 Hey, thank you so much for the warm introduction. So my name is Johan, I'm CEO and co-founder of QuantScient and we are building multi-physics simulations using cloud and quantum computing. Multi-physics simulations are an engineering tool that are used in various industries such as semiconductor, energy, automotive and aerospace, just to name a few. And what it actually does is that as an engineer, if you design your 3D model of something, let's say for example an electric motor, you can move that into a multi-physics simulation platform and simulate how it actually works in real life toward digital prototyping is used a lot in the industry. So it actually is an existing software industry, there's competition, it's already used a lot but the common factor with the existing tools out there is that they are based in desktop technology. They might offer cloud solutions but what they cannot do is distribute the computation efficiently in the cloud. And that causes several problems for the engineers. So most of the engineers need to constantly reduce the complexity of their simulation models. And that's a problem because that's slow, manual work and time consuming but also when you have simplified models, you have simplified simulation results. So it's a huge compromise in terms of accuracy. And of course for the engineering decision makers, the most important thing is to reduce time, risk and cost that it takes to design new high technology products. And one of the best ways to do that is high quality, high accuracy simulations that can even replace a lot of the physical prototypes that you need to build and enable you to iterate more rapidly. Also more flexible software licensing is definitely needed because simulation works tends to be sporadic by nature. If you have a fixed set of licenses, your team of engineers will be struggling to get access to that resource when simulation season is on so to say and in the low season these expensive licenses are sitting idle. And that's exactly why we built Kwanzaa and Osulf, our cloud and quantum based multi-physics simulation platform. So what's possible already today is that we have demonstrated and proven several hundred times speed ups in multi-physics simulations. And what it means is that we can reduce the runtime of complex simulations from days or weeks to coffee breaks. And we can eliminate the engineer's need to simplify their models. And we also vision a future where simulation products are no longer used as a separate manual step in the design process, instead they're seamlessly integrated into the workflow. So you could kind of think of it as continuous integration and automated testing, but for hardware. So engineers could be working on their design tools and that can automatically trigger hundreds of simulations that validate these design changes. And this data can be combined with the like physics informed AI algorithms such as NVIDIA modulus which we're actually starting to collaborate with NVIDIA. So bottom line enabling more experiments, more rapid iterations and therefore speeding up your product design cycles greatly. And that's what the cloud, that's what we can do today, but with the quantum really the impossible can be made possible. So the likes of very accurate airplane aerodynamics simulations that could eventually replace things like wind tunnel testing. Now here's a case study we did with a recent customer test to give some quantification on this. So before they started using quantum science also they were using a desktop based approach and it took them three weeks of pure runtime for the simulation. So basically waiting to get the results. And when they compared those results to experimental measurement data from built prototypes they were within ten percent accuracy. When they switched three weeks became eight hours and the accuracy went up from within ten percent to within three percent. So basically three times a more accurate results in a fraction of the time and this allowed them to iterate daily instead of monthly and actually make justified accurate design decisions based on simulation data alone. Now the industry in Dotto is growing to be a 15 billion market by 2030 and another way to look at it from the bottom up is that you can take an R&D budget of a high technology company typically about one percent of that goes to simulation software licenses. The biggest individual market is by far semiconductors and energy that's exactly what we're targeting first with customers in the fusion energy industry and in the semiconductor industries. Automotive and aerospace are close behind and as you see kind of cloud based usage for simulation tools is today about 13 percent and what's been holding that back is exactly that you don't get the benefit of distributed computing with the existing products. With us you can and we closed our first deals in March this year and since then we've grown to about 200,000 annual recurring revenue and in the next couple of years we intend to solidify our position in the energy and semiconductors market then start expanding to automotive and aerospace and introduce our first quantum algorithms within our product in 2027 which will basically be a multiplier for everything. Now talking a little bit about quantum what we achieved and how we justify these claims so we are the first and only team in the world that has actually successfully run these simulations using real quantum hardware with accurate results. We did this already in the summer of 2022 and right now we're running 2D simulations using quantum hardware and what we need for that is 12 qubits so basically quantum bits but the thing is that with every qubit we add we can double the size of the problem so that grows exponentially so we just something like 60 to 80 qubits we can start pushing the limits of what can be done with the best in-class super computers of today and that enables things like accurate aerodynamics for airplane design for automotive design more accurate climate modeling and full scale fuse and power plant plasma simulations and various other industrial processes that just cannot be simulated because of their complexity today at all. We have founding team of four people I'm more focused on the business side of matters our CTO Alexandra is the author of our cloud scaling algorithms Walter leads our quantum team and us are is the head of our cloud development team and we reinforced by two seasoned professionals in our COO Teemu and VP of sales Nikola and in total we're 24 people with a diverse group of 10 different nationalities and we're spread across Europe in our team with the base of operations right here in Finland and we're actually gearing up for our next fundraise our series A and with the funds we plan to expand geographically to North America we already have general manager for the country looked who is capable and interested in joining we plan to expand our sales marketing teams business teams but also make strategic recruitments to reinforce our quantum research team but also the product development team so with that like to invite you to join join the new quantum era in simulations with our current lead investors Maki Visi first fellow partners and if you want to talk about quantum I'm here for today so please be in touch be in touch thank you so much for your attention