Good morning and good evening, and across the audience who is watching my video. Many thanks for taking your time to watch my recording. I'm going to present today about the cloud quantum Cloud Ops. It's basically about the future. Technology that is coming up which we are going to envision tomorrow in another, I, maybe in max of another five years, we'll be seeing more about this quantum processing, quantum technology. Quantum. There'll be a revolutionary coming up, which we have to be prepared for ourselves. Hence, I'm taking this opportunity to give some insight how it can be and what we can be achieving more in future and let's we welcome you all. And let's dive into the presentation. It's basically and the this is more, I just want to cover up my last, that small line. It's basically to see the quantum computing with basically we have our cloud infrastructure, we have our DevOps. Now with quantum technology coming into place, how this amalgamation can revolutionize the whole computer process, the computer technology and the, it may even come to our everyday day-to-day life. This impacts, that's the intent of this whole this one before I go into this and I would like to take in a small opportunity to explain what is this quantum technology and everything the. Processing. It's, it is coming from a physics, actually speaking it in this, right now we have a traditional, I will call it as a convention conventional processing, which will basically and our computer basically is a binary, it's a zero one. One of the state will be there and hence will be processing based on that. But in quantum, it has it, the unit, the small unit of work is called qubit. It. It basically has both the values of zero and one. It simultaneously can be in zero and one that is called as a qubit, and, but in case of a convention, our traditional we'll have either a zero or one, the binary, hence. Based on that zero or one the processing logical error. But in quantum being in position of both zero or one at any time until we measure it, that is cause a super ion and that super ion that makes quantum to really prob give that flex that. Upliftment of processing, paralleling multiple tasks. And that really gives us robustness of this processing technology. And that's where many companies are investing on this. The fundamentals of where it started with physics and now they're putting a lot of research projects so that we can really. You leverage that processing technique and make our the complex processing that we really, not even with this ai, the complex processing, so we have, the technology is evolving, but if the underneath the processing technology, like the processors are not incapable, we are going to. Hinder our technology. That's the reason if the quantum processing comes in place and with the ai, we are really going to revolutionize this whole, that's the intent of where this whole exercise is going on. And along with that, even the security, right now we have a security with the con, the convention approach of encryption algorithm, but applying, thinking about the quantum technology applying on the top of it, the security will really the increase, the 10 folds, a hundred folds. So the thought the chances of getting a threats will get reduced drastically because it can really envision. For example, I can, I'll go more detail in the example so that you can really understand. I have a small example to going forward how this security can, security or processing, how this parallel processing is happening with the content and how we are getting benefited out. That, I'll go with the other thing which I want to talk about is the innovation catalyst. It'll even help us to, that we could not dreamt that, hey, we can do this type of complex processing with this quantum. We can really feel conscious. We can even achieve that one. That's one of the, one of the security. The other one is a performance and the other one is the new innovation. It'll lose. It gives a a foundation for us to think about some innovation that we never could ever to dream about. That is the intent of the whole quantum. Let's move to the. Next slide. Quantum. Sorry. The hybrid infra architecture. So we have our cloud infrastructure currently, and we have our CICD pipelines which were original DevOps, and then we moved to the cloud. Now everything is on cloud now, we call it as a. Cloud ops tomorrow. I think maybe it, maybe call a quantum ops or anything, but the point is, in quantum the main important is unit processing unit. Basically the qubit I'm talking about, it'll enable us. The foundation that is being, that is laid on top of which quantum is built, that will really help us to really execute complex. Quantum algorithms leveraging the power of supervision, the supervision I was talking about having, being in both zero and one at the same time. That's a supervision, which is calling Quantum and the other one is entanglement. There's another concept where I can example like I, I'll take more time. So in Quantum, basically. Generally we have our zero one comp processing, but in quantum at a given moment of time, a a state can be in zero and one both. And it leverages both the state and to process. And that is called a superposition. And that small you need to work of cubit. Okay, now think about many. When a chess player or when you are playing a chess, generally when I play chess or anyone I can really envision or I can think about the 10 moves my opponent can think about, I feel hey, he may be doing this or he may, if he does this, I may need to do this. If I did this, I may need to do, there are 10 combination max I can think about, but think about if for one of the 10 position, if it picks. What are the other possible 10 options that can come? I only can think one seamless, but in quantum being in state of the super position, what is advantages? If the opponent takes one of this 10 position, what are the other 10 combination that can come and from the 10 position, what are 10? So it really takes a whole bandwidth of combination and then process it, and then it'll give us a result, Hey, this is something that is coming up, which is a future risk. That level of. Bandwidth of processing is what is achieved, can be achieved. That is called, is a complex processing. That is being, that level of thought process or processing is enabled in the quantum that if we know. Apply this processing to security, you are able to envision for certain security threat. But think about if that security threat comes or what is the other thing that can come up with this if there is another what? So thinking ahead of multiple combination with this quantum processing will really help us to really take a proactive step. How we can make the threats not coming up from a security from a. Cloud infrastructure operations management point of view, or even financial, or even in medical, everywhere you can think about in everywhere, if you look, really apply, if you increase the scope of your bandwidth, of the. Different health conditions wide wide span, then you can really think about what is the best approach for me to take. Hence, that complex process is not allowed because of the way we are currently, the current processes. But with this quantum processes, we can take that leap and we can really go forward and take more steps and take a proactive step now for the future that is coming in the risk. That's the intent of the processing unit. The classical infrastructure basically is about talking about our cloud infrastructure currently. We have a cloud infrastructure that delivers the convention, computer task and system orchestration right now. Applying the, we would like to leverage the same approach that DevOps or CloudOps, but apply on top of it, the cloud the quantum, and so that we can really, I. How the load balancing properly distribute the workloads. With this integration of the quantum and the classical infrastructure, we can really, what is the benefit we can leave is we can really do the workloads, distribution of and with the quantum and classical optimal performance. And the other one is with this small integration layer, we can even, it has the advanced translator, workload, schedulers, and real time processing system that unify d. Computer algorithms, execution. Also, basically the quantum and the classical, both. If you combine, you really getting a very good benefit of for example, the. The workload balancing operation management everywhere. I'll go more in deep where I can explain you in a pictorial how the benefit the investment, how the investment is more, but what is the benefit out of it? We get more out of this investment. I'll go in my future slides. DevOps no, I'm sorry. My missed mistake. Now, coming to the DevOps, we started with DevOps and then we moved now to call as a cloud ops. Now think about what is the transformation we need to do in order to be prepared for our quantum. Basically, we need to upgrade our CICD pipeline so that we can leave the benefit of for example, quantum deployment and testing. We need to make our C so that we can deploy this new setup. Quantum algorithm and testing observability. We have this log metrics and everything for our observability to make our operation life simple that need to be enhanced for quantum. The other one is the. The operations models, right? We have a lot of operation models that are defined for our current DevOps or CloudOps on-prem model on cloud that need to be enhanced so that people need to be trained so that to understand how to manage this operations for the quantum technology based applications. Then automation, we do a lot of automation for our systems. To run automation to make everything more smoother. That automation now need to be enhanced by quantum. We need, so it's more of skill development, enhancing the existing processes that we define, which are stabilized. Now we know how we can make this APAs, for example. We need to know how to build an a p for a quantum processing. We need, because it cannot be same way as late because quantum does more faster. So we need to change the way of your, I feel even the program in languages like Java, they may even change. With the quantum technology coming up the way, the multi concurrent processing, the multi trading everything, the implementation will change in a similar way. Every technology will have its own. Change or adaptability because of this quantum coming. And so we need to transform, be prepared, and make ourself upscale, be prepared for the new approaches for the operation, new approaches for the CSCD or new way of thinking of an observability so that we can get more logs and do the data analytics to untake the proactive steps. This is basically how it can impact the existing DevOps. The key industries that benefit from, sorry, my mistake. The key industry that really that benefits from this quantum, this basically is the security I. Because developing the quantum resistance and encryption protocols to secure sensory data against future quantum attacks, cryptographic, basically it's security. That is one of the key factor that will be benefited from this because it can really think about future combinations of threats that can come and it'll help us a lot to reduce the cyber tech attacks coming down. The other one is the algorithms, AI algorithms. We built AI algorithm. Current existing processor technologies. Think of what quantum is coming in. So we definitely need to change this AI algorithms so that we can leave the benefit of this parallel processing that will be an impact. The other thing that will be major impact is on the pharmaceutical. Right now, for example, in Medicare medicine, need to be come outta the market. There has to do a lot of things. Clinical studies, everything. So one medicine to come out, it may take years, but because they don't have the liberty to do the complex processing now they do the incremental steps, sequential step. But with this quantum, they can do the concurrent execution of these studies. They can do everything like multiple ular combination to see where's the impact coming up. Time will come down, hence the clinical study will come down and that will really help us to give even, it'll even break through some of the complex monocles in combinations so that with this quantum, and that may even bring some new innovation, maybe even we may get a Medicare medicine for cancer or something. But basically it really helps us to break through some of the innovation that we never dreamt about with this quantum. The other important thing on the finance. As finance goes with the data analytics pro, analyzing the data, predicting the data, predicting the new future trends of the market, is all based on the data. And data need to be analyzed process so that we can give the results. We are limited with this conventional, or we can say with this current existing infrastructure, but with this quantum infrastructure, you can really make a difference. It can even predict. If I take this move for this something, what is the future that, based on the organization or based on the future trends or based on the past tense of an organization, whether I have to invest it makes more, not only that, it may co bring the combination of AI with this data analytics. It may even give us a very good edition of where to invest in everything there may be. That's intent of where I'm going is the quantum technology applying on finance will help a. It'll not only for me investment point of view, it even helps for me this self, my portfolio and risk assessment based on this analysis, whether where, what should I do, where should I invest, where should I not invest adoption basically how do we adopt this one? So initially. We need to build some Ps, right? Generally, whenever a new technology, we need to build a P for that. What we need to do is we need to upskill, we need to. They'll definitely be a provider like how we have now Azure, Amazon, Google. They'll be a provider, one of these provider who will provide us the quantum infrastructure, quantum technology. We need to partner with them. Then create a POCs to understand, explore I what are the. How we can really start, that's a foundation. Then we need to build a hybrid quantum class. Basically now we have our classical infrastructure and then we have the, our quantum infrastructure. Now we need to build an integration phase where you build any APIs. Based on the quantum integrate with the the classical APIs. See how the, it's basically like a B2B communication. How to establish, basically understand the PC, understand the limitations, challenges that we may come overcome that. And so that is integration, right? First build something. Based on quantum, then see the way how we can integrate this quantum based application within classical infrastructure that we call the current classical is like a con or con with this classical infrastructure to see what are the challenges we have and then once we, then we need to, with an automation, how we can make sure this integration more seamlessly so that we can know where to build what. Which is the best platform for us to build? What and how we can make it make the benefit out of this integration. Find the workload distribution basically between the classical and then and automate the quantum resource allocation measure and improve the quantum things. This is basically the adoption you need to. Adopt quantum to this classical, build the application, integrate it, and then optimize and manage it within operation so that our operations on this integration is more seamless and easy to manage. So as I studied, what some of the case studies that are going on or that will come in future is basically one of them is a medical. Where I can see that a lot of companies will really put investment on this quantum so that they can make the become medical study more faster. That is one thing. The other one where the investment will go is all these cloud providers will invest a lot on how do we provision, make easy provisioning of this quantum infrastructure so that. They can get, they can invite more customers to them so they can get the customer base. So there be a lot of inform on that. The other one is the drug discord, which I just talked, and the last one is how do we make more to the applications? Any given application, how do I leverage where I should put my in investment? On which area of an application in a classical infrastructure, and where should I leave the benefit of quantum? It's not like everything I built on quantum. It may come with more cost. So there should be a distinction between within an application, which is my requirement, where I may need a complex processing and where I don't need a complex or that distinction. If you can make that level of design level of distinction, if you make it, you can really benefit honest if you are, if you don't put a little. Think through, you are putting everything in quantum. You may have more investment. If you put more on the classical thinking not required of quantum, then you may not take the benefit of complex process. So what Most of the applications when we know this new start, when the quantum is already made, sure the more critical part is how do we differentiate between where we need to build and deploy our applications easily, classical or this, and how do we integrate this? This is another, a new set of design.