc into a supported network?
sbc.....session border controller and sbv? session border venture?
sbv...sawblade venture
is it the real intention of sbv ltd to update/change the sbc application and how things connect? see the friends and family of sbv. now to the devices hardware/software interfaces. ...end to end realization of 'network'?
now uk nhs hacks and msft removes teams from 365 first in uk/europe and now everywhere.
p2p with a pc with now the hosted part going to 8, i hope.
any news from txs today?
direct routing and sbc. peer to peer with a pc between them? it's a sbc!
gemini ai:
"In Microsoft Teams, a Session Border Controller (SBC) is a crucial component when using Direct Routing for voice connectivity. It acts as an intermediary between the Microsoft Phone System and your on-premises telephony network or a third-party telephony provider.
Here's how the SBC is used for Microsoft Teams:
1. Connecting to the Public Switched Telephone Network (PSTN): The SBC enables Microsoft Teams to connect to the PSTN, allowing users to make and receive external calls. It translates the signaling and media between the Microsoft Phone System (which uses the Session Initiation Protocol - SIP) and the PSTN (which may use various protocols).
2. Security and Interoperability: The SBC provides security features such as encryption, access control, and call admission control, protecting your network from unauthorized access and potential threats. It also ensures interoperability between different communication protocols and systems.
3. Call Routing and Management: The SBC can route calls between the Microsoft Phone System and your on-premises PBX or other telephony infrastructure, providing flexibility and control over call flow. It can also provide features like call admission control, call quality monitoring, and call detail records.
4. Resilience and Redundancy: By deploying multiple SBCs in a resilient configuration, you can ensure high availability and redundancy for your Microsoft Teams voice infrastructure. If one SBC fails, another can take over, minimizing downtime and ensuring uninterrupted communication.
Important Considerations:
Certification: Microsoft requires the use of a certified SBC for Direct Routing. You can find a list of certified SBCs on the Microsoft website.
Deployment: The SBC can be deployed on-premises, in the cloud, or in a hybrid environment. The choice depends on your organization's specific needs and requirements.
Configuration: Proper configuration of the SBC is crucial to ensure optimal performance and reliability of your Microsoft Teams voice infrastructure.
By leveraging the capabilities of an SBC, you can extend the reach of Microsoft Teams to the PSTN, allowing users to communicate seamlessly with external parties while ensuring security, interoperability, and resilience."
https://innovation.utdallas.edu/advisory-council/
is this vcsy's john adler?
productizing v ip via ut dallas ideas?
john adler is missing from now solutions and vcsy...with the letter update he's not mentioned and linked in page is gone.
he was ceo of call control , which in the era of voip calls /pstn/and sbc being upgraded to direct routing with a mini ipbx?
did the msft shift change his course? coming into conflict with v/and 8?
i wonder if call control could take advantage of direct routing?
vz has vz secure cloud interconnect which might be using msft sbc? with msft deprecating their sbc, what is vz going to do. meanwhile, the coo of rapid7 is now on 8 board of directors, and r7 has physical building connected to vz business, which was recipient of vcsy emPath in the day.........do you think they might owe vcsy some money?given it was emPath, maybe all the wade /farias/and now the crooked lawyers stuff is related to that issue of who should have gotten the money? msft and 744, but not the rest of them, and we don't know what if any contracts with vz business.
vz business building next door to rapid7 in boston's northstation....like touching each other. j
vz business connection with vcsy emPath pr was the first i heard of vcsy? now maybe it's going to be the most significant?
celtics b ball jersey logo is vista print. owned by cimpress. it's ceo started with msft publishing. creators. their jerseys are in the next door building of rapid7, which has the bruins jersey logo deal. who might benefit from lifecycle management of created objects? vista print, which with mother cimpress targets the smb's with mass customization.
is this different? "NOW SOLUTIONS, INC.
NOW Solutions, Inc. specializes in end-to-end, fully integrated human resources and payroll solutions. NOW Solutions has clients in the United States and Canada ranging from private businesses to government agencies, who typically employ 500 or more employees. NOW Solutions currently markets emPath®, a payroll and human resources and payroll solution. emPath® meets the needs for clients who have complex payroll where they may have employees from different unions, multiple locations in different states (U.S.) and provinces (Canada), and intricate compensation structures. The company believes that the competitive advantage of emPath® is its speed of implementation through a formula-builder technology, which provides customers with rapid customization of payroll rules and calculations without the need for any programming expertise. NOW Solutions’ product suite is targeted to address the needs of management in today’s dynamic business environment and gives organizations a user-friendly, flexible, multi-lingual (i.e., English, Canadian French, Spanish, Portuguese, and Chinese) software solution, without the multi-million dollar implementation and support budgets typically required to use the payroll and HR products of major competitors.
NOW Solutions has converted some of its existing customers to its cloud-based model. Additionally, NOW Solutions has embarked on a strategy of developing and licensing HR products complementary to its existing suite of products that can be sold separately or integrated as emPath® modules, which has been greatly facilitated by emPath®’s Web Services integration.
The revenue model of NOW Solutions is based upon five components: licensing and renewable annual maintenance fees, cloud-based fees, professional consulting services, and managed services. Under the cloud-based delivery model, NOW Solutions typically collects monthly fees".
me:
modules? containers? api's needed. ploinks and direct routing?data flows to the module like ? need for the web servers duo?
did hp folks learn their lesson after autonomy?
hpe wants to buy juniper networks for 13 billion dollars; juniper was founding member of ipsphere forum to which vcsy was vendor, and valde was the v ip rep.as remembered
i think p to p with pc intermediary is going to be the model. all the other stuff is for something more than potentially light years away. speed of light is as fast as it goes. multiple networks cost more money than one. including in ability to secure it.
ploinks and puddle extend beyond all of our life times. as dna based organisms and their digital em manifestations of non virtual worlds.
direct routing/peer to peer/ ploinks and puddle.......for msft replacement of the sbc?
gemini says. :"do hackers try to hijack session border controllers?
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Yes, hackers definitely target Session Border Controllers (SBCs). SBCs are critical components in VoIP networks, responsible for security, call routing, and quality assurance. Compromising an SBC can give attackers access to sensitive voice and data traffic, potentially leading to eavesdropping, call interception, toll fraud, and disruption of communication services.
Here are some common ways hackers try to hijack SBCs:
Exploiting Vulnerabilities: SBCs, like any software, can have vulnerabilities that hackers can exploit to gain unauthorized access. These vulnerabilities can be in the SBC software itself, the underlying operating system, or in the configuration settings.
Denial-of-Service (DoS) Attacks: Hackers can overload SBCs with excessive traffic, causing them to crash or become unresponsive. This can disrupt communication services and make the network vulnerable to other attacks.
Brute-Force Attacks: Hackers can attempt to guess or crack passwords used to access the SBC's management interface. Once they gain access, they can reconfigure the SBC to their advantage.
Social Engineering: Hackers may use social engineering tactics, like phishing emails or phone calls, to trick employees into revealing sensitive information or granting unauthorized access to the SBC.
Malware: Hackers can infect SBCs with malware to gain control of the device and use it for malicious purposes.
To protect SBCs from these attacks, organizations need to take a multi-layered approach to security:
Keep Software Updated: Regularly apply security patches and updates to address known vulnerabilities.
Strong Passwords: Use strong, unique passwords for all accounts with access to the SBC.
Firewall Protection: Implement a firewall to restrict access to the SBC's management interface.
Intrusion Detection and Prevention Systems (IDPS): Deploy IDPS solutions to monitor network traffic and detect suspicious activity.
Regular Security Audits: Conduct regular security audits to identify and address potential vulnerabilities.
Employee Training: Educate employees about cybersecurity best practices and the risks associated with social engineering attacks.
By implementing these measures, organizations can significantly reduce the risk of SBC hijacking and protect their communication infrastructure from potential threats."
kona, i'm thinking they could be hitting the switch to all digital/ direct routing like peer to peer networking and move away from the session border controller. see msft deprecating their last two telecom acquisitions.
might it be related to july 1-4 time frame? as in freedom of the previous tyranny of the sbc? session border controller?
virtual lans become the go to....your personal 8x8 operator connect? or how you connect the vritual servers/virtual services desired.
8x8 has nat firewall traversal ip....hopefully, 8 and v ip have done some partnering as it would make their ascension easier and quicker.
yesterday after close, 8 announced the coo of rapid7 joining their board of directors. their chairman is an expert in parallel operations and blockchain interactions.
they also have ipbx(virtual private branch exchange which integrated with v ip and idea of libraries and data flows would be germane.
emPath and time= non-linear/quantum 4d
connectors and admins/apis
broadcom and networking connectors of different planes of time/freq/etc=omniverses/personalities on same link.........call virtual trunking which virtual trunking ip of 8x8 was licensed in the past to msft, in same pr as 8 said intel licensed admin software. routers and switches? direct routing , firewall traversal......access to/thru the firewall. some vcsy ip?
but they didn't say admin for which software, but ? i-MERGE iinterop of atm/ethernet/etc; but now need to be cloud added to the rest .......guesses. cruz camera ip and video transformation/transformer? transmission of same to the analysing ip and ai?
broadcom bought vitualization co vmware. that's how i got my avgo stock. happy with the 10 for 1 split.
happier still on the virtual nature of the broadcom product line....8 and vmware/ 8 and dell vce....dell vce and nvidia......ai and quantum
kona's double play?
photons and effect on communications/messaging......dallas b ball court....brightly lit in such a way to not do a favor for celtic's shooters.
boston court perfect. irving has played in boston and d doesn't need the help. but maybe they need to make the lighting more uniform so practice and play are even?
first to the second...parallel setups? yellow/white/led/incandesant/etc?
ginkgo bioworks network kickoff with nvidia quantum emulator ip and backwell gpus..in a network with openai's healthcare partners of eli lilly/novartis/msft/
add alpha fold computer which could be ported to nvidia/amazon and video processing?
might t hey deliver the nvidia ip on the network via 8x8/vip on 6/27?
remember when huang described hand carrying the first ?ai device to openai>Nvidia CEO hand-delivers world's fastest AI system to OpenAI, again — first DGX H200 given to Sam Altman and Greg Brockman | Tom's Hardware
April 25, 2024 - Nvidia CEO Jensen Huang hand-delivered the world's first DGX H200 computer to OpenAI's CEO and president, continuing a trend of connecting OpenAI with bleeding edge AI compute power======
now with 8 and ? v ip it's on their network connectors/connections? virtual networks via direct routing. direct routing is peer to peer?
so the question is when will supermicro computers, dell, or nvidia itself is delivering their next iteration of advancing compute with 8/v ip?
june 27th 2024? and how would it be used? msft 365/sap/google alpha fold/novartis,etal data bases and products to transform via plasmid dna ep processes?
an initial user of such potentially ginkgo bioworks network? something i've now considered a lot is v ip is a partner of the 8x8 technology partners environment.
including now solutions to glue via connectors apps/databases/computational infrastructures/etc together.
i wonder if this is the reason for the run up of specific techs, and the splitting of broadcom on 6/27? i believe.
also, inovio is being added to the russell microindex july1.
now solutions, emPath and time. four d's = quantum realm?
nvidia quantum emulation for advanced digital twinning simulation!!!
difference of words emulation and simulation.
teamsite and emulation.
libraries of objects transformed by process/compute/storage/transport/etc?
ot, v chat ...where is the most appropriate conversations? whomever owns it could seek out advertisers when the v ip info/news/trading were to be. from my fingers to appropriate ears.
quantum emulation and nvidia
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NVIDIA is deeply involved in quantum emulation research and development, aiming to accelerate the progress of quantum computing through its GPU-based platforms and software tools.
Key NVIDIA Quantum Emulation Offerings:
cuQuantum: An SDK (Software Development Kit) that provides optimized libraries and tools for accelerating quantum computing workflows on NVIDIA GPUs. It significantly speeds up quantum circuit simulations based on state vector and tensor network methods. This enables researchers to explore and develop quantum algorithms at a larger scale than previously possible.
cuStateVec and cuTensorNet: These are two specific libraries within cuQuantum offering different approaches for simulating quantum circuits. cuStateVec focuses on state vector simulations, while cuTensorNet offers a more efficient approach for larger qubit counts and circuit depths.
DGX Quantum: A new system developed in collaboration with Quantum Machines, combining NVIDIA's GPUs with advanced quantum control capabilities. This platform aims to provide a powerful environment for hybrid quantum-classical computing, enabling researchers to develop and test quantum algorithms more effectively.
QODA (Quantum Optimized Device Architecture): NVIDIA's open-source, unified environment for creating hybrid quantum-classical applications. QODA aims to simplify quantum programming and make it more accessible to developers by providing a familiar programming model and tools.
Impact on Quantum Computing Research:
Overcoming Hardware Limitations: Quantum emulation on NVIDIA GPUs allows researchers to explore and simulate larger and more complex quantum systems than possible on current quantum hardware.
Accelerated Algorithm Development: Quantum emulation enables faster testing and validation of quantum algorithms, accelerating their development and optimization.
Collaboration: NVIDIA actively collaborates with leading quantum research institutions and companies, fostering a collaborative ecosystem for advancing quantum computing.
Overall:
NVIDIA's contributions to quantum emulation through cuQuantum, DGX Quantum, QODA, and partnerships are playing a crucial role in pushing the boundaries of quantum computing research. Their efforts are accelerating the development of quantum algorithms, improving our understanding of quantum systems, and paving the way for the future of quantum technologies.
i was just about to repost the same article.
that synthetic data can also be used to anonymize personal data and assign phone numbers/ids for emergency calls.....like if medical emergency/urgent notifications.
api's might also signal context of the data/prompt? api's are the admin instructions?
"This ensures that data is exchanged in a compatible format and that the necessary information is extracted and transferred accurately.
Workflow Automation: emPath enables the creation of automated workflows that define the sequence of actions to be taken when specific events occur. For example, a workflow might trigger when a new customer is added to a CRM system, automatically updating other relevant systems like billing and marketing."
8 pr mentions automatic registry for microfrontends........file pointers to the file? triggered when specific events occur?
744 and 266 markup with automatic spider/crawler?
map and transform......with the api's , according to admin instructions?
note to self..........isn't that part of the process of generative ai...........transformer?
google of android phones, of which the main one's took license of perpetual type from vcsy. openai 'gives' apple the chatgpt for free, but licenses? service fees? openai doesn't have a license, apple doesn't have a license, google doesn't have a license., msft has a license but can't transfer their license..
microfocus , opentext......not that we know of.......why did broadcom sell the end point ip to kkr? maybe, so kkr has to pay for the v ip use in the ai by the client/end users? at least in part?
doj didn't allow msft cptn, so it allowed the novell server ip to go to opentext? but nvidia's' solution is gpu/cuda which is 744/8x8 ? i hope.
8 has it's hardware/software links to the cuda/gpu via leadtek and nvidia? i hope the inference is correct.
if vcsy had said this in the first place? why not? here's gemini ai's take on it. gemini ai is google's:
"how does vcsy emPath 'glue' applications together?
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VCSY emPath is a software solution that integrates and automates processes across various applications and systems within a business. It acts as a middleware layer, connecting disparate applications and enabling them to share data and trigger actions in a coordinated manner.
Here's a simplified explanation of how emPath "glues" applications together:
Connectors: emPath utilizes connectors, which are pre-built or custom-developed components that establish communication channels between different applications. These connectors understand the specific data formats, protocols, and APIs of each application.
Data Mapping and Transformation: Once the connections are established, emPath can map and transform data between different applications. This ensures that data is exchanged in a compatible format and that the necessary information is extracted and transferred accurately.
Workflow Automation: emPath enables the creation of automated workflows that define the sequence of actions to be taken when specific events occur. For example, a workflow might trigger when a new customer is added to a CRM system, automatically updating other relevant systems like billing and marketing.
Business Rules Engine: emPath includes a business rules engine that allows for the definition of complex logic and decision-making within workflows. This enables the system to adapt to changing business conditions and make intelligent decisions based on predefined criteria.
Monitoring and Reporting: emPath provides monitoring and reporting capabilities to track the performance of workflows and identify any errors or bottlenecks. This allows for continuous improvement and optimization of the integration process.
Benefits of using emPath:
Improved Efficiency: By automating tasks and workflows, emPath eliminates manual data entry and reduces the risk of errors, leading to faster and more efficient processes.
Enhanced Data Accuracy: emPath ensures data consistency and accuracy across different applications by automating data exchange and validation.
Increased Agility: emPath enables businesses to quickly adapt to changing business needs by easily modifying workflows and business rules.
Reduced Costs: By automating manual tasks and streamlining processes, emPath can reduce operational costs and improve resource utilization.
Overall, VCSY emPath provides a powerful platform for integrating and automating processes across different applications, enabling businesses to improve efficiency, accuracy, agility, and cost-effectiveness."
kona, nowsolutions/emPath and time......the glue; tight connectivity at the api/ipbx type of interop. data extraction with context which could be a interop of 8 and v ip.......with the 8 being the cloud edition/version?
and xml can take a renewed prominence in the processes.
me:
huang hand delivered the gpu computer to openai. openai and 8 integration. might be they're using the 8 network such that other tech partners joining thru nvidia or open ai have to attach /go thru the 8 network for networking/routing/authentication /security via the 8 cloud virtual session border controller ? and/or embedded software codes? intel licensed 8 admin software...and msft licensed virtual trunking from 8.
copilot ai pc might be a candidate?
or the nvidia quantum/gpu data centers?
i just want the money , and now. we all do.
8x8 virtual session border controller for the network?
so, is /will v ip be a member of the 8x8 technology partners environment....with 8 ip keeping running tabs and payments current?
supermicro and dell are nvidia partners and might be where the payments arise?
anywhere/anybody ......just get it going.
lg/samsung/hp/microsoft.......first gets a onetime discount or head start of a few days. ?
kona, tight integration of quantum and gpu , cuda, computing.......
8x8 cloud session border controller.
emPath and time(the squantum defining component?).
cuda a product of leadtek and nvidia.
leadtek and 8x8. follow the bread crumbs, i hope.
can quantum emulation be used for pharma work now?
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Yes, quantum emulation is already being used in pharmaceutical research, albeit in limited ways due to the current state of quantum hardware and algorithms. Here's how:
Drug Discovery:
Molecular Simulations: Quantum emulators can simulate the behavior of molecules and their interactions, which is crucial for understanding how drugs bind to their targets. This could help accelerate drug discovery by identifying potential drug candidates more efficiently.
Material Science: Quantum emulators can also simulate the properties of materials, which is relevant for developing new drug formulations and delivery systems.
Optimization of Drug Properties:
Predicting Drug Interactions: Quantum emulators can help predict how drugs will interact with different biological systems, potentially reducing the need for costly and time-consuming animal testing.
Optimizing Drug Efficacy: By simulating the behavior of drug molecules in different environments, researchers can identify ways to improve drug efficacy and reduce side effects.
Current Limitations:
Scalability: The complexity of simulating large molecules and complex biological systems is a significant challenge for current quantum emulators.
Accuracy: While emulators can provide valuable insights, they may not always be able to fully capture the complex behavior of quantum systems. This can limit their accuracy in predicting drug interactions and properties.
Future Potential:
As quantum hardware and algorithms advance, quantum emulation is expected to play an increasingly important role in pharmaceutical research. With more powerful emulators, researchers will be able to simulate larger and more complex systems with greater accuracy, accelerating drug discovery and development processes.
Examples of Current Research:
Accenture and Biogen: Accenture Labs collaborated with Biogen to develop a quantum-enabled method for molecular comparison. This method could potentially improve the drug discovery process by identifying promising drug candidates more quickly and accurately.
Imperial College London: Researchers at Imperial are exploring the use of quantum computers for drug design. They believe that quantum computers can simulate the interactions between molecules more accurately than classical computers, leading to better predictions of drug efficacy and safety.
Conclusion:
While quantum emulation is still in its early stages, it has already shown promise in accelerating drug discovery and development. As the technology continues to advance, it is expected to revolutionize the pharmaceutical industry by enabling faster, more efficient, and more accurate drug design.
is nvidia doing research in the area of quantum or quantum emulation computing? question to gemini ai:
Yes, NVIDIA is actively involved in quantum computing research and development, particularly in the area of quantum emulation. They have developed several tools and platforms to accelerate quantum research and development:
cuQuantum: This is an SDK (Software Development Kit) of optimized libraries and tools for accelerating quantum computing workflows on NVIDIA GPUs. It enables researchers to simulate quantum circuits and algorithms with higher performance and scalability.
DGX Quantum: NVIDIA announced a new system called DGX Quantum, built in collaboration with Quantum Machines. This system combines NVIDIA's powerful GPUs with Quantum Machines' OPX+ quantum control system to provide a revolutionary architecture for quantum-classical computing.
Quantum Optimized Device Architecture (QODA): NVIDIA has introduced QODA, an open, unified environment for creating hybrid quantum-classical applications. QODA aims to make quantum computing more accessible to developers and researchers by providing a familiar programming model and tools.
Collaborations: NVIDIA actively collaborates with leading quantum research institutions and companies, such as the Jülich Supercomputing Centre (JSC) in Germany, the RIKEN Center for Computational Science (R-CCS) in Japan, and the Poznan Supercomputing and Networking Center (PSNC) in Poland.
Quantum Cloud Services: NVIDIA offers cloud-based quantum computing simulation microservices, allowing researchers and developers to explore quantum computing in various scientific domains.
Through these efforts, NVIDIA is contributing significantly to the advancement of quantum computing and quantum emulation, making it more accessible and accelerating its potential impact in various fields like materials science, drug discovery, and financial modeling.
the potential of quantum simulation, at least until more stable quantum computers and tools are obtained?
to gemini ai: me , "What is Quantum Emulation?
Quantum emulation involves using classical computers to simulate the behavior of quantum systems. This is achieved by representing quantum states and operations mathematically and then executing them on classical hardware.
Generating Results:
Quantum emulators can run quantum algorithms and generate the same results as a quantum computer would, albeit at a slower pace and with limited scalability.
They are valuable tools for testing and verifying quantum algorithms, understanding their behavior, and identifying potential errors before running them on actual quantum hardware.
Emulators can also be used to simulate the behavior of specific quantum hardware, helping to optimize and improve quantum computer designs.
Limitations:
Scalability: Quantum emulators are limited by the computational resources of classical computers. As the number of qubits increases, the computational cost of simulation grows exponentially, making it impractical to simulate large-scale quantum systems.
Accuracy: While emulators can provide accurate results for small-scale quantum systems, they may not fully capture the complex behavior of larger systems due to computational limitations.
No Quantum Advantage: Quantum emulation does not provide the "quantum advantage" that allows quantum computers to outperform classical computers on certain tasks. Emulators are essentially classical algorithms running on classical hardware, and they cannot solve problems that are inherently quantum in nature.
In Summary:
Quantum emulation can be used to generate quantum computing results for small-scale systems and for testing and validating quantum algorithms. However, it is not a substitute for actual quantum hardware for solving large-scale, complex problems that require the true power of quantum computation."
cruz patent to obtain the virtual screenshot? is adobe /google involved with msft?
Yes, a virtual screenshot can be used to capture the output of a quantum computer, but with some important considerations:
Capturing the Output:
Classical Representation: The output of a quantum computer is typically a series of classical bits (0s and 1s) representing the measurement outcomes of the qubits. This classical data can be displayed on a screen like any other digital information.
Virtual Screenshot: A virtual screenshot, which is essentially capturing the pixels displayed on the screen, can indeed capture this classical representation of the quantum computer's output.
Interpreting the Output:
Limited Information: While a virtual screenshot captures the final output, it doesn't capture the entire quantum state or the underlying quantum processes. Quantum states are inherently complex and cannot be fully represented by classical bits.
Context is Key: To fully understand the meaning of the output captured in the screenshot, you need to know the specific quantum algorithm being executed and the interpretation of the measurement results.
Additional Considerations:
Quantum Error Correction: Quantum computers are prone to errors due to environmental noise and other factors. The output captured in the screenshot may need to be processed through error correction techniques to ensure its accuracy.
Quantum State Visualization: Some quantum computing platforms offer specialized tools for visualizing quantum states and processes. While a virtual screenshot can capture the final result, these visualization tools may provide a more comprehensive understanding of the quantum computation.
why do you need more than two quantum computers? perhaps so the third one can be read?probabilities?
"Avoiding State Disturbance:
The key to reading the result without disturbing the quantum state lies in the way the measurement is performed. Quantum computers employ special measurement techniques that only extract the necessary information to determine the result, while leaving the remaining qubits in their original superposition.
This is possible due to the principle of quantum entanglement. Qubits can be entangled in such a way that measuring one qubit reveals information about another qubit without affecting its state. By carefully designing the measurement process, it's possible to extract the result without collapsing the entire quantum state."
gemini says::"an a quantum computer computational result be read by virtual application and not effect the quantum state?
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Yes, a quantum computer's computational result can be read by a virtual application without affecting the quantum state. However, it's important to understand how this is achieved and the limitations involved.
Reading the Result:
Quantum computers perform calculations by manipulating qubits, which exist in a superposition of states. To obtain a meaningful result, the qubits must be measured. This measurement process inherently collapses the superposition into a single definite state, which is the result of the computation. This result can be read and processed by a virtual application just like any other digital data.
Avoiding State Disturbance:
The key to reading the result without disturbing the quantum state lies in the way the measurement is performed. Quantum computers employ special measurement techniques that only extract the necessary information to determine the result, while leaving the remaining qubits in their original superposition.
This is possible due to the principle of quantum entanglement. Qubits can be entangled in such a way that measuring one qubit reveals information about another qubit without affecting its state. By carefully designing the measurement process, it's possible to extract the result without collapsing the entire quantum state.
Limitations:
While it's possible to read the result without disturbing the quantum state, there are some limitations:
Partial Information: The measurement typically only reveals partial information about the quantum state. This is because extracting complete information would require measuring all qubits, which would collapse the entire state.
No Cloning: The no-cloning theorem of quantum mechanics states that it's impossible to create an exact copy of an unknown quantum state. This means that the original quantum state cannot be perfectly preserved after the measurement.
Implications:
The ability to read quantum computational results without fully collapsing the quantum state has significant implications for quantum computing. It allows for the possibility of performing multiple measurements on the same quantum state, potentially extracting more information from a single computation. This could be crucial for developing more efficient and powerful quantum algorithms."