>>from around the globe. It's the Cube presenting innovation for good, brought to you by on shape. >>Hello, everyone, and welcome to Innovation for Good Program, hosted by the Cuban. Brought to You by on Shape, which is a PTC company. My name is Dave Valentin. I'm coming to you from our studios outside of Boston. I'll be directing the conversations today. It's a very exciting, all live program. We're gonna look at how product innovation has evolved and where it's going and how engineers, entrepreneurs and educators are applying cutting edge, cutting edge product development techniques and technology to change our world. You know, the pandemic is, of course, profoundly impacted society and altered how individuals and organizations they're gonna be thinking about an approaching the coming decade. Leading technologists, engineers, product developers and educators have responded to the new challenges that we're facing from creating lifesaving products to helping students learn from home toe how to apply the latest product development techniques and solve the world's hardest problems. And in this program, you'll hear from some of the world's leading experts and practitioners on how product development and continuous innovation has evolved, how it's being applied toe positive positively affect society and importantly where it's going in the coming decades. So let's get started with our first session fueling Tech for good. And with me is John Hirschbeck, who is the president of the Suffers, a service division of PTC, which acquired on shape just over a year ago, where John was the CEO and co founder, and Dana Grayson is here. She is the co founder and general partner at Construct Capital, a new venture capital firm. Folks, welcome to the program. Thanks so much for coming on. >>Great to be here, Dave. >>All right, John. >>You're very welcome. Dana. Look, John, let's get into it for first Belated congratulations on the acquisition of Von Shape. That was an awesome seven year journey for your company. Tell our audience a little bit about the story of on shape, but take us back to Day zero. Why did you and your co founders start on shape? Well, >>actually, start before on shaping the You know, David, I've been in this business for almost 40 years. The business of building software tools for product developers and I had been part of some previous products in the industry and companies that had been in their era. Big changes in this market and about, you know, a little Before founding on shape, we started to see the problems product development teams were having with the traditional tools of that era years ago, and we saw the opportunity presented by Cloud Web and Mobile Technology. And we said, Hey, we could use Cloud Web and Mobile to solve the problems of product developers make their Their business is run better. But we have to build an entirely new system, an entirely new company, to do it. And that's what on shapes about. >>Well, so notwithstanding the challenges of co vid and difficulties this year, how is the first year been as, Ah, division of PTC for you guys? How's business? Anything you can share with us? >>Yeah, our first year of PTC has been awesome. It's been, you know, when you get acquired, Dave, you never You know, you have great optimism, but you never know what life will really be like. It's sort of like getting married or something, you know, until you're really doing it, you don't know. And so I'm happy to say that one year into our acquisition, um, PTC on shape is thriving. It's worked out better than I could have imagined a year ago. Along always, I mean sales are up. In Q four, our new sales rate grew 80% vs Excuse me, our fiscal Q four Q three. In the calendar year, it grew 80% compared to the year before. Our educational uses skyrocketing with around 400% growth, most recently year to year of students and teachers and co vid. And we've launched a major cloud platform using the core of on shape technology called Atlas. So, um, just tons of exciting things going on a TTC. >>That's awesome. But thank you for sharing some of those metrics. And of course, you're very humble individual. You know, people should know a little bit more about you mentioned, you know, we founded Solid Works, co founded Solid where I actually found it solid works. You had a great exit in the in the late nineties. But what I really appreciate is, you know, you're an entrepreneur. You've got a passion for the babies that you you helped birth. You stayed with the salt systems for a number of years. The company that quiet, solid works well over a decade. And and, of course, you and I have talked about how you participated in the the M I T. Blackjack team. You know, back in the day, a zai say you're very understated, for somebody was so accomplished. Well, >>that's kind of you, but I tend to I tend Thio always keep my eye more on what's ahead. You know what's next, then? And you know, I look back Sure to enjoy it and learn from it about what I can put to work making new memories, making new successes. >>Love it. Okay, let's bring Dana into the conversation. Hello, Dana. You look you're a fairly early investor in in on shape when you were with any A And and I think it was like it was a serious B, but it was very right close after the A raise. And and you were and still are a big believer in industrial transformation. So take us back. What did you see about on shape back then? That excited you. >>Thanks. Thanks for that. Yeah. I was lucky to be a early investment in shape. You know, the things that actually attracted me. Don shape were largely around John and, uh, the team. They're really setting out to do something, as John says humbly, something totally new, but really building off of their background was a large part of it. Um, but, you know, I was really intrigued by the design collaboration side of the product. Um, I would say that's frankly what originally attracted me to it. What kept me in the room, you know, in terms of the industrial world was seeing just if you start with collaboration around design what that does to the overall industrial product lifecycle accelerating manufacturing just, you know, modernizing all the manufacturing, just starting with design. So I'm really thankful to the on shape guys, because it was one of the first investments I've made that turned me on to the whole sector. And while just such a great pleasure to work with with John and the whole team there. Now see what they're doing inside PTC. >>And you just launched construct capital this year, right in the middle of a pandemic and which is awesome. I love it. And you're focused on early stage investing. Maybe tell us a little bit about construct capital. What your investment thesis is and you know, one of the big waves that you're hoping to ride. >>Sure, it construct it is literally lifting out of any what I was doing there. Um uh, for on shape, I went on to invest in companies such as desktop metal and Tulip, to name a couple of them form labs, another one in and around the manufacturing space. But our thesis that construct is broader than just, you know, manufacturing and industrial. It really incorporates all of what we'd call foundational industries that have let yet to be fully tech enabled or digitized. Manufacturing is a big piece of it. Supply chain, logistics, transportation of mobility or not, or other big pieces of it. And together they really drive, you know, half of the GDP in the US and have been very under invested. And frankly, they haven't attracted really great founders like they're on in droves. And I think that's going to change. We're seeing, um, entrepreneurs coming out of the tech world orthe Agnelli into these industries and then bringing them back into the tech world, which is which is something that needs to happen. So John and team were certainly early pioneers, and I think, you know, frankly, obviously, that voting with my feet that the next set, a really strong companies are going to come out of the space over the next decade. >>I think it's a huge opportunity to digitize the sort of traditionally non digital organizations. But Dana, you focused. I think it's it's accurate to say you're focused on even Mawr early stage investing now. And I want to understand why you feel it's important to be early. I mean, it's obviously riskier and reward e er, but what do you look for in companies and and founders like John >>Mhm, Um, you know, I think they're different styles of investing all the way up to public market investing. I've always been early stage investors, so I like to work with founders and teams when they're, you know, just starting out. Um, I happened to also think that we were just really early in the whole digital transformation of this world. You know, John and team have been, you know, back from solid works, etcetera around the space for a long time. But again, the downstream impact of what they're doing really changes the whole industry. And and so we're pretty early and in digitally transforming that market. Um, so that's another reason why I wanna invest early now, because I do really firmly believe that the next set of strong companies and strong returns for my own investors will be in the spaces. Um, you know, what I look for in Founders are people that really see the world in a different way. And, you know, sometimes some people think of founders or entrepreneurs is being very risk seeking. You know, if you asked John probably and another successful entrepreneurs, they would call themselves sort of risk averse, because by the time they start the company, they really have isolated all the risk out of it and think that they have given their expertise or what they're seeing their just so compelled to go change something, eh? So I look for that type of attitude experience a Z. You can also tell from John. He's fairly humble. So humility and just focus is also really important. Um, that there's a That's a lot of it. Frankly, >>Excellent. Thank you, John. You got such a rich history in the space. Uh, and one of you could sort of connect the dots over time. I mean, when you look back, what were the major forces that you saw in the market in in the early days? Particularly days of on shape on? And how is that evolved? And what are you seeing today? Well, >>I think I touched on it earlier. Actually, could I just reflect on what Dana said about risk taking for just a quick one and say, throughout my life, from blackjack to starting solid works on shape, it's about taking calculated risks. Yes, you try to eliminate the risk Sa's much as you can, but I always say, I don't mind taking a risk that I'm aware of, and I've calculated through as best I can. I don't like taking risks that I don't know I'm taking. That's right. You >>like to bet on >>sure things as much as you sure things, or at least where you feel you. You've done the research and you see them and you know they're there and you know, you, you you keep that in mind in the room, and I think that's great. And Dana did so much for us. Dana, I want to thank you again. For all that, you did it every step of the way, from where we started to to, you know, your journey with us ended formally but continues informally. Now back to you, Dave, I think, question about the opportunity and how it's shaped up. Well, I think I touched on it earlier when I said It's about helping product developers. You know, our customers of the people build the future off manufactured goods. Anything you think of that would be manufacturing factory. You know, the chair you're sitting in machine that made your coffee. You know, the computer you're using, the trucks that drive by on the street, all the covert product research, the equipment being used to make vaccines. All that stuff is designed by someone, and our job is given the tools to do it better. And I could see the problems that those product developers had that we're slowing them down with using the computing systems of the time. When we built solid works, that was almost 30 years ago. If people don't realize that it was in the early >>nineties and you know, we did the >>best we could for the early nineties, but what we did. We didn't anticipate the world of today. And so people were having problems with just installing the systems. Dave, you wouldn't believe how hard it is to install these systems. You need toe speck up a special windows computer, you know, and make sure you've got all the memory and graphics you need and getting to get that set up. You need to make sure the device drivers air, right, install a big piece of software. Ah, license key. I'm not making this up. They're still around. You may not even know what those are. You know, Dennis laughing because, you know, zero cool people do things like this anymore. Um, and it only runs some windows. You want a second user to use it? They need a copy. They need a code. Are they on the same version? It's a nightmare. The teams change, you know? You just say, Well, get everyone on the software. Well, who's everyone? You know, you got a new vendor today? A new customer tomorrow, a new employee. People come on and off the team. The other problem is the data stored in files, thousands of files. This isn't like a spreadsheet or word processor, where there's one file to pass around these air thousands of files to make one, even a simple product. People were tearing their hair out. John, what do we do? I've got copies everywhere. I don't know where the latest version is. We tried like, you know, locking people out so that only one person can change it At the time that works against speed, it works against innovation. We saw what was happening with Cloud Web and mobile. So what's happened in the years since is every one of the forces that product developers experience the need for speed, the need for innovation, the need to be more efficient with their people in their capital. Resource is every one of those trends have been amplified since we started on shape by a lot of forces in the world. And covert is amplified all those the need for agility and remote work cove it is amplified all that the same time, The acceptance of cloud. You know, a few years ago, people were like cloud, you know, how is that gonna work now They're saying to me, You know, increasingly, how would you ever even have done this without the cloud. How do you make solid works work without the cloud? How would that even happen? You know, once people understand what on shapes about >>and we're the >>Onley full SAS solution software >>as a service, >>full SAS solution in our industry. So what's happened in those years? Same problems we saw earlier, but turn up the gain, their bigger problems. And with cloud, we've seen skepticism of years ago turn into acceptance. And now even embracement in the cova driven new normal. >>Yeah. So a lot of friction in the previous environments cloud obviously a huge factor on, I guess. I guess Dana John could see it coming, you know, in the early days of solid works with, you know, had Salesforce, which is kind of the first major independent SAS player. Well, I guess that was late nineties. So his post solid works, but pre in shape and their work day was, you know, pre on shape in the mid two thousands. And and but But, you know, the bet was on the SAS model was right for Crick had and and product development, you know, which maybe the time wasn't a no brainer. Or maybe it was, I don't know, but Dana is there. Is there anything that you would invest in today? That's not Cloud based? >>Um, that's a great question. I mean, I think we still see things all the time in the manufacturing world that are not cloud based. I think you know, the closer you get to the shop floor in the production environment. Um e think John and the PTC folks would agree with this, too, but that it's, you know, there's reliability requirements, performance requirements. There's still this attitude of, you know, don't touch the printing press. So the cloud is still a little bit scary sometimes. And I think hybrid cloud is a real thing for those or on premise. Solutions, in some cases is still a real thing. What what we're more focused on. And, um, despite whether it's on premise or hybrid or or SAS and Cloud is a frictionless go to market model, um, in the companies we invest in so sass and cloud, or really make that easy to adopt for new users, you know, you sign up, started using a product, um, but whether it's hosted in the cloud, whether it's as you can still distribute buying power. And, um, I would I'm just encouraging customers in the customer world and the more industrial environment to entrust some of their lower level engineers with more budget discretionary spending so they can try more products and unlock innovation. >>Right? The unit economics are so compelling. So let's bring it, you know, toe today's you know, situation. John, you decided to exit about a year ago. You know? What did you see in PTC? Other than the obvious money? What was the strategic fit? >>Yeah, Well, David, I wanna be clear. I didn't exit anything. Really? You >>know, I love you and I don't like that term exit. I >>mean, Dana had exit is a shareholder on and so it's not It's not exit for me. It's just a step in the journey. What we saw in PTC was a partner. First of all, that shared our vision from the top down at PTC. Jim Hempleman, the CEO. He had a great vision for for the impact that SAS can make based on cloud technology and really is Dana of highlighted so much. It's not just the technology is how you go to market and the whole business being run and how you support and make the customers successful. So Jim shared a vision for the potential. And really, really, um said Hey, come join us and we can do this bigger, Better, faster. We expanded the vision really to include this Atlas platform for hosting other SAS applications. That P D. C. I mean, David Day arrived at PTC. I met the head of the academic program. He came over to me and I said, You know, and and how many people on your team? I thought he'd say 5 40 people on the PTC academic team. It was amazing to me because, you know, we were we were just near about 100 people were required are total company. We didn't even have a dedicated academic team and we had ah, lot of students signing up, you know, thousands and thousands. Well, now we have hundreds of thousands of students were approaching a million users and that shows you the power of this team that PTC had combined with our product and technology whom you get a big success for us and for the teachers and students to the world. We're giving them great tools. So so many good things were also putting some PTC technology from other parts of PTC back into on shape. One area, a little spoiler, little sneak peek. Working on taking generative design. Dana knows all about generative design. We couldn't acquire that technology were start up, you know, just to too much to do. But PTC owns one of the best in the business. This frustrated technology we're working on putting that into on shaping our customers. Um, will be happy to see it, hopefully in the coming year sometime. >>It's great to see that two way exchange. Now, you both know very well when you start a company, of course, a very exciting time. You know, a lot of baggage, you know, our customers pulling you in a lot of different directions and asking you for specials. You have this kind of clean slate, so to speak in it. I would think in many ways, John, despite you know, your install base, you have a bit of that dynamic occurring today especially, you know, driven by the forced march to digital transformation that cove it caused. So when you sit down with the team PTC and talk strategy. You now have more global resource is you got cohorts selling opportunities. What's the conversation like in terms of where you want to take the division? >>Well, Dave, you actually you sounds like we should have you coming in and talking about strategy because you've got the strategy down. I mean, we're doing everything said global expansion were able to reach across selling. We got some excellent PTC customers that we can reach reach now and they're finding uses for on shape. I think the plan is to, you know, just go, go, go and grow, grow, grow where we're looking for this year, priorities are expand the product. I mentioned the breath of the product with new things PTC did recently. Another technology that they acquired for on shape. We did an acquisition. It was it was small, wasn't widely announced. It, um, in an area related to interfacing with electrical cad systems. So So we're doing We're expanding the breath of on shape. We're going Maura, depth in the areas were already in. We have enormous opportunity to add more features and functions that's in the product. Go to market. You mentioned it global global presence. That's something we were a little light on a year ago. Now we have a team. Dana may not even know what we have. A non shape, dedicated team in Barcelona, based in Barcelona but throughout Europe were doing multiple languages. Um, the academic program just introduced a new product into that space that z even fueling more success and growth there. Um, and of course, continuing to to invest in customer success and this Atlas platform story I keep mentioning, we're going to soon have We're gonna soon have four other major PTC brands shipping products on our Atlas Saas platform. And so we're really excited about that. That's good for the other PTC products. It's also good for on shape because now there's there's. There's other interesting products that are on shape customers can use take advantage of very easily using, say, a common log in conventions about user experience there, used to invest of all they're SAS based, so they that makes it easier to begin with. So that's some of the exciting things going on. I think you'll see PTC, um, expanding our lead in SAS based applications for this sector for our our target, uh, sectors not just in, um, in cat and data management, but another area. PTC's Big and his augmented reality with of euphoria, product line leader and industrial uses of a R. That's a whole other story we should do. A whole nother show augmented reality. But these products are amazing. You can you can help factory workers people on, uh, people who are left out of the digital transformation. Sometimes we're standing from machine >>all day. >>They can't be sitting like we are doing Zoom. They can wear a R headset in our tools, let them create great content. This is an area Dana is invested in other companies. But what I wanted to note is the new releases of our authoring software. For this, our content getting released this month, used through the Atlas platform, the SAS components of on shape for things like revision management and collaboration on duh workflow activity. All that those are tools that we're able to share leverage. We get a lot of synergy. It's just really good. It's really fun to have a good time. That's >>awesome. And then we're gonna be talking to John MacLean later about that. Let's do a little deeper Dive on that. And, Dana, what is your involvement today with with on shape? But you're looking for you know, which of their customers air actually adopting. And they're gonna disrupt their industries. And you get good pipeline from that. How do you collaborate today? >>That sounds like a great idea. Um, Aziz, John will tell you I'm constantly just asking him for advice and impressions of other entrepreneurs and picking his brain on ideas. No formal relationship clearly, but continue to count John and and John and other people in on shaping in the circle of experts that I rely on for their opinions. >>All right, so we have some questions from the crowd here. Uh, one of the questions is for the dream team. You know, John and Dana. What's your next next collective venture? I don't think we're there yet, are we? No. >>I just say, as Dana said, we love talking to her about. You know, Dana, you just returned the compliment. We would try and give you advice and the deals you're looking at, and I'm sort of casually mentoring at least one of your portfolio entrepreneurs, and that's been a lot of fun for May on, hopefully a value to them. But also Dana. We uran important pipeline to us in the world of some new things that are happening that we wouldn't see if you know you've shown us some things that you've said. What do you think of this business? And for us, it's like, Wow, it's cool to see that's going on And that's what's supposed to work in an ecosystem like this. So we we deeply value the ongoing relationship. And no, we're not starting something new. I got a lot of work left to do with what I'm doing and really happy. But we can We can collaborate in this way on other ventures. >>I like this question to somebody asking With the cloud options like on shape, Wilmore students have stem opportunities s Oh, that's a great question. Are you because of sass and cloud? Are you able to reach? You know, more students? Much more cost effectively. >>Yeah, Dave, I'm so glad that that that I was asked about this because Yes, and it's extremely gratified us. Yes, we are because of cloud, because on shape is the only full cloud full SAS system or industry were able to reach. Stem education brings able to be part of bringing step education to students who couldn't get it otherwise. And one of most gratifying gratifying things to me is the emails were getting from teachers, um, that that really, um, on the phone calls that were they really pour their heart out and say We're able to get to students in areas that have very limited compute resource is that don't have an I T staff where they don't know what computer that the students can have at home, and they probably don't even have a computer. We're talking about being able to teach them on a phone to have an android phone a low end android phone. You can do three D modeling on there with on shape. Now you can't do it any other system, but with on shape, you could do it. And so the teacher can say to the students, They have to have Internet access, and I know there's a huge community that doesn't even have Internet access, and we're not able, unfortunately to help that. But if you have Internet and you have even an android phone, we can enable the educator to teach them. And so we have case after case of saving a stem program or expanding it into the students that need it most is the ones we're helping here. So really excited about that. And we're also able to let in addition to the run on run on whatever computing devices they have, we also offer them the tools they need for remote teaching with a much richer experience. Could you teach solid works remotely? Well, maybe if the student ran it had a windows workstation. You know, big, big, high end workstation. Maybe it could, but it would be like the difference between collaborating with on shape and collaborate with solid works. Like the difference between a zoom video call and talking on the landline phone. You know, it's a much richer experience, and that's what you need. And stem teaching stem is hard, So yeah, we're super super. Um, I'm excited about bringing stem to more students because of cloud yond >>we're talking about innovation for good, and then the discussion, John, you just had it. Really? There could be a whole another vector here. We could discuss on diversity, and I wanna end with just pointing out. So, Dana, your new firm, it's a woman led firm, too. Two women leaders, you know, going forward. So that's awesome to see, so really? Yeah, thumbs up on that. Congratulations on getting that off the ground. >>Thank you. Thank you. >>Okay, so thank you guys. Really appreciate It was a great discussion. I learned a lot and I'm sure the audience did a swell in a moment. We're gonna talk with on shaped customers to see how they're applying tech for good and some of the products that they're building. So keep it right there. I'm Dave Volonte. You're watching innovation for good on the Cube, the global leader in digital tech event coverage. Stay right there. >>Oh, yeah, it's >>yeah, yeah, around >>the globe. It's the Cube presenting innovation for good. Brought to you by on shape. >>Okay, we're back. This is Dave Volonte and you're watching innovation for good. A program on Cuba 3 65 made possible by on shape of PTC company. We're live today really live tv, which is the heritage of the Cube. And now we're gonna go to the sources and talkto on shape customers to find out how they're applying technology to create real world innovations that are changing the world. So let me introduce our panel members. Rafael Gomez Furberg is with the Chan Zuckerberg bio hub. A very big idea. And collaborative nonprofit was initiative that was funded by Mark Zuckerberg and his wife, Priscilla Chan, and really around diagnosing and curing and better managing infectious diseases. So really timely topic. Philip Tabor is also joining us. He's with silver side detectors, which develops neutron detective detection systems. Yet you want to know if early, if neutrons and radiation or in places where you don't want them, So this should be really interesting. And last but not least, Matthew Shields is with the Charlottesville schools and is gonna educate us on how he and his team are educating students in the use of modern engineering tools and techniques. Gentlemen, welcome to the Cuban to the program. This should be really interesting. Thanks for coming on. >>Hi. Or pleasure >>for having us. >>You're very welcome. Okay, let me ask each of you because you're all doing such interesting and compelling work. Let's start with Rafael. Tell us more about the bio hub and your role there, please. >>Okay. Yeah. So you said that I hope is a nonprofit research institution, um, funded by Mark Zuckerberg and his wife, Priscilla Chan. Um, and our main mission is to develop new technologies to help advance medicine and help, hopefully cure and manage diseases. Um, we also have very close collaborations with Universe California, San Francisco, Stanford University and the University California Berkeley on. We tried to bring those universities together, so they collaborate more of biomedical topics. And I manage a team of engineers. They by joining platform. Um, and we're tasked with creating instruments for the laboratory to help the scientist boats inside the organization and also in the partner universities Do their experiments in better ways in ways that they couldn't do before >>in this edition was launched Well, five years ago, >>it was announced at the end of 2016, and we actually started operation with at the beginning of 2017, which is when I joined, um, So this is our third year. >>And how's how's it going? How does it work? I mean, these things take time. >>It's been a fantastic experience. Uh, the organization works beautifully. Um, it was amazing to see it grow From the beginning, I was employee number 12, I think eso When I came in, it was just a nem P office building and empty labs. And very quickly we had something running about. It's amazing eso I'm very proud of the work that we have done to make that possible. Um And then, of course, that's you mentioned now with co vid, um, we've been able to do a lot of very cool work attire being of the pandemic in March, when there was a deficit of testing, uh, capacity in California, we spun up a testing laboratory in record time in about a week. It was crazy. It was a crazy project, Um, but but incredibly satisfying. And we ended up running all the way until the beginning of November, when the lab was finally shut down. We could process about 3000 samples a day. I think at the end of it all, we were able to test about 100 on the order of 100 and 50,000 samples from all over the state. We were providing free testing toe all of the Department of Public Health Department of Public Health in California, which at the media pandemic, had no way to do testing affordably and fast. So I think that was a great service to the state. Now the state has created that testing system that would serve those departments. So then we decided that it was unnecessary to keep going with testing in the other biopsy that would shut down. >>All right. Thank you for that. Now, Now, Philip, you What you do is mind melting. You basically helped keep the world safe. Maybe describe a little bit more about silver sod detectors and what your role is there and how it all works. >>Tour. So we make a nuclear bomb detectors and we also make water detectors. So we try and do our part thio keep the world from blowing up and make it a better place at the same time. Both of these applications use neutron radiation detectors. That's what we make. Put them out by import border crossing places like that. They can help make sure that people aren't smuggling. Shall we say very bad things. Um, there's also a burgeoning field of research and application where you can use neutrons with some pretty cool physics to find water so you could do things. Like what? A detector up in the mountains and measure snowpack. Put it out in the middle of the field and measure soil moisture content. And as you might imagine, there's some really cool applications in, uh, research and agronomy and public policy for this. >>All right, so it's OK, so it's a It's much more than, you know, whatever fighting terrorism, it's there's a riel edge or I kind of i o t application for what you guys >>do. We do both its's to plowshares. You might >>say a mat. I I look at your role is kind of scaling the brain power for for the future. Maybe tell us more about Charlottesville schools and in the mission that you're pursuing and what you do. >>Thank you. Um, I've been in Charlottesville City schools for about 11 or 12 years. I started their teaching, um, a handful of classes, math and science and things like that. But Thescore board and my administration had the crazy idea of starting an engineering program about seven years ago. My background is an engineering is an engineering. My masters is in mechanical and aerospace engineering and um, I basically spent a summer kind of coming up with what might be a fun engineering curriculum for our students. And it started with just me and 30 students about seven years ago, Um, kind of a home spun from scratch curriculum. One of my goals from the outset was to be a completely project based curriculum, and it's now grown. We probably have about six or 700 students, five or six full time teachers. We now have pre engineering going on at the 5th and 6th grade level. I now have students graduating. Uh, you know, graduating after senior year with, like, seven years of engineering under their belt and heading off to doing some pretty cool stuff. So it's It's been a lot of fun building a program and, um, and learning a lot in the process. >>That's awesome. I mean, you know, Cuba's. We've been passionate about things like women in tech, uh, diversity stem. You know, not only do we need more, more students and stem, we need mawr underrepresented women, minorities, etcetera. We were just talking to John Herstek and integrate gration about this is Do you do you feel is though you're I mean, first of all, the work that you do is awesome, but but I'll go one step further. Do you feel as though it's reaching, um, or diverse base? And how is that going? >>That's a great question. I think research shows that a lot of people get funneled into one kind of track or career path or set of interests really early on in their educational career, and sometimes that that funnel is kind of artificial. And so that's one of the reasons we keep pushing back. Um, so our school systems introducing kindergartners to programming on DSO We're trying to push back how we expose students to engineering and to stem fields as early as possible. And we've definitely seen the first of that in my program. In fact, my engineering program, uh, sprung out of an after school in Extracurricular Science Club that actually three girls started at our school. So I think that actually has helped that three girls started the club that eventually is what led to our engineering programs that sort of baked into the DNA and also our eyes a big public school. And we have about 50% of the students are under the poverty line and we e in Charlottesville, which is a big refugee town. And so I've been adamant from Day one that there are no barriers to entry into the program. There's no test you have to take. You don't have to have be taking a certain level of math or anything like that. That's been a lot of fun. To have a really diverse set of kids enter the program and be successful, >>that's final. That's great to hear. So, Philip, I wanna come back to you. You know, I think about maybe some day we'll be able to go back to a sporting events, and I know when I when I'm in there, there's somebody up on the roof looking out for me, you know, watching the crowd, and they have my back. And I think in many ways, the products that you build, you know, our similar. I may not know they're there, but they're keeping us safe or they're measuring things that that that I don't necessarily see. But I wonder if you could talk about a little bit more detail about the products you build and how they're impacting society. >>Sure, so There are certainly a lot of people who are who are watching, trying to make sure things were going well in keeping you safe that you may or may not be aware of. And we try and support ah lot of them. So we have detectors that are that are deployed in a variety of variety of uses, with a number of agencies and governments that dio like I was saying, ports and border crossing some other interesting applications that are looking for looking for signals that should not be there and working closely to fit into the operations these folks do. Onda. We also have a lot of outreach to researchers and scientists trying to help them support the work they're doing. Um, using neutron detection for soil moisture monitoring is a some really cool opportunities for doing it at large scale and with much less, um, expense or complication than would have been done. Previous technologies. Um, you know, they were talking about collaboration in the previous segment. We've been able to join a number of conferences for that, virtually including one that was supposed to be held in Boston, but another one that was held out of the University of Heidelberg in Germany. And, uh, this is sort of things that in some ways, the pandemic is pushing people towards greater collaboration than they would have been able to do. Had it all but in person. >>Yeah, we did. Uh, the cube did live works a couple years ago in Boston. It was awesome show. And I think, you know, with this whole trend toward digit, I call it the Force march to digital. Thanks to cove it I think that's just gonna continue. Thio grow. Rafael. What if you could describe the process that you use to better understand diseases? And what's your organization's involvement? Been in more detail, addressing the cove in pandemic. >>Um, so so we have the bio be structured in, Um um in a way that foster so the combination of technology and science. So we have to scientific tracks, one about infectious diseases and the other one about understanding just basic human biology, how the human body functions, and especially how the cells in the human body function on how they're organized to create tissues in the body. On Ben, it has this set of platforms. Um, mind is one of them by engineering that are all technology rated. So we have data science platform, all about data analysis, machine learning, things like that. Um, we have a mass spectrometry platform is all about mass spectrometry technologies to, um, exploit those ones in service for the scientist on. We have a genomics platform that it's all about sequencing DNA and are gonna, um and then an advanced microscopy. It's all about developing technologies, uh, to look at things with advanced microscopes and developed technologies to marry computation on microscopy. So, um, the scientists set the agenda and the platforms, we just serve their needs, support their needs, and hopefully develop technologies that help them do their experiments better, faster, or allow them to the experiment that they couldn't do in any other way before. Um And so with cove, it because we have that very strong group of scientists that work on have been working on infectious disease before, and especially in viruses, we've been able to very quickly pivot to working on that s O. For example, my team was able to build pretty quickly a machine to automatically purified proteins on is being used to purify all these different important proteins in the cove. It virus the SARS cov to virus Onda. We're sending some of those purified proteins all over the world. Two scientists that are researching the virus and trying to figure out how to develop vaccines, understand how the virus affects the body and all that. Um, so some of the machines we built are having a very direct impact on this. Um, Also for the copy testing lab, we were able to very quickly develop some very simple machines that allowed the lab to function sort of faster and more efficiently. Sort of had a little bit of automation in places where we couldn't find commercial machines that would do it. >>Um, eso Matt. I mean, you gotta be listening to this and thinking about Okay, So someday your students are gonna be working at organizations like like, like Bio Hub and Silver Side. And you know, a lot of young people they're just don't know about you guys, but like my kids, they're really passionate about changing the world. You know, there's way more important than you know, the financial angles and it z e. I gotta believe you're seeing that you're right in the front lines there. >>Really? Um, in fact, when I started the curriculum six or seven years ago, one of the first bits of feedback I got from my students is they said Okay, this is a lot of fun. So I had my students designing projects and programming microcontrollers raspberry, PiS and order we nose and things like that. The first bit of feedback I got from students was they said Okay, when do we get to impact the world? I've heard engineering >>is about >>making the world a better place, and robots are fun and all, but, you know, where is the real impact? And so um, dude, yeah, thanks to the guidance of my students, I'm baking that Maurin. Now I'm like day one of engineering one. We talk about how the things that the tools they're learning and the skills they're gaining, uh, eventually, you know, very soon could be could be used to make the world a better place. >>You know, we all probably heard that famous line by Jeff Hammer Barker. The greatest minds of my generation are trying to figure out how to get people to click on ads. I think we're really generally generationally, finally, at the point where young students and engineering a really, you know, a passionate about affecting society. I wanna get into the product, you know, side and understand how each of you are using on shape and and the value that that it brings. Maybe Raphael, you could start how long you've been using it. You know, what's your experience with it? Let's let's start there. >>I begin for about two years, and I switched to it with some trepidation. You know, I was used to always using the traditional product that you have to install on your computer, that everybody uses that. So I was kind of locked into that. But I started being very frustrated with the way it worked, um, and decided to give on ship chance. Which reputation? Because any change always, you know, causes anxiety. Um, but very quickly my engineers started loving it, Uh, just because it's it's first of all, the learning curve wasn't very difficult at all. You can transfer from one from the traditional product to entree very quickly and easily. You can learn all the concepts very, very fast. It has all the functionality that we needed and and what's best is that it allows to do things that we couldn't do before or we couldn't do easily. Now we can access the our cat documents from anywhere in the world. Um, so when we're in the lab fabricating something or testing a machine, any computer we have next to us or a tablet or on iPhone, we can pull it up and look at the cad and check things or make changes. That's something that couldn't do before because before you had to pay for every installation off the software for the computer, and I couldn't afford to have 20 installations to have some computers with the cat ready to use them like once every six months would have been very inefficient. So we love that part. And the collaboration features are fantastic, especially now with Kobe, that we have to have all the remote meetings eyes fantastic, that you can have another person drive the cad while the whole team is watching that person change the model and do things and point to things that is absolutely revolutionary. We love it. The fact that you have very, very sophisticated version control before it was always a challenge asking people, please, if you create anniversary and apart, how do we name it so that people find it? And then you end up with all these collection of files with names that nobody ever remembers, what they are, the person left. And now nobody knows which version is the right one. A mess with on shape on the version ING system it has, and the fact that you can go back in history off the document and go back to previous version so easily and then go back to the press and version and explore the history of the part that is truly, um, just world changing for us, that we can do that so easily on for me as a manager to manage this collection of information that is critical for our operations. It makes it so much easier because everything is in one place. I don't have to worry about file servers that go down that I have to administer that have to have I t taken care off that have to figure how to keep access to people to those servers when they're at home, and they need a virtual private network and all of that mess disappears. I just simply give give a person in accounting on shape and then magically, they have access to everything in the way I want. And we can manage the lower documents and everything in a way that is absolutely fantastic. >>Feel what was your what? What were some of the concerns you had mentioned? You had some trepidation. Was it a performance? Was it security? You know some of the traditional cloud stuff, and I'm curious as to how, How, whether any of those act manifested really that you had to manage. What were your concerns? >>Look, the main concern is how long is it going to take for everybody in the team to learn to use the system like it and buy into it? Because I don't want to have my engineers using tools against their will write. I want everybody to be happy because that's how they're productive. They're happy, and they enjoyed the tools they have. That was my main concern. I was a little bit worried about the whole concept of not having the files in a place where I couldn't quote unquote seat in some server and on site, but that That's kind of an outdated concept, right? So that took a little bit of a mind shift, but very quickly. Then I started thinking, Look, I have a lot of documents on Google Drive. Like, I don't worry about that. Why would I worry about my cat on on shape, right? Is the same thing. So I just needed to sort of put things in perspective that way. Um, the other, um, you know, the concern was the learning curve, right? Is like, how is he Will be for everybody to and for me to learn it on whether it had all of the features that we needed. And there were a few features that I actually discussed with, um uh, Cody at on shape on, they were actually awesome about using their scripting language in on shape to sort of mimic some of the features of the old cat, uh, in on, shaped in a way that actually works even better than the old system. So it was It was amazing. Yeah, >>Great. Thank you for that, Philip. What's your experience been? Maybe you could take us through your journey within shape. >>Sure. So we've been we've been using on shaped silver side for coming up on about four years now, and we love it. We're very happy with it. We have a very modular product line, so we make anything from detectors that would go into backpacks. Two vehicles, two very large things that a shipping container would go through and saw. Excuse me. Shape helps us to track and collaborate faster on the design. Have multiple people working a same time on a project. And it also helps us to figure out if somebody else comes to us and say, Hey, I want something new how we congrats modules from things that we already have put them together and then keep track of the design development and the different branches and ideas that we have, how they all fit together. A za design comes together, and it's just been fantastic from a mechanical engineering background. I will also say that having used a number of different systems and solid works was the greatest thing since sliced bread. Before I got using on shape, I went, Wow, this is amazing and I really don't want to design in any other platform. After after getting on Lee, a little bit familiar with it. >>You know, it's funny, right? I'll have the speed of technology progression. I was explaining to some young guns the other day how I used to have a daytime er and that was my life. And if I lost that daytime, er I was dead. And I don't know how we weigh existed without, you know, Google maps eso we get anywhere, I don't know, but, uh but so So, Matt, you know, it's interesting to think about, you know, some of the concerns that Raphael brought up, you hear? For instance, you know, all the time. Wow. You know, I get my Amazon bill at the end of the month that zip through the roof in, But the reality is that Yeah, well, maybe you are doing more, but you're doing things that you couldn't have done before. And I think about your experience in teaching and educating. I mean, you so much more limited in terms of the resource is that you would have had to be able to educate people. So what's your experience been with With on shape and what is it enabled? >>Um, yeah, it was actually talking before we went with on shape. We had a previous CAD program, and I was talking to my vendor about it, and he let me know that we were actually one of the biggest CAD shops in the state. Because if you think about it a really big program, you know, really big company might employ. 5, 10, 15, 20 cad guys, right? I mean, when I worked for a large defense contractor, I think there were probably 20 of us as the cad guys. I now have about 300 students doing cat. So there's probably more students with more hours of cat under their belt in my building than there were when I worked for the big defense contractor. Um, but like you mentioned, uh, probably our biggest hurdle is just re sources. And so we want We want one of things I've always prided myself and trying to do in this. Programs provide students with access two tools and skills that they're going to see either in college or in the real world. So it's one of the reason we went with a big professional cad program. There are, you know, sort of K 12 oriented software and programs and things. But, you know, I want my kids coding and python and using slack and using professional type of tools on DSO when it comes to cat. That's just that That was a really hurt. I mean, you know, you could spend $30,000 on one seat of, you know, professional level cad program, and then you need a $30,000 computer to run it on if you're doing a heavy assemblies, Um and so one of my dreams And it was always just a crazy dream. And I was the way I would always pitcher in my school system and say, someday I'm gonna have a kid on a school issued chromebook in subsidized housing, on public WiFi doing professional level bad and that that was a crazy statement until a couple of years ago. So we're really excited that I literally and you know, March and you said the forced march, the forced march into, you know, modernity, March 13th kids sitting in my engineering lab that we spent a lot of money on doing cad March 14th. Those kids were at home on their school issued chromebooks on public WiFi, uh, keeping their designs going and collaborating. And then, yeah, I could go on and on about some of the things you know, the features that we've learned since then they're even better. So it's not like this is some inferior, diminished version of Academy. There's so much about it. Well, I >>wanna I wanna ask you that I may be over my skis on this, but we're seeing we're starting to see the early days of the democratization of CAD and product design. It is the the citizen engineer, I mean, maybe insulting to the engineers in the room, But but is that we're beginning to see that >>I have to believe that everything moves into the cloud. Part of that is democratization that I don't need. I can whether you know, I think artists, you know, I could have a music studio in my basement with a nice enough software package. And Aiken, I could be a professional for now. My wife's a photographer. I'm not allowed to say that I could be a professional photographer with, you know, some cloud based software, and so, yeah, I do think that's part of what we're seeing is more and more technology is moving to the cloud. >>Philip. Rafael Anything you Dad, >>I think I mean, yeah, that that that combination of cloud based cat and then three d printing that is becoming more and more affordable on ubiquitous It's truly transformative, and I think for education is fantastic. I wish when I was a kid I had the opportunity to play with those kinds of things because I was always the late things. But, you know, the in a very primitive way. So, um, I think this is a dream for kids. Teoh be able to do this. And, um, yeah, there's so many other technologies coming on, like Arduino on all of these electronic things that live kids play at home very cheaply with things that back in my day would have been unthinkable. >>So we know there's a go ahead. Philip, please. >>We had a pandemic and silver site moved to a new manufacturing facility this year. I was just on the shop floor, talking with contractors, standing 6 ft apart, pointing at things. But through it all, our CAD system was completely unruffled. Nothing stopped in our development work. Nothing stopped in our support for existing systems in the field. We didn't have to think about it. We had other server issues, but none with our, you know, engineering cad, platform and product development in support world right ahead, which was cool, but also a in that's point. I think it's just really cool what you're doing with the kids. The most interesting secondary and college level engineering work that I did was project based, taken important problem to the world. Go solve it and that is what we do here. That is what my entire career has been. And I'm super excited to see. See what your students are going to be doing, uh, in there home classrooms on their chromebooks now and what they do building on that. >>Yeah, I'm super excited to see your kids coming out of college with engineering degrees because, yeah, I think that Project based experience is so much better than just sitting in a classroom, taking notes and doing math problems on day. I think it will give the kids a much better flavor. What engineering is really about Think a lot of kids get turned off by engineering because they think it's kind of dry because it's just about the math for some very abstract abstract concept on they are there. But I think the most important thing is just that hands on a building and the creativity off, making things that you can touch that you can see that you can see functioning. >>Great. So, you know, we all know the relentless pace of technology progression. So when you think about when you're sitting down with the folks that on shape and there the customer advisor for one of the things that that you want on shape to do that it doesn't do today >>I could start by saying, I just love some of the things that does do because it's such a modern platform. And I think some of these, uh, some some platforms that have a lot of legacy and a lot of history behind them. I think we're dragging some of that behind them. So it's cool to see a platform that seemed to be developed in the modern era, and so that Z it is the Google docks. And so the fact that collaboration and version ing and link sharing is and like platform agnostic abilities, the fact that that seems to be just built into the nature of the thing so far, That's super exciting. As far as things that, uh, to go from there, Um, I don't know, >>Other than price. >>You can't say >>I >>can't say lower price. >>Yeah, so far on P. D. C. S that work with us. Really? Well, so I'm not complaining. There you there, >>right? Yeah. Yeah. No gaps, guys. Whitespace, Come on. >>We've been really enjoying the three week update. Cadence. You know, there's a new version every three weeks and we don't have to install it. We just get all the latest and greatest goodies. One of the trends that we've been following and enjoying is the the help with a revision management and release work flows. Um, and I know that there's more than on shape is working on that we're very excited for, because that's a big important part about making real hardware and supporting it in the field. Something that was cool. They just integrated Cem markup capability. In the last release that took, we were doing that anyway, but we were doing it outside of on shapes. And now we get to streamline our workflow and put it in the CAD system where We're making those changes anyway when we're reviewing drawings and doing this kind of collaboration. And so I think from our perspective, we continue to look forward. Toa further progress on that. There's a lot of capability in the cloud that I think they're just kind of scratching the surface on you, >>right? I would. I mean, you're you're asking to knit. Pick. I would say one of the things that I would like to see is is faster regeneration speed. There are a few times with convicts, necessities that regenerating the document takes a little longer than I would like. It's not a serious issue, but anyway, I I'm being spoiled, >>you know? That's good. I've been doing this a long time, and I like toe ask that question of practitioners and to me, it It's a signal like when you're nit picking and that's what you're struggling to knit. Pick that to me is a sign of a successful product, and and I wonder, I don't know, uh, have the deep dive into the architecture. But are things like alternative processors. You're seeing them hit the market in a big way. Uh, you know, maybe helping address the challenge, But I'm gonna ask you the big, chewy question now. Then we maybe go to some audience questions when you think about the world's biggest problems. I mean, we're global pandemics, obviously top of mind. You think about nutrition, you know, feeding the global community. We've actually done a pretty good job of that. But it's not necessarily with the greatest nutrition, climate change, alternative energy, the economic divides. You've got geopolitical threats and social unrest. Health care is a continuing problem. What's your vision for changing the world and how product innovation for good and be applied to some of the the problems that that you all are passionate about? Big question. Who wants toe start? >>Not biased. But for years I've been saying that if you want to solve the economy, the environment, uh, global unrest, pandemics, education is the case. If you wanna. If you want to, um, make progress in those in those realms, I think funding funding education is probably gonna pay off pretty well. >>Absolutely. And I think Stam is key to that. I mean, all of the ah lot of the well being that we have today and then industrialized countries. Thanks to science and technology, right improvements in health care, improvements in communication, transportation, air conditioning. Um, every aspect of life is touched by science and technology. So I think having more kids studying and understanding that is absolutely key. Yeah, I agree, >>Philip, you got anything to add? >>I think there's some big technical problems in the world today, Raphael and ourselves there certainly working on a couple of them. Think they're also collaboration problems and getting everybody to be able to pull together instead of pulling separately and to be able to spur the ideas on words. So that's where I think the education side is really exciting. What Matt is doing and it just kind of collaboration in general when we could do provide tools to help people do good work. Uh, that is, I think, valuable. >>Yeah, I think that's a very good point. And along those lines, we have some projects that are about creating very low cost instruments for low research settings, places in Africa, Southeast Asia, South America, so that they can do, um, um, biomedical research that it's difficult to do in those place because they don't have the money to buy the fancy lab machines that cost $30,000 an hour. Um, so we're trying to sort of democratize some of those instruments. And I think thanks to tools like Kahn shape then is easier, for example, to have a conversation with somebody in Africa and show them the design that we have and discuss the details of it with them on. But it's amazing, right to have somebody, you know, 10 time zones away, Um, looking really life in real time with you about your design and discussing the details or teaching them how to build a machine, right? Because, um, you know, they have a three D printer. You can you can just give them the design and say like, you build it yourself, uh, even cheaper than and, you know, also billing and shipping it there. Um, so all that that that aspect of it is also super important. I think for any of these efforts to improve some of the hardest part was in the world for climate change. Do you say, as you say, poverty, nutrition issues? Um, you know, availability of water. You have that project at about finding water. Um, if we can also help deploy technologies that teach people remotely how to create their own technologies or how to build their own systems that will help them solve those forms locally. I think that's very powerful. >>Yeah, the point about education is right on. I think some people in the audience may be familiar with the work of Erik Brynjolfsson and Andrew McAfee, the second machine age where they sort of put forth the premise that, uh, is it laid it out. Look, for the first time in history, machines air replacing humans from a cognitive perspective. Machines have always replaced humans, but that's gonna have an impact on jobs. But the answer is not toe protect the past from the future. The answer is education and public policy that really supports that. So I couldn't agree more. I think it's a really great point. Um, we have We do have some questions from the audience. If if we could If I can ask you guys, um, you know, this one kind of stands out. How do you see artificial intelligence? I was just talking about machine intelligence. Um, how do you see that? Impacting the design space guys trying to infuse a I into your product development. Can you tell me? >>Um, absolutely, like, we're using AI for some things, including some of these very low cost instruments that will hopefully help us diagnose certain diseases, especially this is that are very prevalent in the Third World. Um, and some of those diagnostics are these days done by thes armies of technicians that are trained to look under the microscope. But, um, that's a very slow process. Is very error prone and having machine learning systems that can to the same diagnosis faster, cheaper and also little machines that can be taken to very remote places to these villages that have no access to a fancy microscope. To look at a sample from a patient that's very powerful. And I we don't do this, but I have read quite a bit about how certain places air using a Tribune attorneys to actually help them optimize designs for parts. So you get these very interesting looking parts that you would have never thought off a person would have never thought off, but that are incredibly light ink. Earlier, strong and I have all sort of properties that are interesting thanks to artificial intelligence machine learning in particular >>yet another. The advantage you get when when your work is in the cloud I've seen. I mean, there's just so many applications that so if the radiology scan is in the cloud and the radiologist is goes to bed at night, Radiologist could come in in the morning and and say, Oh, the machine while you were sleeping was using artificial intelligence to scan these 40,000 images. And here's the five that we picked out that we think you should take a closer look at. Or like Raphael said, I can design my part. My, my, my, my, my you know, mount or bracket or whatever and go to sleep. And then I wake up in the morning. The machine has improved. It for me has made it strider strider stronger and lighter. Um And so just when your when your work is in the cloud, that's just that's a really cool advantage that you get that you can have machines doing some of your design work for you. >>Yeah, we've been watching, uh, you know, this week is this month, I guess is AWS re invent and it's just amazing to see how much effort is coming around machine learning machine intelligence. You know Amazon has sage maker Google's got, you know, embedded you no ML and big query. Uh, certainly Microsoft with Azure is doing tons of stuff and machine learning. I think the point there is that that these things will be infused in tow R and D and in tow software product by the vendor community. And you all will apply that to your business and and build value through the unique data that your collecting, you know, in your ecosystems. And and that's how you add value. You don't have to be necessarily, you know, developers of artificial intelligence, but you have to be practitioners to apply that. Does that make sense to you, Philip? >>Yeah, absolutely. And I think your point about value is really well chosen. We see AI involved from the physics simulations all the way up to interpreting radiation data, and that's where the value question, I think, is really important because it's is the output of the AI giving helpful information that the people that need to be looking at it. So if it's curating a serious of radiation alert, saying, Hey, like these air the anomalies. You need to look at eyes it, doing that in a way that's going to help a good response on. In some cases, the II is only as good as the people. That sort of gave it a direction and turn it loose. And you want to make sure that you don't have biases or things like that underlying your AI that they're going to result in less than helpful outcomes coming from it. So we spend quite a lot of time thinking about how do we provide the right outcomes to people who are who are relying on our systems? >>That's a great point, right? Humans air biased and humans build models, so models are inherently biased. But then the software is hitting the market. That's gonna help us identify those biases and help us, you know? Of course. Correct. So we're entering Cem some very exciting times, guys. Great conversation. I can't thank you enough for spending the time with us and sharing with our audience the innovations that you're bringing to help the world. So thanks again. >>Thank you so much. >>Thank you. >>Okay. Welcome. Okay. When we come back, John McElheny is gonna join me. He's on shape. Co founder. And he's currently the VP of strategy at PTC. He's gonna join the program. We're gonna take a look at what's next and product innovation. I'm Dave Volonte and you're watching innovation for good on the Cube, the global leader. Digital technology event coverage. We'll be right back. >>Okay? Okay. Yeah. Okay. >>From around >>the globe, it's the Cube. Presenting innovation for good. Brought to you by on shape. >>Okay, welcome back to innovation. For good. With me is John McElheny, who is one of the co founders of On Shape and is now the VP of strategy at PTC. John, it's good to see you. Thanks for making the time to come on the program. Thanks, Dave. So we heard earlier some of the accomplishments that you've made since the acquisition. How has the acquisition affected your strategy? Maybe you could talk about what resource is PTC brought to the table that allowed you toe sort of rethink or evolve your strategy? What can you share with us? >>Sure. You know, a year ago, when when John and myself met with Jim Pepperman early on is we're we're pondering. Started joining PTC one of things became very clear is that we had a very clear shared vision about how we could take the on shape platform and really extended for, for all of the PTC products, particular sort of their augmented reality as well as their their thing works or the i o. T business and their product. And so from the very beginning there was a clear strategy about taking on shape, extending the platform and really investing, um, pretty significantly in the product development as well as go to market side of things, uh, toe to bring on shape out to not only the PTC based but sort of the broader community at large. So So So PTC has been a terrific, terrific, um, sort of partner as we've we've gonna go on after this market together. Eso We've added a lot of resource and product development side of things. Ah, lot of resource and they go to market and customer success and support. So, really, on many fronts, that's been both. Resource is as well a sort of support at the corporate level from from a strategic standpoint and then in the field, we've had wonderful interactions with many large enterprise customers as well as the PTC channels. So it's been really a great a great year. >>Well, and you think about the challenges of in your business going to SAS, which you guys, you know, took on that journey. You know, 78 years ago. Uh, it's not trivial for a lot of companies to make that transition, especially a company that's been around as long as PTC. So So I'm wondering how much you know, I was just asking you How about what PCP TC brought to the table? E gotta believe you're bringing a lot to the table to in terms of the mindset, uh, even things is, is mundane is not the right word, but things like how you compensate salespeople, how you interact with customers, the notion of a service versus a product. I wonder if you could address >>that. Yeah, it's a it's a really great point. In fact, after we had met Jim last year, John and I one of the things we walked out in the seaport area in Boston, one of things we sort of said is, you know, Jim really gets what we're trying to do here and and part of let me bring you into the thinking early on. Part of what Jim talked about is there's lots of, you know, installed base sort of software that's inside of PTC base. That's helped literally thousands of customers around the world. But the idea of moving to sass and all that it entails both from a technology standpoint but also a cultural standpoint. Like How do you not not just compensate the sales people as an example? But how do you think about customer success? In the past, it might have been that you had professional services that you bring out to a customer, help them deploy your solutions. Well, when you're thinking about a SAS based offering, it's really critical that you get customers successful with it. Otherwise, you may have turned, and you know it will be very expensive in terms of your business long term. So you've got to get customers success with software in the very beginning. So you know, Jim really looked at on shape and he said that John and I, from a cultural standpoint, you know, a lot of times companies get acquired and they've acquired technology in the past that they integrate directly into into PTC and then sort of roll it out through their products, are there just reached channel, he said. In some respects, John John, think about it as we're gonna take PTC and we want to integrate it into on shape because we want you to share with us both on the sales side and customer success on marketing on operations. You know all the things because long term, we believe the world is a SAS world, that the whole industry is gonna move too. So really, it was sort of an inverse in terms of the thought process related to normal transactions >>on That makes a lot of sense to me. You mentioned Sharon turns the silent killer of a SAS company, and you know, there's a lot of discussion, you know, in the entrepreneurial community because you live this, you know what's the best path? I mean today, You see, you know, if you watch Silicon Valley double, double, triple triple, but but there's a lot of people who believe, and I wonder, if you come in there is the best path to, you know, in the X Y axis. If if it's if it's uh, growth on one and retention on the other axis. What's the best way to get to the upper right on? Really? The the best path is probably make sure you've nailed obviously the product market fit, But make sure that you can retain customers and then throw gas on the fire. You see a lot of companies they burn out trying to grow too fast, but they haven't figured out, you know that. But there's too much churn. They haven't figured out those metrics. I mean, obviously on shape. You know, you were sort of a pioneer in here. I gotta believe you've figured out that customer retention before you really, You know, put the pedal to the >>metal. Yeah, and you know, growth growth can mask a lot of things, but getting getting customers, especially the engineering space. Nobody goes and sits there and says, Tomorrow we're gonna go and and, you know, put 100 users on this and and immediately swap out all of our existing tools. These tools are very rich and deep in terms of capability, and they become part of the operational process of how a company designs and builds products. So any time anybody is actually going through the purchasing process. Typically, they will run a try along or they'll run a project where they look at. Kind of What? What is this new solution gonna help them dio. How are we gonna orient ourselves for success? Longer term. So for us, you know, getting new customers and customer acquisition is really critical. But getting those customers to actually deploy the solution to be successful with it. You know, we like to sort of, say, the marketing or the lead generation and even some of the initial sales. That's sort of like the Kindle ing. But the fire really starts when customers deploy it and get successful. The solution because they bring other customers into the fold. And then, of course, if they're successful with it, you know, then in fact, you have negative turn which, ironically, means growth in terms of your inside of your install. Bates. >>Right? And you've seen that with some of the emerging, you know, SAS companies, where you're you're actually you know, when you calculate whatever its net retention or renew ALS, it's actually from a dollar standpoint. It's up in the high nineties or even over 100%. >>So >>and that's a trend we're gonna continue. See, I >>wonder >>if we could sort of go back. Uh, and when you guys were starting on shape, some of the things that you saw that you were trying to strategically leverage and what's changed, you know, today we were talking. I was talking to John earlier about in a way, you kinda you kinda got a blank slate is like doing another startup. >>You're >>not. Obviously you've got installed base and customers to service, but But it's a new beginning for you guys. So one of the things that you saw then you know, cloud and and sas and okay, but that's we've been there, done that. What are you seeing? You know today? >>Well, you know, So So this is a journey, of course, that that on shape on its own has gone through it had I'll sort of say, you know, several iterations, both in terms of of of, you know, how do you How do you get customers? How do you How do you get them successful? How do you grow those customers? And now that we've been part of PTC, the question becomes okay. One, There is certainly a higher level of credibility that helps us in terms of our our megaphone is much bigger than it was when we're standalone company. But on top of that now, figuring out how to work with their channel with their direct sales force, you know, they have, um, for example, you know, very large enterprises. Well, many of those customers are not gonna go in forklift out their existing solution to replace it with with on shape. However, many of them do have challenges in their supply chain and communications with contractors and vendors across the globe. And so, you know, finding our fit inside of those large enterprises as they extend out with their their customers is a very interesting area that we've really been sort of incremental to to PTC. And then, you know, they they have access to lots of other technology, like the i o. T business. And now, of course, the augmented reality business that that we can bring things to bear. For example, in the augmented reality world, they've they've got something called expert capture. And this is essentially imagine, you know, in a are ah, headset that allows you to be ableto to speak to it, but also capture images still images in video. And you could take somebody who's doing their task and capture literally the steps that they're taking its geo location and from their builds steps for new employees to be, we'll learn and understand how todo use that technology to help them do their job better. Well, when they do that, if there is replacement products or variation of of some of the tools that that they built the original design instruction set for they now have another version. Well, they have to manage multiple versions. Well, that's what on shape is really great at doing and so taking our technology and helping their solutions as well. So it's not only expanding our customer footprint, it's expanding the application footprint in terms of how we can help them and help customers. >>So that leads me to the tam discussion and again, as part of your strategist role. How do you think about that? Was just talking to some of your customers earlier about the democratization of cat and engineering? You know, I kind of joked, sort of like citizen engineering, but but so that you know, the demographics are changing the number of users potentially that can access the products because the it's so much more of a facile experience. How are you thinking about the total available market? >>It really is a great question, You know, it used to be when you when you sold boxes of software, it was how many engineers were out there. And that's the size of the market. The fact that matter is now when, When you think about access to that information, that data is simply a pane of glass. Whether it's a computer, whether it's a laptop, UH, a a cell phone or whether it's a tablet, the ability to to use different vehicles, access information and data expands the capabilities and power of a system to allow feedback and iteration. I mean, one of the one of the very interesting things is in technology is when you can take something and really unleash it to a larger audience and builds, you know, purpose built applications. You can start to iterate, get better feedback. You know there's a classic case in the clothing industry where Zara, you know, is a fast sort of turnaround. Agile manufacturer. And there was a great New York Times article written a couple years ago. My wife's a fan of Zara, and I think she justifies any purchases by saying, You know, Zara, you gotta purchase it now. Otherwise it may not be there the next time. Yet you go back to the store. They had some people in a store in New York that had this woman's throw kind of covering Shaw. And they said, Well, it would be great if we could have this little clip here so we can hook it through or something. And they sent a note back toe to the factory in Spain, and literally two weeks later they had, you know, 4000 of these things in store, and they sold out because they had a closed loop and iterative process. And so if we could take information and allow people access in multiple ways through different devices and different screens, that could be very specific information that, you know, we remove a lot of the engineering data book, bring the end user products conceptually to somebody that would have had to wait months to get the actual physical prototype, and we could get feedback well, Weaken have a better chance of making sure whatever product we're building is the right product when it ultimately gets delivered to a customer. So it's really it's a much larger market that has to be thought of rather than just the kind of selling A boxes software to an engineer. >>That's a great story. And again, it's gonna be exciting for you guys to see that with. The added resource is that you have a PTC, Um, so let's talk. I promise people we wanna talk about Atlas. Let's talk about the platform. A little bit of Atlas was announced last year. Atlas. For those who don't know it's a SAS space platform, it purports to go beyond product lifecycle management and you You're talking cloud like agility and scale to CAD and product design. But John, you could do a better job than I. What do >>we need to know about Atlas? Well, I think Atlas is a great description because it really is metaphorically sort of holding up all of the PTC applications themselves. But from the very beginning, when John and I met with Jim, part of what we were intrigued about was that he shared a vision that on shape was more than just going to be a cad authoring tool that, in fact, you know, in the past these engineering tools were very powerful, but they were very narrow in their purpose and focus. And we had specialty applications to manage the versions, etcetera. What we did in on shape is we kind of inverted that thinking. We built this collaboration and sharing engine at the core and then kind of wrap the CAD system around it. But that collaboration sharing and version ING engine is really powerful. And it was that vision that Jim had that he shared that we had from the beginning, which was, how do we take this thing to make a platform that could be used for many other applications inside of inside of any company? And so not only do we have a partner application area that is is much like the APP store or Google play store. Uh, that was sort of our first Stan Shih ation of this. This this platform. But now we're extending out to broader applications and much meatier applications. And internally, that's the thing works in the in the augmented reality. But there'll be other applications that ultimately find its way on top of this platform. And so they'll get all the benefits of of the collaboration, sharing the version ing the multi platform, multi device. And that's an extremely extremely, um, strategic leverage point for the company. >>You know, it's interesting, John, you mentioned the seaport before. So PTC, for those who don't know, built a beautiful facility down at the Seaport in Boston. And, of course, when PTC started, you know, back in the mid 19 eighties, there was nothing at the seaport s. >>So it's >>kind of kind of ironic, you know, we were way seeing the transformation of the seaport. We're seeing the transformation of industry and of course, PTC. And I'm sure someday you'll get back into that beautiful office, you know? Wait. Yeah, I'll bet. And, uh and but I wanna bring this up because I want I want you to talk about the future. How you how you see that our industry and you've observed this has moved from very product centric, uh, plat platform centric with sass and cloud. And now we're seeing ecosystems form around those products and platforms and data flowing through the ecosystem powering, you know, new innovation. I wonder if you could paint a picture for us of what the future looks like to you from your vantage point. >>Yeah, I think one of the key words you said there is data because up until now, data for companies really was sort of trapped in different applications. And it wasn't because people were nefarious and they want to keep it limited. It was just the way in which things were built. And, you know, when people use an application like on shape, what ends up happening is there their day to day interaction and everything that they do is actually captured by the platform. And, you know, we don't have access to that data. Of course it's it's the customer's data. But as as an artifact of them using the system than doing their day to day job, what's happening is they're creating huge amounts of information that can then be accessed and analyzed to help them both improve their design process, improve their efficiencies, improve their actual schedules in terms of making sure they can hit delivery times and be able to understand where there might be roadblocks in the future. So the way I see it is companies now are deploying SAS based tools like on shape and an artifact of them. Using that platform is that they have now analytics and tools to better understand and an instrument and manage their business. And then from there, I think you're going to see, because these systems are all you know extremely well. Architected allow through, you know, very structured AP. I calls to connect other SAS based applications. You're gonna start seeing closed loop sort of system. So, for example, people design using on shape, they end up going and deploying their system or installing it, or people use the end using products. People then may call back into the customers support line and report issues, problems, challenges. They'll be able to do traceability back to the underlying design. They'll be able to do trend analysis and defect analysis from the support lines and tie it back and closed loop the product design, manufacture, deployment in the field sort of cycles. In addition, you can imagine there's many things that air sort of as designed. But then when people go on site and they have to install it. There's some alterations modifications. Think about think about like a large air conditioning units for buildings. You go and you go to train and you get a large air conditioning unit that put up on top of building with a crane. They have to build all kinds of adaptors to make sure that that will fit inside of the particulars of that building. You know, with on shape and tools like this, you'll be able to not only take the design of what the air conditioning system might be, but also the all the adapter plates, but also how they installed it. So it sort of as designed as manufactured as stalled. And all these things can be traced, just like if you think about the transformation of customer service or customer contacts. In the early days, you used to have tools that were PC based tools called contact management solution, you know, kind of act or gold mine. And these were basically glorified Elektronik role in Texas. It had a customer names and they had phone numbers and whatever else. And Salesforce and Siebel, you know, these types of systems really broadened out the perspective of what a customer relationship? Waas. So it wasn't just the contact information it was, you know, How did they come to find out about you as a company? So all of the pre sort of marketing and then kind of what happens after they become a customer and it really was a 3 60 view. I think that 3 60 view gets extended to not just to the customers, but also tools and the products they use. And then, of course, the performance information that could come back to the manufacturer. So, you know, as an engineer, one of the things you learn about with systems is the following. And if you remember, when the CD first came out CDs that used to talk about four times over sampling or eight times over sampling and it was really kind of, you know, the fidelity the system. And we know from systems theory that the best way to improve the performance of a system is to actually have more feedback. The more feedback you have, the better system could be. And so that's why you get 16 60 for example, etcetera. Same thing here. The more feedback we have of different parts of a company that a better performance, The company will be better customer relationships. Better, uh, overall financial performance as well. So that's that's the view I have of how these systems all tied together. >>It's a great vision in your point about the data is I think right on. It used to be so fragmented in silos, and in order to take a system view, you've gotta have a system view of the data. Now, for years, we've optimized maybe on one little component of the system and that sometimes we lose sight of the overall outcome. And so what you just described, I think is, I think sets up. You know very well as we exit. Hopefully soon we exit this this covert era on John. I hope that you and I can sit down face to face at a PTC on shape event in the near term >>in the seaport in the >>seaport would tell you that great facility toe have have an event for sure. It >>z wonderful >>there. So So John McElhinney. Thanks so much for for participating in the program. It was really great to have you on, >>right? Thanks, Dave. >>Okay. And I want to thank everyone for participating. Today we have some great guest speakers. And remember, this is a live program. So give us a little bit of time. We're gonna flip this site over toe on demand mode so you can share it with your colleagues and you, or you can come back and and watch the sessions that you heard today. Uh, this is Dave Volonte for the Cube and on shape PTC. Thank you so much for watching innovation for good. Be well, Have a great holiday. And we'll see you next time. Yeah.

from around the globe it's thecube covering space and cyber security symposium 2020 hosted by cal poly hello everyone welcome to the space and cyber security symposium 2020 hosted by cal poly where the intersection of space and security are coming together i'm john furrier your host with thecube here in california i want to welcome our featured guest lieutenant general john f thompson with the united states space force approach to cyber security that's the topic of this session and of course he's the commander of the space and missile system center in los angeles air force base also heading up space force general thank you for coming on really appreciate you kicking this off welcome to the symposium hey so uh thank you very much john for that very kind introduction also uh very much thank you to cal poly uh for this opportunity to speak to this audience today also a special shout out to one of the organizers uh dustin brun for all of his work uh helping uh get us uh to this point uh ladies and gentlemen as uh as uh john mentioned uh i'm jt thompson uh i lead the 6 000 men and women of the united states space forces space and missile system center which is headquartered here at los angeles air force base in el segundo if you're not quite sure where that's at it's about a mile and a half from lax this is our main operating location but we do have a number of other operating locations around the country with about 500 people at kirtland air force base in albuquerque new mexico uh and about another 500 people on the front range of the rockies uh between colorado springs and uh and denver plus a smattering of other much smaller operating locations nationwide uh we're responsible for uh acquiring developing and sustaining the united states space force's critical space assets that includes the satellites in the space layer and also on the ground layer our ground segments to operate those satellites and we also are in charge of procuring launch services for the u.s space force and a number of our critical mission partners across the uh department of defense and the intelligence community um just as a couple of examples of some of the things we do if you're unfamiliar with our work we developed and currently sustained the 31 satellite gps constellation that satellite constellation while originally intended to help with global navigation those gps signals have provided trillions of dollars in unanticipated value to the global economy uh over the past three decades i mean gps is everywhere i think everybody realizes that agriculture banking the stock market the airline industry uh separate and distinct navigation systems it's really pervasive across both the capabilities for our department of defense and capabilities for our economy and and individuals billions of individuals across our country and the planet some of the other work we do for instance in the communications sector uh secure communications satellites that we design and build that link america's sons and daughters serving in the military around the world and really enable real-time support and comms for our deployed forces and those of our allies we also acquire uh infrared missile warning satellites uh that monitor the planet for missile launches and provide advanced warning uh to the u.s homeland and to our allies uh in case some of those missile launches are uh nefarious um on a note that's probably a lot closer to home maybe a lot closer to home than many of us want to think about here in the state of california in 2018 smc jumped through a bunch of red tape and bureaucracy uh to partner with the u.s forest service during the two of the largest wildfires in the state's history the camp and woolsey fires in northern california as those fires spread out of control we created processes on the fly to share data from our missile warning satellites those are satellites that are systems that are purpose built to see heat sources from thousands of miles above the planet and we collaborated with the us forest service so that firefighters on the ground uh could track those fires more in real time and better forecast fires and where they were spreading thereby saving lives and and property by identifying hot spots and flare-ups for firefighters that data that we were able to working with our contractors pass to the u.s forest service and authorities here in california was passed in less than an hour as it was collected to get it into the hands of the emergency responders the first responders as quickly as possible and doing that in an hour greatly surpassed what was available from some of the other assets in the airborne and ground-based fire spotters it was really instrumental in fighting those fires and stopping their spread we've continued uh that involvement in recent years using multiple systems to support firefighters across the western u.s this fall as they battled numerous wildfires that unfortunately continue working together with the u.s forest service and with other partners uh we like to make uh we like to think that we made a difference here but there's still a lot more work to go and i think that we should always be asking ourselves uh what else can space data be used for and how can we more rapidly get that space data to uh stakeholders so that they can use it for for purposes of good if you will how else can we protect our nation how else can we protect our friends and allies um i think a major component of the of the discussion that we will have throughout this conference is that the space landscape has changed rapidly and continues to change rapidly um just over the past few years uh john and i were talking before we went live here and 80 nations now have uh space programs 80 nearly 80 space faring nations on the planet um if you just look at one mission area that uh the department of defense is interested in and that's small launch there are currently over a hundred different small launch companies uh within the u.s industrial base vying for commercial dod and civil uh payload capabilities uh mostly to low earth orbit it's it's just truly a remarkable time if you factor in those things like artificial intelligence and machine learning um where we're revolutionary revolutionizing really uh the ways that we generate process and use data i mean it's really remarkable in 2016 so if you think about this four years ago uh nasa estimated that there were 28 terabytes of information transiting their space network each day and that was four years ago um uh obviously we've got a lot of desire to work with a lot of the people in the audience of this congress or in this conference uh we need to work with big thinkers like many of you to answer questions on how best we apply data analytics to extract value and meaning from that data we need new generations of thinkers to help apply cutting edge edge theories of data mining cyber behaviorism and internet of things 2.0 it's just truly a remarkable time uh to be in the space business and the cyber aspects of the states of the space business are truly truly daunting and important to uh to all of us um integrating cyber security into our space systems both commercial and government is a mandate um it's no longer just a nice to have as the us space force and department of the air force leadership has said many times over the past couple of years space is becoming congested and contested and that contested aspect means that we've got to focus on cyber security uh in the same way that the banking industry and cyber commerce focus on uh cyber security day in and day out the value of the data and services provided is really directly tied to the integrity and availability of that data and services from the space layer from the ground control segments associated with it and this value is not just military it's also economic and it's not just american it's also a value for the entire world particularly particularly our allies as we all depend upon space and space systems your neighbors and friends here in california that are employed at the space and missile system center uh work with network defenders we work with our commercial contractors and our systems developers um our international allies and partners to try and build as secure and resilient systems as we can from the ground up that keep the global commons of space free and open for exploration and for commerce um as john and i were talking earlier before we came online there's an aspect of cyber security for space systems especially for some of our legacy systems that's more how do we bolt this on because we fielded those space systems a number of years ago and the the challenges of cyber security in the space domain have grown so we have a part that we have to worry about bolting it on but then we have to worry about building it in as we as we field new systems and build in a flexibility that that realizes that the cyber threat or the cyber security landscape will evolve over time it's not just going to be stagnant there will always be new vulnerabilities and new threat vectors that we always have to look at look uh as secretary barrett who is our secretary of the air force likes to say most americans use space before they have their first cup of coffee in the morning the american way of life really depends on space and as part of the united states space force we work with defense leaders our congress joint and international military teammates and industry to ensure american leadership in space i really thank you for this opportunity to address the audience today john and thanks so much to cal poly for letting me be one of the speakers at this event i really look forward to this for uh several months and so with that i look forward to your questions as we kind of move along here general thank you very much for the awesome uh introductory statement uh for the folks watching on the stream brigadier general carthan is going to be in the chat answering any questions feel free to chat away he's the vice commander of space and missile systems center he'll be available um a couple comments from your keynote before i get to my questions because it just jumped in my head you mentioned the benefits of say space but the fires in california we're living that here that's really real time that's a benefit you also mentioned the ability for more people launching payloads into space and i only imagine moore's law smaller faster cheaper applies to rockets too so i'm imagining you have the benefits of space and you have now more potential objects flying out sanctioned and maybe unsanctioned so you know is it going to be more rules around that i mean this is an interesting question because it's exciting space force but for all the good there is potentially bad out there yeah so i i john i think the uh i think the basics of your question is as space becomes more congested and contested is there a need for more international norms of how satellites fly in space what kind of basic features satellites have to perhaps deorbit themselves what kind of basic protections does do all satellites should all satellites be afforded as part of a peaceful global commons of space i think those are all fantastic questions and i know that u.s and many uh allied policy makers are looking very very hard at those kinds of questions in terms of what are the norms of behavior and how we uh you know how how we field and field is the military term but you know how we uh populate uh using civil or uh commercial terms uh that space layer at different altitudes uh low earth orbit mid mid-earth orbit geosynchronous earth orbit different kinds of orbits uh what the kind of mission areas we accomplish from space that's all things that need to be definitely taken into account as uh as the place gets a little bit not a little bit as the place gets increasingly more popular day in and day out well i'm super excited for space force i know that a new generation of young folks are really interested in it's an emerging changing great space the focus here at this conference is space and cyber security intersection i'd like to get your thoughts on the approach that space force is taking to cyber security and how it impacts our national goals here in the united states yeah yeah so that's a that's a great question john let me let me talk about in two uh two basic ways but number one is and and i know um some people in the audience this might make them a little bit uncomfortable but i have to talk about the threat right um and then relative to that threat i really have to talk about the importance of uh of cyber and specifically cyber security as it relates to that threat um the threats that we face um really represent a new era of warfare and that new era of warfare involves both space and cyber uh we've seen a lot of action in recent months uh from certain countries notably china and russia uh that have threatened what i referred to earlier as the peaceful global commons of space for example uh it through many unclassified sources and media sources everybody should understand that um uh the russians have been testing on orbit uh anti-satellite capabilities it's been very clear if you were following just the week before last the department of defense released its uh 2020 military and security developments involving the people's republic of china um uh and uh it was very clear that china is developing asats electronic jammers directed energy weapons and most relevant to today's discussion offensive cyber uh capabilities there are kinetic threats uh that are very very easy to see but a cyber attack against a critical uh command and control site or against a particular spacecraft could be just as devastating to the system and our war fighters in the case of gps and important to note that that gps system also impacts many civilians who are dependent upon those systems from a first response perspective and emergency services a cyber attack against a ground control site could cause operators to lose control of a spacecraft or an attacker could feed spoofed data to a system to mislead operators so that they send emergency services personnel to the to the wrong address right attacks on spacecraft on orbit whether directly via a network of intrusion or enabled through malware introduced during the systems production uh while we're building the satellite can [ __ ] or corrupt the data denial of service type attacks on our global networks obviously would disrupt our data flow and interfere with ongoing operations and satellite control i mean if gps went down i you know i hesitate to say it this way because we might elicit some screams from the audience but if gps went down a starbucks wouldn't be able to handle your mobile order uber drivers wouldn't be able to find you and domino's certainly certainly wouldn't be able to get there in 30 minutes or less right so with a little bit of tongue-in-cheek there from a military operations perspective it's dead serious um uh we have become accustomed in the commercial world to threats like lance ransomware and malware and those things have unfortunately become commonplace in commercial terrestrial networks and computer systems however what we're seeing is that our adversaries with the increased competition in space these same techniques are being retooled if you will to use against our national security space systems uh day in and day out um as i said during my opening remarks on the importance of cyber the value of these systems is directly tied to their integrity if commanders in the field uh firefighters in california or baristas in in starbucks can't trust the data they see they're receiving then that really harms their decision-making capabilities one of the big trends we've recently seen is the mood move towards proliferated leo uh uh constellations obviously uh spacex's uh starlink uh on the commercial side and on the military side the work that darpa and my organization smc are doing on blackjack and casino as well as some space transport layer constellation work that the space development agency is designing are all really really important types of mesh network systems that will revolutionize how we plan and field warfighting systems and commercial communications and internet providing systems but they're also heavily reliant on cyber security uh we've got to make sure that they are secured to avoid an accident or international damage uh loss of control of these constellations really could be catastrophic from both a mission perspective or from uh you know satellites tumbling out of low earth orbit perspective another trend is introductions in artificial intelligence and machine learning on board spacecraft or at the edge our satellites are really not so much hardware systems with a little software anymore in the commercial sector and in the defense sector they're basically flying boxes full of software right and we need to ensure the data that we're getting out of those flying boxes full of software are helping us base our decisions on accurate data and algorithms govern governing the right actions and that those uh that those systems are impervious to the extent possible uh to nefarious uh modifications so in summation a cyber security is vital element of everything in our national security space goals and i would argue for our national uh goals uh writ large including uh economic and information uh uh dimensions uh the space force leadership at all levels uh from uh some of the brand new second lieutenants that general raymond uh swore into the space force this morning uh ceremonially from the uh air force association's air space and cyberspace conference uh to the various highest levels general raymond uh general d t thompson myself and a number of other senior leaders in this enterprise we've got to make sure that we're all working together to keep cyber security at the forefront of our space systems because it they absolutely depend on it you know you mentioned uh hardware software threats opportunities challenges i want to ask you because you you got me thinking of the minute there around infrastructure i mean we've heard critical infrastructure you know grids here on on earth you're talking about critical infrastructure a redefinition of what critical infrastructure is an extension of what we have so i'd love to get your thoughts about space force's view of that critical infrastructure vis-a-vis the threat vectors because you know the term threat vectors has been kicked around in the cyber space oh yeah threat vectors they're always increasing the surface area well if the surface area is from space it's an unlimited surface area so you got different vectors so you got new critical infrastructure developing real time really fast and you got an expanded threat vector landscape putting that in perspective for the folks that aren't really inside the ropes on these critical issues how would you explain this and how would you talk about those two things well so i tell you um i just like um uh just like uh i'm sure people in the security side or the cyber security side of the business in the banking industry feel they feel like it's uh all possible threat vectors represent a dramatic and protect potentially existential threat to all of the dollars that they have in the banking system to the financial sector on the department of defense side we've got to have sort of the same mindset um that threat vector from to and through space against critical space systems ground segments the launch enterprise or transportation uh to orbit and the various different uh domains within uh within space itself like i mentioned before uh leo mio and geo-based satellites with different orbits all of the different mission areas that are accomplished from space that i mentioned earlier some that i didn't mention like weather tactical or wide band communications uh various new features of space control all of those are things that we have to worry about from a cyber security uh threat perspective and it's a it's a daunting challenge right now right yeah it's awesome and one of the things we've been following on the hardware side here in the on the ground is the supply chain we've seen you know malware being you know really put into really obscure hardware who manufactures it as being outsourced obviously government has restrictions but with the private sector uh you mentioned china and and the us kind of working together across these these peaceful areas but you got to look at the supply chain how does the supply chain the security aspect impact the mission of the u.s space force yeah yeah so so um how about another um just in terms of an example another kind of california-based historical example right um the very first u.s satellite uh explorer one was built by uh the jet propulsion uh laboratory folks uh not far from here in el segundo up in uh up in pasadena um that satellite when it was first built in the late 50s uh weighed a little bit over 30 pounds and i'm sure that each and every part was custom made and definitely made by u.s companies fast forward to today the global supply chain is so tightly coupled and frankly many industries are so specialized almost specialized regionally around the planet we focus every day to guarantee the integrity of every component that we put in our space systems is absolutely critical to the operations of those satellites and we're dependent upon them but it becomes more difficult and more difficult to understand the the heritage if you will of some of the parts that are used the thousands of parts that are used in some of our satellites that are literally school bus sized right the space industry especially uh national security space sector um uh is relatively small compared to other commercial industries and we're moving to towards using more and more parts uh from non-us companies uh cyber security and cyber awareness have to be baked in from the beginning if we're going to be using parts that maybe we don't necessarily um understand 100 percent like an explorer one uh the the lineage of that particular part the environmental difficulties in space are well known the radiation environment the temperature extremes the vacuum those require specialized component and the us military is not the only uh customer in that space in fact we're definitely not the dominant customer uh in space anymore all those factors require us along with our other government partners and many different commercial space organizations to keep a very close eye on our supply chains from a quality perspective a security perspective and availability um there's open source reporting on supply training intrusions from um many different breaches of commercial retailers to the infectious spread of uh you know compromised patches if you will and our adversaries are aware of these techniques as i mentioned earlier with other forms of attack considering our supply chains and development networks really becomes fair game for our adversaries so we have to uh take that threat seriously um between the government and industry sectors here in the u.s we're also working with our industry partners to enact stronger defenses and assess our own vulnerabilities last fall we completed an extensive review of all of our major contracts here at space and missile system center to determine the levels of cyber security requirements we've implemented across our portfolio and it sounds really kind of you know businessy geeky if you will you know hey we looked at our contracts to make sure that we had the right clauses in our contracts to address cyber security as dynamically as we possibly could and so we found ourselves having to add new language to our contracts to require system developers to implement some more advanced uh protective measures in this evolving cyber security environment so that data handling and supply chain perspective uh protections um from contract inception to launch and operations were taken into account uh cyber security really is a key performance parameter for us now it's as important as the the mission performance of the system it's as important as cost it's as important as schedule because if we deliver the perfect system on time and on cost uh it can perform that missile warning or that communications mis mission perfectly but it's not cyber secure if it doesn't have cyber protections built into it or the ability to implement mitigations against cyber uh threats then we've essentially fielded a shoe box in space that doesn't do the k the the war fighter or the nation uh any good um supply chain risk management is a is a major challenge for us uh we're doing a lot to coordinate with our industry partners uh we're all facing it head on uh to try and build secure and trusted components uh that keep our confidence as leaders firefighters and baristas uh as the case may be uh but it is a challenge and we're trying to rise to that challenge you know this so exciting this new area because it really touches everything you know talk about geeking out on on the tech the hardware the systems but also you put your kind of mba hat on you go what's the roi of the extra development and how you how things get built because the always the exciting thing for space geeks is like you're building cool stuff people love it's it's exciting but you still have to build and cyber security has proven that security has to be baked in from the beginning and be thought as a system architecture so you're still building things which means you've got to acquire things you got to acquire parts you got to acquire build software and and sustain it how is security impacting the acquisition and the sustainment of these systems for space yeah from initial development uh through planning for the acquisition design development fielding or production fielding and sustainment it impacts all aspects of of the life cycle john uh we simply especially from the concept of baking in cyber security uh we can't wait until something is built and then try and figure out how to make it cyber secure so we've moved way further uh towards working side by side with our system developers to strengthen cyber security from the very beginning of a system's development cyber security and the resilience associated with it really have to be treated as a key system attribute as i mentioned earlier equivalent with data rates or other metrics of performance we like to talk in uh in the space world about uh mission assurance and mission assurance has always you know sort of taken us as we as we technically geek out right mission assurance has always taken us to the will this system work in space right can it work in a vacuum can it work in you know as it as it uh you know transfers through uh the van allen radiation belt or through the the um the southern hemisphere's electromagnetic anomaly right will it work out in space and now from a resiliency perspective yeah it has to work in space it's got to be functional in space but it's also got to be resistant to these cyber security threats it's it's not just i think uh general dt thompson quoted this term it's not just widget assurance anymore it's mission assurance um uh how does that satellite uh operator that ground control segment operate while under attack so let me break your question a little bit uh just for purposes of discussion into into really two parts uh cyber uh for cyber security for systems that are new and cyber security uh for systems that are in sustainment or kind of old and legacy um obviously there's cyber vulnerabilities that threaten both and we really have to employ different strategies for for defense of of each one for new systems uh we're desperately trying to implement across the department of defense in particular in the space world a kind of a devsecops methodology and practice to delivering software faster and with greater security for our space systems here at smc we have a program called enterprise ground services which is a tool kit basically a collection of tools for common command and control of different satellite systems egs as we call it has an integrated suite for defensive cyber capabilities network operators can use these tools to gain unprecedented insight to data flows and to monitor space network traffic for anomalies or other potential indicators of of bad behavior malicious behavior if you will um uh it's rudimentary at this point but because we're using devsecops and that incremental development approach as we scale it it just becomes more and more capable you know every every product increment that we field here at uh at uh la air force base uh uh we have the united space space forces west coast software factory which we've dubbed kobayashi maru they're using those agile devops uh software development practices uh to deliver uh space awareness software uh to the combined space operations center uh affectionately called the csp that c-spock is just down the road uh from cal poly uh there in san luis obispo at vandenberg air force base they've securely linked the c-spock with other space operation centers around the planet our allies australia canada and the uk uh we're partnering with all of them to enable secure and enhanced combined space operations so lots of new stuff going on as we bake in new development uh capabilities for our our space systems but as i mentioned earlier we've got large constellations on satellite of satellites on orbit right now some of them are well in excess of a decade or more old on orbit and so the design aspects of those satellites are several decades old and so but we still have to worry about them because they're critical to our space capabilities um we've been working with an air force materiel command organization uh called crows which stands for the cyber resiliency office for uh weapon systems to assess all of those legacy platforms from a cyber security perspective and develop defensive strategies and potential hardware and software upgrades to those systems to better enable them to to live through this increasingly cyber security uh concerned era that we currently live in our industry partners have been critical to to both of those different avenues both new systems and legacy systems we're working closely with them to defend and upgrade uh national assets and develop the capabilities to do similar with uh with new national assets coming online the vulnerabilities of our space systems really kind of threaten the way we've done business in the past both militarily and in the case of gps economically the impacts of that cyber security risk are clear in our acquisition and sustainment processes but i've got to tell you it that as the threat vectors change as the vulnerabilities change we've got to be nimble enough agile enough to be able to bounce back and forth we can't just say uh many people in the audience are probably familiar with the rmf or the risk management framework approach to um to reviewing uh the cyber security of a system we can't have program managers and engineers just accomplish an rmf on a system and then hey high five we're all good uh it's a journey not a destination that's cyber security and it's a constant battle rhythm throughout a weapon systems life cycle not just a single event i want to get to this commercial business needs and your needs on the next question but before i go there you mentioned the agile and i see that clearly because when you have accelerated innovation cycles you've got to be faster and we saw this in the computer industry mainframes mini computers and then when you started getting beyond me when the internet hit and pcs came out you saw the big enterprises the banks and and government start to work with startups it used to be a joke in the entrepreneurial circles is that you know there's no way if you're a startup you're ever going to get a contract with a big business enterprise now that used to be for public sector and certainly uh for you guys so as you see startups out there and there's acquisition involved i'm sure would love to love to have a contract with space force there's an roi calculation where if it's in space and you have a sustainment view edit software you might have a new kind of business model that could be attractive to startups could you share your thoughts on the folks who want to be a supplier to you uh whether they're a startup or an existing business that wants to be agile but they might not be that big company we are john that's a fantastic question we are desperately trying to reach out to to those new space advocates to those startups to those um what we sometimes refer to within the department of defense those non-traditional uh defense contractors a couple of things just for uh thinking purposes on some of the things that we're trying to highlight um uh three years ago we created here at uh space and missile system center uh the space enterprise consortium uh to provide a platform uh a contractual vehicle really to enable us to rapidly prototype uh development of space systems and to collaborate uh between the u.s space force uh traditional defense contractors non-traditional vendors like startups and even some academic institutions uh spec as we call it space enterprise consortium uses a specialized contracting tool to get contracts uh awarded quickly many in the audience may be familiar with other transaction agreements and that's what spec is based on and so far in just three years spec has awarded 75 different uh prototyping contracts worth over 800 million dollars with a 36 reduction in time to award and because it's a consortium based competition for um for these kinds of prototyping efforts the barrier to entry for small and non-traditional for startups even for academic institutions to be able to compete for these kinds of prototypings is really lowered right um uh these types of partnerships uh that we've been working through on spec uh have really helped us work with smaller companies who might not have the background or expertise in dealing with the government or in working with cyber security uh for their systems both their developmental systems and the systems that they're designing and trying to build we want to provide ways for companies large and small to partner together and support um uh kind of mutually beneficial uh relationships between all um recently uh at the annual air force association uh conference that i mentioned earlier i moderated a panel with several space industry leaders uh all from big traditional defense contractors by the way and they all stressed the importance of building bridges and partnerships uh between major contractors in the defense industry and new entrants uh and that helps us capture the benefits of speed and agility that come with small companies and startups as well as the expertise and specialized skill sets of some of those uh larger contractors uh that we rely on day in and day out advanced cyber security protections and utilization of secure facilities are just a couple of things that i think we could be prioritizing more so in those collaborations as i mentioned earlier the spec has been very successful in awarding a number of different prototyping contracts and large dollar values and it's just going to get better right there's over 400 members of the space enterprise consortium 80 of them are non-traditional kinds of vendors and we just love working with them another thing that many people in the audience may be familiar with in terms of our outreach to innovators uh if you will and innovators that include uh cyber security experts is our space pitch day events right so we held our first event last november in san francisco uh where we awarded over a two-day period about 46 million dollars to 30 different companies um that had potentially game-changing ideas these were phase two small business innovative research efforts uh that we awarded with cash on the spot uh we're planning on holding our second space pitch day in the spring of 2021. uh we're planning on doing it right here in los angeles uh covent 19 environment permitting um and we think that these are you know fantastic uh uh venues for identifying and working with high-speed startups startups and small businesses who are interested in uh really truly partnering with the us air force it's a as i said before it's a really exciting time to be a part of this business uh and working with the innovation economy uh is something that the department of defense uh really needs to do in that um the innovation that we used to think was ours you know that 80 percent of the industrial-based innovation that came from the department of defense uh the the script has been flipped there and so now more than 70 percent uh particularly in space innovation uh comes from the commercial sector not from uh not from the defense business itself and so um that's a tsunami of uh investment and a tsunami of uh capability and i need to figure out how to get my surfboard out and ride it you know what i mean yeah i mean it's one of those things where the flip the script has been flipped but it's exciting because it's impacting everything are you talking about systems architecture you're talking about software you're talking about a business model you talk about devsecops from a technical perspective but now you have a business model innovation all the theaters of uh are exploding in innovation technical business personnel this brings up the workforce challenge you've got the cyber needs for the u.s space force there's probably a great roi model for new kinds of software development that could be priced into contracts that's a entrepreneurial innovation you got the the business model theater you've got the personnel how does the industry adopt and change you guys are clearly driving this how does the industry adjust to you yeah so um i think a great way to answer that question is to just talk about the kind of people that we're trying to prioritize in the u.s space force from a from an acquisition perspective and in this particular case from a from a cyber security perspective as i mentioned earlier it's the most exciting time to be in space programs uh really since the days of apollo um uh you know just to put it in terms that you know maybe have an impact with the audience uh from 1957 until today approximately 9 000 satellites uh have been launched from the various space faring countries around the planet uh less than two thousand of those nine thousand are still up on orbit and operational and yet in the new space regime um players like spacex have plans to launch you know 12 000 satellites for some of their constellations alone it really is a remarkable time in terms of innovation and fielding of space capabilities and all of those space capabilities whether they're commercial civil or defense are going to require appropriate cyber security uh protections it's just a really exciting time uh to be working in stuff like this and so uh folks like the folks in this audience who have a passion about space and a passion about cyber security are just the kind of people that we want to work with because we need to make sure our systems are are secure and resilient we need folks that have technical and computing expertise engineering skills to be able to design cybersecure systems that can detect and mitigate attacks uh but we also as you alluded to we need people that have that business and um you know business acumen human networking background so that we can launch the startups and work with the non-traditional businesses uh help to bring them on board help to secure both their data and our data and uh and and make sure our processes and systems are are free as much as possible from uh uh from attack um for preparation for for audience members who are young and maybe thinking about getting into this uh trade space um you gotta be smart on digital networking uh you gotta understand basic internet protocols concepts uh programming languages uh database design uh learn what you can from penetration or vulnerability testing and and uh risk assessment i will tell you this and i don't think he will i know he will not mind me telling you this but you've got to be a lifelong learner and so two years ago i'm at home one evening and i get a phone call on my cell phone and it's my boss the commander of air force space command uh general j raymond who is now currently the chief of space operations and he is on temporary duty flying overseas he lands where he's going and he first thing he does when he lands is he calls me and he goes jt um while i was traveling um i noticed that there were e-books available on the commercial airliner i was traveling on and there was an e-book on something called scrumming and agile devsecops and i read it have you read it um and i said no sir but if you tell me what the title of the book is i will read it and so i got to go to my staff meeting um you know the very next week the next time we had a staff meeting and tell everybody in the stab meeting hey if the four star and the three star can read the book about scrumming then i'm pretty sure all of you around this table and all our lieutenants and our captains our gs13s all of our government employees can get smart on uh the scrumming development process and interestingly as another side i had a telephone call with him last year during the holidays where he was trying to take some leave and i said sir what are you up to today are you are you you know making eggnog for the event tonight or whatever and the chief of space operations told me no i'm trying to teach myself python i'm at lesson two and it's not going so well but i'm i'm gonna figure this out and so that kind of thing if the chief of staff or the you know the the the chief of space operations can prioritize scrumming and python language and innovation in his daily schedule then we're definitely looking for other people who can do that and we'll just say lower levels of rank uh throughout our entire space force enterprise um look i i we don't need to need people that can code a satellite from scratch but we need to know we need to have people that have a basic grasp of the programming basics and cyber security requirements and that can turn those things into into meaningful actions obviously in the space domain things like basic physics and orbital mechanics are also important uh space is not an intuitive uh domain so under understanding how things survive uh on orbit is really critical to making the right design and operational decisions and you know i know there's probably a lot because of this conference i know there's a probably a whole lot of high-speed cyber security experts out in the audience and i need those people in the u.s space force the the country is counting on it but i wouldn't discount having people that are just cyber aware or cyber savvy right i have contracting officers and logisticians and program managers and they don't have to be high-end cyber security experts but they have to be aware enough about it to be able to implement cyber security protections um into our space system so the skill set is is really really broad um our adversaries are pouring billions of dollars into uh define designing uh and fielding offensive and destructive space cyber security weapons right they've repeatedly shown really a blatant disregard of safety and international norms for good behavior on orbit and the cyber security aspects of our space systems is really a key battleground going forward so that we can maintain that as i mentioned before peaceful uh global commons of space we really need all hands on deck if you're interested in helping in uniform if you're interested in helping uh not in uniform uh but as a government employee a commercial or civil employee to help us make cyber security more important uh or more cape more able to be developed for our space systems then we'd really love to uh to work with you or have you on the team to build that safe and secure future for our space systems lieutenant general john thompson great insight thank you for sharing all that awesome stories too and motivation for the young next generation the united states space force approach of cyber security really amazing talk thank you for your time final parting question is as you look out and you had your magic wand what's your view for the next few years in terms of things that we could accomplish it's a super exciting time what do you hope for so um um first of all john thanks to you and and thanks to cal poly uh for the invitation and and thanks to everybody for uh for their interest in cyber security especially as it relates to space systems that's here at the conference um uh there's a quote and i'll read it here uh from uh bernard schriever who was the uh the founder if you will uh a legend in uh dod space the founder of the western development division which was a predecessor organization to space and missile systems center general shrever i think captures the essence of what how we see the next couple of years the world has an ample supply of people who can always come up with a dozen good reasons why new ideas will not work and should not be tried but the people who produce progress are breed apart they have the imagination the courage and the persistence to find solutions and so i think if you're hoping that the next few years of space innovation and cyber security innovation are going to be a pony ride at the county fair then perhaps you should look for another line of work because i think the next few years in space and cyber security innovation are going to be more like a rodeo um and a very dynamic rodeo as it goes it is a an awesome privilege to be part of this ecosystem it's really an honor for me to um to be able to play some small role uh in the space ecosystem and trying to improve it uh while i'm trying to improve the chances of uh of the united states of america in a uh in a space war fighting uh uh environment um and so i thank all of you for uh participating today and for this little bit of time that you've allowed me to share with you thank you sir thank you for your leadership and thank you for the for the time for this awesome event space and cyber security symposium 2020 i'm john furrier on behalf of cal poly thanks for watching [Music]

>> Narrator: From around the globe. It's theCUBE covering space in cybersecurity symposium 2020 hosted by Cal Poly. >> Hello, everyone. Welcome to the space and cybersecurity symposium, 2020 hosted by Cal Poly where the intersection of space and security are coming together. I'm John Furrier, your host with theCUBE here in California. I want to welcome our featured guest, Lieutenant General, John F. Thompson with the United States Space Force approach to cybersecurity. That's the topic of this session. And of course he's the commander of the space and missile system center in Los Angeles Air Force Base. Also heading up Space Force. General, thank you for coming on. I really appreciate to you kicking this off. Welcome to the symposium. >> Hey, so thank you very much, John, for that very kind introduction. Also very much thank you to Cal Poly for this opportunity to speak to this audience today. Also a special shout out to one of the organizers, Dustin Debrun, for all of his work, helping get us to this point. Ladies and gentlemen as a John mentioned, I'm JT Thompson. I lead the 6,000 men and women of the United States Space Force's Space and Missile System Center, which is headquartered here at Los Angeles Air Force Base and El Segundo. If you're not quite sure where that's at, it's about a mile and a half from LAX. This is our main operating location, but we do have a number of other operating locations around the country. We're about 500 people at Kirtland Air Force Base in Albuquerque, New Mexico, and an about another 500 people on the front range of the Rockies between Colorado Springs and Denver plus a smattering of other much smaller operating locations nationwide. We're responsible for acquiring, developing and sustaining the United States Space Force's, critical space assets. That includes the satellites in the space layer and also on the ground layer our ground segments to operate those satellites. And we also are in charge of procuring launch services for the US Space Force and a number of our critical mission partners across the Department of Defense and the intelligence community. Just as a couple of examples of some of the things we do, if you're unfamiliar with our work we developed and currently sustain the 31 satellite GPS constellation that satellite constellation, while originally intended to help with global navigation, those GPS signals have provided trillions of dollars in unanticipated value to the global economy over the past three decades. GPS is everywhere. I think everybody realizes that. Agriculture, banking, the stock market, the airline industry, separate and distinct navigation systems. It's really pervasive across both capabilities for our Department of Defense and capabilities for our economy and individuals, billions of individuals across our country and the planet. Some of the other work we do for instance, in the communications sector, secure communications satellites that we designed and build that link America's sons and daughters serving in the military around the world and really enable real time support and comms for our deployed forces. And those of our allies. We also acquire infrared missile warning satellites that monitor the planet for missile launches that provide advanced warning to the US Homeland and to our allies in case some of those missile launches are nefarious. On a note, that's probably a lot closer to home, maybe a lot closer to home than many of us want to think about here in the state of California. In 2018, SMC jumped through a bunch of red tape and bureaucracy to partner with the US Forest Service during two of the largest wildfires in the state's history, the Camp and Woolsey fires in Northern California. As those fires spread out of control, we created processes on the fly to share data from our missile warning satellites. Those are satellites that are systems that are purpose built to see heat sources from thousands of miles above the planet. And we collaborated with the US Forest Service so that firefighters on the ground could track those fires more in real time and better forecast fires and where they were spreading, thereby saving lives and property by identifying hotspots and flareups for firefighters. That data that we were able to working with our contractors pass to the US Forest Service and authorities here in California, was passed in less than an hour as it was collected to get it into the hands of the emergency responders, the first responders as quickly as possible and doing that in an hour greatly surpassed what was available from some of the other assets in the airborne and ground-based fire spotters. It was really instrumental in fighting those fires and stopping their spread. We've continued that involvement in recent years, using multiple systems to support firefighters across the Western US this fall, as they battled numerous wildfires that unfortunately continue. Working together with the US Forest Service and with other partners we'd like to think that we've made a difference here, but there's still a lot more work to go. And I think that we should always be asking ourselves what else can space data be used for and how can we more rapidly get that space data to stakeholders so that they can use it for purposes of good, if you will. How else can we protect our nation? How else can we protect our friends and allies? I think a major component of the discussion that we will have throughout this conference is that the space landscape has changed rapidly and continues to change rapidly. Just over the past few years, John and I were talking before we went live here and 80 nations now have space programs. Nearly 80 space faring nations on the planet. If you just look at one mission area that the Department of Defense is interested in, and that's small launch, there are currently over 100 different small launch companies within the US industrial base vying for commercial DoD and civil payload capabilities, mostly to lower earth orbit. It's truly a remarkable time. If you factor in those things like artificial intelligence and machine learning, where we're revolutionizing really, the ways that we generate process and use data. It's really remarkable. In 2016, so if you think about this four years ago, NASA estimated that there were 28 terabytes of information transiting their space network each day. And that was four years ago. Obviously we've got a lot of desire to work with a lot of the people in the audience in this conference, we need to work with big thinkers, like many of you to answer questions on how best we apply data analytics to extract value and meaning from that data. We need new generations of thinkers to help apply cutting edge theories of data mining, cyber behaviorism, and Internet of Things 2.0, it's just truly a remarkable time to be in the space business and the cyber aspects of the space business are truly, truly daunting and important to all of us. Integrating cyber security into our space systems, both commercial and government is a mandate. it's no longer just a nice to have as the US Space Force and Department of the Air Force leadership has said many times over the past couple of years, space is becoming congested and contested. And that contested aspect means that we've got to focus on cyber security in the same way that the banking industry and cyber commerce focus on cybersecurity day in and day out. The value of the data and services provided is really directly tied to the integrity and availability of that data and services from the space layer, from the ground control segments associated with it. And this value is not just military, it's also economic and it's not just American, it's also a value for the entire world, particularly our allies, as we all depend upon space and space systems. Your neighbors and friends here in California that are employed at the space and missile system center work with network defenders. We work with our commercial contractors and our systems developers, our international allies and partners to try and build as secure and resilient systems as we can from the ground up that keep the global comments of space free and open for exploration and for commerce as John and I were talking earlier, before we came online, there's an aspect of cybersecurity for space systems, especially for some of our legacy systems, that's more, how do we bolt this on? Cause we fielded those space systems a number of years ago, and the challenges of cybersecurity in the space domain have grown. So we have a part that we have to worry about, bolting it on, but then we have to worry about building it in as we field new systems and build in a flexibility that realizes that the cyber threat or the cybersecurity landscape will evolve over time. It's not just going to be stagnant. There will always be new vulnerabilities and new threat vectors that we all have to look at. Look, as Secretary Barrett, who is our secretary of the air force likes to say most Americans use space before they have their first cup of coffee in the morning. The American way of life really depends on space. And as part of the United States Space Force, we work with defense leaders, our Congress joint, and international military teammates and industry to ensure American leadership in space. I really thank you for this opportunity to address the audience today, John, and thanks so much to Cal Poly for letting me be one of the speakers at this event. I've really looked forward to this for several months. And so with that, I look forward to your questions as we kind of move along here. >> General, thank you very much for those awesome introductory statement. For the folks watching on the stream, Brigadier General Carthan's going to be in the chat, answering any questions, feel free to chat away. He's the vice commander of Space and Missile System Center, he'll be available. A couple of comments from your keynote before I get to my questions. Cause it just jumped into my head. You mentioned the benefits of say space with the fires in California. We're living that here. That's really realtime. That's a benefit. You also mentioned the ability for more people launching payloads into space. I'm only imagined Moore's law smaller, faster, cheaper applies to rockets too. So I'm imagining you have the benefits of space and you have now more potential objects flying out sanctioned and maybe unsanctioned. So is it going to be more rules around that? This is an interesting question cause it's exciting Space Force, but for all the good there is potentially bad out there. >> Yeah. So John, I think the basics of your question is as space becomes more congested and contested, is there a need for more international norms of how satellites fly in space? What kind of basic features satellites have to perhaps de orbit themselves? What kind of basic protections should all satellites be afforded as part of a peaceful global commons of space? I think those are all fantastic questions. And I know that US and many allied policy makers are looking very, very hard at those kinds of questions in terms of what are the norms of behavior and how we field, and field as the military term. But how we populate using civil or commercial terms that space layer at different altitudes, lower earth orbit, mid earth orbit, geosynchronous earth orbit, different kinds of orbits, what the kind of mission areas we accomplished from space. That's all things that need to be definitely taken into account as the place gets a little bit, not a little bit as the place gets increasingly more popular day in and day out. >> I'm super excited for Space Force. I know that a new generation of young folks are really interested in it's an emerging, changing great space. The focus here at this conference is space and cybersecurity, the intersection. I'd like to get your thoughts on the approach that a space force is taking to cybersecurity and how it impacts our national goals here in the United States. >> Yeah. So that's a great question John, let me talk about it in two basic ways. At number one is an and I know some people in the audience, this might make them a little bit uncomfortable, but I have to talk about the threat. And then relative to that threat, I really have to talk about the importance of cyber and specifically cyber security, as it relates to that threat. The threats that we face really represented a new era of warfare and that new era of warfare involves both space and cyber. We've seen a lot of action in recent months from certain countries, notably China and Russia that have threatened what I referred to earlier as the peaceful global commons of space. For example, it threw many unclassified sources and media sources. Everybody should understand that the Russians have been testing on orbit anti-satellite capabilities. It's been very clear if you were following just the week before last, the Department of Defense released its 2020 military and security developments involving the People's Republic of China. And it was very clear that China is developing ASATs, electronic jammers, directed energy weapons, and most relevant to today's discussion, offensive cyber capabilities. There are kinetic threats that are very, very easy to see, but a cyber attack against a critical command and control site or against a particular spacecraft could be just as devastating to the system and our war fighters in the case of GPS and important to note that that GPS system also impacts many civilians who are dependent on those systems from a first response perspective and emergency services, a cyber attack against a ground control site could cause operators to lose control of a spacecraft or an attacker could feed spoofed data to assist them to mislead operators so that they sent emergency services personnel to the wrong address. Attacks on spacecraft on orbit, whether directly via a network intrusion or enabled through malware introduced during the system's production while we're building the satellite can cripple or corrupt the data. Denial-of-service type attacks on our global networks obviously would disrupt our data flow and interfere with ongoing operations and satellite control. If GPS went down, I hesitate to say it this way, cause we might elicit some screams from the audience. But if GPS went down a Starbucks, wouldn't be able to handle your mobile order, Uber drivers wouldn't be able to find you. And Domino's certainly wouldn't be able to get there in 30 minutes or less. So with a little bit of tongue in cheek there from a military operations perspective, it's dead serious. We have become accustomed in the commercial world to threats like ransomware and malware. And those things have unfortunately become commonplace in commercial terrestrial networks and computer systems. However, what we're seeing is that our adversaries with the increased competition in space these same techniques are being retooled, if you will, to use against our national security space systems day in and day out. As I said, during my opening remarks on the importance of cyber, the value of these systems is directly tied to their integrity. If commanders in the field, firefighters in California or baristas in Starbucks, can't trust the data they're receiving, then that really harms their decision making capabilities. One of the big trends we've recently seen is the move towards proliferated LEO constellations, obviously Space X's Starlink on the commercial side and on the military side, the work that DARPA and my organization SMC are doing on Blackjack and Casino, as well as some space transport layer constellation work that the space development agency is designing are all really, really important types of mesh network systems that will revolutionaries how we plan and field war fighting systems and commercial communications and internet providing systems. But they're also heavily reliant on cybersecurity. We've got to make sure that they are secured to avoid an accident or international damage. Loss of control of these constellations really could be catastrophic from both a mission perspective or from a satellites tumbling out of low earth orbit perspective. Another trend is introductions in artificial intelligence and machine learning, onboard spacecraft are at the edge. Our satellites are really not so much hardware systems with a little software anymore in the commercial sector and in the defense sector, they're basically flying boxes full of software. And we need to ensure that data that we're getting out of those flying boxes full of software are helping us base our decisions on accurate data and algorithms, governing the right actions and that those systems are impervious to the extent possible to nefarious modifications. So in summation, cybersecurity is a vital element of everything in our national security space goals. And I would argue for our national goals, writ large, including economic and information dimensions, the Space Force leadership at all levels from some of the brand new second lieutenants that general Raymond swore in to the space force this morning, ceremonially from the air force associations, airspace and cyberspace conference to the various highest levels, General Raymond, General DT Thompson, myself, and a number of other senior leaders in this enterprise. We've got to make sure that we're all working together to keep cyber security at the forefront of our space systems cause they absolutely depend on it. >> You mentioned hardware, software threats, opportunities, challenges. I want to ask you because you got me thinking of the minute they're around infrastructure. We've heard critical infrastructure, grids here on earth. You're talking about critical infrastructure, a redefinition of what critical infrastructure is, an extension of what we have. So I'd love to get your thoughts about Space Force's view of that critical infrastructure vis-a-vis the threat vectors, because the term threat vectors has been kicked around in the cyberspace. Oh you have threat vectors. They're always increasing the surface area. If the surface area is from space, it's an unlimited service area. So you got different vectors. So you've got new critical infrastructure developing real time, really fast. And you got an expanded threat vector landscape. Putting that in perspective for the folks that aren't really inside the ropes on these critical issues. How would you explain this and how would you talk about those two things? >> So I tell you, just like, I'm sure people in the security side or the cybersecurity side of the business in the banking industry feel, they feel like it's all possible threat vectors represent a dramatic and protect potentially existential threat to all of the dollars that they have in the banking system, to the financial sector. On the Department of Defense side, we've got to have sort of the same mindset. That threat vector from, to, and through space against critical space systems, ground segments, the launch enterprise, or transportation to orbit and the various different domains within space itself. Like I mentioned before, LEO, MEO and GEO based satellites with different orbits, all of the different mission areas that are accomplished from space that I mentioned earlier, some that I did mention like a weather tactical or wide band communications, various new features of space control. All of those are things that we have to worry about from a cyber security threat perspective. And it's a daunting challenge right now. >> Yeah, that's awesome. And one of the things we've been falling on the hardware side on the ground is the supply chain. We've seen, malware being, really put in a really obscure hardware. Who manufactures it? Is it being outsourced? Obviously government has restrictions, but with the private sector, you mentioned China and the US kind of working together across these peaceful areas. But you got to look at the supply chain. How does the supply chain in the security aspect impact the mission of the US space Force? >> Yeah. Yeah. So how about another, just in terms of an example, another kind of California based historical example. The very first US Satellite, Explorer 1, was built by the jet propulsion laboratory folks, not far from here in El Segundo, up in Pasadena, that satellite, when it was first built in the late 50s weighing a little bit, over 30 pounds. And I'm sure that each and every part was custom made and definitely made by US companies. Fast forward to today. The global supply chain is so tightly coupled, and frankly many industries are so specialized, almost specialized regionally around the planet. We focus every day to guarantee the integrity of every component that we put in our space systems is absolutely critical to the operations of those satellites and we're dependent upon them, but it becomes more difficult and more difficult to understand the heritage, if you will, of some of the parts that are used, the thousands of parts that are used in some of our satellites that are literally school bus sized. The space industry, especially national security space sector is relatively small compared to other commercial industries. And we're moving towards using more and more parts from non US companies. Cybersecurity and cyber awareness have to be baked in from the beginning if we're going to be using parts that maybe we don't necessarily understand 100% like an Explorer one, the lineage of that particular part. The environmental difficulties in space are well known. The radiation environment, the temperature extremes, the vacuum, those require specialized component. And the US military is not the only customer in that space. In fact, we're definitely not the dominant customer in space anymore. All those factors require us along with our other government partners and many different commercial space organizations to keep a very close eye on our supply chains, from a quality perspective, a security perspective and availability. There's open source reporting on supply training intrusions from many different breaches of commercial retailers to the infectious spread of compromised patches, if you will. And our adversaries are aware of these techniques. As I mentioned earlier, with other forms of attack, considering our supply chains and development networks really becomes fair game for our adversaries. So we have to take that threat seriously. Between the government and industry sectors here in the US. We're also working with our industry partners to enact stronger defenses and assess our own vulnerabilities. Last fall, we completed an extensive review of all of our major contracts here at Space and Missile System Center to determine the levels of cyber security requirements we've implemented across our portfolio. And it sounds really kind of businessy geeky, if you will. Hey, we looked at our contracts to make sure that we had the right clauses in our contracts to address cybersecurity as dynamically as we possibly could. And so we found ourselves having to add new language to our contracts, to require system developers, to implement some more advanced protective measures in this evolving cyber security environment. So that data handling and supply chain protections from contract inception to launch and operations were taken into account. Cyber security really is a key performance parameter for us now. Performance of the system, It's as important as cost, it's as important as schedule, because if we deliver the perfect system on time and on cost, it can perform that missile warning or that communications mission perfectly, but it's not cyber secure. If it's doesn't have cyber protections built into it, or the ability to implement mitigations against cyber threats, then we've essentially fielded a shoe box in space that doesn't do the CA the war fighter or the nation any good. Supply chain risk management is a major challenge for us. We're doing a lot to coordinate with our industry partners. We're all facing it head on to try and build secure and trusted components that keep our confidence as leaders, firefighters, and baristas as the case may be. But it is a challenge. And we're trying to rise to that challenge. >> This is so exciting this new area, because it really touches everything. Talk about geeking out on the tech, the hardware, the systems but also you put your kind of MBA hat on you go, what's the ROI of extra development and how things get built. Because the always the exciting thing for space geeks is like, if you're building cool stuff, it's exciting, but you still have to build. And cybersecurity has proven that security has to be baked in from the beginning and be thought as a system architecture. So you're still building things, which means you got to acquire things, you got to acquire parts, you got acquire build software and sustain it. How is security impacting the acquisition and the sustainment of these systems for space? >> Yeah. From initial development, through planning for the acquisition, design, development, our production fielding and sustainment, it impacts all aspects of the life cycle, John. We simply, especially from the concept of baking in cybersecurity, we can't wait until something is built and then try and figure out how to make it cyber secure. So we've moved way further towards working side by side with our system developers to strengthen cybersecurity from the very beginning of a systems development, cyber security, and the resilience associated with it really have to be treated as a key system attribute. As I mentioned earlier, equivalent with data rates or other metrics of performance. We like to talk in the space world about mission assurance and mission assurance has always sort of taken us as we technically geek out. Mission assurance has always taken us to the will this system work in space. Can it work in a vacuum? Can it work in as it transfers through the Van Allen radiation belt or through the Southern hemisphere's electromagnetic anomaly? Will it work out in space? And now from a resiliency perspective, yeah, it has to work in space. It's got to be functional in space, but it's also got to be resistant to these cybersecurity threats. It's not just, I think a General D.T Thompson quoted this term. It's not just widget assurance anymore. It's mission assurance. How does that satellite operator that ground control segment operate while under attack? So let me break your question a little bit, just for purposes of discussion into really two parts, cybersecurity, for systems that are new and cybersecurity for systems that are in sustainment are kind of old and legacy. Obviously there's cyber vulnerabilities that threatened both, and we really have to employ different strategies for defensive of each one. For new systems. We're desperately trying to implement across the Department of Defense and particularly in the space world, a kind of a dev sec ops methodology and practice to delivering software faster and with greater security for our space systems. Here at SMC, we have a program called enterprise ground services, which is a toolkit, basically a collection of tools for common command and control of different satellite systems, EGS as we call it has an integrated suite for defensive cyber capabilities. Network operators can use these tools to gain unprecedented insight to data flows and to monitor space network traffic for anomalies or other potential indicators of a bad behavior, malicious behavior, if you will, it's rudimentary at this point, but because we're using DevSecOps and that incremental development approach, as we scale it, it just becomes more and more capable. Every product increment that we feel. Here at LA Air Force Base, we have the United Space Force's West Coast Software Factory, which we've dubbed the Kobayashi Maru. They're using those agile DevOps software development practices to deliver a space awareness software to the combined space operations center. Affectionately called the CSpock that CSpock is just on the road from Cal Poly there in San Luis Obispo at Vandenberg Air Force Base. They've so securely linked the sea Spock with other space operation centers around the planet, our allies, Australia, Canada, and the UK. We're partnering with all of them to enable secure and enhanced combined space operations. So lots of new stuff going on as we bake in new development capabilities for our space systems. But as I mentioned earlier, we've got large constellations of satellites on orbit right now. Some of them are well in excess of a decade or more or old on orbit. And so the design aspects of those satellites are several decades old. But we still have to worry about them cause they're critical to our space capabilities. We've been working with an air force material command organization called CROWS, which stands for the Cyber Resiliency Office for Weapon Systems to assess all of those legacy platforms from a cyber security perspective and develop defensive strategies and potential hardware and software upgrades to those systems to better enable them to live through this increasingly cybersecurity concerned era that we currently live in. Our industry partners have been critical to both of those different avenues. Both new systems and legacy systems. We're working closely with them to defend and upgrade national assets and develop the capabilities to do similar with new national assets coming online. The vulnerabilities of our space systems really kind of threatened the way we've done business in the past, both militarily and in the case of GPS economically. The impacts of that cybersecurity risk are clear in our acquisition and sustainment processes, but I've got to tell you, as the threat vectors change, as the vulnerabilities change, we've got to be nimble enough, agile enough, to be able to bounce back and forth. We can't just say, many people in the audience are probably familiar with the RMF or the Risk Management Framework approach to reviewing the cyber security of a system. We can't have program managers and engineers just accomplish an RMF on a system. And then, hey, high five, we're all good. It's a journey, not a destination, that's cybersecurity. And it's a constant battle rhythm through our weapon systems lifecycle, not just a single event. >> I want to get to this commercial business needs and your needs on the next question. But before I go there, you mentioned agile. And I see that clearly because when you have accelerated innovation cycles, you've got to be faster. And we saw this in the computer industry, mainframes, mini computers, and then we started getting beyond maybe when the internet hit and PCs came out, you saw the big enterprises, the banks and government start to work with startups. And it used to be a joke in the entrepreneurial circles is that, there's no way if you are a startup you're ever going to get a contract with a big business enterprise. Now that used to be for public sector and certainly for you guys. So as you see startups out there and there's acquisition involved, I'm sure would love to have a contract with Space Force. There's an ROI calculation where if it's in space and you have a sustainment view and it's software, you might have a new kind of business model that could be attractive to startups. Could you share your thoughts on the folks who want to be a supplier to you, whether they're a startup or an existing business that wants to be agile, but they might not be that big company. >> John, that's a fantastic question. We're desperately trying to reach out to those new space advocates, to those startups, to those what we sometimes refer to, within the Department of Defense, those non traditional defense contractors. A couple of things just for thinking purposes on some of the things that we're trying to highlight. Three years ago, we created here at Space and Missile System Center, the Space Enterprise Consortium to provide a platform, a contractual vehicle, really to enable us to rapidly prototype, development of space systems and to collaborate between the US Space Force, traditional defense contractors, non traditional vendors like startups, and even some academic institutions. SPEC, as we call it, Space Enterprise Consortium uses a specialized contracting tool to get contracts awarded quickly. Many in the audience may be familiar with other transaction agreements. And that's what SPEC is based on. And so far in just three years, SPEC has awarded 75 different prototyping contracts worth over $800 million with a 36% reduction in time to award. And because it's a consortium based competition for these kinds of prototyping efforts, the barrier to entry for small and nontraditional, for startups, even for academic institutions to be able to compete for these kinds of prototyping has really lowered. These types of partnerships that we've been working through on spec have really helped us work with smaller companies who might not have the background or expertise in dealing with the government or in working with cyber security for their systems, both our developmental systems and the systems that they're designing and trying to build. We want to provide ways for companies large and small to partner together in support kind of mutually beneficial relationships between all. Recently at the Annual Air Force Association conference that I mentioned earlier, I moderated a panel with several space industry leaders, all from big traditional defense contractors, by the way. And they all stressed the importance of building bridges and partnerships between major contractors in the defense industry and new entrance. And that helps us capture the benefits of speed and agility that come with small companies and startups, as well as the expertise and specialized skill sets of some of those larger contractors that we rely on day in and day out. Advanced cyber security protections and utilization of secure facilities are just a couple of things that I think we could be prioritizing more so in those collaborations. As I mentioned earlier, the SPEC has been very successful in awarding a number of different prototyping contracts and large dollar values. And it's just going to get better. There's over 400 members of the space enterprise consortium, 80% of them are non traditional kinds of vendors. And we just love working with them. Another thing that many people in the audience may be familiar with in terms of our outreach to innovators, if you will, and innovators that include cyber security experts is our space pitch day events. So we held our first event last November in San Francisco, where we awarded over a two day period about $46 million to 30 different companies that had potentially game changing ideas. These were phase two small business innovative research efforts that we awarded with cash on the spot. We're planning on holding our second space pitch day in the spring of 2021. We're planning on doing it right here in Los Angeles, COVID-19 environment permitting. And we think that these are fantastic venues for identifying and working with high-speed startups, and small businesses who are interested in really, truly partnering with the US Air Force. It's, as I said before, it's a really exciting time to be a part of this business. And working with the innovation economy is something that the Department of Defense really needs to do in that the innovation that we used to think was ours. That 80% of the industrial base innovation that came from the Department of Defense, the script has been flipped there. And so now more than 70%, particularly in space innovation comes from the commercial sector, not from the defense business itself. And so that's a tsunami of investment and a tsunami of a capability. And I need to figure out how to get my surfboard out and ride it, you know what I mean? >> Yeah, It's one of those things where the script has been flipped, but it's exciting because it's impacting everything. When you're talking about systems architecture? You're talking about software, you're talking about a business model. You're talking about dev sec opsx from a technical perspective, but now you have a business model innovation. All the theaters are exploding in innovation, technical, business, personnel. This brings up the workforce challenge. You've got the cyber needs for the US Space Force, It's probably great ROI model for new kinds of software development that could be priced into contracts. That's a entrepreneurial innovation, you've got the business model theater, you've got the personnel. How does the industry adopt and change? You guys are clearly driving this. How does the industry adjust to you? >> Yeah. So I think a great way to answer that question is to just talk about the kind of people that we're trying to prioritize in the US Space Force from an acquisition perspective, and in this particular case from a cybersecurity perspective. As I mentioned earlier, it's the most exciting time to be in space programs, really since the days of Apollo. Just to put it in terms that maybe have an impact with the audience. From 1957 until today, approximately 9,000 satellites have been launched from the various space varying countries around the planet. Less than 2000 of those 9,000 are still up on orbit and operational. And yet in the new space regime players like Space X have plans to launch, 12,000 satellites for some of their constellations alone. It really is a remarkable time in terms of innovation and fielding of space capabilities and all of those space capabilities, whether they're commercial, civil, or defense are going to require appropriate cybersecurity protections. It's just a really exciting time to be working in stuff like this. And so folks like the folks in this audience who have a passion about space and a passion about cybersecurity are just the kind of people that we want to work with. Cause we need to make sure our systems are secure and resilient. We need folks that have technical and computing expertise, engineering skills to be able to design cyber secure systems that can detect and mitigate attacks. But we also, as you alluded to, we need people that have that business and business acumen, human networking background, so that we can launch the startups and work with the non traditional businesses. Help to bring them on board help, to secure both their data and our data and make sure our processes and systems are free as much as possible from attack. For preparation, for audience members who are young and maybe thinking about getting into this trade space, you got to be smart on digital networking. You got to understand basic internet protocols, concepts, programming languages, database design. Learn what you can for penetration or vulnerability testing and a risk assessment. I will tell you this, and I don't think he will, I know he will not mind me telling you this, but you got to be a lifelong learner and so two years ago, I'm at home evening and I get a phone call on my cell phone and it's my boss, the commander of Air Force Space command, General, J. Raymond, who is now currently the Chief of Space Operations. And he is on temporary duty, flying overseas. He lands where he's going and first thing he does when he lands is he calls me and he goes JT, while I was traveling, I noticed that there were eBooks available on the commercial airliner I was traveling on and there was an ebook on something called scrumming and agile DevSecOps. And I read it, have you read it? And I said, no, sir. But if you tell me what the title of the book is, I will read it. And so I got to go to my staff meeting, the very next week, the next time we had a staff meeting and tell everybody in the staff meeting, hey, if the four star and the three star can read the book about scrumming, then I'm pretty sure all of you around this table and all our lieutenants and our captains our GS13s, All of our government employees can get smart on the scrumming development process. And interestingly as another side, I had a telephone call with him last year during the holidays, where he was trying to take some leave. And I said, sir, what are you up to today? Are you making eggnog for the event tonight or whatever. And the Chief of Space Operations told me no, I'm trying to teach myself Python. I'm at lesson two, and it's not going so well, but I'm going to figure this out. And so that kind of thing, if the chief of staff or the Chief of Space Operations can prioritize scrumming and Python language and innovation in his daily schedule, then we're definitely looking for other people who can do that. And we'll just say, lower levels of rank throughout our entire space force enterprise. Look, we don't need people that can code a satellite from scratch, but we need to know, we need to have people that have a basic grasp of the programming basics and cybersecurity requirements. And that can turn those things into meaningful actions, obviously in the space domain, things like basic physics and orbital mechanics are also important spaces, not an intuitive domain. So under understanding how things survive on orbit is really critical to making the right design and operational decisions. And I know there's probably a lot, because of this conference. I know there's probably a whole lot of high speed cybersecurity experts out in the audience. And I need those people in the US Space Force. The country is counting on it, but I wouldn't discount having people that are just cyber aware or cyber savvy. I have contracting officers and logisticians and program managers, and they don't have to be high end cybersecurity experts, but they have to be aware enough about it to be able to implement cyber security protections into our space systems. So the skill set is really, really broad. Our adversaries are pouring billions of dollars into designing and fielding offensive and destructive space, cybersecurity weapons. They repeatedly shown really a blatant disregard of safety and international norms for good behavior on orbit. And the cyber security aspects of our space systems is really a key battleground going forward so that we can maintain that. As I mentioned before, peaceful global comments of space, we really need all hands on deck. If you're interested in helping in uniform, if you're interested in helping, not in uniform, but as a government employee, a commercial or civil employee to help us make cyber security more important or more able to be developed for our space systems. And we'd really love to work with you or have you on the team to build that safe and secure future for our space systems. >> Lieutenant General John Thompson, great insight. Thank you for sharing all that awesome stories too, and motivation for the young next generation. The United States Space Force approach to cybersecurity. Really amazing talk, thank you for your time. Final parting question is, as you look out and you have your magic wand, what's your view for the next few years in terms of things that we could accomplish? It's a super exciting time. What do you hope for? >> So first of all, John, thanks to you and thanks to Cal Poly for the invitation and thanks to everybody for their interest in cybersecurity, especially as it relates to space systems, that's here at the conference. There's a quote, and I'll read it here from Bernard Schriever, who was the founder, if you will, a legend in a DoD space, the founder of the Western development division, which was a predecessor organization to Space and Missile System Center, General Schriever, I think captures the essence of how we see the next couple of years. "The world has an ample supply of people "who can always come up with a dozen good reasons "why new ideas will not work and should not be tried, "but the people who produce progress are breed apart. "They have the imagination, "the courage and the persistence to find solutions." And so I think if you're hoping that the next few years of space innovation and cybersecurity innovation are going to be upon a pony ride at the County fair, then perhaps you should look for another line of work, because I think the next few years in space and cybersecurity innovation are going to be more like a rodeo and a very dynamic rodeo as it goes. It is an awesome privilege to be part of this ecosystem. It's really an honor for me to be able to play some small role in the space ecosystem and trying to improve it while I'm trying to improve the chances of the United States of America in a space war fighting environment. And so I thank all of you for participating today and for this little bit of time that you've allowed me to share with you. Thank you. >> Sir, thank you for your leadership and thank you for the time for this awesome event, Space and Cyber Cybersecurity Symposium 2020, I'm John Furrier on behalf of Cal Poly, thanks for watching. (mellow music)

>> from Boston, Massachusetts. It's the queue covering active eo 2019. Data driven you by activity. >> Welcome back to Boston. Everybody watching the Cube, the leader and on the ground tech coverage money was David wanted here with my co host. A student of John for is also in the house. This is active FiOS data driven 19 conference. They're second year, John. Her stick is here is the co founder and CEO of on shape John. Thanks for coming in the Cube. Great to have you great to be here. So love the cofounder. I always ask your father. Why did you start the company? Well, we found it on shape because >> we saw an opportunity to improve how every product on Earth gets developed. Let people who develop products do it faster, B'more, innovative, and do it through a new generation software platform based in the cloud. That's our vision for on shape, That's why. Okay, >> so that's great. You start with the widened. The what is just new generation software capabilities to build the great products visualized actually create >> way took the power of cloud web and mobile and used it to re implement a lot of the classic tools for product development. Three d cad Data management Workflow Bill of Materials. He's may not mean anything to you, but they mean a lot to product developers, and we believe by by moving in the cloud by rethinking them for the cloud we can give people capabilities they've never had before. >> John, bring us in tight a little bit. So you know, I think I've heard a lot the last few years. It's like, Well, I could just do everything a simulation computer simulation. We can have all these models. They could make their three D printings changing the way I build prototypes. So what's kind of state of the state and in your fields? So >> the state of the Art R field is to model product in three dimensions in the computer before you build it for lots of reasons. For simulation for three D printing, you have to have a CAD model to do it, to see how it'll look, how parts fit together, how much it will cost. Really, every product today is built twice. First, it's built in the computer in three dimensions, is a digital model, then it's built in the real world, and what we're trying to do is make those three D modeling and data management collaboration tools to take them to a whole nother level to turbo charge it, if you will, so that teams can can work together even if they're distribute around the world. They work faster. They don't have to pay a tax to install and Karen feed for these systems. You're very complicated, a whole bunch of other benefits. So we talk about the cloud model >> you're talking about a sass model, a subscription model of different customer experience, all of the above, all of the above. Yeah, it's definitely a sass model we do on Ly SAS Way >> hosted and, uh, Amazon. Eight of us were all in with Amazon. It's a it's a subscription model, and we provide a much better, much more modern, better, more productive experience for the user CIA disrupting the traditional >> cad business. Is that Is that right? I mean more than cat cat Plus because there's no such thing as a cad company anymore. We're essentially disrupting the systems that we built because I've been in this business 30 38 years now. I've been doing this. I feel like I'm about half done. Really, really talking about >> your career. Way to start out. Well, I grew up in Chicago. I went to M I t and majored in mechanical engineering and knew howto program computers. And I go to get an internship in 1981 and they say computers, mechanical injury. You need to work on CAD. And I haven't stopped since, you know, because Because we're not done, you know, still still working here. You would >> have me, right? You can't let your weight go dynamic way before we get off on the M I t. Thing you were part of, you know, quite well known group. And Emmet tell us a little bit >> about what you're talking about. The American society of Mechanical Engineer >> has may I was actually an officer and and as any I know your great great events, but the number 21 comes to >> mind you're talking about the MIT blackjack team? Yes, I was, ah, player on the MIT blackjack team, and it's the team featured in movies, TV shows and all that. Yeah, very exciting thing to be doing while I was working at the cath lab is a grad student, you know, doing pursuing my legitimate career. There is also also, uh, playing blackjack. Okay, so you got to add some color to that. So where is the goal of the M I T. Blackjack team? What did you guys do? The goal of the M I t blackjack team was honestly, to make money using legal means of skill to Teo obtain an edge playing blackjack. And that's what we did using. Guess what? The theme of data which ties into this data driven conference and what active Eo is doing. I wish we had some of the data tools of today. I wish we had those 30 years ago. We could have We could have done even more, but it really was to win money through skill. Okay, so So you you weren't wired. Is that right? I mean, it was all sort of No, at the time, you could not use a computer in the casino. Legally, it was illegal to use a computer, so we didn't use it. We use the computer to train ourselves to analyze data. To give a systems is very common. But in the casino itself, we were just operating with good old, you know, good. This computer. Okay. And this computer would what you would you would you would count cards you would try to predict using your yeah, count cards and predict in card. Very good observation there. Card counting is really essentially prediction. In a sense, it's knowing when the remaining cards to be dealt are favorable to the player. That's the goal card counting and other systems we used. We had some proprietary systems to that were very, very not very well known. But it was all about knowing when you had an edge and when you did betting a lot of money and when you didn't betting less double doubling down on high probability situations, so on, So did that proceed Or did that catalyze like, you know, four decks, eight decks, 12 12 decks or if they were already multiple decks. So I don't think we drove them to have more decks. But we did our team. Really. Some of the systems are team Pioneer did drive some changes in the game, which are somewhat subtle. I could get into it, you know, I don't know how much time we have that they were minor changes that our team drove. The multiple decks were already are already well established. By the time my team came up, how did you guys do you know it was your record? I like to say we won millions of dollars during the time I was associated with the team and pretty pretty consistently won. We didn't win every day or every weekend, but we'd run a project for, say, six months at a time. We called it a bank kind of like a fund, if you will, into no six months periods we never lost. We always won something, sometimes quite a bit, where it was part of your data model understanding of certain casinos where there's certain casinos that were more friendly to your methodology. Yes, certain casinos have either differences in rules or, more commonly, differences in what I just call conditions like, for instance, obviously there's a lot of people betting a lot of money. It's easier to blend in, and that's a good thing for us. It could be there there. Their aggressiveness about trying to find card counters right would vary from casino to casino, those kinds of factors and occasionally minor rule variations to help us out. So you're very welcome at because he knows is that well, I once that welcome, I've actually been been Bardet many facilities tell us about that. Well, you get, you get barred, you get usually quite politely asked toe leave by some big guy, sometimes a big person, but sometimes just just honestly, people who like you will just come over and say, Hey, John, we'd rather you not play blackjack here, you know that. You know, we only played in very upstanding professional kind of facilities, but still, the message was clear. You know, you're not welcome here in Las Vegas. They're allowed to bar you from the premises with no reason given in Las Vegas. It's just the law there in Atlantic City. That was not the law. But in Vegas they could bar you and just say you're not welcome. If you come back, we'll arrest you for trespassing. Yeah, And you really think you said everything you did was legal? You know, we kind of gaming the system, I guess through, you know, displaying well probabilities and playing well. But this interesting soothe casinos. Khun, rig the system, right? They could never lose, but the >> players has ever get a bet against the House. >> How did >> you did you at all apply that experience? Your affinity to data to you know, Let's fast forward to where you are now, so I think I learned a lot of lessons playing blackjack that apply to my career and design software tools. It's solid works my old company and now death. So System, who acquired solid words and nowt on shape I learned about data and rigor, could be very powerful tools to win. I learned that even when everyone you know will tell you you can't win, you still can win. You know that a lot of people told me Black Jack would never work. A lot of people told me solid works. We never worked. A lot of people told me on shape would be impossible to build. And you know, you learn that you can win even when other people tell you, Can't you learn that in the long run is a long time? People usually think of what you know, Black Jack. You have to play thousands of hands to really see the edge come out. So I've learned that in business sometimes. You know, sometimes you'll see something happened. You just say, Just stay the course. Everything's gonna work out, right? I've seen that happen. >> Well, they say in business oftentimes, if people tell you it's impossible, you're probably looking at a >> good thing to work on. Yeah. So what's made it? What? What? What was made it ostensibly impossible. How did you overcome that challenge? You mean, >> uh, on >> shape? Come on, Shake. A lot of people thought that that using cloud based tools to build all the product development tools people need would be impossible. Our software tools in product development were modeling three D objects to the precision of the real world. You know that a laptop computer, a wristwatch, a chair, it has to be perfect. It's an incredibly hard problem. We work with large amounts of data. We work with really complex mathematics, huge computing loads, huge graphic loads, interactive response times. All these things add up to people feeling Oh, well, that would never be possible in the cloud. But we believe the opposite is true. We believe we're going to show the world. And in the future, people say, you know We don't understand how you do it without the cloud because there's so much computing require. >> Yeah, right. It seems you know where we're heavy in the cloud space. And if you were talking about this 10 years ago, I could understand some skepticism in 10 2019. All of those things that you mentioned, if I could spin it up, I could do it faster. I can get the resources I need when I needed a good economics. But that's what the clouds built for, as opposed to having to build out. You know, all of these resource is yourself. So what >> was the what was the big technical challenge? Was it was it? Was it latent? See, was it was tooling. So performance is one of the big technical challenges, As you'd imagine, You know, we deliver with on shape we deliver a full set of tools, including CAD formal release management with work flow. If that makes sense to you. Building materials, configurations, industrial grade used by professional companies, thousands of companies around the world. We do that all in a Web browser on any Mac Windows machine. Chromebook Lennox's computer iPad. I look atyou. I mean, we're using. We run on all these devices where the on ly tools in our industry that will run on all these devices and we do that kind of magic. There's nothing install. I could go and run on shape right here in your browser. You don't need a 40 pound laptop, so no, you don't need a 40 pound laptop you don't need. You don't need to install anything. It runs like the way we took our inspiration from tools like I Work Day and Sales Force and Zen Desk and Nets. Sweet. It's just we have to do three D graphics and heavy duty released management. All these complexities that they didn't necessarily have to do. The other thing that was hard was not only a technical challenge like that, but way had to rethink how workflow would happen, how the tools could be better. We didn't just take the old tools and throw him up in a cloud window, we said, How could we make a better way of doing workflow, release management and collaboration than it's ever been done before? So we had to rethink the user experience in the paradigms of the systems. Well, you know, a lot of talk about the edge and if it's relevant for your business. But there's a lot of concerns about the cloud being able to support the edge. But just listening to you, John, it's It's like, Well, everybody says it's impossible. Maybe it's not impossible, but maybe you can solve the speed of light problem. Any thoughts on that? Well, I think all cloud solutions use edge to some degree. Like if you look at any of the systems. I just mentioned sales for us workday, Google Maps. They're using these devices. I mean, it's it's important that you have a good client device. You have better experience. They don't just do everything in the cloud. They say There, there. To me, they're like a carefully orchestrated symphony that says We'll do these things in the core of the cloud, these things near the engineer, the user, and then these things will do right in the client device. So when you're moving around your Google map or when you're looking this big report and sales force you're using the client to this is what are we have some amazing people on her team, like R. We have the fellow who was CTO of Blade Logic. Robbie Ready. And he explains these concepts to make John Russo from Hey came to us from Verizon. These are people who know about big systems, and they helped me understand how we would distribute these workloads. So there's there's no such thing is something that runs completely in the cloud. It has to send something down. So, uh, talk aboutthe company where you're at, you guys have done several raises. You've got thousands of customers. You maybe want to add a couple of zeros to that over time is what's the aspirations? Yeah, correct. We have 1000. The good news is we have thousands of customer cos designing everything you could imagine. Some things never would everything from drones two. We have a company doing nuclear counter terrorism equipment. Amazing stuff. Way have people doing special purpose electric vehicles. We have toys way, have furniture, everything you'd imagined. So that's very gratifying. You us. But thousands of companies is still a small part of the world. This is a $10,000,000,000 a year market with $100,000,000,000 in market cap and literally millions of users. So we have great aspirations to grow our number of users and to grow our tool set capability. So let's talk to him for a second. So $10,000,000,000 current tam are there. Jason sees emerging with all these things, like three D printing and machine intelligence, that that actually could significantly increase the tam when you break out your binoculars or even your telescope. Yes, there are. Jason sees their increasing the tam through. Like you say, new areas drive us So So obviously someone is doing more additive manufacturing. More generative design. They're goingto have more use for tools like ours. Cos the other thing that I observed, if I can add one, it's my own observations. I think design is becoming a greater component of GDP, if you will, like if you look at how much goods in the world are driven by design value versus a decade or two or when I was a child, you know, I just see this is incredible amount, like products are distinguished by design more and more, and so I think that we'll see growth also through through the growth in design as an element of GDP on >> Jonah. I love that observation actually felt like, you know, my tradition. Engineering education. Yeah, didn't get much. A lot of design thing. It wasn't until I was in industry for years. That had a lot of exposure to that. And it's something that we've seen huge explosion last 10 years. And if you talk about automation versus people, it's like the people that designed that creativity is what's going to drive into the >> absolutely, You know, we just surveyed almost 1000 professionals product development leaders. Honestly, I think we haven't published our results yet, So you're getting it. We're about to publish it online, and we found that top of mind is designed process improvements over any particular technology. Be a machine learning, You know, the machine learning is a school for the product development. How did it manufacturers a tool to develop new products, but ultimately they have to have a great process to be competitive in today's very competitive markets. Well, you've seen the effect of the impact that Apple has had on DH sort of awakening people to know the value of grace. Desire absolutely have to go back to the Sony Walkman. You know what happened when I first saw one, right? That's very interesting design. And then, you know, Dark Ages compared to today, you know, I hate to say it. Not a shot at Sony with Sony Wass was the apple? Yeah, era. And what happened? Did they drop the ball on manufacturing? Was it cost to shoot? No. They lost the design leadership poll position. They lost that ability to create a world in pox. Now it's apple. And it's not just apple. You've got Tesla who has lit up the world with exciting design. You've got Dyson. You know, you've got a lot of companies that air saying, you know, it's all about designing those cos it's not that they're cheaper products, certainly rethinking things, pushing. Yeah, the way you feel when you use these products, the senses. So >> that's what the brand experience is becoming. All right. All right, John, thanks >> so much for coming on. The Cuban sharing your experiences with our audience. Well, thank you for having me. It's been a pleasure, really? Our pleasure. All right, Keep right. Everybody stupid demand. A volonte, John Furry. We've been back active, eo active data driven 19 from Boston. You're watching the Cube. Thanks