>>Welcome back here on the Cube. I'm John Walls. We are in Las Vegas at the Venetian, and this is Reinvent 22 in the Executive Summit sponsored by Accenture. Glad to have you with us here as we continue our conversations. I'm joined by Paul Puckett, who's the former director of the Enterprise Cloud Management Services at the US Army. Paul, good to see you sir. Hey, you as well, John. Thank you. And Justin, she who is managing director and cloud go to market lead at Accenture Federal Services. Justin, good morning to you. Good morning, John. Yeah, glad to have you both here on the cube. First time too, I believe, right? Yes sir. Well, welcome. I wish we had some kind of baptism or indoctrination, but I'll see what I can come up with in the next 10 minutes for you. Let's talk about the Army, Paul. So enterprise cloud management, US Army. You know, I can't imagine the scale we're talking about here. I can't imagine the solutions we're talking about. I can't imagine the users we're talking about. Just for our folks at home, paint the picture a little bit of what kind of landscape it is that you have to cover with that kind of title. >>Sure. The United States Army, about 1.4 million people. Obviously a global organization responsible for protecting and defending the United States as part of our sister services in the Department of Defense. And scale often comes up a lot, right? And we talk about any capability to your solution for the United States Army scale is the, the number one thing, but oftentimes people overlook quality first. And actually when you think of the partnership between the Army and Accenture Federal, we thought a lot when it came to establishing the enterprise Cloud management agency that we wanted to deliver quality first when it came to adopting cloud computing and then scale that quality and not so much be afraid of the, the scale of the army and the size that forces us to make bad decisions. Cuz we wanted to make sure that we proved that there was opportunity and value in the cloud first, and then we wanted to truly scale that. And so no doubt, an immense challenge. The organization's been around for now three years, but I think that we've established irreversible momentum when it comes to modernization, leveraging cloud computing >>For the army. So let's back up. You kind of threw it in there, the ecma. So this agency was, was your a collaboration, right? To create from the ground up and it's in three years in existence. So let's just talk about that. What went into that thinking? What went into the planning and then how did you actually get it up and run into the extent that it is today? >>Sure. Well, it was once the enterprise cloud management office. It was a directorate within the, the CIO G six of the United States Army. So at the headquarters, the army, the chief information Officer, and the G six, which is essentially the military arm for all IT capability were once a joint's organization and the ECMO was created to catalyze the adoption of cloud computing. The army had actually been on a, a cloud adoption journey for many years, but there wasn't a lot of value that was actually derived. And so they created the ecma, well, the ECMO at the time brought me in as the director. And so we were responsible for establishing the new strategy for the adoption of cloud. One of the components of that strategy was essentially we needed an opportunity to be able to buy cloud services at scale. And this was part of our buy secure and build model that we had in place. And so part of the buy piece, we put an acquisition strategy together around how we wanted to buy cloud at scale. We called it the cloud account management optimization. OTA >>Just rolls right off the >>Tongue, it just rolls right off the tongue. And for those that love acronyms, camo, >>Which I liked it when I was say cama, I loved that. That was, that was, >>You always have to have like a tundra, a little >>Piece of that. Very good. It was good. >>But at the time it was novetta, no, Nevada's been bought up by afs, but Novea won that agreement. And so we've had this partnership in place now for just about a year and a half for buying cloud computing net scale. >>So let's talk about, about what you deal with on, on the federal services side here, Justin, in terms of the army. So obviously governance, a major issue, compliance, a major issue, security, you know, paramount importance and all that STEM leads up to quality that Paul was talking about. So when you were looking at this and keeping all those factors in, in your mind, right? I mean, how many, like, oh my God, what kind of days did you have? Oh, well, because this was a handful. >>Well, it was, but you could see when we were responding to the acquisition that it was really, you know, forward thinking and forward leaning in terms of how they thought about cloud acquisition and cloud governance and cloud management. And it's really kind of a sleepy area like cloud account acquisition. Everyone's like, oh, it's easy to get in the cloud, you know, run your credit card on Amazon and you're in, in 30 seconds or less. That's really not the case inside the federal government, whether it's the army, the Air Force or whoever, right? Those, those are, they're real challenges in procuring and acquiring cloud. And so it was clear from, you know, Paul's office that they understood those challenges and we were excited to really meet them with them. >>And, and how, I guess from an institutional perspective, before this was right, I I assume very protective, very tight cloistered, right? You, you, in terms of being open to or, or a more open environment, there might have been some pushback was they're not. Right? So dealing with that, what did you find that to be the case? Well, so >>There's kind of a few pieces to unpacking that. There's a lot of fear in trepidation around something you don't understand, right? And so part of it is the teaching and training and the, and the capability and the opportunity in the cloud and the ability to be exceptionally secure when it comes to no doubt, the sensitivity of the information of the Department of Defense, but also from an action acquisition strategy perspective, more from a financial perspective, the DOD is accustomed to buying hardware. We make these big bets of these big things to, to live in today's centers. And so when we talk about consuming cloud as a utility, there's a lot of fear there as well, because they don't really understand how to kind of pay for something by the drink, if you will, because it incentivizes them to be more efficient with their utilization of resources. >>But when you look at the budgeting process of the d od, there really is not that much of incentive for efficiency. The p PPE process, the planning program, budgeting, execution, they care about execution, which is spending money and you can spend a lot of money in the cloud, right? But how are you actually utilizing that? And so what we wanted to do is create that feedback loop and so the utilization is actually fed into our financial systems that help us then estimate into the future. And that's the capability that we partnered with AFS on is establishing the closing of that feedback loop. So now we can actually optimize our utilization of the cloud. And that's actually driving better incentives in the PPE >>Process. You know, when you think about these keywords here, modernized, digitized, data driven, so on, so forth, I, I don't think a lot of people might connect that to the US government in general just because of, you know, it's a large intentionally slow moving bureaucratic machine, right? Is that fair to characterize it that way? It >>Is, but not in this case. Right? So what we done, >>You you totally juxtapose that. Yeah. >>Yeah. So what we've done is we've really enabled data driven decision making as it relates to cloud accounts and cloud governance. And so we have a, a tool called Cloud Tracker. We deployed for the army at a number of different classifications, and you get a full 360 view of all of your cloud utilization and cloud spend, you know, really up to date within 24 hours of it occurring, right? And there a lot of folks, you know, they didn't never went into the console, they never looked at what they were spending in cloud previously. And so now you just go to a simple web portal and see the entire entirety of the army cloud spend right there at your fingertips. So that really enables like better decision making in terms of like purchasing savings plans and reserved instances and other sorts of AWS specific tools to help you save money. >>So Paul, tell me about Cloud Tracker then. Yeah, I mean from the client side then, can you just say this dashboard lays it out for you right? In great detail about what kind of usage, what kind of efficiencies I assume Yeah. What's working, what's not? >>Absolutely. Well, and, and I think a few things to unpack that's really important here is listen, any cloud service provider has a concept. You can see what you're actually spending. But when it comes to money in the United States government, there are different colors of money. There's regulations when it comes to how money is identified for different capabilities or incentives. And you've gotta be very explicit in how you track and how you spend that money from an auditability perspective. Beyond that, there is a move when it comes to the technology business management, which is the actual labeling of what we actually spend money on for different services or labor or software. And what Cloud Tracker allows us to do is speak the language of the different colors of money. It allows us to also get very fine grain in the actual analysis of, from a TBM perspective, what we're spending on. >>But then also it has real time hooks into our financial systems for execution. And so what that really does for us is it allows us to complete the picture, not just be able to see our spend in the cloud, but also be able to able to see that spending context of all things in the P P P E process as well as the execution process that then really empowers the government to make better investments. And all we're seeing is either cost avoidance or cost savings simply because we're able to close that loop, like I said. Yep. And then we're able to redirect those funds, retag them, remove them through our actual financial office within the headquarters of the army, and be able to repurpose that to other modernization efforts that Congress is essentially asking us to invest >>In. Right. So you know how much money you have, basically. Exactly. Right. You know how much you've already spent, you know how you're spending it, and now you how much you have left, >>You can provide a reliable forecast for your spend. >>Right. You know, hey, we're, we're halfway through this quarter, we're halfway through the, the fiscal year, whatever the case might be. >>Exactly. And the focus on expenditures, you know, the government rates you on, you know, how much have you spent, right? So you have a clear total transparency into what you're going to spend through the rest of the fiscal. Sure. >>All right. Let's just talk about the relationship quickly then about going forward then in terms of federal services and then what on, on the, the US Army side. I mean, what now you've laid this great groundwork, right? You have a really solid foundation where now what next? >>We wanna be all things cloud to the army. I mean, we think there's tremendous opportunity to really aid the modernization efforts and governance across the holistic part of the army. So, you know, we just, we want to, we wanna do it all with the Army as much as we can. It's, it's, it's a fantastic >>Opportunity. Yeah. AFS is, is in a very kind of a strategic role. So as part of the ecma, we own the greater strategy and execution for adoption of cloud on behalf of the entire army. Now, when it comes to delivery of individual capabilities for mission here and there, that's all specific to system owners and different organizations. AFS plays a different role in this instance where they're able to more facilitate the greater strategy on the financial side of the house. And what we've done is we've proven the ability to adopt cloud as a utility rather than this fixed thing, kind of predict the future, spend a whole bunch of money and never use the resource. We're seeing the efficiency for the actual utilization of cloud as a utility. This actually came out as one of the previous NDAs. And so how we actually address nda, I believe it was 2018 in the adoption of cloud as a utility, really is now cornerstone of modernization across all of the do d and really feeds into the Jo Warfighting cloud capability, major acquisition on behalf of all of the D O D to establish buying cloud as just a common service for everyone. >>And so we've been fortunate to inform that team of some of our lessons learned, but when it comes to the partnership, we just see camo moving into production. We've been live for now a year and a half. And so there's another two and a half years of runway there. And then AFS also plays a strategic role at part of our cloud enablement division, which is essentially back to that teaching part, helping the Army understand the opportunity of cloud computing, align the architectures to actually leverage those resources and then deliver capabilities that save soldier's >>Lives. Well, you know, we've, we've always known that the Army does its best work on the ground, and you've done all this groundwork for the military, so I'm not surprised, right? It's, it's a winning formula. Thanks to both of you for being with us here in the executive summit. Great conversation. Awesome. Thanks for having us. A good deal. All right. Thank you. All right. You are watching the executive summit sponsored by Accenture here at Reinvent 22, and you're catching it all on the cube, the leader in high tech coverage.

>>Welcome back to the cubes coverage here in Washington D. C. For a W. S. Public sector summit. I'm john fraser host of the queues and in person event but of course we have remote guests. It's a hybrid event as well. Amazon is streaming amazon web services, streaming all the teams, some of the key notes of course all the cube interviews are free and streaming out there as well on the all the cube channels and all the social coordinates. Our next guest is Melissa Pavlik President and Ceo POV con joining me here to talk about predictive maintenance, bringing that to life for the U. S. Air Force melissa. Thanks for coming in remotely on our virtual cube here at the physical event. >>Excellent, thank you. Good morning >>Show. People have been been um face to face for the first time since 2019. A lot of people remote calling in checking things out kind of an interesting time, right? We're living in so uh what's your, what's your take on all this? >>Sure. I mean it's a new way of doing business, right? Um I will say, I guess for us as a company we always have been remote so it's not too much of a change but it is definitely challenging, especially trying to engage with such a large user community such as the United States Air Force who isn't always used to working as remotely. So it's definitely a unique challenge for sure. >>Well let's get into, I love this topic. You had a real success story. There is a case study with the U. S. Air Force, what's the relationship take us through what you guys are doing together? >>Sure. Absolutely. So we started working with the Air Force now about five years ago on this subject and predictive maintenance. Sometimes you might hear me catch myself and say CBM plus condition based maintenance. They're synonymous. They mean the exact same thing basically. But about five years ago the Air Force was contemplating how do we get into a space of getting ahead of unscheduled maintenance events? Um if the military they're big push always his readiness how do we improve readiness? So to do that it was a big ask of do we have the data to get ahead of failures? So we started on this journey about five years ago as I said and frankly we started under the radar we weren't sure if it was going to work. So we started with two platforms. And of course when I think a lot of people here predictive maintenance, they immediately think of sensor data and sensors are wonderful data but unfortunately especially in an entity such as the Air Force not all assets are censored. So it also opened up a whole other avenue of how do we use the data that they have today to be able to generate and get ahead of failures. So it did start a really great partnership working not only with the individual, I'll say Air Force entities that Air Force Lifecycle Management Center but we also worked across all the major commands, the individual units, supply control, logistics and everyone else. So it's been a really great team effort to bring together all of those but typically would be rather segregated operations together. >>Yeah, they're getting a lot of props lately on a lot of their projects across the board and this one particular, how did you guys specifically help them modernize and with their and get this particular maintenance thing off the ground? >>Absolutely. I think quite simply it was what really we put their existing data to work. We really wanted to get in there and think about they already had a ton of data. There wasn't a need to generate more. We're talking about petabytes of information. So how do we use that and put it into a focus of getting ahead of failure? We said we established basically three key performance parameters right from the beginning it was, we knew we wanted to increase availability which was going to directly improve readiness. We needed to make sure we were reducing mission aborts and we wanted to get ahead of any kind of maintenance costs. So for us it was really how do we leverage and embrace machine learning and ai paired with just big data analytics and how do we take frankly what is more of a World War Two era architecture and turn it into something that is in the information age. So our modernization really started with how do we take their existing data and turn it into something that is useful and then simultaneously how do we educate the workforce and helping them understand what truly machine learning and AI offer because I think sometimes there's everyone has their own opinions of what that means, but when you put it into action and you need to make sure that it's something that they can take action on, right, it's not just pushing a dot moving numbers around, it's really thinking about and considering how their operations are done and then infusing that with the data on the back end, >>it's awesome. You know the old workflows in the cloud, this is legit, I mean physical assets, all kinds of things and his legacy is also but you want the modernization, I was gonna ask you about the machine learning and ai component, you brought that up. What specifically are you leveraging their from the ai side of the machine learning side? >>Absolutely for us, most and foremost we're talking about responsible a i in this case because unfortunately a lot of the data in the Air Force is human entry, so it's manual, which basically means it's open and rife for a lot of error into that data. So we're really focused heavily on the data integrity, we're really focused on utilizing different types of machine learning because I think on the surface the general opinion is there's a lot of data here. So it would open itself naturally into a lot of potential machine learning techniques, but the reality situation is this data is not human understandable unless you are a prior maintainer, frankly, it's a lot of codes, there's not a whole lot of common taxonomy. So what we've done is we've looked at those supervised and unsupervised models, we've taken a whole different approach to infusing it with truly, what I would say arguably is the most important key element, domain expertise. You know, someone who actually understands what this data means. So that way we can in in End up with actionable output something that the air force can actually put into use, see the results coming out of it. And thus far it's been great. Air mobility command has come back and said we've been able to reduce their my caps, which are parts waiting for maintenance by 18%. That's huge in this space. >>Yeah, it's interesting about unsupervised and supervised machine learning. That's a big distinct because you mentioned there's a lot of human error going on. That's a big part. Can you explain a little bit more because that was that to solve the human error part or was it the mix and match because the different data sets, but why the why both machine learning modes. >>So really it was to address both items frankly. When we started down this path, we weren't sure we were going to find right, We went in with some hypotheses and some of those ended up being true and others were not. So it was a way for us to quickly adjust as we needed to again put the data into actionable use and make sure we were responsibly doing that. So for us a lot of it, because it's human understanding and human error that goes into this natural language processing is a really big area in this space. So for us, adjusting between and trying different techniques is really where we were able to discover and find out what was going to be the most effective and useful in this particular space as well as cost effective. Because for us there's also this resistance, you have to have resist the urge to want to monitor everything. In this case we're talking about really focusing on those top drivers and depending on the type of data that we had, depending on the users that we knew were going to get involved with it as well as I would say, the historical information, it really would help us dictate on supervised versus supervised and going the unsupervised route. In some cases there's just still not ready for that because the data is just so manual. Once we get to a point where there is more automation and more automated data collection, unsupervised will definitely no doubt become more valuable right now though, in order to get those actionable. That supervised modeling was really what we found to be the most valuable >>and that makes total sense. You've got a lot of head room to grow into with Unsupervised, which is actually harder as you as you know, everyone, everyone everyone knows that. But I mean that's really the reality. Congratulations. I gotta ask you on the AWS side what part do they play in all this? Obviously the cloud um their relationship with the Air Force as well, what's their what's their role in this particular maintenance solution? >>Sure, absolutely. And I'll just say, I mean we're really proud to be a partner network with them and so when we started this there was no cloud, so today a lot of opportunity or things we hear about in the Air Force where like cloud one platform one, those weren't in existence, you know, five years ago or so. So for us when we started down this path and we had to identify very quickly a format and a host location that would allow us not only handle large amounts of data but do all of the deep analysis we needed to AWS GovCloud is where that came in. Plus it also is awesome that they were already approved at I. L. Five to be able to host that we in collaboration with them host a nist 801 +71 environment. And so it's really allowed us to to grow and deliver this this impact out over 6000 users today on the Air Force side. So for us with a W. S. Has been a great partnership. They obviously have some really great native services that are inside their cloud as well as the pairing and easy collaboration among not only licensed products but also all that free and open source that's out there because again, arguably that's the best community to pull from because they're constantly evolving and working in the space. But a W has been a really great partner for us and of course we have some of our very favorite services I'm happy to talk about, but they've been really great to work with >>what's the top services. >>So for us, a lot of top services are like ec two's work spaces, of course S three and Glacier um are right up there, but you really enjoy working across glue Athena were really big on, we find a commercial service we're looking for that's not yet available in Govcloud. And we pull in our AWS partners and ask, hey, you know when it's going to get into the gulf cloud space and they move pretty quickly to get those in there. So recent months are definitely a theme in blue. Well, >>congratulations, great solution, I love this application because it highlights the power of the cloud, What's the future in store for the U. S. Air Force when it comes to predictive maintenance. >>Sure. I mean, I think at this point they are just going to continue adding additional top driver analyses you through our work for the past couple years. We've identified a lot of operational and functional opportunities for them. So there's gonna be some definitely foundational changing coming along, some enabling new technologies to get that data integrity more automated as well so that there isn't such a heavy lift on the downstream, we're talking about data cleansing, but I think as far as predictive maintenance goes, we're definitely going to see more and more improvements across the readiness level, getting rid of and eliminating that unscheduled event that drives a lot of the readiness concerns that are out there. And we're also hoping to see a lot more improvement and I'd say enhancement across the supply chain because we know that's also an area that really they could get ahead on your part of our other work as we developed a five year long range supply forecast and it's really been opening some eyes to see how they can better plan, not only on the maintenance side but also supporting maintenance from a logistics and supply, >>great stuff melissa. Great to have you on President Ceo Path Con, you're also the business owner. Um how's things going with the business? The pandemic looks like I'm gonna come out of it stronger. Got the tailwind with cloud technology. The modernization boom is here in, in Govcloud, 10 years celebrating Govcloud birthday here at this event. How's business house? How are you doing >>good. Everything has actually been, we were, I guess fortunate, as I mentioned the very beginning, we were remote companies. So fortunately for us the pandemic did not have that much of an operational hiccup and being that a lot of our clients are in the federal space, we were able to continue working and amazingly we actually grew during the pandemic. We added quite a bit of a personnel to the team and so we're looking forward to doing some more predictive maintenance across, not only explaining the Air Force but the other services as well. >>You know, the people who were Agile had some cloud action going on, we're productive and they came out stronger melissa. Great to have you on the cube. Thank you for coming in remotely and joining our face to face event from the interwebs. Thank you so much for coming on cuba >>All right, thank you, john have a great rest of your day. >>Okay. I'm john for here at the cube with a W. S. Public sector summit in person and remote bringing guest on. We've got the new capability of bringing remotes in. We do in person. I'll see you face to face hear the cube and it's like to be here at the public sector summit. Thanks for watching. Mhm. Mhm >>robert, Herjavec

(high intensity music) >> Everyone, welcome back to theCUBE's coverage of AWS Public Sector Summit live in Washington, D.C. Two days of wall-to-wall coverage. I'm John Furrier, your host of theCUBE. Finally, great to be in-person. We had a remote interviews. We have a hybrid event going on. We're streaming everything all over the place. Next guest is Matt Mandrgoc, who's the Head of Public Sector at Zoom. The company that everyone loves and have happy meetings, happening events. Great to see you. >> Thank you for having me today. >> So, I'll say Zoom is in the center of all the action pandemic. Everyone knows what's going on with Zoom. Household name. Company's exceptionally well on the performance side, what's going on in Public Sector? >> It's exciting. You know, over the last 18 months, we've just exploded across all the marketplace, both in federal state, local government and education. And what's exciting is we've just scratched the surface for our customers. So, if you look at what we've done in getting in front of inaugural events, courts, legislation, all kinds of other types of meetings and webinars, getting the message out around the pandemic. It's exciting to know that we have that opportunity to make a difference. Now, part of this whole thing around Public Sector, since we just scratched the surface, what's exciting is how do we start to look forward to the next 12, 24, 36 months in helping our customers? How do we really add value in accelerating that mission value for them? >> You know, Matt, it's interesting. There's two things that happened during the pandemic that I point to and I talk about all the time. The internet didn't break. So, all those service providers that had the pipes, good job, packets from moving around, And Zoom, you guys really saved society and educate, so many use this. Education, government, meetings, courtrooms, I never thought about the speeding tickets. People have to go free Zoom. All this stuff's happening. Now, you've got a partnership with AWS. What's the next level? I'm assuming more immersion, more connections, more integration. What's the next? What's the plan? >> Great question. So, our next step is we looked at this relationship and we were going to customers and go in there, we go in there and then they go in there. There's wasn't any synergy. So, what we decided to do is come together. So, think about this, Zoom and AWS going into our public sector customers, bringing solutions and helping them evolve, innovate, and transform. As they're evolving through this people-centric hybrid network or workplace journey that they're going through. And then the best part about this is these ecosystem of partners that help both of us, and be a part of that process as well. >> Not to toot your own horn, but we just had a remote interview on Zoom connected to our gear here. Here with a guest sitting right here, just now, that's the kind of impact. How is that transformed some of the government agencies, like military for instance? >> Great question. So, we had, one of the things that the, even back in April 2020, the Air force was recognized by military.com for recruiting and how they use to keep their numbers up, to get in front of recruits. And think about this, if I'm a recruiter, I can't drive three hours to go see somebody, find out if they can join or not and come back. Now they could use Zoom, something that people were comfortable with. Ease of use, simple, ingrained in the fabric of people's lives. Now they could have that, keeping their numbers up and being recognized by a two star general for what they did around the recruiting and keeping the numbers up. >> All right. So I'll ask you cause I know you have a federal background with one. You know the industry pretty well, over the years you've stunned. You've seen the old way now, the new way, what's it like at Zoom? Because you guys exploded onto the scene. Been around for a while, but once you hit the tipping point, it was a rocket ship plus the pandemic. Now you come into federal. You've got FedRAMP issues, what do you do? How do you get through all that? >> We were excited about the fact that we're really catapulted us. We were at FedRAMP Impact Level 2, Moderate back in April of 2019. So, what set the groundwork? So when the pandemic occurred, we were able to explode forward, help our customers. Now, we've even looked past that and go, "What do we do next?" DOD Impact Level 4. We have an authorization to operate with conditions from the Department of the Air Force. And it was set as we go through our provisional process with DISA. The exciting part is, our customers can use this. Now, they have a set of conditions. Those conditions are basically guidelines of how to use and set up an IL-4 call. >> So, just Impact Level 4 is just below top secret if I understand that correct, right? >> So, Impact Level 4 allows our customers and the DOD to use it for a CUI, which is Controlled Unclassified Information or FOUO, For Official Use only conversations. >> Got it. And there's six levels, right? >> Yes. >> Five, six is like the ultimate, like- >> yes. >> super top secret, secret. >> Yes. >> Okay, cool. All right. So four is good? >> It's very good. >> So this is interesting, in 2019, you've mentioned that stuff. That kind of highlights the whole Cloud way before the pandemic. The winners and losers tend to see who was winning and who's losing. And I think a lot of agencies realize the ones that were in the cloud early before the pandemic and the ones that didn't get there fast enough are really lagging behind. What's your reaction to that? >> Well, you're absolutely right. And the interesting thing about the pandemic, what it brought forth is a horrible event, but what it brought forth was transformation that customers had to go through. So think of it this way. If a customer, you know, they were at all this equipment sitting on staff, on site and they had to go home. And all of a sudden when they went home, legacy systems could not transform and allow them to evolve into this work from home environment. So, what it brought forth of these systems that were just not capable of being able to scale. And all of a sudden, as they went forward, they were able to go ahead and us. For us, it was easy because ease of use, scalability, innovation, extensibility and security, allowed us to really jump right in there. And as people I mentioned earlier, it became ingrained in the fabric of people's lives. So, the ease of use for everybody made it easy for them to move home. >> Yeah. And that's a big impact. All right. Let me ask about the Amazon Marketplace, AWS Marketplace. News there? Share. >> Yeah. We're excited we announced over the last two days, we've announced our relationship with AWS, and the AWS Marketplace via Kairosoft. So, Kairosoft is a world-class public sector distributor. The great relationship we have there that help us really accelerate this relationship was Amazon already had that AWS Marketplace distributor. We had Kairosoft as our main distributor for all Public Sector, solar suburb. So, the relationship already there and with the integration with Tackle.io, allowed us to really accelerate this relationship and be able to transact for our customers. And you think about the transaction, now our customers can start to leverage AWS contracts and accelerate the pieces that they have across there. >> Talk about the Tackle.io piece, how does that fit in? Cause you've got Kairosoft, Distributor, Zoom, what's Tackle do? They integrate? >> Tackle was just the integration piece allowed us to get these transactions going for back and forth. So, the transaction you think about, a customer will buy through AWS contract. They'll get transacted through the AWS Marketplace at Kairosoft, and it come to Zoom from there. Tackle.io was just the integration piece allowed that to happen. >> Yeah. And just a plug for Tackle.io. Those guys are start-up that's growing really fast. They make it easy. The Marketplace is not that easy. (laughs) Dave McCain would argue with me, but yeah, it's can be unwieldy, but they manage it and make it easier. >> Matt: Well, if you think about typically, if you had direct integration, it would take you many months to get through that process and a lot of times. This helped us, with the Marketplace being at Kairosoft, and Tackle.io, allowed us to really accelerate this relationship. >> I mean, that's a consumption model in the future. I mean, you're looking at, from a Zoom standpoint, you look at the marketplace, that's just more distribution. That's a selling vehicle for you, right? >> Exactly. But it's also, you think, but it's selling people for us. But you think about it from the customer side. If they have a contract already in place and they have consumption, you know, minimums they have to hit and they can be a part of the solution set now that we come together. It really becomes that, "Hey yeah, it's easy to use as a great way." But now we're giving, as we mentioned earlier, an acceleration point for our customers to drive that innovation and quickly procure it. >> Now, you've been around the block on Public Sector. You've seen the waves of innovation over the years. Now, it's kind of like the perfect storm. Multiple waves colliding into a big wave with cloud and with the new normal that's coming. From telemedicine to education, to military, to top secret, to distribution via marketplaces cloud scale, where there's now a new stack emerging, horizontal and vertical. What is your take on that as a industry participant? You're like, "We're putting perspective." Like how big is this compared to what was once other waves? >> Well, you know, what the pandemic brought forth was, as Max mentioned earlier today in his keynote, it really accelerated transformation of people how to do it, which would may take three to five years. Took weeks and months. Now we have the opportunity to go forward and really push this and say, "How do we transform while this pandemic happened?" People are now, the governments are, in education are now looking at transformation on how they accelerate this for the next five to seven years. Because the decisions are making, the money they're settling, and the investments they're making are transforming how they're going to do that. And they realize they cannot do it the way they did it before. >> Well, congratulations in all the success that Zoom, for you and your teammates. Eric, over there as CEO and Collin, and the rest of the team, Ross Mayfield, amongst others. We love you guys. I think you're great company. You really made a dent in the universe in a positive way. I'm looking forward to seeing what's on the roadmap. IOT devices, edge, what's happening? >> Actually, it's great timing of that because we just had our Zoomtopia. So we announced a number of different innovative things that we've done out there, white boarding and such. That really is going to come forward. So I would encourage everybody to go to the Zoom website, look at some of the videos we had from Zoomtopia. Talked about some of the actual, really cool innovative things that we've done. >> John: Yeah. Yeah. I mean, almost imagined was the camera technology, the collaboration technology, things are going to be a little bit different. It's not going to be what people think it's going to be. It might look different. What's your view on that? >> I think it's going to look different than it was a year ago. I think it's going to look different than two years from now. And so, with innovation, we look at, we have hundreds of different innovative things that occurred out there. So we look at, you know, virtual classrooms, things that they have out there to change the environment, to make that feel like it's a real life experience. And that's what makes the difference on us. >> You know, I watched companies like Facebook saying, they're going to drop 50 million into metaverse for the next two years. They're throwing engineers at it. But all it points down to is a better user experience. That's the goal, right? To make that user experience immersive, clean, elegant, simple but effective. >> Yeah. It's intuitive. It's the number one thing I hear form every single person. They want something easy to use when the send them home, they want to be able to turn it on for it to work. And we had one department, one agency has sent people home. They found the productivity was doing so well that they actually have decided to hire people in different parts of the country. It's very specialized group around, it moved the D.C. area. Now it's changed the whole scope of how you bring people in with these different skillsets, how not having a move to an area. We'll be able to leverage them at a remote location, but really embrace that expertise. >> Matt, thank you for coming on theCUBE, Matt Mandrgoc, Head of Public Sector. U.S. Public Sector for Zoom. A name you're going to keep hearing about more and more. It's not going away. Establish themselves as the leader in collaboration, certainly video meetings, conferences, events. Thanks for coming on. >> Matt: Thanks for having me on theCUBE. >> Okay. Well, more coverage from a live personal in-person event with remote Zoom's coming in as hybrid. It's theCUBE coverage of AWS Summit 2021, here in Washington, DC. I'm John Furrier. Thanks for watching. (soft music)

>> Welcome back to theCUBE's covering of AWS Public Sector Summit. In-person here in Washington, DC. I'm John Furrier, your host, great to be back face to face. We've got a great, special guest Clint Crosier, who is the Director of AWS' Aerospace & Satellite. Major General of The Air Force/Space Force. Retired. Great to see you in person again. Thanks for coming on theCUBE. >> Thank you for having me. I appreciate that. >> First of all, props to you for doing a great job at Amazon, bringing all your knowledge from Space Force and Air Force into the cloud. >> Thank you. >> So that's great, historical context. >> It's been valuable and it's provided a whole lot of insight into what we're building with the AWS space team, for sure. >> So number one question I get a lot is: We want more space content. What's the coolest thing going on in space? Is there a really a satellite behind the moon there, hidden there somewhere? What's the coolest thing going on in space? >> Well, the coolest thing that's going on in space, I think is you're seeing the rapid growth of the space industry, I mean, to me. I've been in the space industry for 34 years now, and there have been periods where we projected lots of growth and activity and it just didn't really come about, especially in the 80's and the 90's. But what we're seeing today is that growth is taking place. Whether it's the numbers of satellites that are being launched around the globe every year, there's some 3,000 objects on orbit today. Estimates are that there'll be 30,000 objects at the end of the decade, or the number of new companies, or the number of global spinning. It is just happening right now, and it's really exciting. >> So, when people say or hear space, there's a lot of economic changes in terms of the cost structures of how to get things deployed into space. That brings up the question of: Is space an opportunity? Is it a threat vector? What about congestion and security? >> Yeah, well three great things, absolutely an opportunity. We're seeing the rapid growth of the space industry, and we're seeing more commercialization than ever before. In my whole career, The Air Force or, NASA, or the NRO would sort of, hold things and do them themselves Today, you're seeing commercial contracts going out from the National Reconnaissance Office, NASA, from The Air Force, from the Space Force. So lots of opportunity for commercial companies. Security. Absolutely, priority number one should be security is baked into everything we do at AWS. And our customers, our Government classified customers tell us the reason they came to AWS is our security is top notch and certified for all their workloads. And as you well know, we have from unclassified all the way up to top secret capabilities on the AWS cloud. So just powerful opportunities for our customers. >> Yeah. And a lot of competitors will throw foot on that. I know, I've reported on some of that and not a lot of people have that same credential. >> Sure. >> Compared to the competition. >> Sure. >> Now I have to ask you, now that you have the top secret, all these clouds that are very tailorable, flexible with space: How are you helping customers with this Aerospace Division? Is it is a commercial? In the public sector together? What's the... >> All of the above. >> Take us through the value proposition. >> Yeah, happy to do this. So what we recognized over the last two years or so we, at AWS, recognized all this rapid growth that we're talking about within the space industry. Every sector from launch to on-orbit activities, to space exploration, all of it. And so AWS saw that and we looked at ourselves and said: "Do we have the right organization and expertise in place really to help our customers lean into that?" And the answer was: we decided to build a team that had deep experience in space, and that was the team that we grew because our thesis was: If you have a deep experience in space, a deep experience in cloud, you bring those two together and it's a powerful contribution. And so we've assembled a team with more than 500 years of collective hands-on experience, flying satellites, launching rockets. And when we sit down with our customers to innovate on their behalf, we're able to come up with some incredible solutions and I'm happy to talk about those. >> I'd love to, but tell you what, first of all, there's a lot of space nerds out there. I love space. I love space geeking out on the technology, but take us through the year you had, you've had a pretty incredible year with some results. You have that brain trust there. I know you're hiring. I know that people want to work for you. I'm sure the resumes are flying in, a lot of action. >> There is. >> What are the highlights from this year? >> So the highlights I think is, we've built a team that the industry is telling us was needed. Again, there was no organization that really served the space cloud industry. And so we're kind of building this industry within the industry, the space cloud industry. And so number one, just establishing that team and leaning into that industry has been valuable. The other thing that we're real proud of is we built a global team, because space is a global enterprise. We have teams in Europe and in Asia and South America here in the U.S., so we built a global team. One of the things that we did right up front, we weren't even six months old, when we envisioned the idea of doing the AWS Space Accelerator. And some of the folks told me: "Clint, six months under your belt, maybe you ought to get your feet under you." And I said: "No, no. We move fast to support our customers." And so we made a call for any space startup that wanted to come on board with AWS and go through our four week Space Accelerator. We partnered with Sarah from Capital. And the idea was: if you're a small company that wants to grow and build and learn how you can use the cloud to gain competitive advantage, come with us. And so John, I would have been happy if we had 50 companies applied, we had 194 companies across 44 countries that applied to our accelerator. We had to down select a 10, but that was a tremendous accomplishment, two of those are speaking this afternoon, where they met each other at our accelerator and now have formed a partnership: Ursa Space and HawkEye 360 on how they build on the cloud together. Fascinating. >> Well, I love that story. First of all, I love the military mindset. No, we're not going to wait. >> Move it out. >> It's not take that hill, it's take that planet. >> Our customers won't wait, innovation, doesn't wait, the future doesn't wait. We have to move out. >> So, this brings up the entrepreneurship angle. We got there a little early, but I want to talk about it because it's super important. There's an entrepreneurial culture happening right now in the space community >> There is. At large, and it's getting bigger and wider. >> Bigger every day. >> What is that? What if someone says: "Hey, what's going on with entrepreneurship in this space? What are the key dynamics? What's the power dynamics?" It's not money, there's money out there, but like what's the structural thing happening? >> The key dynamic, I think, is we're seeing that we can unlock things that we could never do before. And one of our goals is: the more space data we can make more accessible to more people around the world. It unlocks things we couldn't do. We're working with space companies who are using space data to track endangered whales off the coast of California. We're working with companies that are using space data to measure thermal and greenhouse emissions for climate change and climate management. We're working with one company, Edgybees, who has a small satellite constellation, and they're using it to build satellite based, augmented reality, to provide it to first responders as they go into a disaster response area. And they get a 3D-view of what they're going into. None of those workloads were possible five years ago. And the cloud and cloud-based technologies are really what opens those kinds of workloads up. >> What kind of higher level services do you see emerging from space cloud? Because you know, obviously you have to have some infrastructure. >> Absolutely. Got to put some stuff into space. That's a supply chain, reliability, also threat. I mean, I can have a satellite attack, another satellite, or I'm just making that up, but I'm sure there's other scenarios that the generals are thinking about. >> So space security and cyberspace security is critical. And as I said, it's built into everything we do in all of our platforms, so you're absolutely right about that, but when we think about the entrepreneurship, you know, what we're seeing is, and I'll give you a good example of why the industry is growing so fast and why cloud. So one company we work with, LeoLabs. So Leo identified the growth in the LEO: Low Earth Orbit segment. 3,000 objects on orbit today, 30,000 tomorrow. Who's going to do the space traffic management for 30,000 objects in space that are all in the same orbital regime? And so LeoLabs built a process to do space traffic management, collision avoidance. They were running it on premises. It took them eight hours to do a single run for a single satellite conjunction. We got them to help understand how to use the cloud. They moved all that to AWS. Now that same run they do in 10 seconds. Eight hours to 10 seconds. Those are the kind of workloads as space proliferates in and we grow, that we just can't execute without cloud and cloud-based technologies. >> It's interesting, you know, the cloud has that same kind of line: move your workloads to the cloud and then refactor. >> Yeah. So space workloads are coming to the cloud. >> They are. >> Just changing the culture. So I have to ask you, I know there's a lot of young people out there looking for careers and interests. I mean, Cal poly is going into the high school now offering classes. >> Yeah So high school, there's so much interest in space and technology. What is the cultural mindset to be successful? Andy Jassy last year, reading and talk about the mindset of the builder and the enterprise CXO: "Get off your butt and start building" There's a space ethos going on. What is the mindset? Would you share your view on it? >> The mindset is innovation and moving fast, right? We, we lived, most of my career, in the time where we had an unlimited amount of money and unlimited amount of time. And so we were really slow and deliberate about how we built things. The future won't wait, whether it's commercial application, or military application, we have to move fast. And so the culture is: the faster we can move, The more we'll succeed, and there's no way to move faster than when you're building on the AWS cloud. Ground station is a good example. You know, the proposition of the cloud is: Don't invest your limited resources in your own infrastructure that doesn't differentiate your capability. And so we did that same thing with ground station. And we've said to companies: "Don't spend millions of dollars on developing your own ground station infrastructure, pay by the minute to use AWS's and focus your limited resources back in your product, which differentiate your space mission." and that's just been power. >> How is that going from customer perspective? >> Great. It's going great. We continue to grow. We added another location recently. And just in the last week we announced a licensed accelerator. One of the things our customers told us is it takes too long to work with global governments to get licensed, to operate around the world. And we know that's been the case. So we put together a team that leaned in to solve that problem, and we just announced the licensed accelerator, where we will work with companies to walk them through that process, and we can shave an 18 month process into a three or four month process. And that's been... we've gotten great response on that from our company. >> I've always said: >> I remember when you were hired and the whole space thing was happening. I remember saying to myself: "Man, if democratization can bring, come to space" >> And we're seeing that happening >> You guys started it and you guys, props to your team. >> Making space available to more and more people, and they'll dazzle us with the innovative ways we use space. 10 years ago, we couldn't have envisioned those things I told you about earlier. Now, we're opening up all sorts of workloads and John, real quick, one of the reasons is, in the past, you had to have a specific forte or expertise in working with space data, 'cause it was so unique and formatted and in pipeline systems. We're making that democratized. So it's just like any other data, like apps on your phone. If you can build apps for your phone and manage data, we want to make it that easy to operate with space data, and that's going to change the way the industry operates. >> And that's fundamentally, that's great innovation because you're enabling that. That's why I have to ask you on that note Of the innovation trends that you see or activities: What excites you the most? >> So a lot of things, but I'll give you two examples very quickly: One is high-performance compute. We're seeing more and more companies really lean in to understanding how fast they can go on AWS. I told you about LeoLabs, eight hours to 10 seconds. But that high-performance computes going to be a game changer. The other thing is: oh, and real quick, I want to tell you, Descartes Labs. So Descartes Labs came to us and said: "We want to compete in the Annual Global Top 500 supercomputer challenge" And so we worked with them for a couple of weeks. We built a workload on the AWS standard platform. We came in number 40 in the globe for the Top 500 super computer lists, just by building some workloads on our standard platform. That's powerful, high-performance compute. But the second example I wanted to give you is: digital modeling, digital simulation, digital engineering. Boom Aerospace is a company, Boom, that we work with. Boom decided to build their entire supersonic commercial, supersonic aircraft, digital engineering on the AWS cloud. In the last three years, John, they've executed 6,000 years of high-performance compute in the last three years. How do you do 6,000 years in compute in three years? You spin up thousands of AWS servers simultaneously, let them do your digital management, digital analysis, digital design, bring back a million different perturbations of a wing structure and then pick the one that's best and then come back tomorrow and run it again. That's powerful. >> And that was not even possible, years ago. >> Not at that speed, no, not at that speed. And that's what it's really opening up in terms of innovation. >> So now you've done it so much in your career, okay? Now you're here with Amazon. Looking back on this past year or so, What's the learnings for you? >> The learning is, truly how valuable cloud can be to the space industry, I'll admit to you most people in the space industry and especially in the government space industry. If you ask us a year ago, two years ago: "Hey, what do you think about cloud?" We would have said: "Well, you know, I hear people talk about the cloud. There's probably some value. We should probably look at that" And I was in the same boat, but now that I've dug deeply into the cloud and understand the value of artificial intelligence, machine learning, advanced data analytics, a ground station infrastructure, all those things, I'm more excited than ever before about what the space industry can benefit from cloud computing, and so bringing that, customer by customer is just a really fulfilling way to continue to be part of the space industry. Even though I retired from government service. >> Is there a... I'm just curious because you brought it up. Is there a lot of people coming in from the old, the space industry from public sector? Are they coming into commercial? >> Absolutely. >> Commercial rising up and there's, I mean, I know there's a lot of public/private partnerships, What's the current situation? >> Yeah, lots of partnerships, but we're seeing an interesting trend. You know, it used to be that NASA led the way in science and technology, or the military led the way in science and technology, and they still do in some areas. And then the commercial industry would follow along. We're seeing that's reversed. There's so much growth in the commercial industry. So much money, venture capital being poured in and so many innovative solutions being built, for instance, on the cloud that now the commercial industry is leading technology and building new technology trends that the military and the DOD and their government are trying to take advantage of. And that's why you're seeing all these commercial contracts being led from Air Force, Space Force, NASA, and NRO. To take advantage of that commercialization. >> You like your job. >> I love my job. (laughing) -I can tell, >> I love my job. >> I mean, it is a cool job. I kind of want to work for you. >> So John, space is cool. That's our tagline: space is cool. >> Space is cool. Space equals ratings in the digital TV realm, it is really, super exciting a lot of young people are interested, I mean, robotics clubs in high schools are now varsity sports, eSports, all blend together. >> Space, robotics, artificial intelligence, machine learning, advanced analytics. It's all becoming a singular sector today and it's open to more people than ever before, for the reasons we talked about. >> Big wave and you guys are building the surf boards, everyone a ride it, congratulations. Great to see you in person. >> Thank you. Again, thanks for coming on theCUBE, appreciate that. >> Thanks for having us. >> Clint Crosier is the Director of AWS Aerospace & Satellite. Legend in the industry. Now at AWS. I'm John Furrier with theCUBE. Thanks for watching.

(upbeat music) >> Live in Washington, DC. This is day two of two days of coverage. I'm John Furr, your host. We're in person face-to-face event it's kicking off day two. Dave Levy's here, Vice President of US government Nonprofit and healthcare businesses for AWS Public Sector. Dave, great to see you again, welcome back. >> Dave: Great to see you, John. >> So, great time last time we were in person, 2019, looks like the event, the last year was virtual, what's new? >> Well, first of all, I think it's just exciting. I mean, I'm excited to be back and in-person and so much has happened in our personal lives in our communities and so I'm really glad that we can all be together and it's been great so far. >> I was talking yesterday with some folks and I saw people doing some networking. I heard someone, "Hey, I'm want to hire someone." So, the face-to-face is back, we're also streaming. Max Peterson told me they're pushing it everywhere on Facebook, LinkedIn, Twitter, everywhere, Twitch, so free content, but still a lot of registrations here in person, good stuff. >> Yeah, great registrations. We're thrilled with the support from partners and customers. And also too, like you said, the connections that people are making, so it does feel good that things are flowing and people are having conversations and- >> Well, you got healthcare, nonprofits, US government, healthcare has been a big focus so far in this show. A lot of action, local governments, governments and healthcare seem to be like pandemic enabled to change. What's the update? What's the highlights so far for you? >> Well, I think the highlights are in those areas that, what we've been able to help our customers with is the ability to respond and that's what Cloud is all about and their ability to react and to respond to things that they don't necessarily know is going to happen and the big thing that none of us knew was going to happen was the pandemic. And so that ability and agility and preparedness to respond has really been great to see from a lot of those customers. >> You know, Max Peterson had the CIO from the Air Force up on stage and she's known for her comments about data and data's our data, the US Air Force and so data's big part of it. They are having a transformation and the how's that project going? What's the update there? What's your impression on that? >> Yeah, well, it was great to see the Air Force on stage and great to see Laura up there and we're really proud to support the DOD and the Air Force. And the Air Force has a lot to be proud of in their transformation journey and what they're doing with Cloud One is pretty substantial and amazing transformation for them. And then they've got 35 applications running on AWS. And so we think their progress is really good and they're thinking the right way in terms of their software factories and other types of projects. >> What's interesting is it's watching like who's adopting, it's like you look at like the pandemic has really opened up the view of the projects, which ones are doing well. And how do I say this politely? The projects that were being blocked or hidden, or the KPIs camouflaging the value were exposed because I mean, once that pulled back the curtain, people realized, "Oh my God, we're stuck," Or "we're inadequate, we are antiquated. We need to change," because now the pressure to deliver shifted to digital. I mean, this literally exposed the good, bad, and the ugly. >> It did and some were more prepared than others. There are great examples. We worked with the SBA to help expand the portal for the payroll protection program to get more lenders access faster. And that was a great project. They were able to respond really quickly and we were able to support them in that. Others, not so much. I think it you're right, it did expose that there's an opportunity. There's an opportunity to accelerate some of the things that they were doing already in terms of digital transformation. >> How about the GovCloud and the federal customers that you have, what's the traction point? How has that going? Is there a new generation here? >> GovCloud has been a great success. GovCloud it's our- >> John: 10-year anniversary. >> It's our 10-year anniversary, so we're thrilled to celebrate that. I can't believe it's 2011. >> EC2 is 15. Is that 315? I guess 15, too is SQS, the original building blocks. >> So, we've got a lot of great success through GovCloud and GovCloud was really something that was born out of what customers wanted, primarily federal customers. But we've also seen over the last few years, real adoption from regulated industry, real adoption from partners that are going into GovCloud that really want to take advantage of the security and compliance that federal customers need and the larger defense industrial base organizations need. So, GovCloud's been a fabulous success and expect I expect a lot of growth going forward. >> Yeah, is there a cultural shift in the federal government now? I can imagine some countries have been exploring this. I did talk briefly about it with Ms. Shannon Kellogg and John Wood, about how, if you're under the age of 40 and you work in the federal government, you got to be like, "Why aren't we doing this?" Like there seems to be like a cultural shift, younger generation coming in and be like, looking at the old way and be like, "Why are we still doing that?" >> Well, I think look bipartisan support for digital transformation, for making sure that we have the competitive edge for generations and generations to come in the US both in business and in defense and national security, I think is an imperative. I mean nobody I've talked to disagrees that we need to do this. And I think that younger workforce coming in behind I'm jealous of the 40-year olds, I wish I was under 40, but none of workforce really sees the obstacles that maybe previous generation saw these emerging technologies are becoming, the basic unit of computer's getting smaller, the cost to do these things is coming way down and I think that younger workforce says, "Why aren't we doing this?" >> Yeah and I think the Air Force projects are interesting too because that shows us not just about the CIA or the DOD that you have, they're leaning into production workloads, and the mission critical workloads too, the DOD is also now continuing to adopt. What else are you guys doing with the DOD? >> Well, we're partnering with GDIT on milCloud and that's going to give DOD mission owners access to a whole suite of AWS services. So, we're really excited about that. And those are available now. We're the only Cloud provider that's making that accessible to them on milCloud. And so this is going to open up the opportunity for them to start doing that mission work that you described. A good example of that are programs like ABMS, Air Force's Advanced Battle Management System. It's part of their effort around JADC2 and a great set of capabilities that they're delivering there. We're happy to have participated. We did some testing and some show intel, if you will at Ramstein Air Force Base and we're really proud to support that effort and we're excited about what the Air Force is doing. >> You know, I've always been impressed with the DOD when the tactical edge concept came out, that was very impressive because they're really using the data properly and I know Amazon has been doing well in this area because you've got things like Outpost, Wavelength, Snowball products. How's that edge piece developing? Do you see that becoming more critical now? >> It's absolutely critical. It's not becoming critical, it is critical and I think if you look at what the DOD and all of their partners are trying to accomplish, it's really moving all of that data around from the very edge in theater, back home to where it needs to be analyzed, doing it fast, doing it secure, being able to deliver on their missions and that's what this is all about. So, we see huge, huge opportunities to really innovate around the edge. >> Yeah, the data equation really is fascinating to me. Just when you think about things like words, highly available versus high availability means something 'cause you're going to want real time, not just on available data, you got to have it real time so the pressure around these projects are high. And so technically, you've got to have low latency on all this stuff. >> That's true, that's true. You've got to either have near real time or real-time availability and in many cases there's high stakes. So, the ability the DOD to pull this off is really, really important and we're a big supporter of that. >> Dave, I want to get your perspective because you've been in the industry, you've seen that the ways, we talked before cameras about the '90s and data centers and stuff. 10 years of GovCloud, look at public sector, just to look at the 10 years, interesting evolution. I mean, you couldn't give Cloud a wait 15 years ago. They weren't moving, glacier speed of adoption, now, massive adoption, uptakes there, the transformations are happening, migrations are huge, healthcare, which is like silo the data, HIPAA compliance lock everything down, everything's opening up. This is causing a lot of change. What's your reaction to that? >> Well, my reaction to that is I think customers are starting to connect what their outcomes are, whether it's a business outcome or a mission outcome or both to what Cloud can actually do. And I think that's freeing them up to make decisions about enabling Cloud in their environment, enabling experimentation, because that's what you want. You don't know what you're going to be faced with. We don't know what the threats are. We don't know if there's going to be another major pandemic. We hope there's not, but we don't know and if you set goals around your outcomes for mission and tie those, Cloud becomes such an enabler for that. And I see customers embracing that. Customers across the spectrum, nonprofit, healthcare providers, everybody, Homeland Security, VA, they're all thinking about, "What are the mission outcomes we're trying to drive?" >> Yeah, what's interesting too on that is that, just to point out is that the applications now aren't as complex to build relatively to the speed. In other words, you can get the time to value. So, the pandemic showed people that if you were in the Cloud and had that agility or optionality to be agile, you could write software 'cause software is the key in this, and not let's do the waterfall, 12-weeks assessment, 10-month rollout. Now people are doing it in 10 days, new applications. >> Sure, sure. Well, I tell customers a lot, "Think about McDonald's during the pandemic and think about customers like that who had to react to a new environment of delivery and your fast food fresh and how quickly companies like that are able to roll out capabilities." And I don't know that federal customers will be able to do it in a week or two weeks, but it's certainly possible. And it certainly will shorten that lead time that they have now in their software development. >> Well, great to see you, Dave. Is there any customers you want to highlight and you want to talk about, get a plug in for? >> Yeah, a lot of great customers here representing today and we're really appreciative also just want to say it was really great to see Max on stage for his first summit and think it was great to see Laura and others as well too. We've got some great customers coming here, The Veteran's affairs is going to be here as well as the Navy presenting on a lot of their capabilities today. So, I'm really excited about that. >> Yeah, a lot of action and education, healthcare, really blooming, really changing and modernizing. Big-wave migration, modernization, all kinds of the big wave. >> Yeah, it is. Yeah, big things coming and some of these systems are ready, so these systems are 40 and 50 years old and we're here to help these customers deliver on the agility and the extensibility of these systems to really serve citizens. >> What's your outlook for next year? What are you seeing next year so happening? How do you see everything unfolding? So you mentioned the pandemic, we're still in it, Delta Virus, who knows what's going to happen next, the world stage is changing, the global economy, space. >> I see customers really leaning in and starting to see the benefits of moving their data to the Cloud, number one, and then also to getting the insights using AI and ML to really drive the insights that they need to make the decisions on that data and I see more and more customers doing that. I did a panel this week, moderated a panel with some great customers around that and getting started is probably the biggest thing that I see and we're going to have more and more customers getting started. >> Yeah, getting into the Cloud. Congratulations to milCloud by the way, too. That was a good call out. All right, thanks for coming, I appreciate it. >> John: Yeah, thanks, Sean. >> Okay, keep coverage here. The Public Sector Summit, live in Washington, D.C. in-person event also hybrid we're streaming out. We're doing remote interviews and Amazon is streaming all the keynotes and key sessions for the digital folks out there. Thanks for watching. (upbeat music)

>>AWS public sector summit here in person in Washington, D. C. For two days live. Finally a real event. I'm john for your host of the cube. Got a great guest Howard Levinson from data bricks, regional vice president and general manager of the federal team for data bricks. Uh Super unicorn. Is it a decade corn yet? It's uh, not yet public but welcome to the cube. >>I don't know what the next stage after unicorn is, but we're growing rapidly. >>Thank you. Our audience knows David bricks extremely well. Always been on the cube many times. Even back, we were covering them back when big data was big data. Now it's all data everything. So we watched your success. Congratulations. Thank you. Um, so there's no, you know, not a big bridge for us across to see you here at AWS public sector summit. Tell us what's going on inside the data bricks amazon relationship. >>Yeah. It's been a great relationship. You know, when the company got started some number of years ago we got a contract with the government to deliver the data brooks capability and they're classified cloud in amazon's classified cloud. So that was the start of a great federal relationship today. Virtually all of our businesses in AWS and we run in every single AWS environment from commercial cloud to Govcloud to secret top secret environments and we've got customers doing great things and experiencing great results from data bricks and amazon. >>The federal government's the classic, I call migration opportunity. Right? Because I mean, let's face it before the pandemic even five years ago, even 10 years ago. Glacier moving speed slow, slow and they had to get modernized with the pandemic forced really to do it. But you guys have already cleared the runway with your value problems. You've got lake house now you guys are really optimized for the cloud. >>Okay, hardcore. Yeah. We are, we only run in the cloud and we take advantage of every single go fast feature that amazon gives us. But you know john it's The Office of Management and Budget. Did a study a couple of years ago. I think there were 28,000 federal data centers, 28,000 federal data centers. Think about that for a minute and just think about like let's say in each one of those data centers you've got a handful of operational data stores of databases. The federal government is trying to take all of that data and make sense out of it. The first step to making sense out of it is bringing it all together, normalizing it. Fed aerating it and that's exactly what we do. And that's been a real win for our federal clients and it's been a real exciting opportunity to watch people succeed in that >>endeavour. We have another guest on. And she said those data center huggers tree huggers data center huggers, majority of term people won't let go. Yeah. So but they're slowly dying away and moving on to the cloud. So migrations huge. How are you guys migrating with your customers? Give us an example of how it's working. What are some of the use cases? >>So before I do that I want to tell you a quick story. I've I had the luxury of working with the Air Force Chief data officer Ailene vedrine and she is commonly quoted as saying just remember as as airmen it's not your data it's the Air Force's data. So people were data center huggers now their data huggers but all of that data belongs to the government at the end of the day. So how do we help in that? Well think about all this data sitting in all these operational data stores they're getting it's getting updated all the time. But you want to be able to Federated this data together and make some sense out of it. So for like an organization like uh us citizenship and immigration services they had I think 28 different data sources and they want to be able to pull that data basically in real time and bring it into a data lake. Well that means doing a change data capture off of those operational data stores transforming that data and normalizing it so that you can then enjoy it. And we've done that I think they're now up to 70 data sources that are continually ingested into their data lake. And from there they support thousands of users doing analysis and reports for the whole visa processing system for the United States, the whole naturalization environment And their efficiency has gone up I think by their metrics by 24 x. >>Yeah. I mean Sandy carter was just on the cube earlier. She's the Vice president partner ecosystem here at public sector. And I was coming to her that federal game has changed, it used to be hard to get into you know everybody and you navigate the trip wires and all the subtle hints and and the people who are friends and it was like cloak and dagger and so people were locked in on certain things databases and data because now has to be freely available. I know one of the things that you guys are passionate about and this is kind of hard core architectural thing is that you need horizontally scalable data to really make a I work right. Machine learning works when you have data. How far along are these guys in their thinking when you have a customer because we're seeing progress? How far along are we? >>Yeah, we still have a long way to go in the federal government. I mean, I tell everybody, I think the federal government's probably four or five years behind what data bricks top uh clients are doing. But there are clearly people in the federal government that have really ramped it up and are on a par were even exceeding some of the commercial clients, U. S. C. I. S CBP FBI or some of the clients that we work with that are pretty far ahead and I'll say I mentioned a lot about the operational data stores but there's all kinds of data that's coming in at U S. C. I. S. They do these naturalization interviews, those are captured in real text. So now you want to do natural language processing against them, make sure these interviews are of the highest quality control, We want to be able to predict which people are going to show up for interviews based on their geospatial location and the day of the week and other factors the weather perhaps. So they're using all of these data types uh imagery text and structure data all in the Lake House concept to make predictions about how they should run their >>business. So that's a really good point. I was talking with keith brooks earlier directive is development, go to market strategy for AWS public sector. He's been there from the beginning this the 10th year of Govcloud. Right, so we're kind of riffing but the jpl Nasa Jpl, they did production workloads out of the gate. Yeah. Full mission. So now fast forward today. Cloud Native really is available. So like how do you see the the agencies in the government handling Okay. Re platform and I get that but now to do the reef acting where you guys have the Lake House new things can happen with cloud Native technologies, what's the what's the what's the cross over point for that point. >>Yeah, I think our Lake House architecture is really a big breakthrough architecture. It used to be, people would take all of this data, they put it in a Hadoop data lake, they'd end up with a data swamp with really not good control or good data quality. And uh then they would take the data from the data swamp where the data lake and they curate it and go through an E. T. L. Process and put a second copy into their data warehouse. So now you have two copies of the data to governance models. Maybe two versions of the data. A lot to manage. A lot to control with our Lake House architecture. You can put all of that data in the data lake it with our delta format. It comes in a curated way. Uh there's a catalogue associated with the data. So you know what you've got. And now you can literally build an ephemeral data warehouse directly on top of that data and it exists only for the period of time that uh people need it. And so it's cloud Native. It's elastically scalable. It terminates when nobody's using it. We run the whole center for Medicaid Medicare services. The whole Medicaid repository for the United States runs in an ephemeral data warehouse built on Amazon S three. >>You know, that is a huge call out, I want to just unpack that for a second. What you just said to me puts the exclamation point on cloud value because it's not your grandfather's data warehouse, it's like okay we do data warehouse capability but we're using higher level cloud services, whether it's governance stuff for a I to actually make it work at scale for those environments. I mean that that to me is re factoring that's not re platform Ng. Just re platform that's re platform Ng in the cloud and then re factoring capability for on uh new >>advantages. It's really true. And now you know at CMS, they have one copy of the data so they do all of their reporting, they've got a lot of congressional reports that they need to do. But now they're leveraging that same data, not making a copy of it for uh the center for program integrity for fraud. And we know how many billions of dollars worth of fraud exist in the Medicaid system. And now we're applying artificial intelligence and machine learning on entity analytics to really get to the root of those problems. It's a game >>changer. And this is where the efficiency comes in at scale. Because you start to see, I mean we always talk on the cube about like how software is changed the old days you put on the shelf shelf where they called it. Uh that's our generation. And now you got the cloud, you didn't know if something is hot or not until the inventory is like we didn't sell through in the cloud. If you're not performing, you suck basically. So it's not working, >>it's an instant Mhm. >>Report card. So now when you go to the cloud, you think the data lake and uh the lake house what you guys do uh and others like snowflake and were optimized in the cloud, you can't deny it. And then when you compare it to like, okay, so I'm saving you millions and millions if you're just on one thing, never mind the top line opportunities. >>So so john you know, years ago people didn't believe the cloud was going to be what it is. Like pretty much today, the clouds inevitable. It's everywhere. I'm gonna make you another prediction. Um And you can say you heard it here first, the data warehouse is going away. The Lake house is clearly going to replace it. There's no need anymore for two separate copies, there's no need for a proprietary uh storage copy of your data and people want to be able to apply more than sequel to the data. Uh Data warehouses, just restrict. What about an ocean house? >>Yeah. Lake is kind of small. When you think about this lake, Michigan is pretty big now, I think it's I >>think it's going to go bigger than that. I think we're talking about Sky Computer, we've been a cloud computing, we're going to uh and we're going to do that because people aren't gonna put all of their data in one place, they're going to have, it spread across different amazon regions or or or amazon availability zones and you're going to want to share data and you know, we just introduced this delta sharing capability. I don't know if you're familiar with it but it allows you to share data without a sharing server directly from picking up basically the amazon, you RLS and sharing them with different organizations. So you're sharing in place. The data actually isn't moving. You've got great governance and great granularity of the data that you choose to share and data sharing is going to be the next uh >>next break. You know, I really loved the Lake House were fairly sing gateway. I totally see that. So I totally would align with that and say I bet with you on that one. The Sky net Skynet, the Sky computing. >>See you're taking it away man, >>I know Skynet got anything that was computing in the Sky is Skynet that's terminated So but that's real. I mean I think that's a concept where it's like, you know what services and functions does for servers, you don't have a data, >>you've got to be able to connect data, nobody lives in an island. You've got to be able to connect data and more data. We all know more data produces better results. So how do you get more data? You connect to more data sources, >>Howard great to have you on talk about the relationship real quick as we end up here with amazon, What are you guys doing together? How's the partnership? >>Yeah, I mean the partnership with amazon is amazing. We have, we work uh, I think probably 95% of our federal business is running in amazon's cloud today. As I mentioned, john we run across uh, AWS commercial AWS GovCloud secret environment. See to us and you know, we have better integration with amazon services than I'll say some of the amazon services if people want to integrate with glue or kinesis or Sagemaker, a red shift, we have complete integration with all of those and that's really, it's not just a partnership at the sales level. It's a partnership and integration at the engineering level. >>Well, I think I'm really impressed with you guys as a company. I think you're an example of the kind of business model that people might have been afraid of which is being in the cloud, you can have a moat, you have competitive advantage, you can build intellectual property >>and, and john don't forget, it's all based on open source, open data, like almost everything that we've done. We've made available to people, we get 30 million downloads of the data bricks technology just for people that want to use it for free. So no vendor lock in. I think that's really important to most of our federal clients into everybody. >>I've always said competitive advantage scale and choice. Right. That's a data bricks. Howard? Thanks for coming on the key, appreciate it. Thanks again. Alright. Cube coverage here in Washington from face to face physical event were on the ground. Of course, we're also streaming a digital for the hybrid event. This is the cubes coverage of a W. S. Public sector Summit will be right back after this short break.

(high intensity music) >> Everyone, welcome back to theCube coverage of AWS, Amazon Web Services, Public Sector Summit live in D.C. We're in-person, I'm John Furrier, the host of theCube. I'm here with Max Peterson, the Head of Public Sector, Vice President. Max, great to see you in in-person event. >> Great to be here. We're in-person and we're also live streaming. So, we're here, however customers, however partners want to participate. >> I got to say, I'm very impressed with the turnout. The attendance is strong. People excited to be here. We're not wearing our masks cause we're on stage right now, but great turnout. But it's a hybrid event. >> It is. >> You've got engagement here physically, but also digitally as well with theCube and other live streams everywhere. You're putting it everywhere. >> It's been a great event so far. We did a pre-day yesterday. We had great participation, great results. It was about imagining education. And then today, from the executive track to the main tent, to all of the learning, live streaming 'em, doing things in person. Some things just don't translate. So, they'll won't be available, but many things will be available for viewing later as well. So all of the breakout sessions. >> The asynchronous consumption, obviously, the new normal, but I got to say, I was just on a break. I was just walking around. I heard someone, two people talking, just cause I over walk pass them, over hear 'em, "Yeah, we're going to hire this person." That's the kind of hallway conversations that you get. You got the programs, you got people together. It's hard to do that when you're on a virtual events. >> Max: It's hard. The customers that we had up on stage today, the same sort of spontaneity and the same sort of energy that you get from being in-person, it's hard to replicate. Lisa from State of Utah, did a great job and she got an opportunity to thank the team back home who drove so much of the innovation and she did it spontaneously and live. You know, it's a great motivator for everybody. And then Lauren from Air force was phenomenal. And Suchi, our "Imagine Me and You" artist was just dynamite. >> I want to unpack some of that, but I want to just say, it's been a really change of a year for you guys at Public Sector. Obviously, the pandemic has changed the landscape of Public Sector. It's made it almost like Public-Private Sector. It's like, it seems like it's all coming together. Incredible business performance on your end. A lot of change, a lot of great stuff. >> We had customers we talked today with SBA, with VA, with NASA, about how they just embraced the challenge and embraced digital and then drove amazing things out onto AWS. From the VA, we heard that they took tele-health consultations. Get this from 25,000 a month to 45,000 a day using AWS and the Cloud. We heard SBA talk about how they were able to turn around the unemployment benefits programs, you know, for the unemployed, as a result of the traumatic impact of the COVID-19 pandemic in a matter of weeks. And then, scaled their systems up just to unbelievable heights as President Biden announced the news. >> You had a lot of announcement. I want to get to a couple of them. One of them was the health equity thing. What is that about? Take us through that announcement. >> So the pandemic, it was hard. It was traumatic in a lot of different ways. It also turned into this little innovation laboratory, but one of the things that it laid bare more than anything else where the inequities associated with some of these systems that had to spring into action. And in particular, in the space of health, healthcare equity. We saw simply communities that didn't have access and weren't included in the same sorts of responses that the rest of the community may have been included in. And so we launched this global initiative today to power health equity solutions. It's a $40 million program. Lasts for three years. And it's open to customers or it's open to partners. Anybody who can contribute to three different areas of health equity. It's people who are leveraging data to build more equal, more sustainable health systems. Is people that are using analytics to do greater study of socioeconomic and social situational conditions that contribute to health inequities. And then finally, it's about building systems that deliver more equitable care to those who are underserved around the world. >> So, just to get this right, 40 million. Is that going to go towards the program for three years and are you going to dolo that out or as funding, or is that just a fund the organization? >> It's actually very similar to the development diagnostic initiative that we ran when COVID hit. We've launched the program. We're welcoming applications from anybody who is participating in those three developmental areas. They'll get Cloud credits. They'll get technical consulting. They may need professional services. They'll get all manner of assistance. And all you have to do is put in an application between now and November 15th for the first year. >> That's for the health equity? >> For the health equity. >> Got it. Okay, cool. So, what's the other news? You guys had some baseline data, got a lot of rave reviews from ACORE. I interviewed Constance and Thompson on the Cube earlier. That's impressive. You guys really making a lot of change. >> Well, you're hundred percent right. Sustainability is a key issue from all of our customers around the world. It's a key issue for us, frankly, as inhabitants of planet earth, right? >> John: Yeah. >> But what's really interesting is we've now got governments around the world who are starting to evaluate whether they're not their vendors have the same values and sustainability. And so that the AWS or the Amazon Climate Pledge is a game changer in terms of going carbon zero by 2040, 10 years ahead of most sort of other programs of record. And then with ACORE, we announced the ability to actually start effecting sustainability in particular parts around the world. This one's aim at that. >> But the key there is that, from what I understand is that, you guys are saying a baseline on the data. So, that's an Amazonian kind of cultural thing, right? Like you got to measure, you can't know what you're doing. >> The world is full of good intentions, but if you want to drive change at scale, you've got to figure out a way to measure the change. And then you've got to set aggressive goals for yourself. >> That's really smart. Congratulations! That's a good move. Real quick on the announcement at re:Invent, you've talked about last re:Invent, you're going to train 29 million people. Where are you on that goal? >> Well, John, we've been making tremendous progress and I'm going to use theCube here to make a small teaser. You know, stay tuned for our re:Invent conference that comes up shortly because we're actually going to be sharing some more information about it. But we've done digital trainings, self-training, online skills workshops. We just took a program called re/Start, which serves an unemployed or underemployed individuals. We launched that around the world and we're really excited. Today, we announced we're bringing it to Latin America too. So we're expanding into Colombia, Mexico, Peru, Brazil, and Argentina. And the amazing thing about that re/Start program, it's a 12 week intensive program. Doesn't require skills in advance. And after 12 weeks, 90% of the people graduating from that course go right onto a job interview. And that's the real goal, not just skills, but getting people in jobs. >> Yeah. The thing about the Cloud. I keep on banging the drum. I feel like I'm beating a dead horse here, but the level up, you don't need to have a pedigree from some big fancy school. The Cloud, you can be like top tier talent from anywhere. >> And you heard it from some of our speakers today who said they literally helped their teams bootstrap up from old skills like COBOL, you know, to new skills, like Cloud. And I will tell you, you know, right now, Cloud skills are still in a critical shortage. Our customers tell us all the time they can use every single person we can get to 'em. >> I'm going to tell my son, who's a sophomore in CS. I'm like, "Hey, work on COBOL Migration to AWS. You'll be a zillionaire." (John and Max laughs) No one knows what the passwords of the COBOL. I love that 80s jazzy jokes from two re:Invents ago. (John laughs) I got to ask you about the National-Local Governments, how they're monetizing Cloud of the past 18 months. What have you seeing at that level? >> Yeah. National and Local Governments, of course, were tremendously impacted first by the pandemic itself and the health concerns around it, but then all of the secondary effects, you know, unemployment. And immediately, you needed to put into action unemployment benefits systems. We work with the U.S. Small Business Administration, 15 other States across the U.S. You know, to have those systems in place in like weeks to be able to serve the unemployed as a result of the COVID-19 pandemic. Then you saw things progress, to the point where we had States across the country, standing up call centers on Amazon Connect. Instantly, they could have a high scalable volume call center that was situated for their instantly remote workforce, as opposed to their old call center technology. So, across the U.S. we saw those. And in fact, around the world, as governments mobilized to be able to respond to citizens. But the final thing that I think is really incredible, is though is the way that the AWS teams and partners sprung into action to work with National Governments around the world. Over 26 National Governments run their vaccine management scheduling systems on AWS. The largest to date, being in India, where in a single day, the vaccine management system scheduled and conducted 22.5 million vaccinations. Which is more than the population of New York State in one week and one day. >> Wow. That's good. That's great progress. I got to say, I mean, that kind of impact is interesting. And we had Shannon Kellogg on earlier, talking about the Virginia impact with the Amazon $220 million being spread over a few Counties just in one year. The partnership between business... and governments with the Cloud, so much more agility. This really strikes at the core of the future of government. >> Max: I think so. People have talked about private-public partnerships for a long time. I'm really proud of some of the work that Amazon and the whole team is doing around the world in those types of public private partnerships. Whether they're in skilling and workforce with partnerships, like eight different States across the U.S. to deliver skills, training through community college based systems. Whether it's with healthcare systems. Like NHS or GEL over in the UK, to really start applying cloud-scale analytics and research to solve the problems that eventually you're going to get us to personalized healthcare. >> That's a great stuff. Cloud benefits are always good. I always say the old joke is, "You hang around the barbershop long enough, you'll get a haircut." And if you get in the Cloud, you can take advantage of the wave. If you don't get on the wave, your driftwood. >> And States found that out, in fact. You'd have customers who were well on their journey. They were really able to turn on a dime. They pivoted quickly. They delivered new mission systems with customers. Those who hadn't quite progressed to the same state, they found out their legacy. IT systems were just brittle and incapable of pivoting so quickly to the new needs. And what we found, John, was that almost overnight, a business, government, which was largely in-person and pretty high touch had to pivot to the point where their only interaction was now a digital system. And those who- >> John: Middle of the day, they could have race car on the track, like quickly. >> Well, we've got it. We do have race cars on the track, right? Every year we've got the artificial intelligence powered Amazon DeepRacer and Red River on the track. >> I can see it. Always a good showing. Final question. I know you got to go on and I appreciate you coming on- >> It's been great. >> with all your busy schedule. Looking ahead. What tech trends should we be watching as Public Sector continues to be powered by this massive structural change? >> Well, I think there's going to be huge opportunity in healthcare. In fact, this afternoon at four o'clock Eastern, we're talking with Dr. Shafiq Rab from Wellforce. He and folks at Veterans Affairs to tell you telehealth and telemedicine are two, the areas where there's still the greatest potential. The number of people who now are serviced, and the ability to service a population far more broadly dispersed, I think has dramatic potential in terms of simply making the planet more healthy. >> Like you said, the pandemics have exposed the right path and the wrong path. And agility, speed, new ways of doing things, telemedicine. Another example, I interviewed a great company that's doing a full stack around healthcare with all kinds of home, agents, virtual agents, really interesting stuff. >> It is. I think it's going to change the world. >> John: Max Peterson, Head of Public Sector. Thank you for coming on theCube, as always. >> John, it's my pleasure. Love the cube. We've always had a good time. >> Yeah. Great stuff. >> Peter: We'll keep on making this difference. >> Hey, there's too many stories. We need another Cube here. So many stories here, impacting the world. Here at the Amazon Web Services Public Sector Summit. I'm John Furrier, your host. Thanks for watching. (soft music)

(upbeat music) >> Announcer: From theCUBE studios in Palo Alto in Boston connecting with thought leaders all around the world, this is theCUBE Conversation. >> Well, welcome to theCUBE Conversation here in theCUBE studios in Palo Alto, California. I'm John Furrier, your host. Got a great conversation with two great guests, going to explore the edge, what it means in terms of commercial, but also national security. And as the world goes digital, we're going to have that deep dive conversation around how it's all transforming. We've got Ki Lee, Vice President of Booz Allen's Digital Business. Ki, great to have you. John Pisano, Principal at Booz Allen's Digital Cloud Solutions. Gentlemen, thanks for coming on. >> And thanks for having us, John. >> So one of the most hottest topics, obviously besides cloud computing having the most refactoring impact on business and government and public sector has been the next phase of cloud growth and cloud scale, and that's really modern applications and consumer, and then here for national security and for governments here in the U.S. is military impact. And as digital transformation starts to go to the next level, you're starting to see the architectures emerge where the edge, the IoT edge, the industrial IoT edge, or any kind of edge concept, 5G is exploding, making that much more of a dense, more throughput for connectivity with wireless. You got Amazon with Snowball, Snowmobile, all kinds of ways to deploy technology, that's IT like and operational technologies. It's causing quite a cloud operational opportunity and disruption, so I want to get into it. Ki, let's start with you. I mean, we're looking at an architecture that's changing both commercial and public sector with the edge. What are the key considerations that you guys see as people have to really move fast in this new architecture of digital? >> Yeah, John, I think it's a great question. And if I could just share our observation on why we even started investing in edge. You mentioned the cloud, but as we've reflected upon kind of the history of IT, then you take a look from mainframes to desktops to servers to cloud to mobile and now IoT, what we observed was that industry investing in infrastructure led to kind of an evolution of IT, right? So as you mentioned, with industry spending billions on IoT and edge, we just feel that that's going to be the next evolution. If you take a look at, you mentioned 5G, I think 5G will be certainly an accelerator to edge because of the resilience, the lower latency and so forth. But taking a look at what's happening in space, you mentioned space earlier as well, right, and what Starlink is doing by putting satellites to actually provide transport into the space, we're thinking that that actually is going to be the next ubiquitous thing. Once transport becomes ubiquitous, just like cloud allows storage to be ubiquitous. We think that the next generation internet will be space-based. So when you think about it, connected, it won't be connected servers per se, it will be connected devices. >> John: Yeah, yeah. >> That's kind of some of the observations and why we've been really focusing on investing in edge. >> I want to come back to that piece around space and edge and bring it from a commercial and then also tactical architecture in a minute 'cause there's a lot to unpack there, role of open source, modern application development, software and hardware supply chains, all are core issues that are going to emerge. But I want to get with John real quick on cloud impact, because you think about 5G and the future of work or future of play, you've got people, right? So whether you're at a large concert like Coachella or a 49ers or Patriots game or Redskins game if you're in the D.C. area, you got people there, of congestion, and now you got devices now serving those people. And that's their play, people at work, whether it's a military operation, and you've got work, play, tactical edge things. How is cloud connecting? 'Cause this is like the edge has never been kind of an IT thing. It's been more of a bandwidth or either telco or something else operationally. What's the cloud at scale, cloud operations impact? >> Yeah, so if you think about how these systems are architected and you think about those considerations that Ki kind of touched on, a lot of what you have to think about now is what aspects of the application reside in the cloud, where you tend to be less constrained. And then how do you architect that application to move out towards the edge, right? So how do I tier my application? Ultimately, how do I move data and applications around the ecosystem? How do I need to evolve where my application stages things and how that data and those apps are moved to each of those different tiers? So when we build a lot of applications, especially if they're in the cloud, they're built with some of those common considerations of elasticity, scalability, all those things; whereas when you talk about congestion and disconnected operations, you lose a lot of those characteristics, and you have to kind of rethink that. >> Ki, let's get into the aspect you brought up, which is space. And then I was mentioning the tactical edge from a military standpoint. These are use cases of deployments, and in fact, this is how people have to work now. So you've got the future of work or play, and now you've got the situational deployments, whether it's a new tower of next to a stadium. We've all been at a game or somewhere or a concert where we only got five bars and no connectivity. So we know what that means. So now you have people congregating in work or play, and now you have a tactical deployment. What's the key things that you're seeing that it's going to help make that better? Are there any breakthroughs that you see that are possible? What's going on in your view? >> Yeah, I mean, I think what's enabling all of this, again, one is transport, right? So whether it's 5G to increase the speed and decrease the latency, whether it's things like Starlink with making transport and comms ubiquitous, that tied with the fact that ships continue to get smaller and faster, right? And when you're thinking about tactical edge, those devices have limited size, weight, power conditions and constraints. And so the software that goes on them has to be just as lightweight. And that's why we've actually partnered with SUSE and what they've done with K3s to do that. So I think those are some of the enabling technologies out there. John, as you've kind of alluded to it, there are additional challenges as we think about it. We're not, it's not a simple transition and monetization here, but again, we think that this will be the next major disruption. >> What do you guys think, John, if you don't mind weighing in too on this as modern application development happens, we just were covering CloudNativeCon and KubeCon, DockerCon, containers are very popular. Kubernetes is becoming super great. As you look at the telco landscape where we're kind of converging this edge, it has to be commercially enterprise grade. It has to have that transit and transport that's intelligent and all these new things. How does open source fit into all this? Because we're seeing open source becoming very reliable, more people are contributing to open source. How does that impact the edge in your opinion? >> So from my perspective, I think it's helping accelerate things that traditionally maybe may have been stuck in the traditional proprietary software confines. So within our mindset at Booz Allen, we were very focused on open architecture, open based systems, which open source obviously is an aspect of that. So how do you create systems that can easily interface with each other to exchange data, and how do you leverage tools that are available in the open source community to do that? So containerization is a big drive that is really going throughout the open source community. And there's just a number of other tools, whether it's tools that are used to provide basic services like how do I move code through a pipeline all the way through? How do I do just basic hardening and security checking of my capabilities? Historically, those have tend to be closed source type apps, whereas today you've got a very broad community that's able to very quickly provide and develop capabilities and push it out to a community that then continues to adapt and add to it or grow that library of stuff. >> Yeah, and then we've got trends like Open RAN. I saw some Ground Station for the AWS. You're starting to see Starlink, you mentioned. You're bringing connectivity to the masses. What is that going to do for operators? Because remember, security is a huge issue. We talk about security all the time. Where does that kind of come in? Because now you're really OT, which has been very purpose-built kind devices in the old IoT world. As the new IoT and the edge develop, you're going to need to have intelligence. You're going to be data-driven. There is an open source impact key. So, how, if I'm a senior executive, how do I get my arms around this? I really need to think this through because the security risks alone could be more penetration areas, more surface area. >> Right. That's a great question. And let me just address kind of the value to the clients and the end users in the digital battlefield as our warriors to increase survivability and lethality. At the end of the day from a mission perspective, we know we believe that time's a weapon. So reducing any latency in that kind of observe, orient, decide, act OODA loop is value to the war fighter. In terms of your question on how to think about this, John, you're spot on. I mean, as I've mentioned before, there are various different challenges, one, being the cyber aspect of it. We are absolutely going to be increasing our attack surface when you think about putting processing on edge devices. There are other factors too, non-technical that we've been thinking about s we've tried to kind of engender and kind of move to this kind of edge open ecosystem where we can kind of plug and play, reuse, all kind of taking the same concepts of the open-source community and open architectures. But other things that we've considered, one, workforce. As you mentioned before, when you think about these embedded systems and so forth, there aren't that many embedded engineers out there. But there is a workforce that are digital and software engineers that are trained. So how do we actually create an abstraction layer that we can leverage that workforce and not be limited by some of the constraints of the embedded engineers out there? The other thing is what we've, in talking with several colleagues, clients, partners, what people aren't thinking about is actually when you start putting software on these edge devices in the billions, the total cost of ownership. How do you maintain an enterprise that potentially consists of billions of devices? So extending the standard kind of DevSecOps that we move to automate CI/CD to a cloud, how do we move it from cloud to jet? That's kind of what we say. How do we move DevSecOps to automate secure containers all the way to the edge devices to mitigate some of those total cost of ownership challenges. >> It's interesting, as you have software defined, this embedded system discussion is hugely relevant and important because when you have software defined, you've got to be faster in the deployment of these devices. You need security, 'cause remember, supply chain on the hardware side and software in that too. >> Absolutely. >> So if you're going to have a serviceability model where you have to shift left, as they say, you got to be at the point of CI/CD flows, you need to be having security at the time of coding. So all these paradigms are new in Day-2 operations. I call it Day-0 operations 'cause it should be in everyday too. >> Yep. Absolutely. >> But you've got to service these things. So software supply chain becomes a very interesting conversation. It's a new one that we're having on theCUBE and in the industry Software supply chain is a superly relevant important topic because now you've got to interface it, not just with other software, but hardware. How do you service devices in space? You can't send a break/fix person in space. (chuckles) Maybe you will soon, but again, this brings up a whole set of issues. >> No, so I think it's certainly, I don't think anyone has the answers. We sure don't have all the answers but we're very optimistic. If you take a look at what's going on within the U.S. Air Force and what the Chief Software Officer Nic Chaillan and his team, and we're a supporter of this and a plankowner of Platform One. They were ahead of the curve in kind of commoditizing some of these DevSecOps principles in partnership with the DoD CIO and that shift left concept. They've got a certified and accredited platform that provides that DevSecOps. They have an entire repository in the Iron Bank that allows for hardened containers and reciprocity. All those things are value to the mission and around the edge because those are all accelerators. I think there's an opportunity to leverage industry kind of best practices as well and patterns there. You kind of touched upon this, John, but these devices honestly just become firmware. The software is just, if the devices themselves just become firmware , you can just put over the wire updates onto them. So I'm optimistic. I think all the piece parts are taking place across industry and in the government. And I think we're primed to kind of move into this next evolution. >> Yeah. And it's also some collaboration. What I like about, why I'm bringing up the open source angle and I think this is where I think the major focus will shift to, and I want to get your reaction to it is because open source is seeing a lot more collaboration. You mentioned some of the embedded devices. Some people are saying, this is the weakest link in the supply chain, and it can be shored up pretty quickly. But there's other data, other collective intelligence that you can get from sharing data, for instance, which hasn't really been a best practice in the cybersecurity industry. So now open source, it's all been about sharing, right? So you got the confluence of these worlds colliding, all aspects of culture and Dev and Sec and Ops and engineering all coming together. John, what's your reaction to that? Because this is a big topic. >> Yeah, so it's providing a level of transparency that historically we've not seen, right? So in that community, having those pipelines, the results of what's coming out of it, it's allowing anyone in that life cycle or that supply chain to look at it, see the state of it, and make a decision on, is this a risk I'm willing to take or not? Or am I willing to invest and personally contribute back to the community to address that because it's important to me and it's likely going to be important to some of the others that are using it? So I think it's critical, and it's enabling that acceleration and shift that I talked about, that now that everybody can see it, look inside of it, understand the state of it, contribute to it, it's allowing us to break down some of the barriers that Ki talked about. And it reinforces that excitement that we're seeing now. That community is enabling us to move faster and do things that maybe historically we've not been able to do. >> Ki, I'd love to get your thoughts. You mentioned battlefield, and I've been covering a lot of the tactical edge around the DOD's work. You mentioned about the military on the Air Force side, Platform One, I believe, was from the Air Force work that they've done, all cloud native kind of directions. But when you talk about a war field, you talk about connectivity. I mean, who controls the DNS in Taiwan, or who controls the DNS in Korea? I mean, we have to deploy, you've got to stand up infrastructure. How about agility? I mean, tactical command and control operations, this has got to be really well done. So this is not a trivial thing. >> No. >> How are you seeing this translate into the edge innovation area? (laughs) >> It's certainly not a trivial thing, but I think, again, I'm encouraged by how government and industry are partnering up. There's a vision set around this joint all domain command control, JADC2. And then all the services are getting behind that, are looking into that, and this vision of this military, internet of military things. And I think the key thing there, John, as you mentioned, it's not just the connected of the sensors, which requires the transport again, but also they have to be interoperable. So you can have a bunch of sensors and platforms out there, they may be connected, but if they can't speak to one another in a common language, that kind of defeats the purpose and the mission value of that sensor or shooter kind of paradigm that we've been striving for for ages. So you're right on. I mean, this is not a trivial thing, but I think over history we've learned quite a bit. Technology and innovation is happening at just an amazing rate where things are coming out in months as opposed to decades as before. I agree, not trivial, but again, I think there are all the piece parts in place and being put into place. >> I think you mentioned earlier that the personnel, the people, the engineers that are out there, not enough, more of them coming in. I think now the appetite and the provocative nature of this shift in tech is going to attract a lot of people because the old adage is these are hard problems attracts great people. You got in new engineering, SRE like scale engineering. You have software development, that's changing, becoming much more robust and more science-driven. You don't have to be just a coder as a software engineer. You could be coming at it from any angle. So there's a lot more opportunities from a personnel standpoint now to attract great people, and there's real hard problems to solve, not just security. >> Absolutely. Definitely. I agree with that 100%. I would also contest that it's an opportunity for innovators. We've been thinking about this for some time, and we think there's absolute value from various different use cases that we've identified, digital battlefield, force protection, disaster recovery, and so forth. But there are use cases that we probably haven't even thought about, even from a commercial perspective. So I think there's going to be an opportunity just like the internet back in the mid '90s for us to kind of innovate based on this new kind of edge environment. >> It's a revolution. New leadership, new brands are going to emerge, new paradigms, new workflows, new operations, clearly great stuff. I want to thank you guys for coming on. I also want to thank Rancher Labs for sponsoring this conversation. Without their support, we wouldn't be here. And now they were acquired by SUSE. We've covered their event with theCUBE virtual last year. What's the connection with those guys? Can you guys take a minute to explain the relationship with SUSE and Rancher? >> Yeah. So it's actually it's fortuitous. And I think we just, we got lucky. There's two overall aspects of it. First of all, we are both, we partner on the Platform One basic ordering agreement. So just there we had a common mentality of DevSecOps. And so there was a good partnership there, but then when we thought about we're engaging it from an edge perspective, the K3s, right? I mean, they're a leader from a container perspective obviously, but the fact that they are innovators around K3s to reduce that software footprint, which is required on these edge devices, we kind of got a twofer there in that partnership. >> John, any comment on your end? >> Yeah, I would just amplify, the K3s aspects in leveraging the containers, a lot of what we've seen success in when you look at what's going on, especially on that tactical edge around enabling capabilities, containers, and the portability it provides makes it very easy for us to interface and integrate a lot of different sensors to close the OODA loop to whoever is wearing or operating that a piece of equipment that the software is running on. >> Awesome, I'd love to continue the conversation on space and the edge and super great conversation to have you guys on. Really appreciate it. I do want to ask you guys about the innovation and the opportunities of this new shift that's happening as the next big thing is coming quickly. And it's here on us and that's cloud, I call it cloud 2.0, the cloud scale, modern software development environment, edge with 5G changing the game. Ki, I completely agree with you. And I think this is where people are focusing their attention from startups to companies that are transforming and re-pivoting or refactoring their existing assets to be positioned. And you're starting to see clear winners and losers. There's a pattern emerging. You got to be in the cloud, you got to be leveraging data, you got to be horizontally scalable, but you got to have AI machine learning in there with modern software practices that are secure. That's the playbook. Some people are making it. Some people are not getting there. So I'd ask you guys, as telcos become super important and the ability to be a telco now, we just mentioned standing up a tactical edge, for instance. Launching a satellite, a couple of hundred K, you can launch a CubeSat. That could be good and bad. So the telco business is changing radically. Cloud, telco cloud is emerging as an edge phenomenon with 5G, certainly business commercial benefits more than consumer. How do you guys see the innovation and disruption happening with telco? >> As we think through cloud to edge, one thing that we realize, because our definition of edge, John, was actually at the point of data collection on the sensor themselves. Others' definition of edge is we're a little bit further back, what we call it the edge of the IT enterprise. But as we look at this, we realize that you needed this kind of multi echelon environment from your cloud to your tactical clouds where you can do some processing and then at the edge of themselves. Really at the end of the day, it's all about, I think, data, right? I mean, everything we're talking about, it's still all about the data, right? The AI needs the data, the telco is transporting the data. And so I think if you think about it from a data perspective in relationship to the telcos, one, edge will actually enable a very different paradigm and a distributed paradigm for data processing. So, hey, instead of bringing the data to some central cloud which takes bandwidth off your telcos, push the products to the data. So mitigate what's actually being sent over those telco lines to increase the efficiencies of them. So I think at the end of the day, the telcos are going to have a pretty big component to this, even from space down to ground station, how that works. So the network of these telcos, I think, are just going to expand. >> John, what's your perspective? I mean, startups are coming out. The scalability, speed of innovation is a big factor. The old telco days had, I mean, months and years, new towers go up and now you got a backbone. It's kind of a slow glacier pace. Now it's under siege with rapid innovation. >> Yeah, so I definitely echo the sentiments that Ki would have, but I would also, if we go back and think about the digital battle space and what we've talked about, faster speeds being available in places it's not been before is great. However, when you think about facing an adversary that's a near-peer threat, the first thing they're going to do is make it contested, congested, and you have to be able to survive. While yes, the pace of innovation is absolutely pushing comms to places we've not had it before, we have to be mindful to not get complacent and over-rely on it, assuming it'll always be there. 'Cause I know in my experience wearing the uniform, and even if I'm up against an adversary, that's the first thing I'm going to do is I'm going to do whatever I can to disrupt your ability to communicate. So how do you take it down to that lowest level and still make that squad, the platoon, whatever that structure is, continue survivable and lethal. So that's something I think, as we look at the innovations, we need to be mindful of that. So when I talk about how do you architect it? What services do you use? Those are all those things that you have to think about. What if I lose it at this echelon? How do I continue the mission? >> Yeah, it's interesting. And if you look at how companies have been procuring and consuming technology, Ki, it's been like siloed. "Okay, we've got a workplace workforce project, and we have the tactical edge, and we have the siloed IT solution," when really work and play, whether it's work here in John's example, is the war fighter. And so his concern is safety, his life and protection. >> Yeah. >> The other department has to manage the comms, (laughs) and so they have to have countermeasures and contingencies ready to go. So all this is, they all integrate it now. It's not like one department. It's like it's together. >> Yeah. John, I love what you just said. I mean, we have to get away from this siloed thinking not only within a single organization, but across the enterprise. From a digital battlefield perspective, it's a joint fight, so even across these enterprise of enterprises, So I think you're spot on. We have to look horizontally. We have to integrate, we have to inter-operate, and by doing that, that's where the innovation is also going to be accelerated too, not reinventing the wheel. >> Yeah, and I think the infrastructure edge is so key. It's going to be very interesting to see how the existing incumbents can handle themselves. Obviously the towers are important. 5G obviously, that's more deployments, not as centralized in terms of the spectrum. It's more dense. It's going to create more connectivity options. How do you guys see that impacting? Because certainly more gear, like obviously not the centralized tower, from a backhaul standpoint but now the edge, the radios themselves, the wireless transit is key. That's the real edge here. How do you guys see that evolving? >> We're seeing a lot of innovations actually through small companies who are really focused on very specific niche problems. I think it's a great starting point because what they're doing is showing the art of the possible. Because again, we're in a different environment now. There's different rules. There's different capabilities. But then we're also seeing, you mentioned earlier on, some of the larger companies, the Amazons, the Microsofts, also investing as well. So I think the merge of the, you know, or the unconstrained or the possible by these small companies that are just kind of driving innovations supported by the maturity and the heft of these large companies who are building out these hardened kind of capabilities, they're going to converge at some point. And that's where I think we're going to get further innovation. >> Well, I really appreciate you guys taking the time. Final question for you guys, as people are watching this, a lot of smart executives and teams are coming together to kind of put the battle plans together for their companies as they transition from old to this new way, which is clearly cloud-scale, role of data. We hit out all the key points I think here. As they start to think about architecture and how they deploy their resources, this becomes now the new boardroom conversation that trickles down and includes everyone, including the developers. The developers are now going to be on the front lines. Mid-level managers are going to be integrated in as well. It's a group conversation. What are some of the advice that you would give to folks who are in this mode of planning architecture, trying to be positioned to come out of this pandemic with a massive growth opportunity and to be on the right side of history? What's your advice? >> It's such a great question. So I think you touched upon it. One is take the holistic approach. You mentioned architectures a couple of times, and I think that's critical. Understanding how your edge architectures will let you connect with your cloud architecture so that they're not disjointed, they're not siloed. They're interoperable, they integrate. So you're taking that enterprise approach. I think the second thing is be patient. It took us some time to really kind of, and we've been looking at this for about three years now. And we were very intentional in assessing the landscape, how people were discussing around edge and kind of pulling that all together. But it took us some time to even figure it out, hey, what are the use cases? How can we actually apply this and get some ROI and value out for our clients? So being a little bit patient in thinking through kind of how we can leverage this and potentially be a disruptor. >> John, your thoughts on advice to people watching as they try to put the right plans together to be positioned and not foreclose any future value. >> Yeah, absolutely. So in addition to the points that Ki raised, I would, number one, amplify the fact of recognize that you're going to have a hybrid environment of legacy and modern capabilities. And in addition to thinking open architectures and whatnot, think about your culture, the people, your processes, your techniques and whatnot, and your governance. How do you make decisions when it needs to be closed versus open? Where do you invest in the workforce? What decisions are you going to make in your architecture that drive that hybrid world that you're going to live in? All those recipes, patience, open, all that, that I think we often overlook the cultural people aspect of upskilling. This is a very different way of thinking on modern software delivery. How do you go through this lifecycle? How's security embedded? So making sure that's part of that boardroom conversation I think is key. >> John Pisano, Principal at Booz Allen Digital Cloud Solutions, thanks for sharing that great insight. Ki Lee, Vice President at Booz Allen Digital Business. Gentlemen, great conversation. Thanks for that insight. And I think people watching are going to probably learn a lot on how to evaluate startups to how they put their architecture together. So I really appreciate the insight and commentary. >> Thank you. >> Thank you, John. >> Okay. I'm John Furrier. This is theCUBE Conversation. Thanks for watching. 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>>from around the globe. It's the Cube with digital coverage of AWS reinvent 2020. Special coverage sponsored by AWS Worldwide Public sector. >>Welcome to the Cube. Virtual. This is our coverage of aws reinvent 2020. Specialized programming for worldwide public sector. I'm Lisa Martin. Got a couple of guests here from No. Veta, please welcome Steven Adelman, principal computer scientists, and Kevin Healed, vice president of Information Exploitation. Gentlemen, welcome to the Cube. >>Thank you. >>Thank you for having us. >>Alright, guys. So? So, Kevin, we're going to start with you. Give our audience an introduction to Nevada. What do you What do you guys do? Who are you? How do you play in the public sector Government space, >>right? Yeah. Thank you, Lisa. Eso, Nevada Nevada is a technology services company focused on government solutions. So primarily national security solutions. Eso think customers such as Doody, the intelligence community, FBI, law enforcement and things like that about 13 1300 employees worldwide, primarily in our in our field. Clear resource is, um, that really focused on cloud for solutions for our customers. So solving the tough mission challenges our customers have, so that could be in technology solutions such as Data Analytics A I M L i O T. Secure Workloads, full spectrum cyber Cobb video processing. Really anything that's a high end technology solution or something we do for the government. We have been a privilege. We have. It's a privilege to be a partner with AWS for for some time now. In fact, I think the first reinvent we may have been to Stephen was six years ago. Five years ago, two >>1012 or 13 >>s So we've we've we've been around for a while, really kind of enjoying it and certainly sad that we're missing an in person reinvent this year, but looking forward to doing it virtually so, we're actually advanced your partner with AWS with a machine learning and government competency. Andi really kind of thio pump the m l side of that. That was one of our first companies with compasses with AWS and led by a center of excellence that I have in my division that really focuses on machine learning and how we applied for the Michigan. And so, um, really, we focus on protecting the nation and protecting our activities in the country >>and on behalf of the country. We thank you, Steven. Give me a little bit of information from a double click perspective as computer scientists. What are some of the key challenges that no, that helps its customers to solve. And how do you do that with a W s? >>Yeah, Thank you. So really as, ah, company, that is is data first. So our initial love and and still are kind of strongest competency is in applying solutions to large data sets. And as you can imagine, uh, the bigger the data set them or compute you need the the more resource is you need and the flexibility from those resource is is truly important, which led us very early, as especially in the government space and public sector space to be in early. A doctor of cloud resource is because of the fact that, you know, rather than standing up a 200 node cluster at at many millions of dollars, we could we could spend up a W s resource is process a big data set, and then and then get the answers an analyst or on operator needed and then spin down. Those resource is when When when that kind of compute wasn't needed. And that is really, uh, kind of informed how we do our work Azaz Nevadans that that cloud infrastructure and now pushing into the edge compute space. Still kind of keeping those cloud best practices in play to get access to more data. That the two, the two biggest, I think revolutions that we've seen with regards to using data to inform business processes and missions has been that that cloud resource that allows us to do so much with so less and so much more flexibly and then the idea of cheap compute making it to the edge and the ability to apply sensors thio places where you know it would been a would have been, you know, operational cost prohibitive to do that and then, ironically, those air to things that aren't necessarily data analytics or machine learning focused but man, did they make it easier to collect that data and process that data and then get the answers back out. So that really has has has kind of, uh, shaped a lot of the way Nevada has grown as a company and how we serve our customers. >>So coming back over to you lets. One of the things that we've been talking about almost all year is just the acceleration in digital transformation and how much faster organizations, private sector, public sector need to innovate to stay relevant, to stay competitive. How do you are you working with government customers to help them innovate so quickly? >>You know, we're very fortunate that a set of customers that focuses actually innovation it's focuses. I rad on. Do you know we can't do the cool things we do without those customer relationships that really encourage us to, um, to try new things out and, quite frankly, fail quickly when we need Thio. And so, by establishing that relationship, what we've been able to do is to blend agile development. Actual acquisition with government requirements process, right? If if you know the typical stereotype of government work is it's this very stovepiped hard core acquisition process, right? And so we have been fortunate to instead try quick win kind of projects. And so one of the biggest things we do is partner with our government customers and try to find it difficult, um, challenged to solve over 6 to 12 month time, right? So instead of making this long four or five year acquisition cycles like show me, right. How can we solve this problem? And then we partner with the mission partner show success in six months show that we can do it with a smaller part of money, and then as we're able to actually make that happen, it expands in something bigger, broader, and then we kind of bringing together a coalition of the willing, if you will in the government and saying, Okay, are there other stakeholders to care about this problem, bring them on, bring their problems and bringing together? You know, we can't do that with some of the passionate people we have, like Stevens. A perfect example. When we talk about a car in the projects we're doing here, Stevens passion for this technology partner with our customers having these challenges and try to enhance what they're doing is a powerful combination. And then the last thing that we're able to is a company is we actually spend a decent amount of our own dollar dollars on I rad S O. R and D that we fund ourselves. And so, while finding those problems and spending government dollars in doing that. We also have spent our own dollars on machine learning Coyote sensor next Gen five g and things like that and how those compartment together partner together to go back to the government. >>Yeah, yeah, So I would even say, You know, there's this. There's a conventional wisdom that government is slow in plotting and a little bit behind commercial best practices. But there are There are pockets in growing pockets across the government, Um, where they're really they're really jumping ahead of, ah, lot of processes and getting in front of this curve and actually are quite innovative. And and because they kind of started off from behind, they could jump over a lot of kind of middle ground legacy technologies. And they're really innovating. As Kevin said with With With the card platform, we're partnering with um P E O Digital in the Air Force in South C, D. M and Air Force security forces as that kind of trifecta of stakeholders who all want toe kind of saw a mission problem and wanted to move forward quickly and leave the legacy behind and and really take a quantum leap forward. And if anything, they're they're driving us Thio, Innovate Mawr Thio Introduce more of those kind of modern back practices on bond. Nevada as a company loves to find those spots in the government sector where we've got those great partners who love what we're doing. And it's this great feedback loop where, um, where we can solve hard technical problems but then see them deployed to some really important and really cool and impactful missions. And we tend to recruit that that set that kind of nexus of people who want to both solve a really difficult problem but want to see it executed in a really impactful way as well. I mean, that really grates a great bond for us, and and I'm really excited to say that that a lot of the government it is really taking a move forward in this this this realm. And I think it's it's just good for our country and good for the missions that they support. >>Absolutely. And it's also surprising because, as you both said, you know, there is this expectation that government processes or lengthy, you know, laborious, um, not able to be turned around quickly. But as Kevin, you just said, you know helping customers. Government agencies get impact within 6 to 12 months versus 4 to 5 years. So you talked about Picard? Interesting name. Kevin. Tell me a little bit more about that technology and what it is that you guys deliver. That's unique. >>Well, honestly, it's probably best to start with Stephen. I can give you the high level. This is Stevens vision. I have to give him credit for that. And I will say way have lots of fun. Acronym. So it isn't Actually, it isn't backward. Um, right. Stephen doesn't actually stand for something. >>It stands for Platform for Integrated, a C three and Responsive for defense on >>Guy. You know >>that the Star Trek theme is the leg up from the last set of programs I had, >>which were >>my little ponies. So >>Oh, wow. That's a definite stuff in a different direction. Like >>it? Part of the great thing about working in the government is you get to name things, cool things, so but t get to your question eso So Picard really sprung out of this idea that I had a few years ago that the world but for our spaces, the Department of defense and the federal government was going to see a massive influx of the desire to consume sensors from from areas of responsibility, from installations and, frankly, from battlefields. Um, but they were gonna have to do it. In a way, um, uh, that presented some real challenges that you couldn't just kind of throw compute editor, throw traditional I t processes at it. You know, we have legacy sensors that are 40 years old sitting on installations. You know, old program, a logical controllers or facilities control systems that were written in cobalt in the seventies, right in the world are not even I, p based, most of them bond. Then on the other end of the spectrum, you have seven figure sensors that air, you know, throwing out megabits of second of data that are mounted to the back of jeeps. Right, That that air bouncing through the desert today. But we'll be bouncing through the jungle tomorrow, and you have to find all of those kind of in combined all of those together, um, and kind of create a cohesive data center for data set set for you know, the mission for, um, you know what we call a user to find common operating picture for a person. Thio kind of combine all of those different resource is and make it work for them. And so we found a great partner with security forces. Um, they realized that they wanted Thio to make a quantum leap forward. They had this idea that the next defender So there are there, like a military police outfit that the next defender was going to be a data driven defender and they were gonna have to win the information war war as much as they had to kind of dominate physical space. And they immediately got what we were trying to achieve, and it was just just great synergy. And then we've piled on some other elements, and we're really moving that platform forward to to kind of take every little bit of information we can get from the areas of responsibility and get it into a you know, your modern Data Lake, where they can extract information from all that data. >>Kevin, as the VP of information exploitation, that's a very interesting title. How are you helping government organizations to win the war on information? Leverage that information to make a big impact fast. >>Yeah. I mean, I think a lot of it is is that we try to break down the barriers between systems on data so that we can actually enable that data to fuse together to find and get insights into it. You know, as ML and I have become trendy topics, you know, they're very data hungry operations. And I think what Steven has done with the card and his team is really we want to be able to make those sensors seamless from a plug and play perspective that Aiken plug in a new sensor. It's a standards based, uh, interface that sends that data back so that we can and take it back to the user to find Operation Picture and make some decisions based off of that data. Um, you know, what's more is that data could even refused with more than the data that Stevens collecting off the sensors. It could be commercial data, other government data and I think is Davis. As Stephen said earlier, you have to get it back. And as long as you've gotten back in Labour's share with some of our mission partners, then you can do amazing things with it. And, you know, Stephen, I know you have some pretty cool ideas and what we're gonna do on the edge, right? How do we do some of this work of the edge where a sensor doesn't allow us to pull out that data back? >>Yeah, and and Thio follow on to what you were kind of referring to with regards to thio handling heterogeneous data from different sensors. Um, one of the main things that our government customers and we have seen is that there are a lot of historically there are a lot of vertical solutions where you know, the sensor, the platform, and then the data Laker kind of all part of this proprietary stack. And we quickly realized that that just doesn't work. And so one of the major thrust of that card platform was to make sure that we had ah, platform by which we could consume data through adapters from essentially any sensor speaking. Any protocol with any style data object, Whether that was an industry standard or a proprietary protocol, we could quickly interested and bring it into our Data lake. And then to pile on to what Kevin was talking about with compute. Right? So you have, uh, like, almost like a mass locks hierarchy of needs when it comes to cyber data or thio this coyote data or kind of unified data, Um, you know, you wanna turn it into basic information, alerts alarms, then you want to do reporting on it, or analytics or some some higher level workflow function. And then finally, you probably want to perform some analytics or some trending or sort of anomaly detection on it. And and that gets more computational e intensive each step of the way. And so you gotta You gotta build a platform that allows you to to both take some of that high level compute down to the edge, but also then bring some of that data up into the clouds where you could do that processing, and you have to have kind of fun jubilate e between that and so that hard platform allows you to kind of bring GP use and high processing units down to the edge and and make that work. Um, but then also and then as maybe even a first passive to rule out some of the most you know, some of the boring gated in the video Analytics platform. We call it Blue Sky and Blue Ocean. Right, so you're recording lots of video. That's not that interesting. How do you filter that out? So you're only sending the information The interesting video up eso You're not wasting bandwidth on stuff that just doesn't matter on DSO. It's It's a lot of kind of tuning these knobs and having a flexible enough platform that you could bring Compute down when you need it. And you could bring data up to compute on Big Cloud while you need it, and just kind of finding a way to tune that that that really does. I mean it. You know, that's a lot of words about how you do that. But what that comes to is flexible hardware and being able to apply those dev ops and C I. C D platform characteristics to that edge hardware and having a unified platform that allows you to kind of orchestrate your applications in your services all the way up and down your stack, from micro controllers to a big cloud instant creation. >>You make it sound so easy. Steven Kevin. Let's wrap it up with you in terms of like making impacts and going forward. We know the edge has exploded, even mawr, during this very interesting year. And that's going to be something that's probably going to stay, um, stay as a permanent impact or effect. What are some of the things that we can expect in 2021 in terms of how you're able to help government organizations capitalize on that, find things faster, make impact faster? >>Yeah. I mean, I think the cool thing we're seeing is that there's a lot more commoditization of sensors. There's a lot more censored information. And so let's use lighters. Example. We you know, things were getting cheaper, and so we can all of a sudden doom or or more things at the edge, and we ever would have expected. Right when you know Steven's team is integrating camera data and fence data from 40 years ago, you know, it's just saying on off it's not do anything fancy. But now we you know, you know, Stephen, I camera whether Metro you gave him before was, but the cost of light are has dropped so significantly that we can now then deploy that we can actually roll it out there and not being locked in their proprietary, uh, system. Um, so I see that being very powerful, you know? Also, I can see where you start having sensors interact with each other, right? So one sensor finds one thing and then a good example that we've started thio experiment with. And I think Steve, you could touch on it is using triggering a sensor, triggers a drone to actually investigate what's going on and then therefore, hybrid video back and then automatically can investigate instead of having to deploy a defender to actually see what happened at that. At that end, Points dio e don't know. There's it's amore detail you can provide there. >>Yeah, No. So exactly that Kevin. So So the power of the sensor is is something something old that that gives you very uninteresting Data like a one or a zero on on or off can detect something very specific and then do something kind of high speed, like task a drone to give you a visual assessment and then run object detection or facial recognition on, you know, do object detection to find a person and do facial recognition on that person to find out if that's a patrol walking through a field or a bad guy trying Thio invade your space. Um and so it's really the confluence and the gestalt of all of these sensors in the analytics working together, Um, that really creates the power from very simple, simple delivery. I think, um, there's this, You know, this idea that you know, ah 100 bytes of data is not that important. But when you put a million sensors giving you 100 bytes of data, you can truly find something extremely powerful. And then when you kind of and you make those interactions sing, um, it's amazing. Tow us the productivity that we can produce and the kind of fidelity of response that we can give thio actors in the space whether that's a defender trying to defend the base or a maintenance person trying thio proactively replace the fan or clean the fan on an H vac system. So So you know, you know, there isn't a fire at a base or for, uh, interesting enough. One of the things that we we've been able to achieve is we've taken maintenance data for helicopter engines and And we've been able to proactively say, Hey, you need to You need to take care of this part of the helicopter engine. Um and it saves money. It saves downtimes. It keeps the birds in the air. And it's a relatively simple algorithm that we were able to achieve. And we were able to do that with the maintenance people, bring them along in this endeavor and create analytics that they understood and could trust on DSO. I think that's really the power of this base. >>Tremendous power. I wish we had more time to to dig into it. Guys, thank you so much for sharing. Not just your insights, what nobody is doing but your passion for what you're doing and how you're making such an impact. Your passion is definitely palpable. Steven. Kevin, Thank you for joining me today. >>Thank you >>for my guests. I'm Lisa Martin. You're watching the Cube? Virtual. Yeah,

(radio calls) >> Announcer: From around the globe, its theCUBE covering Space & Cybersecurity Symposium 2020, hosted by Cal poly. Hello, welcome back to theCUBE virtual coverage with Cal Poly for the Space and Cybersecurity Symposium, a day four and the wrap up session, keynote session with the Lieutenant Governor of California, Eleni Kounalakis. She's here to deliver her keynote speech on the topic of California's role in supporting America's Cybersecurity future. Eleni, take it away. >> Thank you, John, for the introduction. I am Lieutenant Governor Eleni Kounalakis. It is an honor to be part of Cal Poly Space and Cybersecurity Symposium. As I speak kind of Pierre with the governor's office of business and economic development is available on the chat, too ready to answer any questions you might have. California and indeed the world are facing significant challenges right now. Every day we are faced with the ongoing COVID-19 pandemic and the economic downturn that is ensued. We have flattened the curve in California and are moving in the right direction but it is clear that we're not out of the woods yet. It is also impossible right now to escape the reality of climate change from the fire sparked by exceptionally rare, dry lightening events to extreme heat waves threatening public health and putting a strain on our electricity grid. We see that climate change is here now. And of course we've been recently confronted with a series of brutal examples of institutionalized racism that have created an awakening among people of all walks of life and compelled us into the streets to march and protest. In the context of all this, we cannot forget that we continue to be faced with other less visible but still very serious challenges. Cybersecurity threats are one of these. We have seen cities, companies and individuals paralyzed by attacks costing time and money and creating an atmosphere of uncertainty and insecurity. Our state agencies, local governments, police departments, utilities, news outlets and private companies from all industries are target. The threats around cybersecurity are serious but not unlike all the challenges we face in California. We have the tools and fortitude to address them. That is why this symposium is so important. Thank you, Cal Poly and all the participants for being here and for the important contributions you bring to this conference. I'd like to also say a few words about California's role in America's future in space. California has been at the forefront of the aerospace industry for more than a century through all the major innovations in aerospace from wooden aircraft, to World War II Bombers, to rockets and Mars rovers. California has played a pivotal role. Today, California is the number one state in total defense spending, defense contract spending and total number of personnel. It is estimated the Aerospace and Defense Industry, provides $168 billion in economic impact to our state. And America's best trained and most experienced aerospace and technology workforce lives here in California. The fact that the aerospace and defense sector, has had a strong history in California is no accident. California has always had strong innovation ecosystem and robust infrastructure that puts many sectors in a position to thrive. Of course, a big part of that infrastructure is a skilled workforce. And at the foundation of a skilled workforce is education. California has the strongest system of public higher education in the world. We're home to 10 university of California campuses, 23 California State university campuses and 116 California Community Colleges. All told nearly 3 million students are enrolled in public higher education. We also have world renowned private universities including the California Institute of Technology and Stanford University numbers one and three in the country for aerospace engineering. California also has four national laboratories and several NASA facilities. California possesses a strong spirit of innovation, risk taking and entrepreneurship. Half of all venture capital funding in the United States, goes to companies here in California. Lastly, but certainly no less critical to our success, California is a diverse state. 27% of all Californians are foreign born, 27% more than one in four of our population of 40 million people are immigrants from another country, Europe central and South America, India, Asia, everywhere. Our rich cultural diversity is our strength and helps drive our economy. As I look to the future of industries like cybersecurity and the growing commercial space industry, I know our state will need to work with those industries to make sure we continue to train our workforce for the demands of an evolving industry. The office of the lieutenant governor has a unique perspective on higher education and workforce development. I'm on the UC Board of Regents, the CSU Board of Trustees. And as of about two weeks ago, the Community Colleges Board of Governors. The office of the lieutenant governor is now the only office that is a member of every governing board, overseeing our public higher education system. Earlier in the symposium, we heard a rich discussion with Undersecretary Stewart Knox from the California Labor and Workforce Development Agency about what the state is doing to meet the needs of space and cybersecurity industries. As he mentioned, there are over 37,000 job vacancies in cybersecurity in our state. We need to address that gap. To do so, I see an important role for public private partnerships. We need input from industry and curriculum development. Some companies like Lockheed Martin, have very productive partnerships with universities and community colleges that train students with skills they need to enter aerospace and cyber industries. That type of collaboration will be key. We also need help from the industry to make sure students know that fields like cybersecurity even exist. People's early career interests are so often shaped by the jobs that members of their family have or what they see in popular culture. With such a young and evolving field like cybersecurity, many students are unaware of the job opportunities. I know for my visits to university campuses that students are hungry for STEM career paths where they see opportunities for good paying jobs. When I spoke with students at UC Merced, many of them were first generation college students who went through community college system before enrolling in a UC and they gravitated to STEM majors. With so many job opportunities available to STEM students, cybersecurity ought to be one that they are aware of and consider. Since this symposium is being hosted by Cal Poly, I wanted to highlight the tremendous work they're doing as leaders in the space and cybersecurity industry. Cal Poly California Cybersecurity Institute, does incredible work bringing together academia, industry and government training the next generation of cyber experts and researching emerging cybersecurity issues. As we heard from the President of Cal Poly, Jeff Armstrong the university is in the perfect location to contribute to a thriving space industry. It's close to Vandenberg Air Force Base and UC Santa Barbara and could be home to the future permanent headquarters of US Space Command. The state is also committed to supporting this space industry in the Central Coast. In July, the State of California, Cal poly US-based force and the others signed a memorandum of understanding to develop a commercial space port at Vandenberg Air Force Base and to develop a master plan to grow the commercial space industry in the region. Governor Newsom has made a commitment to lift up all regions of the state. And this strategy will position the Central Coast to be a global leader in the future of the space industry. I'd like to leave you with a few final thoughts, with everything we're facing. Fires, climate change, pandemic. It is easy to feel overwhelmed but I remain optimistic because I know that the people of the State of California are resilient, persistent, and determined to address our challenges and show a path toward a better future for ourselves and our families. The growth of the space industry and the economic development potential of projects like the Spaceport at Vandenberg Air Force Base, our great example of what we can look forward to. The potential for the commercial space industry to become a $3 trillion industry by mid century, as many experts predict is another. There are so many opportunities, new companies are going to emerge doing things we never could have dreamed of today. As Lieutenant General John Thompson said in the first session, the next few years of space and cyber innovation are not going to be a pony ride at the state fair, they're going to be a rodeo. We should all saddle up. Thank you. >> Okay, thank you very much, Eleni. I really appreciate it. Thank you for your participation and all your support to you and your staff. You guys doing a lot of work, a lot going on in California but cybersecurity and space as it comes together, California's playing a pivotal role in leading the world and the community. Thank you very much for your time. >> Okay, this session is going to continue with Bill Britton. Who's the vice president of technology and CIO at Cal Poly but more importantly, he's the director of the cyber institute located at Cal Poly. It's a global organization looking at the intersection of space and cybersecurity. Bill, let's wrap this up. Eleni had a great talk, talking about the future of cybersecurity in America and its future. The role California is playing, Cal Poly is right in the Central Coast. You're in the epicenter of it. We've had a great lineup here. Thanks for coming on. Let's put a capstone on this event. >> Thank you, John. But most importantly, thanks for being a great partner helping us get this to move forward and really changing the dynamic of this conversation. What an amazing time we're at, we had quite an unusual group but it's really kind of the focus and we've moved a lot of space around ourselves. And we've gone from Lieutenant General Thompson and the discussion of the opposition and space force and what things are going on in the future, the importance of cyber in space. And then we went on and moved on to the operations. And we had a private company who builds, we had the DOD, Department Of Defense and their context and NASA and theirs. And then we talked about public private partnerships from President Armstrong, Mr. Bhangu Mahad from the DOD and Mr. Steve Jacques from the National Security Space Association. It's been an amazing conference for one thing, I've heard repeatedly over and over and over, the reference to digital, the reference to cloud, the reference to the need for cybersecurity to be involved and really how important that is to start earlier than just at the employment level. To really go down into the system, the K through 12 and start there. And what an amazing time to be able to start there because we're returning to space in a larger capacity and it's now all around us. And the lieutenant governor really highlighted for us that California is intimately involved and we have to find a way to get our students involved at that same level. >> I want to ask you about this inflection point that was a big theme of this conference and symposium. It was throughout the interviews and throughout the conversations, both on the chat and also kind of on Twitter as well in the social web. Is that this new generation, it wasn't just space and government DOD, all the normal stuff you see, you saw JPL, the Hewlett Foundation, the Defense Innovation Unit, Amazon Web Services, NASA. Then you saw entrepreneurs come in, who were doing some stuff. And so you had this confluence of community. Of course, Cal Poly had participated in space. You guys does some great job, but it's not just the physical face-to-face show up, gets to hear some academic papers. This was a virtual event. We had over 300 organizations attend, different organizations around the world. Being a virtual event you had more range to get more people. This isn't digital. This symposium isn't about Central California anymore. It's global. >> No, it really has gone. >> What really happened to that? >> It's really kind of interesting because at first all of this was word of mouth for this symposium to take place. And it just started growing and growing and the more that we talk to organizations for support, the more we found how interconnected they were on an international scale. So much so that we've decided to take our cyber competition next year and take it globally as well. So if in fact as Major General Shaw said, this is about a multinational support force. Maybe it's time our students started interacting on that level to start with and not have to grow into it as they get older, but do it now and around space and around cybersecurity and around that digital environment and really kind of reduce the digital dividing space. >> Yeah, General Thompson mentioned this, 80 countries with programs. This is like the Olympics for space and we want to have these competitions. So I got great vision and I love that vision, but I know you have the number... Not number, the scores and from the competition this year that happened earlier in the week. Could you share the results of that challenge? >> Yeah, absolutely. We had 83 teams participate this year in the California Cyber Innovation Challenge. And again, it was based around a spacecraft scenario where a spacecraft, a commercial spacecraft was hacked and returned to earth. And the students had to do the forensics on the payload. And then they had to do downstream network analysis, using things like Wireshark and autopsy and other systems. It was a really tough competition. The students had to work hard and we had middle school and high school students participate. We had an intermediate league, new schools who had never done it before or even some who didn't even have STEM programs but were just signing up to really get involved in the experience. And we had our ultimate division which was those who had competed in several times before. And the winner of that competition was North Hollywood. They've been the winning team for four years in a row. Now it's a phenomenal program, they have their hats off to them for competing and winning again. Now what's really cool is not only did they have to show their technical prowess in the game but they also have to then brief and out-brief what they've learned to a panel of judges. And these are not pushovers. These are experts in the field of cybersecurity in space. We even had a couple of goons participating from DefCon and the teams present their findings. So not only are we talking technical, we're talking about presentation skills. The ability to speak and understand. And let me tell you, after reading all of their texts to each other over the weekend adds a whole new language they're using to interact with each other. It's amazing. And they are so more advanced and ready to understand space problems and virtual problems than we are. We have to challenge them even more. >> Well, it sounds like North Hollywood got the franchise. It's likethe Patriots, the Lakers, they've got a dynasty developing down there in North Hollywood. >> Well, what happens when there's a dynasty you have to look for other talent. So next year we're going global and we're going to have multiple states involved in the challenge and we're going to go international. So if North Hollywood pulls it off again next year, it's going to be because they've met the best in the world than defeated >> Okay, the gauntlet has been thrown down, got to take down North Hollywood from winning again next year. We'll be following that. Bill, great to get those results on the cyber challenge we'll keep track and we'll put a plug for it on our site. So we got to get some press on that. My question to you is now as we're going digital, other theme was that they want to hire digital natives into the space force. Okay, the DOD is looking at new skills. This was a big theme throughout the conference not just the commercial partnerships with government which I believe they had kind of put more research and personally, that's my personal opinion. They should be putting in way more research into academic and these environments to get more creative. But the skill sets was a big theme. What's your thoughts on how you saw some of the highlight moments there around skill sets? >> John, it's really interesting 'cause what we've noticed is in the past, everybody thinks skill sets for the engineering students. And it's way beyond that. It's all the students, it's all of them understanding what we call cyber cognizance. Understanding how cybersecurity works whatever career field they choose to be in. Space, there is no facet of supporting space that doesn't need that cyber cognizance. If you're in the back room doing the operations, you're doing the billing, you're doing the contracting. Those are still avenues by which cybersecurity attacks can be successful and disrupt your space mission. The fact that it's international, the connectivities, all of those things means that everyone in that system digitally has to be aware of what's going on around them. That's a whole new thought process. It's a whole new way of addressing a problem and dealing with space. And again it's virtual to everyone. >> That's awesome. Bill, great to have you on. Thank you for including theCUBE virtual, our CUBE event software platform that we're rolling out. We've been using it for the event and thank you for your partnership in this co-creation opening up your community, your symposium to the world, and we're so glad to be part of it. I want to thank you and Dustin and the team and the President of Cal Poly for including us. Thank you very much. >> Thank you, John. It's been an amazing partnership. We look forward to it in the future. >> Okay, that's it. That concludes the Space and Cybersecurity Symposium 2020. I'm John Furrier with theCUBE, your host with Cal Poly, who put on an amazing virtual presentation, brought all the guests together. And again, shout out to Bill Britton and Dustin DeBrum who did a great job as well as the President of Cal poly who endorsed and let them do it all. Great event. See you soon. (flash light sound)

>>from around the globe. It's the Cube covering space and cybersecurity. Symposium 2020 hosted by Cal Poly >>Oven. Welcome back to the Space and Cyber Security Symposium. 2020 I'm John for your host with the Cuban silicon angle, along with Cal Poly, representing a great session here on industry success in developing space and cybersecurity. Resource is Got a great lineup. Brigadier General Steve Hotel, whose are also known as Bucky, is Call Sign director of Space Portfolio Defense Innovation Unit. Preston Miller, chief information security officer at JPL, NASA and Major General retired Clint Crozier, director of aerospace and satellite solutions at Amazon Web services, also known as a W s. Gentlemen, thank you for for joining me today. So the purpose of this session is to spend the next hour talking about the future of workforce talent. Um, skills needed and we're gonna dig into it. And Spaces is an exciting intersection of so many awesome disciplines. It's not just get a degree, go into a track ladder up and get promoted. Do those things. It's much different now. Love to get your perspectives, each of you will have an opening statement and we will start with the Brigadier General Steve Hotel. Right? >>Thank you very much. The Defense Innovation Unit was created in 2015 by then Secretary of Defense Ash Carter. To accomplish three things. One is to accelerate the adoption of commercial technology into the Department of Defense so that we can transform and keep our most relevant capabilities relevant. And also to build what we call now called the national Security Innovation Base, which is inclusive all the traditional defense companies, plus the commercial companies that may not necessarily work with focus exclusively on defense but could contribute to our national security and interesting ways. Um, this is such an exciting time Azul here from our other speakers about space on and I can't, uh I'm really excited to be here today to be able to share a little bit of our insight on the subject. >>Thank you very much. Precedent. Miller, Chief information security officer, Jet Propulsion Lab, NASA, Your opening statement. >>Hey, thank you for having me. I would like to start off by providing just a little bit of context of what brings us. Brings us together to talk about this exciting topic for space workforce. Had we've seen In recent years there's been there's been a trend towards expanding our space exploration and the space systems that offer the great things that we see in today's world like GPS. Um, but a lot of that has come with some Asian infrastructure and technology, and what we're seeing as we go towards our next generation expects of inspiration is that we now want to ensure that were secured on all levels. And there's an acknowledgement that our space systems are just a susceptible to cyber attacks as our terrestrial assistance. We've seen a recent space, uh, policy Directive five come out from our administration, that that details exactly how we should be looking at the cyber principle for our space systems, and we want to prevent. We want to prevent a few things as a result of that of these principles. Spoofing and jamming of our space systems are not authorized commands being sent to those space systems, lots of positive control of our space vehicles on lots of mission data. We also acknowledge that there's a couple of frameworks we wanna adopt across the board of our space systems levers and things like our nice miss cybersecurity frameworks. eso what has been a challenge in the past adopted somebody Cyber principles in space systems, where there simply has been a skill gap in a knowledge gap. We hire our space engineers to do a few things. Very well designed space systems, the ploy space systems and engineer space systems, often cybersecurity is seen as a after thought and certainly hasn't been a line item and in any budget for our spaces in racing. Uh, in the past in recent years, the dynamic started to change. We're now now integrating cyber principles at the onset of development of these life cycle of space. Systems were also taking a hard look of how we train the next generation of engineers to be both adequate. Space engineers, space system engineers and a cyber engineers, as a result to Mrs success on DWI, also are taking a hard look at What do we mean when we talk about holistic risk management for our space assistance, Traditionally risk management and missing insurance for space systems? I've really revolved around quality control, but now, in recent years we've started to adopt principles that takes cyber risk into account, So this is a really exciting topic for me. It's something that I'm fortunate to work with and live with every day. I'm really excited to get into this discussion with my other panel members. Thank you. >>You Preston. Great insight there. Looking forward. Thio chatting further. Um, Clint Closure with a W. S now heading up. A director of aerospace and satellite Solutions, formerly Major General, Your opening statement. >>Thanks, John. I really appreciate that introduction and really appreciate the opportunity to be here in the Space and Cybersecurity Symposium. And thanks to Cal Poly for putting it together, you know, I can't help, but as I think to Cal Poly there on the central California coast, San Luis Obispo, California I can't help but to think back in this park quickly. I spent two years of my life as a launch squadron commander at Vandenberg Air Force Base, about an hour south of Cal Poly launching rockets, putting satellites in orbit for the national intelligence community and so some really fond memories of the Central California coast. I couldn't agree more with the theme of our symposium this week. The space and cyber security we've all come to know over the last decade. How critical spaces to the world, whether it's for national security intelligence, whether it's whether communications, maritime, agriculture, development or a whole host of other things, economic and financial transactions. But I would make the case that I think most of your listeners would agree we won't have space without cybersecurity. In other words, if we can't guaranteed cybersecurity, all those benefits that we get from space may not be there. Preston in a moment ago that all the threats that have come across in the terrestrial world, whether it be hacking or malware or ransomware or are simple network attacks, we're seeing all those migrate to space to. And so it's a really important issue that we have to pay attention to. I also want to applaud Cow Pauling. They've got some really important initiatives. The conference here, in our particular panel, is about developing the next generation of space and cyber workers, and and Cal Poly has two important programs. One is the digital transformation hub, and the other is space data solutions, both of which, I'm happy to say, are in partnership with a W. S. But these were important programs where Cal Poly looks to try to develop the next generation of space and cyber leaders. And I would encourage you if you're interested in that toe. Look up the program because that could be very valuable is well, I'm relatively new to the AWS team and I'm really happy Thio team, as John you said recently retired from the U. S. Air Force and standing up the U. S. Space force. But the reason that I mentioned that as the director of the aerospace and satellite team is again it's in perfect harmony with the theme today. You know, we've recognized that space is critically important and that cyber security is critically important and that's been a W s vision as well. In fact, a W s understands how important the space domain is and coupled with the fact that AWS is well known that at a W s security is job zero and stolen a couple of those to fax A. W. S was looking to put together a team the aerospace and satellite team that focus solely and exclusively every single day on technical innovation in space and more security for the space domain through the cloud and our offerings there. So we're really excited to reimagine agree, envision what space networks and architectures could look like when they're born on the cloud. So that's important. You know, talk about workforce here in just a moment, but but I'll give you just a quick sneak. We at AWS have also recognized the gap in the projected workforce, as Preston mentioned, Um, depending on the projection that you look at, you know, most projections tell us that the demand for highly trained cyber cyber security cloud practitioners in the future outweighs what we think is going to be the supply. And so a ws has leaned into that in a number of ways that we're gonna talk about the next segment. I know. But with our workforce transformation, where we've tried to train free of charge not just a W s workers but more importantly, our customers workers. It s a W s we obsessed over the customer. And so we've provided free training toe over 7000 people this year alone toe bring their cloud security and cyber security skills up to where they will be able to fully leverage into the new workforce. So we're really happy about that too? I'm glad Preston raised SPD five space policy Directive five. I think it's gonna have a fundamental impact on the space and cyber industry. Uh, now full disclosure with that said, You know, I'm kind of a big fan of space policy directives, ESPN, Or was the space policy directive that directed to stand up of the U. S. Space Force and I spent the last 18 months of my life as the lead planner and architect for standing up the U. S. Space force. But with that said, I think when we look back a decade from now, we're going to see that s p d five will have as much of an impact in a positive way as I think SPD for on the stand up of the space Force have already done so. So I'll leave it there, but really look forward to the dialogue and discussion. >>Thank you, gentlemen. Clint, I just wanna say thank you for all your hard work and the team and the people who were involved in standing up Space force. Um, it is totally new. It's a game changer. It's modern, is needed. And there's benefits on potential challenges and opportunities that are gonna be there, so thank you very much for doing that. I personally am excited. I know a lot of people are excited for what the space force is today and what it could become. Thank you very much. >>Yeah, Thanks. >>Okay, So >>with >>that, let me give just jump in because, you know, as you're talking about space force and cybersecurity and you spend your time at Vanderburgh launching stuff into space, that's very technical. Is operation okay? I mean, it's complex in and of itself, but if you think about like, what's going on beyond in space is a lot of commercial aspect. So I'm thinking, you know, launching stuff into space on one side of my brain and the other side of brain, I'm thinking like air travel. You know, all the logistics and the rules of the road and air traffic control and all the communications and all the technology and policy and, you >>know, landing. >>So, Major General Clint, what's your take on this? Because this is not easy. It's not just one thing that speaks to the diversity of workforce needs. What's your reaction to that? >>Yeah. I mean, your observation is right on. We're seeing a real boom in the space and aerospace industry. For all the good reasons we talked about, we're recognizing all the value space from again economic prosperity to exploration to being ableto, you know, improve agriculture and in weather and all those sorts of things that we understand from space. So what I'm really excited about is we're seeing this this blossom of space companies that we sort of referred to his new space. You know, it used to be that really only large governments like the United States and a handful of others could operate in the space domain today and largely infused because of the technological innovation that have come with Cyber and Cyrus Space and even the cloud we're seeing more and more companies, capabilities, countries, all that have the ability, you know. Even a well funded university today can put a cube sat in orbit, and Cal Poly is working on some of those too, by the way, and so it's really expanded the number of people that benefits the activity in space and again, that's why it's so critically important because we become more and more reliant and we will become more and more reliant on those capabilities that we have to protect him. It's fundamental that we do. So, >>Bucky, I want you to weigh in on this because actually, you you've flown. Uh, I got a call sign which I love interviewing people. Anyone who's a call sign is cool in my book. So, Bucky, I want you to react to that because that's outside of the technology, you know, flying in space. There's >>no >>rule. I mean, is there like a rules? I mean, what's the rules of the road? I mean, state of the right. I mean, what I mean, what what's going? What's gonna have toe happen? Okay, just logistically. >>Well, this is very important because, uh and I've I've had access thio information space derived information for most of my flying career. But the amount of information that we need operate effectively in the 21st century is much greater than Thanet has been in the past. Let me describe the environment s so you can appreciate a little bit more what our challenges are. Where, from a space perspective, we're going to see a new exponential increase in the number of systems that could be satellites. Uh, users and applications, right? And so eso we're going we're growing rapidly into an environment where it's no longer practical to just simply evolved or operate on a perimeter security model. We and with this and as I was brought up previously, we're gonna try to bring in MAWR commercial capabilities. There is a tremendous benefit with increasing the diversity of sources of information. We use it right now. The military relies very heavily on commercial SAT com. We have our military capabilities, but the commercial capabilities give us capacity that we need and we can. We can vary that over time. The same will be true for remote sensing for other broadband communications capabilities on doing other interesting effects. Also, in the modern era, we doom or operations with our friends and allies, our regional partners all around the world, in order to really improve our interoperability and have rapid exchange of information, commercial information, sources and capabilities provides the best means of doing that. So that so that the imperative is very important and what all this describes if you want to put one word on it. ISS, we're involving into ah hybrid space architectures where it's gonna be imperative that we protect the integrity of information and the cyber security of the network for the things most important to us from a national security standpoint. But we have to have the rules that that allows us to freely exchange information rapidly and in a way that that we can guarantee that the right users are getting the right information at the right. >>We're gonna come back to that on the skill set and opportunities for people driving. That's just looking. There's so much opportunity. Preston, I want you to react to this. I interviewed General Keith Alexander last year. He formerly ran Cyber Command. Um, now he's building Cyber Security Technologies, and his whole thesis is you have to share. So the question is, how do you share and lock stuff down at the same time when you have ah, multi sided marketplace in space? You know, suppliers, users, systems. This is a huge security challenge. What's your reaction to this? Because we're intersecting all these things space and cybersecurity. It's just not easy. What's your reaction? >>Absolutely, Absolutely. And what I would say in response to that first would be that security really needs to be baked into the onset of how we develop and implement and deploy our space systems. Um, there's there's always going to be the need to collect and share data across multiple entities, particularly when we're changing scientific data with our mission partners. Eso with that necessitates that we have a security view from the onset, right? We have a system spaces, and they're designed to share information across the world. How do we make sure that those, uh, those other those communication channels so secure, free from interception free from disruption? So they're really done? That necessitates of our space leaders in our cyber leaders to be joining the hip about how to secure our space systems, and the communications there in Clinton brought up a really good point of. And then I'm gonna elaborate on a little bit, just toe invite a little bit more context and talk about some the complexities and challenges we face with this advent of new space and and all of our great commercial partners coming into therefore way, that's going to present a very significant supply chain risk management problems that we have to get our hands around as well. But we have these manufacturers developing these highly specialized components for the space instruments, Um, that as it stands right now, it's very little oversight And how those things air produced, manufactured, put into the space systems communication channels that they use ports protocols that they use to communicate. And that's gonna be a significant challenge for us to get get our hands around. So again, cybersecurity being brought in. And the very onset of these development thes thes decisions in these life cycles was certainly put us in a best better position to secure that data in our in our space missions. >>Yeah, E just pick up on that. You don't mind? Preston made such a really good point there. But you have to bake security in up front, and you know there's a challenge and there's an opportunity, you know, with a lot of our systems today. It was built in a pre cyber security environment, especially our government systems that were built, you know, in many cases 10 years ago, 15 years ago are still on orbit today, and we're thankful that they are. But as we look at this new environment and we understand the threats, if we bake cybersecurity in upfront weaken balance that open application versus the risk a long as we do it up front. And you know, that's one of the reasons that our company developed what we call govcloud, which is a secure cloud, that we use thio to manage data that our customers who want to do work with the federal government or other governments or the national security apparatus. They can operate in that space with the built in and baked in cybersecurity protocols. We have a secret region that both can handle secret and top secret information for the same reasons. But when you bake security into the upfront applications, that really allows you to balance that risk between making it available and accessible in sort of an open architecture way. But being sure that it's protected through things like ITAR certifications and fed ramp, uh, another ice T certifications that we have in place. So that's just a really important point. >>Let's stay high level for a man. You mentioned a little bit of those those govcloud, which made me think about you know, the tactical edge in the military analogy, but also with space similar theater. It's just another theater and you want to stand stuff up. Whether it's communications and have facilities, you gotta do it rapidly, and you gotta do it in a very agile, secure, I high availability secure way. So it's not the old waterfall planning. You gotta be fast is different. Cloud does things different? How do you talk to the young people out there, whether it's apparent with with kids in elementary and middle school to high school, college grad level or someone in the workforce? Because there are no previous jobs, that kind of map to the needs out there because you're talking about new skills, you could be an archaeologist and be the best cyber security guru on the planet. You don't have to have that. There's no degree for what, what we're talking about here. This >>is >>the big confusion around education. I mean, you gotta you like math and you could code you can Anything who wants to comment on that? Because I think this >>is the core issue. I'll say there are more and more programs growing around that educational need, and I could talk about a few things we're doing to, but I just wanna make an observation about what you just said about the need. And how do you get kids involved and interested? Interestingly, I think it's already happening, right. The good news. We're already developing that affinity. My four year old granddaughter can walk over, pick up my iPad, turn it on. Somehow she knows my account information, gets into my account, pulls up in application, starts playing a game. All before I really even realized she had my iPad. I mean, when when kids grow up on the cloud and in technology, it creates that natural proficiency. I think what we have to do is take that natural interest and give them the skill set the tools and capabilities that go with it so that we're managing, you know, the the interest with the technical skills. >>And also, like a fast I mean, just the the hackers are getting educated. Justus fast. Steve. I mean e mean Bucky. What do you do here? You CIt's the classic. Just keep chasing skills. I mean, there are new skills. What are some of those skills? >>Why would I amplify eloquent? Just said, First of all, the, uh, you know, cyber is one of those technology areas where commercial side not not the government is really kind of leading away and does a significant amount of research and development. Ah, billions of dollars are spent every year Thio to evolve new capabilities. And a lot of those companies are, you know, operated and and in some cases, led by folks in their early twenties. So the S O. This is definitely an era and a generation that is really poised in position. Well, uh, Thio take on this challenge. There's some unique aspects to space. Once we deploy a system, uh, it will be able to give me hard to service it, and we're developing capabilities now so that we could go up and and do system upgrades. But that's not a normal thing in space that just because the the technical means isn't there yet. So having software to find capabilities, I's gonna be really paramount being able to dio unique things. The cloud is huge. The cloud is centric to this or architectural, and it's kind of funny because d o d we joke because we just discovered the cloud, you know, a couple years ago. But the club has been around for a while and, uh, and it's going to give us scalability on and the growth potential for doing amazing things with a big Data Analytics. But as Preston said, it's all for not if if we can't trust the data that we receive. And so one of the concepts for future architectures is to evolve into a zero trust model where we trust nothing. We verify and authenticate everyone. And, uh, and that's that's probably a good, uh, point of departure as we look forward into our cybersecurity for space systems into the future. >>Block everyone. Preston. Your reaction to all this gaps, skills, What's needed. I mean it Z everyone's trying to squint through this >>absolutely. And I wanna want to shift gears a little bit and talk about the space agencies and organizations that are responsible for deploying these spaces into submission. So what is gonna take in this new era on, and what do we need from the workforce to be responsive to the challenges that we're seeing? First thing that comes to mind is creating a culture of security throughout aerospace right and ensuring that Azzawi mentioned before security isn't an afterthought. It's sort of baked into our models that we deploy and our rhetoric as well, right? And because again we hire our spaces in years to do it very highly. Specialized thing for a highly specialized, uh, it's topic. Our effort, if we start to incorporate rhetorically the importance of cybersecurity two missing success and missing assurance that's going to lend itself toe having more, more prepared on more capable system engineers that will be able to respond to the threats accordingly. Traditionally, what we see in organizational models it's that there's a cyber security team that's responsible for the for the whole kit kaboodle across the entire infrastructure, from enterprise systems to specialize, specialize, space systems and then a small pocket of spaces, years that that that are really there to perform their tasks on space systems. We really need to bridge that gap. We need to think about cybersecurity holistically, the skills that are necessary for your enterprise. I t security teams need to be the same skills that we need to look for for our system engineers on the flight side. So organizationally we need we need to address that issue and approach it, um todo responsive to the challenges we see our our space systems, >>new space, new culture, new skills. One of the things I want to bring up is looking for success formulas. You know, one of the things we've been seeing in the past 10 years of doing the Cube, which is, you know, we've been called the ESPN of Tech is that there's been kind of like a game ification. I want to. I don't wanna say sports because sports is different, but you're seeing robotics clubs pop up in some schools. It's like a varsity sport you're seeing, you know, twitch and you've got gamers out there, so you're seeing fun built into it. I think Cal Poly's got some challenges going on there, and then scholarships air behind it. So it's almost as if, you know, rather than going to a private sports training to get that scholarship, that never happens. There's so many more scholarship opportunities for are not scholarship, but just job opportunities and even scholarships we've covered as part of this conference. Uh, it's a whole new world of culture. It's much different than when I grew up, which was you know, you got math, science and English. You did >>it >>and you went into your track. Anyone want to comment on this new culture? Because I do believe that there is some new patterns emerging and some best practices anyone share any? >>Yeah, I do, because as you talked about robotics clubs and that sort of things, but those were great and I'm glad those air happening. And that's generating the interest, right? The whole gaming culture generating interest Robotic generates a lot of interest. Space right has captured the American in the world attention as well, with some recent NASA activities and all for the right reasons. But it's again, it's about taking that interested in providing the right skills along the way. So I'll tell you a couple of things. We're doing it a w s that we found success with. The first one is a program called A W s Academy. And this is where we have developed a cloud, uh, program a cloud certification. This is ah, cloud curriculum, if you will, and it's free and it's ready to teach. Our experts have developed this and we're ready to report it to a two year and four year colleges that they can use is part of the curriculum free of charge. And so we're seeing some real value there. And in fact, the governor's in Utah and Arizona recently adopted this program for their two year schools statewide again, where it's already to teach curriculum built by some of the best experts in the industry s so that we can try to get that skills to the people that are interested. We have another program called A W s educate, and this is for students to. But the idea behind this is we have 12 cracks and you can get up to 50 hours of free training that lead to A W s certification, that sort of thing. And then what's really interesting about that is all of our partners around the world that have tied into this program we manage what we call it ws educate Job board. And so if you have completed this educate program now, you can go to that job board and be linked directly with companies that want people with those skills we just helped you get. And it's a perfect match in a perfect marriage there. That one other piece real quickly that we're proud of is the aws Uh restart program. And that's where people who are unemployed, underemployed or transitioning can can go online. Self paced. We have over 500 courses they can take to try to develop those initial skills and get into the industry. And that's been very popular, too, So that those air a couple of things we're really trying to lean into >>anyone else want to react. Thio that question patterns success, best practices, new culture. >>I'd like Thio. The the wonderful thing about what you just touched on is problem solving, right, And there's some very, very good methodologies that are being taught in the universities and through programs like Hacking for Defense, which is sponsored by the National Security Innovation Network, a component of the I you where I work but the But whether you're using a lien methodologies or design school principals or any other method, the thing that's wonderful right now and not just, uh, where I work at the U. The Space force is doing this is well, but we're putting the problem out there for innovators to tackle, And so, rather than be prescriptive of the solutions that we want to procure, we want we want the best minds at all levels to be able to work on the problem. Uh, look at how they can leverage other commercial solutions infrastructure partnerships, uh, Thio to come up with a solution that we can that we can rapidly employ and scale. And if it's a dual use solution or whether it's, uh, civil military or or commercial, uh, in any of the other government solutions. Uh, that's really the best win for for the nation, because that commercial capability again allows us to scale globally and share those best practices with all of our friends and allies. People who share our values >>win win to this commercial. There's a business model potential financial benefits as well. Societal impact Preston. I want to come to you, JPL, NASA. I mean, you work in one of the most awesome places and you know, to me, you know, if you said to me, Hey, John, come working JP like I'm not smart enough to go there like I mean, like, it's a pretty It's intimidating, it might seem >>share folks out there, >>they can get there. I mean, it's you can get there if you have the right skills. I mean I'm just making that up. But, I mean, it is known to be super smart And is it attainable? So share your thoughts on this new culture because you could get the skills to get there. What's your take on all this >>s a bucket. Just missing something that really resonated with me, right? It's do it your love office. So if you put on the front engineer, the first thing you're gonna try to do is pick it apart. Be innovative, be creative and ways to solve that issue. And it has been really encouraging to me to see the ground welcome support an engagement that we've seen across our system. Engineers in space. I love space partners. A tackling the problem of cyber. Now that they know the West at risk on some of these cyber security threats that that they're facing with our space systems, they definitely want to be involved. They want to take the lead. They want to figure things out. They wanna be innovative and creative in that problem solving eso jpl We're doing a few things. Thio Raise the awareness Onda create a culture of security. Andi also create cyber advocates, cybersecurity advocates across our space engineers. We host events like hacked the lad, for example, and forgive me. Take a pause to think about the worst case scenarios that could that could result from that. But it certainly invites a culture of creative problem solving. Um, this is something that that kids really enjoy that are system engineers really enjoyed being a part off. Um, it's something that's new refreshing to them. Eso we were doing things like hosting a monthly cybersecurity advocacy group. When we talk about some of the cyber landscape of our space systems and invite our engineers into the conversation, we do outweighs programs specifically designed to to capture, um, our young folks, uh, young engineers to deceive. They would be interested and show them what this type of security has to offer by ways of data Analytic, since the engineering and those have been really, really successful identifying and bringing in new talent to address the skill gaps. >>Steve, I want to ask you about the d. O. D. You mentioned some of the commercial things. How are you guys engaging the commercial to solve the space issue? Because, um, the normalization in the economy with GPS just seeing spaces impacts everybody's lives. We we know that, um, it's been talked about. And and there's many, many examples. How are you guys the D o. D. From a security standpoint and or just from an advancement innovation standpoint, engaging with commercials, commercial entities and commercial folks? >>Well, I'll throw. I'll throw a, uh, I'll throw ah, compliment to Clint because he did such an outstanding job. The space forces already oriented, uh, towards ah, commercial where it's appropriate and extending the arms. Leveraging the half works on the Space Enterprise Consortium and other tools that allow for the entrepreneurs in the space force Thio work with their counterparts in a commercial community. And you see this with the, uh, you know, leveraging space X away to, uh, small companies who are doing extraordinary things to help build space situational awareness and, uh, s So it's it's the people who make this all happen. And what we do at at the D. O. D level, uh, work at the Office of Secretary defense level is we wanna make sure that they have the right tools to be able to do that in a way that allows these commercial companies to work with in this case of a space force or with cyber command and ways that doesn't redefine that. The nature of the company we want we want We want commercial companies to have, ah, great experience working with d o d. And we want d o d toe have the similar experience working, working with a commercial community, and and we actually work interagency projects to So you're going to see, uh, General Raymond, uh, hey, just recently signed an agreement with the NASA Esa, you're gonna see interagency collaborations on space that will include commercial capabilities as well. So when we speak as one government were not. You know, we're one voice, and that's gonna be tremendous, because if you're a commercial company on you can you can develop a capability that solves problems across the entire space enterprise on the government side. How great is that, Right. That's a scaling. Your solution, gentlemen. Let >>me pick you back on that, if you don't mind. I'm really excited about that. I mentioned new space, and Bucky talked about that too. You know, I've been flying satellites for 30 years, and there was a time where you know the U. S. Government national security. We wouldn't let anybody else look at him. Touch him. Plug into, um, anything else, right. And that probably worked at the time. >>But >>the world has changed. And more >>importantly, >>um, there is commercial technology and capability available today, and there's no way the U. S government or national security that national Intel community can afford economically >>to >>fund all that investment solely anymore. We don't have the manpower to do it anymore. So we have this perfect marriage of a burgeoning industry that has capabilities and it has re sources. And it has trained manpower. And we are seeing whether it's US Space Force, whether it's the intelligence community, whether it's NASA, we're seeing that opened up to commercial providers more than I've ever seen in my career. And I can tell you the customers I work with every day in a W s. We're building an entire ecosystem now that they understand how they can plug in and participate in that, and we're just seeing growth. But more importantly, we're seeing advanced capability at cheaper cost because of that hybrid model. So that really is exciting. >>Preston. You know you mentioned earlier supply chain. I don't think I think you didn't use the word supply chain. Maybe you did. But you know about the components. Um, you start opening things up and and your what you said baking it in to the beginning, which is well known. Uh, premise. It's complicated. So take me through again, Like how this all gonna work securely because And what's needed for skill sets because, you know, you're gonna open. You got open source software, which again, that's open. We live in a free society in the United States of America, so we can't lock everything down. You got components that are gonna be built anywhere all around the world from vendors that aren't just a certified >>or maybe >>certified. Um, it's pretty crazy. So just weigh in on this key point because I think Clint has it right. And but that's gonna be solved. What's your view on this? >>Absolutely. And I think it really, really start a top, right? And if you look back, you know, across, um in this country, particularly, you take the financial industry, for example, when when that was a burgeoning industry, what had to happen to ensure that across the board. Um, you know, your your finances were protected these way. Implemented regulations from the top, right? Yeah. And same thing with our health care industry. We implemented regulations, and I believe that's the same approach we're gonna need to take with our space systems in our space >>industry >>without being too directive or prescriptive. Instance she ating a core set of principles across the board for our manufacturers of space instruments for deployment and development of space systems on for how space data and scientific data is passed back and forth. Eso really? We're gonna need to take this. Ah, holistic approach. Thio, how we address this issue with cyber security is not gonna be easy. It's gonna be very challenging, but we need to set the guard rails for exactly what goes into our space systems, how they operate and how they communicate. >>Alright, so let's tie this back to the theme, um, Steve and Clint, because this is all about workforce gaps, opportunities. Um, Steve, you mentioned software defined. You can't do break fix in space. You can't just send a technician up in the space to fix a component. You gotta be software defined. We're talking about holistic approach, about commercial talk about business model technology with software and policy. We need people to think through, like you know. What the hell are you gonna do here, right? Do you just noticed road at the side of the road to drive on? There's no rules of engagement. So what I'm seeing is certainly software Check. If you wanna have a job for the next millennial software policy who solves two problems, what does freedom looked like in space Congestion Contention and then, obviously, business model. Can you guys comment on these three areas? Do you agree? And what specific person might be studying in grad school or undergraduate or in high school saying, Hey, I'm not a techie, but they can contribute your thoughts. I'll >>start off with, uh, speak on on behalf of the government today. I would just say that as policy goes, we need to definitely make sure that we're looking towards the future. Ah, lot of our policy was established in the past under different conditions, and, uh, and if there's anything that you cannot say today is that space is the same as it was even 10 years ago. So the so It's really important that our policy evolves and recognizes that that technology is going to enable not just a new ways of doing things, but also force us to maybe change or or get rid of obsolete policies that will inhibit our ability to innovate and grow and maintain peace with with a rapid, evolving threat. The for the for the audience today, Uh, you know, you want some job assurance, cybersecurity and space it's gonna be It's gonna be an unbelievable, uh, next, uh, few decades and I couldn't think of a more exciting for people to get into because, you know, spaces Ah, harsh environment. We're gonna have a hard time just dud being able differentiate, you know, anomalies that occur just because of the environment versus something that's being hacked. And so JPL has been doing this for years on they have Cem Cem great approaches, but but this is this is gonna be important if you put humans on the moon and you're going to sustain them there. Those life support systems are gonna be using, you know, state of the art computer technology, and which means, is also vulnerable. And so eso the consequences of us not being prepared? Uh, not just from our national security standpoint, but from our space exploration and our commercial, uh, economic growth in space over the long term all gonna be hinged on this cyber security environment. >>Clint, your thoughts on this too ill to get. >>Yeah. So I certainly agree with Bucky. But you said something a moment ago that Bucky was talking about as well. But that's the idea that you know in space, you can't just reach out and touch the satellite and do maintenance on the satellite the way you can't a car or a tank or a plane or a ship or something like that. And that is true. However, right, comma, I want to point out. You know, the satellite servicing industry is starting to develop where they're looking at robotic techniques in Cape abilities to go up in services satellite on orbit. And that's very promising off course. You got to think through the security policy that goes with that, of course. But the other thing that's really exciting is with artificial intelligence and machine learning and edge computing and database analytics and all those things that right on the cloud. You may not even need to send a robotic vehicle to a satellite, right? If you can upload and download software defined, fill in the blank right, maybe even fundamentally changing the mission package or the persona, if you will, of the satellite or the spacecraft. And that's really exciting to, ah, lot >>of >>security policy that you've gotta work through. But again, the cloud just opens up so many opportunities to continue to push the boundaries. You know, on the AWS team, the aerospace and satellite team, which is, you know, the new team that I'm leading. Now our motto is to the stars through the cloud. And there are just so many exciting opportunities right for for all those capabilities that I just mentioned to the stars through the cloud >>President, your thoughts on this? >>Yes, eso won >>a >>little bit of time talking about some of the business model implications and some of the challenges that exists there. Um, in my experience, we're still working through a bit of a language barrier of how we define risk management for our space systems. Traditionally traditionally risk management models is it is very clear what poses a risk to a flight mission. Our space mission, our space system. Um, and we're still finding ways to communicate cyber risk in the same terms that are system engineers are space engineers have traditionally understood. Um, this is a bit of a qualitative versus quantitative, a language barrier. But however adopting a risk management model that includes cybersecurity, a za way to express wish risk to miss the success, I think I think it would be a very good thing is something that that we have been focused on the J. P o as we Aziz, we look at the 34 years beyond. How do >>we >>risk that gap and not only skills but communication of cyber risk and the way that our space engineers and our project engineers and a space system managers understand >>Clinton, like Thio talk about space Force because this is the most popular new thing. It's only a couple of nine months in roughly not even a year, uh, already changing involving based on some of the reporting we've done even here at this symposium and on the Internet. Um, you know, when I was growing up, you know, I wasn't there when JFK said, you know, we're gonna get to the moon. I was born in the sixties, so, you know, when I was graduating my degree, you know, Draper Labs, Lincoln Lab, JPL, their pipeline and people wasn't like a surge of job openings. Um, so this kind of this new space new space race, you know, Kennedy also said that Torch has been passed to a new generation of Americans. So in a way that's happening right now with space force. A new generation is here is a digital generation. It's multi disciplinary generation. Could you take a minute and share, uh, for for our audience? And here at this symposium, um, the mission of Space Force and where you see it going because this truly is different. And I think anyone who's young e I mean, you know, if this was happening when I was in college would be like dropping everything. I'm in there, I think, cause there's so many areas thio jump into, um, it's >>intellectually challenging. >>It's intoxicating in some level. So can you share your thoughts? >>Yeah. Happy to do that. Of course. I I need to remind everybody that as a week ago I'm formally retired. So I'm not an official spokesman for US forces. But with that, you know, it said I did spend the last 18 months planning for it, designing and standing it up. And I'll tell you what's really exciting is you know, the commander of, uh, US Base Force General J. Raymond, who's the right leader at the right time. No question in my >>mind. But >>he said, I want to stand up the Space Force as the first fully digital service in the United States. Right? So he is trying >>to bake >>cloud baked cybersecurity, baked digital transformational processes and everything we did. And that was a guidance he gave us every day, every day. When we rolled in. He said, Remember, guys, I don't wanna be the same. I don't wanna be stale. I want new thinking, new capabilities and I want it all to be digital on. That's one of the reasons When we brought the first wave of people into the space force, we brought in space operations, right. People like me that flew satellites and launch rockets, we brought in cyber space experts, and we brought in intelligence experts. Those were the first three waves of people because of that, you know, perfect synergy between space and cyber and intel all wrapped in >>it. >>And so that was really, really smart. The other thing I'll say just about, you know, Kennedy's work. We're going to get to the moon. So here we are. Now we're going back to the Moon Project Artemus that NASA is working next man first woman on the moon by 2024 is the plan and >>then >>with designs to put a permanent presence on the moon and then lean off to march. So there was a lot to get excited about. I will tell you, as we were taking applications and looking at rounding out filling out the village in the U. S. Space Force, we were overwhelmed with the number of people that wanted, and that was a really, really good things. So they're off to a good start, and they're just gonna accomplishment major things. I know for sure. >>Preston, your thoughts on this new generation people out there were like I could get into this. This is a path. What's your what's your opinion on this? And what's your >>E could, uh, you so bold as to say >>that >>I feel like I'm a part of that new generation eso I grew up very much into space. Uh, looking at, um, listen to my, uh, folks I looked up to like Carl Sagan. Like like Neil Tyson. DeGrasse on did really feeling affinity for what What this country has done is for is a space program are focused on space exploration on bond. Through that, I got into our security, as it means from the military. And I just because I feel so fortunate that I could merge both of those worlds because of because of the generational, um, tailoring that we do thio promote space exploration and also the advent of cybersecurity expertise that is needed in this country. I feel like that. We are We are seeing a conversions of this too. I see a lot of young people really getting into space exploration. I see a lot of young people as well. Um uh, gravitating toward cybersecurity as a as a course of study. And to see those two worlds colliding and converse is something that's very near and dear to me. And again, I I feel like I'm a byproduct of that conversion, which is which, Really, Bothwell for space security in the future, >>we'll your great leader and inspiration. Certainly. Senior person as well. Congratulations, Steve. You know, young people motivational. I mean, get going. Get off the sidelines. Jump in Water is fine, Right? Come on in. What's your view on motivating the young workforce out there and anyone thinking about applying their skills on bringing something to the table? >>Well, look at the options today. You have civil space President represents you have military space. Uh, you have commercial space on and even, you know, in academia, the research, the potential as a as an aspiring cyber professional. All of you should be thinking about when we when we When? When we first invented the orbit, which eventually became the Internet, Uh, on Lee, we were, uh if all we had the insight to think Well, geez, you know whether the security implications 2030 years from now of this thing scaling on growing and I think was really good about today's era. Especially as Clint said, because we were building this space infrastructure with a cyber professionals at ground zero on dso the So the opportunity there is to look out into the future and say we're not just trying to secure independent her systems today and assure the free for all of of information for commerce. You know, the GPS signal, Uh, is Justus much in need of protection as anything else tied to our economy, But the would have fantastic mission. And you could do that. Uh, here on the ground. You could do it, uh, at a great companies like Amazon Web services. But you can also one of these states. Perhaps we go and be part of that contingency that goes and does the, uh, the se's oh job that that president has on the moon or on Mars and, uh, space will space will get boring within a generation or two because they'll just be seen as one continuum of everything we have here on Earth. And, uh, and that would be after our time. But in the meantime, is a very exciting place to be. And I know if I was in in my twenties, I wanna be, uh, jumping in with both feet into it. >>Yeah, great stuff. I mean, I think space is gonna be around for a long long time. It's super exciting and cybersecurity making it secure. And there's so many areas defeating on. Gentlemen, thank you very much for your awesome insight. Great panel. Um, great inspiration. Every one of you guys. Thank you very much for for sharing for the space and cybersecurity symposium. Appreciate it. Thank you very much. >>Thanks, John. Thank you. Thank you. Okay, >>I'm >>John for your host for the Space and Cybersecurity Symposium. Thanks for watching.

>>covering the space and cybersecurity symposium 2020 hosted by Cal poly. Hold on. Welcome to this special presentation with Cal poly hosting the space and cybersecurity symposium, 2020 virtual, um, John for your host with the cube and Silicon angle here in our Palo Alto studios with our remote guests, we couldn't be there in person, but we're going to be here remotely. Got a great session and a panel for one hour topic preparing students for the jobs of today and tomorrow, but a great lineup. Bill Britain, Lieutenant Colonel from the us air force, retired vice president for information technology and CIO and the director of the California cyber security Institute for Cal poly bill. Thanks for joining us, dr. Amy Fisher, who's the Dean of the college of engineering at Cal poly and trunk fam professor and researcher at the U S air force Academy. Folks, thanks for joining me today. >>Our pleasure got a great, great panel. This is one of my favorite topics preparing students for the next generation, the jobs for today and tomorrow. We've got an hour. I'd love you guys to start with an opening statement, to kick things off a bill. We'll start with you. Well, I'm really pleased to be, to start on this. Um, as the director for the cybersecurity Institute and the CIO at Cal poly, it's really a fun, exciting job because as a Polytechnic technology, as such a forefront in what we're doing, and we've had a, a wonderful opportunity being 40 miles from Vandenberg air force base to really look at the nexus of space and cyber security. And if you add into that, uh, both commercial government and civil space and cybersecurity, this is an expanding wide open time for cyber and space. In that role that we have with the cyber security Institute, we partner with elements of the state and the university. >>And we try to really add value above our academic level, which is some of the highest in the nation and to really merge down and go a little lower and start younger. So we actually are running the week prior to this showing a cybersecurity competition for high schools or middle schools in the state of California, that competition this year is based on a scenario around hacking of a commercial satellite and the forensics of the payload that was hacked and the networks associated with it. This is going to be done using products like Wireshark autopsy and other tools that will give those high school students. What we hope is a huge desire to follow up and go into cyber and cyber space and space and follow that career path. And either come to Cal poly or some other institution that's going to let them really expand their horizons in cybersecurity and space for the future >>Of our nation. >>Bill, thanks for that intro, by the way, it's gonna give you props for an amazing team and job you guys are doing at Cal poly, that Dex hub and the efforts you guys are having with your challenge. Congratulations on that great work. Thank you >>Star team. It's absolutely amazing. You find that much talent in one location. And I think Amy is going to tell you she's got the same amount of talent in her staff. So it's, it's a great place to be. >>Amy flasher. You guys have a great organization down there, amazing curriculum, grazing people, great community, your opening statement. >>Hello everybody. It's really great to be a part of this panel on behalf of the Cal poly college of engineering here at Cal poly, we really take preparing students for the jobs of today and tomorrow completely seriously. And we claim that our students really graduate. So they're ready day one for their first real job, but that means that in getting them to that point, we have to help them get valuable and meaningful job experience before they graduate, but through our curriculum and through multiple internship or summer research opportunities. So we focus our curriculum on what we call a learn by doing philosophy. And this means that we have a combination of practical experience and learn by doing both in and out of the classroom. And we find that to be really critical for preparing students for the workforce here at Cal poly, we have more than 6,000 engineering students. >>We're one of the largest undergraduate engineering schools in the country. Um, and us news ranks us the eighth best undergraduate engineering program in the, in the country and the top ranked state school. We're really, really proud that we offer this impactful hands on engineering education that really exceeds that of virtually all private universities while reaching a wider audience of students. We offer 14 degree programs and really we're talking today about cyber and space. And I think most of those degree programs can really make an impact in the space and cybersecurity economy. And this includes not only things like Aero and cyber directly, but also electrical engineering, mechanical engineering, computer engineering, materials, engineering, even manufacturing, civil and biomedical engineering. As there's a lot of infrastructure needs that go into supporting launch capabilities. Our aerospace program graduates hundreds of aerospace engineers, and most of them are working right here in California. >>I'm with many of our corporate partners, including Northrop Grumman, Lockheed, Boeing, Raytheon space, X, Virgin, galactic JPL, and so many other places where we have Cal poly engineer's impacting the space economy. Our cybersecurity focus is found mainly in our computer science and software engineering programs. And it's really a rapidly growing interest among our students. Computer science is our most popular major and industry interest and partnerships are integrated into our curriculum. And we do that oftentimes through support from industry. So we have partnerships with Northrop Grumman for professorship and a cyber lab and from PG and E for critical infrastructure, cybersecurity lab, and professorship. And we think that industry partnerships like these are really critical to preparing students for the future as the field's evolving so quickly and making sure we adapt our facilities and our curriculum to stay in line with what we're seeing in industry is incredibly important. >>In our aerospace program, we have an educational partnership with the air force research labs. That's allowing us to install new high performance computing capabilities and a space environments lab. That's going to enhance our satellite design capabilities. And if we talk about satellite design, Cal poly is the founding home of the cube sat program, which pioneered small satellite capabilities. And we remain the worldwide leader in maintaining the cube set standard. And our student program has launched more cube sets than any other program. So here again, we have this learn by doing experience every year for dozens of aerospace, electrical, computer science, mechanical engineering students, and other student activities that we think are just as important include ethical hacking through our white hat club, Cal poly space systems, which does really, really big rocket launches and our support program for women in both of these fields like wish, which is women in software and hardware. >>Now, you know, really trying to bring in a wide variety of people into these fields is incredibly important and outreach and support to those demographics. Traditionally underrepresented in these fields is going to be really critical to future success. So by drawing on the lived experiences by people with different types of backgrounds, while we develop the type of culture and environment where all of us can get to the best solution. So in terms of bringing people into the field, we see that research shows, we need to reach kids when they're in late elementary and middle schools to really overcome that cultural bias that works against diversity in our fields. And you heard bill talking about the cyber cybersec, the California cybersecurity institutes a year late cyber challenge. There's a lot of other people who are working to bring in a wider variety of, uh, of people into the field, like girl Scouts, which has introduced dozens of new badges over the past few years, including a whole cybersecurity series of badges and a concert with Palo Alto networks. So we have our work cut out for us, but we know what we need to do. And if we're really committed to prep properly preparing the workforce for today and tomorrow, I think our future is going to be bright. I'm looking forward to our discussion today. >>Yeah, you got a flashy for great, great comment, opening statement and congratulations. You got the right formula down there, the right mindset, and you got a lot of talent and community as well. Thank thank you for that opening statement. Next step from Colorado Springs, trunk fam, who's a professor and researcher. The us air force Academy is doing a lot of research around the areas that are most important for the intersection of space and technology trunk. >>Good afternoon, first electric and Cal poli for the opportunity. And today I want to go briefly about cyber security in S application. Whenever we talk about cyber security, the impression is got yes, a new phew that is really highly complex involving a lot of technical area. But in reality, in my personal opinion, it is in be complex because involve many disciplines. The first thing we think about is computer engineering and computer networking, but it's also involving communication sociology, law practice. And this practice of cyber security goes in on the info computer expert, but it's also info everybody else who has a computing device that is connected to the internet. And this participation is obviously every body in today's environment. When we think about the internet, we know that is a good source of information, but come with the convenience of information that we can access. >>We are constantly faced in being from the internet. Some of them, we might be aware of some of them we might not be aware of. For example, when we search on the internet, a lot of time, our browser will be saved and gotten this site is not trusted. So we will be more careful. What about the sites that we trusted? We know getting those salad chicken sites, but they're not a hundred percent good at proof. What happened? It was all side, uh, attack by hacker. And then they will be a silent source that we might not be aware of. So in the reality, we need to be more practicing the, um, cyber security from our SIBO point of view and not from a technical point of view. When we talk about space application, we should know that all the hardware, a computer based tool by computer system and therefore the hardware and the software must go through some certification process so that they can be record that air with the flight. >>What the, when we know that in the certification process is focusing on the functionality of the hardware and software, but one aspect that is explicitly and implicitly required is the security of those components. And we know that those components have to be connected with the ground control station and be communication is through the air, through the layby or signal. So anybody who has access to those communication regular signal will be able to control the space system that we put up there. And we certainly do not want our system to be hijacked by a third party. >>I'm not going to aspect of cybersecurity is we try to design the space system in a very strong manner. So it's almost impossible to hack in, but what about some August week system that might be connected to so strong system? For example, the spare system will be connected to the ground control station and on the ground control station, we have the human controller in those people have cell phone. They are allowed to use cell phones for communication, but at the same time, they are connected to the internet, to the cell phone and their cell phone might be connected to the computer that control the flight software and hardware. So what I want to say is that we try to build strong system and we protected them, but there will be some weaker system that we could not intended, but exists to be connected to our strong system. And those are the points that hacker will be trying to attack. If we know how to control the access to those points, we will be having a much better system for the space system. And when we see the cybersecurity that is requiring the participation everywhere, it's important to Merck that there is a source of opportunity for students to engage the workforce. To concede the obviously student in engineering can focus their knowledge and expertise to provide technological solution, to protect the system that we view. But we also >>Have students in business who can focus to write a business plan to reach the market. We also have student in law who can focus policy governing the cyber security. And we also have student in education who can focus the expert. She should be saying how to teach cyber security practice and students can focus the effort to implement security measures and it implies job opportunity. >>Thank you trunk for those great comments, great technology opportunities, but interesting as well as the theme that we're seeing across the entire symposium and in the virtual hallways that we're hearing conversations and you pointed out some of them, dr. Fleischer did as well. And bill, you mentioned it. It's not one thing. It's not just technology, it's different skills. And, um, Amy, you mentioned that computer science is the hottest degree, but you have the hottest aerospace program in the world. I mean, so all of this is kind of balancing it's interdisciplinary. It's a structural change before we get into some of the, um, how they prepare the students. Can you guys talk about some of the structural changes that are modern now in preparing, um, in these opportunities because societal impact is a law potentially impact it's, it's how we educate there's no cross-discipline skillsets. It's not just get the degree, see out in the field bill, you want to start. >>Well, what's really fun about this job is, is that in the air force, uh, I worked in the space and missile business and what we saw was a heavy reliance on checklist format, security procedures, analog systems, and what we're seeing now in our world, both in the government and the commercial side, uh, is a move to a digital environment. And the digital environment is a very quick and adaptive environment. And it's going to require a digital understanding. Matter of fact, um, the, uh, under secretary of the air force for acquisition, uh, rev recently referenced the need to understand the digital environment and how that's affecting acquisition. So as, as both Amy, um, and trunk said, even business students are now in the >>Cybersecurity business. And, and so, again, what we're seeing is, is the change. Now, another phenomenon that we're seeing in the space world is there's just so much data. Uh, one of the ways that we addressed that in the past was to look at high performance computing. It was a lot stricter control over how that worked, but now what we're seeing these adaptation of cloud cloud technologies in space support, space, data, command, and control. Uh, and so what we see is a modern space engineer who asked to understand digital, has to understand cloud and has to understand the context of all those with a cyber environment. That's really changing the forefront of what is a space engineer, what is a digital engineer and what does a future engineer, both commercial or government? So I think the opportunity for all of these things is really good, particularly for a Polytechnic air force Academy and others that are focusing on a more, uh, widened experiential level of cloud and engineering and other capabilities. >>And I'll tell you the part that as the CIO, I have to remind everybody, all this stuff works for the it stuff. So you've got to understand how your it infrastructures are tied and working together. Um, as we noted earlier, one of the things is, is that these are all relays from point the point, and that architecture is part of your cybersecurity architecture. So again, every component has now become a cyber aware cyber knowledgeable, and in what we'd like to call as a cyber cognizant citizen, where they have to understand the context, patients chip software, that the Fleischer talk about your perspective, because you mentioned some of the things that computer science. Remember when I'm in the eighties, when I got my computer science degree, they call the software engineers, and then you became software developers. And then, so again, engineering is the theme. If you're engineering a system, there's now software involved, um, and there's also business engineering business models. So talk about some of your comments was, you mentioned, computer science is hot. You got the aerospace, you've got these multidisciplines you got definitely diversity as well. It brings more perspectives in as well. Your thoughts on these structural interdisciplinary things. >>I think this is, this is really key to making sure that students are prepared to work in the workforce is looking at the, the blurring between fields no longer are you just a computer scientist, no longer are you just an aerospace engineer? You really have to have an expertise where you can work with people across disciplines. All of these, all of these fields are just working with each other in ways we haven't seen before. And bill brought up data, you know, data science is something that's cross cutting across all of our fields. So we want engineers that have the disciplinary expertise so that they can go deep into these fields, but we want them to be able to communicate with each and to be able to communicate across disciplines and to be able to work in teams that are across disciplines. You can no longer just work with other computer scientists or just work with other aerospace engineers. >>There's no part of engineering that is siloed anymore. So that's how we're changing. You have to be able to work across those, those disciplines. And as you, as Tron pointed out, you know, ethics has to come into this. So you can no longer try to fully separate what we would traditionally have called the, the liberal arts and say, well, that's over there in general education. No ethics is an important part of what we're doing and how we integrate that into our curriculum. So it was communication. So is working on public policy and seeing where all of these different aspects tied together to make the impact that we want to have in the world. So it, you no longer can work solo in these fields. >>Great point. And bill also mentioned the cloud. One thing about the cloud that showed us as horizontal scalability has created a lot of value and certainly data is now horizontal Trung. You mentioned some of the things about cryptography for the kids out there. I mean, you can look at the pathway for career. You can do a lot of tech and, but you don't have to go deep. Sometimes you can go, you can go as deep as you want, but there's so much more there. Um, what technology do you see, how it's going to help students in your opinion? >>Well, I'm a professor in computer science, so I'd like to talk out a little bit about computer programming. Now we, uh, working in complex project. So most of the time we design a system from scratch. We view it from different components and the components that we have either we get it from or some time we get it from the internet in the open source environment, it's fun to get the source code and then work to our own application. So now when we are looking at a Logie, when we talk about encryption, for example, we can easily get the source code from the internet. And the question is, is safe to use those source code. And my, my, my question is maybe not. So I always encourage my students to learn how to write source score distribution, where that I learned a long time ago before I allow them to use the open source environment. And one of the things that they have to be careful, especially with encryption is be quote that might be hidden in the, in the source, get the download here, some of the source. >>So open source, it's a wonderful place to be, but it's also that we have to be aware of >>Great point before we get into some of the common one quick thing for each of you like to get your comments on, you know, the there's been a big movement on growth mindset, which has been a great, I'm a big believer in having a growth mindset and learning and all that good stuff. But now that when you talk about some of these things that we're mentioning about systems, there's, there's an, there's a new trend around a systems mindset, because if everything's now a system distributed systems, now you have space in cyber security, you have to understand the consequences of changes. And you mentioned some of that Trung in changes in the source code. Could you guys share your quick opinions on the, the idea of systems thinking, is that a mindset that people should be looking at? Because it used to be just one thing, Oh, you're a systems guy or galley. There you go. You're done. Now. It seems to be in social media and data. Everything seems to be systems. What's your take dr. Fleischer, we'll start with you. >>Uh, I'd say it's a, it's another way of looking at, um, not being just so deep in your discipline. You have to understand what the impact of the decisions that you're making have on a much broader, uh, system. And so I think it's important for all of our students to get some exposure to that systems level thinking and looking at the greater impact of the decision that they're making. Now, the issue is where do you set the systems boundary, right? And you can set the systems boundary very close in and concentrate on an aspect of a design, or you can continually move that system boundary out and see, where do you hit the intersections of engineering and science along with ethics and public policy and the greater society. And I think that's where some of the interesting work is going to be. And I think at least exposing students and letting them know that they're going to have to make some of these considerations as they move throughout their career is going to be vital as we move into the future. Bill. What's your thoughts? >>Um, I absolutely agree with Amy and I think there's a context here that reverse engineering, um, and forensics analysis and forensics engineering are becoming more critical than ever, uh, the ability to look at what you have designed in a system and then tear it apart and look at it for gaps and holes and problem sets, or when you're given some software that's already been pre developed, checking it to make sure it is, is really going to do what it says it's going to do. That forensics ability becomes more and more a skillset that also you need the verbal skills to explain what it is you're doing and what you found. So the communication side, the systems analysis, >>The forensics analysis side, >>These are all things that are part of that system >>Approach that I think you could spend hours on. And we still haven't really done great job on it. So it's a, it's. One of my fortes is the really the whole analysis side of forensics and it reverse engineering >>Try and real quick systems thinking. >>Well, I'd like to share with you my experience. When I worked in the space patient program at NASA, we had two different approaches. One is a down approach where we design it from the system general point of view, where we put components to complex system. But at the same time, we have the bottom up approach where we have Ken Chile who spent time and effort the individual component. And they have to be expert in those Chinese component. That might be general component the gallery. And in the space station program, we bring together the welcome up engineer, who designed everything in detail in the system manager who manage the system design from the top down. And we meet in the middle and took the idea with compromise a lot of differences. Then we can leave a display station that we are operating to be okay, >>Great insight. And that's the whole teamwork collaboration that, that was mentioning. Thanks so much for that insight. I wanted to get that out there because I know myself as a, as a parent, I'm always trying to think about what's best for my kids in their friends, as they grow up into the workforce. I know educators and leaders in industry would love to know some of the best practices around some of the structural changes. So thanks for that insight, but this topics about students and helping them prepare. Uh, so we heard, you know, be, be multiple discipline, broaden your horizons, think like systems top down, bottom up, work together as a team and follow the data. So I got to ask you guys, there's a huge amount of job openings in cybersecurity. It's well documented and certainly at the intersection of space and cyber, it's only gonna get bigger, right? You're going to see more and more demand for new types of jobs. How do we get high school and college students interested in security as a career at the flagship? We'll start with you in this one. >>I would say really one of the best ways to get students interested in the career is to show them the impact that it's going to have. There's definitely always going to be students who are going to want to do the technology for the technology sake, but that will limit you to a narrow set of students. And by showing that the greater impact that these types of careers are going to have on the types of problems that you're going to be able to solve and the impact you're going to be able to have on the world, around you, that's the word that we really need to get out. And a wide variety of students really respond to these messages. So I think it's really kind of reaching out at the, uh, the elementary, the middle school level, and really kind of getting this idea that you can make a big difference, a big positive difference in the field with some of these careers is going to be really critical. >>Real question, follow up. What do you think is the best entry point? You mentioned middle squad in here, elementary school. This comes, there's a lot of discussions around pipelining and we're going to get into women in tech and under-represented matters later, but you know, is it too early or what's the, what's your feeling on this? >>My feeling is the earlier we can normalize it the better the, uh, if you can normalize an interest in, in computers and technology and building an elementary school, that's absolutely critical. But the dropoff point that we're seeing is between what I would call like late elementary and early middle school. Um, and just kind of as an anecdote, I, for years ran an outreach program for girl Scouts in grades four and five and grade six, seven, and eight. And we had a hundred slots in each program. And every year the program would sell out for girls in grades four and five, and every year we'd have spots remaining in grades six, seven, and eight. And that's literally where the drop-off is occurring between that late elementary and that middle school range. So that's the area that we need to target to make sure we keep those young women involved and interested as we move forward. >>Bill, how are we going to get these kids interested in security? You mentioned a few programs you got. Yeah. I mean, who wants to, who wouldn't want to be a white hat hacker? I mean, yeah, that sounds exciting. Yeah. Great questions. Let's start with some basic principles though. Is let me ask you a question, John, a name for me, one white hat, good person hacker. The name who works in the space industry and is an exemplar for students to look up to, um, you, um, Oh man. I'm hearing really. I can't, I can't, I can't, I can't imagine because the answer we normally get is the cricket sound. So we don't have individuals we've identified in those areas for them to look up to. I was going to be snarky and say, most white hackers won't even use their real name, but, um, there's a, there's an aura around their anonymity here. >>So, so again, the real question is, is how do we get them engaged and keep them engaged? And that's what Amy was pointing out too. Exactly the engagement and sticking with it. So one of the things that we're trying to do through our competition on the state level and other elements is providing connections. We call them ambassadors. These are people in the business who can contact the students that are in the game or in that, uh, challenge environment and let them interact and let them talk about what they do and what they're doing in life would give them a challenging game format. Um, a lot of computer based training, um, capture the flag stuff is great, but if you can make it hands on, if you can make it a learn by doing experiment, if you can make it am personally involved and see the benefit as a result of doing that challenge and then talk to the people who do that on a daily basis, that's how you get them involved. >>The second part is as part of what we're doing is, is we're involving partnership companies in the development of the teams. So this year's competition that we're running has 82 teams from across the state of California, uh, of those 82 teams at six students team, middle school, high school, and many of those have company partners. And these are practitioners in cybersecurity who are working with those students to participate. It's it's that adult connectivity, it's that visualization. Um, so at the competition this year, um, we have the founder of Def con red flag is a participant to talk to the students. We have Vince surf as who is of course, very well known for something called the internet to participate. It's really getting the students to understand who's in this. Who can I look up to and how do I stay engaged with them? >>There's definitely a celebrity aspect of it. I will agree. I mean, the influencer aspect here with knowledge is key. Can you talk about, um, these ambassadors and, and, and how far along are you on that program? First of all, the challenge stuff is anything gamification wise. We've seen that with hackathons is just really works well. Grades, bonding, people who create together kinda get sticky and get very high community aspect to it. Talking about this ambassador thing. What does that industry is that academic >>Absolutely partners that we've identified? Um, some of which, and I won't hit all of them. So I'm sure I'll short changes, but, uh, Palo Alto, Cisco, um, Splunk, um, many of the companies in California and what we've done is identified, uh, schools, uh, to participate in the challenge that may not have a strong STEM program or have any cyber program. And the idea of the company is they look for their employees who are in those school districts to partner with the schools to help provide outreach. It could be as simple as a couple hours a week, or it's a team support captain or it's providing computers and other devices to use. Uh, and so again, it's really about a constant connectivity and, uh, trying to help where some schools may not have the staff or support units in an area to really provide them what they need for connectivity. What that does gives us an opportunity to not just focus on it once a year, but throughout the year. So for the competition, all the teams that are participating have been receiving, um, training and educational opportunities in the game of education side, since they signed up to participate. So there's a website, there's learning materials, there's materials provided by certain vendor companies like Wireshark and others. So it's a continuum of opportunity for the, >>You know, I've seen just the re randomly, just going to random thought, you know, robotics clubs are moving den closer into that middle school area, in fact Fleischer. And certainly in high schools, it's almost like a varsity sport. E-sports is another one. My son just combined made the JV at the college Dean, you know, it's big and it's up and serious. Right. And, um, it's fun. This is the aspect of fun. It's hands on. This is part of the culture down there you learn by doing, is there like a group? Is it like, um, is it like a club? I mean, how do you guys organize these bottoms up organically interest topics? >>So, so here in the college of engineering, uh, when we talk about learning by doing, we have learned by doing both in the classroom and out of the classroom. And if we look at the, these types of, out of the classroom activities, we have over 80 clubs working on all different aspects of many of these are bottom up. The students have decided what they want to work on and have organized themselves around that. And then they get the leadership opportunities. The more experienced students train in the less experienced students. And it continues to build from year after year after year with them even doing aspects of strategic planning from year to year for some of these competitions. So, yeah, it's an absolutely great experience. And we don't define for them how their learned by doing experiences should be, we want them to define it. And I think the really cool thing about that is they have the ownership and they have the interest and they can come up with new clubs year after year to see which direction they want to take it. And, you know, we will help support those clubs as old clubs fade out and new clubs come in >>Trunk real quick. Before we go on the next, uh, talk track, what, what do you recommend for, um, middle school, high school or even elementary? Um, a little bit of coding Minecraft. I mean, what, how do you get them hooked on the fun and the dopamine of, uh, technology and cybersecurity? What's your, what's your take on that? >>On, on this aspect, I like to share with you my experience as a junior high and high school student in Texas, the university of Texas in Austin organized a competition for every high school in Texas. If we phew from poetry to mathematics, to science, computer engineering, but it's not about with university of Texas. The university of Texas is on the serving SSN for the final competition that we divide the competition to be strict and then regional, and then spit at each level, we have local university and colleges volunteering to host it competition and make it fun. >>Also students with private enterprises to raise funding for scholarship. So students who see the competition they get exposed to so they can see different option. They also get a scholarship when they attend university in college. So I've seen the combination in competition aspect would be a good thing to be >>Got the engagement, the aspiration scholarship, you know, and you mentioned a volunteer. I think one of the things I'll observe is you guys are kind of hitting this as community. I mean, the story of Steve jobs and was, was building the Mac, they call it bill Hewlett up in Palo Alto. It was in the phone book and they scoured some parts from them. That's community. This is kind of what you're getting at. So this is kind of the formula we're seeing. So the next question I really want to get into is the women in technology, STEM, underrepresented minorities, how do we get them on cybersecurity career path? Is there a best practices there, bill, we'll start with you? >>Well, I think it's really interesting. First thing I want to add is if I could have just a clarification, what's really cool that the competition that we have and we're running, it's run by student from Cal poly. Uh, so, you know, Amy referenced the clubs and other activities. So many of the, uh, organizers and developers of the competition that we're running are the students, but not just from engineering. So we actually have theater and liberal arts majors and technology for liberal arts majors who are part of the competition. And we use their areas of expertise, set design, and other things, uh, visualization of virtualization. Those are all part of how we then teach and educate cyber in our game effication and other areas. So they're all involved in their learning as well. So we have our students teaching other students. So we're really excited about that. And I think that's part of what leads to a mentoring aspect of what we're providing, where our students are mentoring the other students. And I think it's also something that's really important in the game. Um, the first year we held the game, we had several all girl teams and it was really interesting because a, they, they didn't really know if they could compete. I mean, this is their, their reference point. We don't know if they did better than anybody. I mean, they, they knocked the ball out >>Of the park. The second part then is building that confidence level that they can going back and telling their cohorts that, Hey, it's not this thing you can't do. It's something real that you can compete and win. And so again, it's building that comradery, that spirit, that knowledge that they can succeed. And I think that goes a long way and an Amy's programs and the reach out and the reach out that Cal poly does to schools to develop. Uh, I think that's what it really is going to take. It. It is going to take that village approach to really increase diversity and inclusivity for the community. >>That's the flusher. I'd love to get your thoughts. You mentioned, um, your, your outreach program and the dropoff, some of those data, uh, you're deeply involved in this. You're passionate about it. What's your thoughts on this career path opportunity for STEM? >>Yeah, I think STEM is an incredible career path opportunity for so many people. There's so many interesting problems that we can solve, particularly in cyber and in space systems. And I think we have to meet the kids where they are and kind of show them, you know, what the exciting part is about it, right. But, you know, bill was, was alluding to this. And when he was talking about, you know, trying to name somebody that you can can point to. And I think having those visible people where you can see yourself in that is, is absolutely critical and those mentors and that mentorship program. So we use a lot of our students going out into California, middle schools and elementary schools. And you want to see somebody that's like you, somebody that came from your background and was able to do this. So a lot of times we have students from our national society of black engineers or a society of Hispanic professional engineers or our society of women engineers. >>We have over a thousand members, a thousand student members in our society of women engineers who were doing these outreach programs. But like I also said, it's hitting them at the lower levels too. And girl Scouts is actually distinguishing themselves as one of the leading STEM advocates in the country. And like I said, they developed all these cybersecurity badges, starting in kindergarten. There's a cybersecurity badge for kindergarten and first graders. And it goes all the way up through late high school, the same thing with space systems. And they did the space systems in partnership with NASA. They did the cybersecurity and partnership with Palo Alto networks. And what you do is you want to build these, these skills that the girls are developing. And like bill said, work in and girl led teams where they can do it. And if they're doing it from kindergarten on, it just becomes normal. And they never think, well, this is not for me. And they see the older girls who are doing it and they see a very clear path leading them into these careers. >>Yeah. It's interesting. You used the word normalization earlier. That's exactly what it is. It's life, you get life skills and a new kind of badge. Why wouldn't learn how to be a white, white hat hacker, or have fun or learn new skills just in, in the, in the grind of your fun day. Super exciting. Okay. Trung your thoughts on this. I mean, you have a diverse diversity. It brings perspective to the table in cybersecurity because you have to think like the other, the adversary, you got to be the white headed hippie, a white hat, unless you know how black hat thinks. So there's a lot of needs here for more, more, more points of view. How are we going to get people trained on this from under represented minorities and women? What's your thoughts? >>Well, as a member of, I took a professional society of directed pool in the electronic engineer. You have the, uh, we participate in the engineering week. We'll be ploy our members to local junior high school and high school to talk about our project, to promote the discovery of engineering. But at the same time, we also participate in the science fair that we scaled up flex. As the squad organizing our engineer will be mentoring students, number one, to help them with the part check, but number two, to help us identify talents so that we can recruit them further into the field of STEM. One of the participation that week was the competition of the, what they call future CV. We're still going, we'll be doing a CT on a computer simulation. And in recent year we promote ops smart CV where CT will be connected the individual houses to be added in through the internet. >>And we want to bring awareness of cybersecurity into competition. So we deploy engineer to supervise the people, the students who participate in the competition, we bring awareness, not in the technical be challenged level, but in what we've called the compound level. So speargun will be able to know what is, why to provide cyber security for the smart city that they are building. And at the same time, we were able to identify talent, especially talent in the minority and in the room. And so that we can recruit them more actively. And we also raise money for scholarship. We believe that scholarship is the best way to get students to continue education in Epic college level. So with scholarship, it's very easy to recruit them, to give you and then push them to go further into the cyber security Eylea. >>Yeah. I mean, you know, I see a lot of the parents like, Oh, my kid's going to go join the soccer team, >>Private lessons, and maybe look at a scholarship >>Someday. Well, they only do have scholarships anyway. I mean, this is if they spent that time doing other things, it's just, again, this is a new lifestyle, like the girl Scouts. And this is where I want to get into this whole silo breaking down because Amy, you brought this up and bill, you were talking about as well, you've got multiple stakeholders here with this event. You got, you know, public, you got private and you've got educators. It's the intersection of all of them. It's again, that those, if those silos break down the confluence of those three stakeholders have to work together. So let's, let's talk about that. Educators. You guys are educating young minds, you're interfacing with private institutions and now the public. What about educators? What can they do to make cyber better? Cause there's no real manual. I mean, it's not like this court is a body of work of how to educate cybersecurity is maybe it's more recent, it's cutting edge, best practices, but still it's an, it's an evolving playbook. What's your thoughts for educators, bill? We'll start with you. >>Well, I don't really, I'm going to turn it off. >>I would say, I would say as, as educators, it's really important for us to stay on top of how the field is evolving, right? So what we want to do is we want to promote these tight connections between educators and our faculty and, um, applied research in industry and with industry partnerships. And I think that's how we're going to make sure that we're educating students in the best way. And you're talking about that inner, that confluence of the three different areas. And I think you have to keep those communication lines open to make sure that the information on where the field is going and what we need to concentrate on is flowing down into our educational process. And that, that works in both ways that, you know, we can talk as educators and we can be telling industry what we're working on and what are types of skills our students have and working with them to get the opportunities for our students to work in industry and develop those skills along the way as well. >>And I think it's just all part of this is really looking at, at what's going to be happening and how do we get people talking to each other and the same thing with looking at public policy and bringing that into our education and into these real hands on experiences. And that's how you really cement this type of knowledge with students, not by not by talking to them and not by showing them, but letting them do it. It's this learn by doing and building the resiliency that it takes when you learn by doing. And sometimes you learn by failing, but you just up and you keep going. >>And these are important skills that you develop along the way >>You mentioned, um, um, sharing too. That's the key collaborating and sharing knowledge. It's an open, open world and everyone's collaborating feel private public partnerships. I mean, there's a real private companies. You mentioned Palo Alto networks and others. There's a real intersection there there's, they're motivated. They could, the scholarship opportunities, trunk points to that. What is the public private educator view there? How do companies get involved? What's the benefit for them? >>Well, that's what a lot of the universities are doing is to bring in as part of either their cyber centers or institutes, people who are really focused on developing and furthering those public private partnerships. That's really what my role is in all these things is to take us to a different level in those areas, uh, not to take away from the academic side, but to add additional opportunities for both sides. Remember in a public private partnership, all entities have to have some gain in the process. Now, what I think is really interesting is the timing on particularly this subject space and cyber security. This has been an absolute banner year for space. The Stanhope of space force, the launch of commercial partnership, leaving commercial platforms, delivering astronauts to the space station, recovering them and bringing back the ability of a commercial satellite platform to be launched a commercial platforms that not only launch, but return back to where they're launched from. >>These are things that are stirring the hearts of the American citizens, the kids, again, they're getting interested, they're seeing this and getting enthused. So we have to seize upon that and we have to find a way to connect that public private partnerships is the answer for that. It's not one segment that can handle it all. It's all of them combined together. If you look at space, space is going to be about commercial. It's going to be about civil moving from one side of the earth, to the other via space. And it's about government. And what's really cool for us. All those things are in our backyard. Yeah. That's where that public private comes together. The government's involved, the private sector is involved. The educators are involved and we're all looking at the same things and trying to figure out like this forum, what works best to go to the future. >>You know, if people are bored and they want to look for an exciting challenge, he couldn't have laid it out any clearer. It's the most exciting discipline. It hits everything. I mean, we just talk about space. GPS is everything we do is well tested. Do with satellites. >>I have to tell you a story on that, right? We have a very unique GPS story right in our backyard. So our sheriff is the son of the father of GPS for the air force. So you can't get better than that when it comes to being connected to all those platforms. So we, we really want to say, you know, this is so exciting for all of us because >>It gives everybody a job for a long time. >>You know, the kids that don't think tick toxic, exciting, wait til they see what's going on here with you guys, this program, trunk final word on this from the public side, you're at the air force. You're doing research. Are you guys opening it up? Are you integrating into the private and educational sectors? How do you see that formula playing out? And what's the best practice for students and preparing them? >>I think it's the same in athlete university CP in the engineering program will require our students to be final project before graduation. And in this kind of project, we send them out to work in the private industry. The private company got sponsor. Then they get the benefit of having an intern working for them and they get the benefit of reviewing the students as the prospective employee in the future. So it's good for the student to gain practical experience working in this program. Some, some kind of, we call that a core program, some kind, we call that a capstone program and the company will accept the students on a trial PRCS, giving them some assignment and then pay them a little bit of money. So it's good for the student to earn some extra money, to have some experience that they can put on their resume when they apply for the final of the job. >>So the collaboration between university and private sector is really important. We, when I joined a faculty, normally they already exist that connection. It came from. Normally it came from the Dean of engineering who would whine and dine with companies. We work relationship and sign up women, but it's approach to do a good performance so that we can be credibility to continue the relationship with those company and the students that we selected to send to those company. We have to make sure that they will represent the university. Well, they will go a good job and they will make a good impression. >>Thank you very much for great insight, trunk, bill, Amy, amazing topic. I'd like to end this session with each of you to make a statement on the importance of cybersecurity to space. We'll go Trung bill and Amy Truong, the importance of cybersecurity space statement. >>We know that it's affecting components that we are using and we are connecting to. And normally we use them for personal purpose. But when we connect to the important system that the government public company put into space, so it's really important to practice cyber security and a lot of time, it's very easy to know concept. We have to be careful, but in reality, we tend to forget to partnership the way we forget how to ride safely. And with driving a car, we have a program called defensive driving that requires every two or three years to get. We can get discount. >>We are providing the cyber security practice, not to tell people about the technology, but to remind them not practicing cybersecurity. And it's a requirement for every one of us, bill, the importance of cyber security to space. It's not just about young people. It's about all of us as we grow and we change as I referenced it, you know, we're changing from an analog world to a digital world. Those of us who have been in the business and have hair that looks like mine. We need to be just as cognizant about cybersecurity practice as the young people, we need to understand how it affects our lives and particularly in space, because we're going to be talking about people, moving people to space, moving payloads, data, transfer all of those things. And so there's a whole workforce that needs to be retrained or upskilled in cyber that's out there. So the opportunity is ever expensive for all of us, Amy, the importance of cybersecurity space, >>Uh, and the, the emphasis of cybersecurity is space. Just simply, can't be over emphasized. There are so many aspects that are going to have to be considered as systems get ever more complex. And as we pointed out, we're putting people's lives at stake here. This is incredibly, incredibly complicated and incredibly impactful, and actually really exciting the opportunities that are here for students and the workforce of the future to really make an enormous impact on the world around us. And I hope we're able to get that message out to students, to children >>Today. But these are my really interesting fields that you need to consider. >>Thank you very much. I'm John foray with the cube and the importance of cybersecurity and space is the future of the world's all going to happen in and around space with technology, people and society. Thank you to Cal poly. And thank you for watching the Cypress of computer security and space symposium 2020.

from around the globe it's thecube covering space and cyber security symposium 2020 hosted by cal poly hello and welcome to thecube's coverage we're here hosting with cal poly an amazing event space in the intersection of cyber security this session is defending satellite and space infrastructure from cyber threats got two great guests we've got major general john shaw combined four space component commander u.s space command and vandenberg air force base in california and roland cuello who's the ceo of maverick space systems gentlemen thank you for spending the time to come on to this session for the cal poly space and cyber security symposium appreciate it absolutely um guys defending satellites and space infrastructure is the new domain obviously it's a war warfighting domain it's also the future of the world and this is an important topic because we rely on space now for our everyday life and it's becoming more and more critical everyone knows how their phones work and gps just small examples of all the impacts i'd like to discuss with this hour this topic with you guys so if we can have you guys do an opening statement general if you can start with your opening statement we'll take it from there thanks john and greetings from vandenberg air force base we are just down the road from cal poly here on the central coast of california and uh very proud to be part of this uh effort and part of the partnership that we have with with cal poly on a number of fronts um i should uh so in in my job here i actually uh have two hats that i wear and it's i think worth talking briefly about those to set the context for our discussion you know we had two major organizational events within our department of defense with regard to space last year in 2019 and probably the one that made the most headlines was the stand-up of the united states space force that happened uh december 20th last year and again momentous the first new branch in our military since 1947 uh and uh it is a it's just over nine months old now as we're making this recording uh and already we're seeing a lot of change uh with regard to how we're approaching uh organizing training and equipping on a service side or space capabilities and so i uh in that with regard to the space force the hat i wear there is commander of space operations command that was what was once 14th air force when we were still part of the air force here at vandenberg and in that role i'm responsible for the operational capabilities that we bring to the joint warfighter and to the world from a space perspective didn't make quite as many headlines but another major change that happened last year was the uh the reincarnation i guess i would say of united states space command and that is a combatant command it's how our department of defense organizes to actually conduct warfighting operations um most people are more familiar perhaps with uh central command centcom or northern command northcom or even strategic command stratcom well now we have a space com we actually had one from 1985 until 2002 and then stood it down in the wake of the 9 11 attacks and a reorganization of homeland security but we've now stood up a separate command again operationally to conduct joint space operations and in that organization i wear a hat as a component commander and that's the combined force-based component command uh working with other all the additional capabilities that other services bring as well as our allies that combined in that title means that uh i under certain circumstances i would lead an allied effort uh in space operations and so it's actually a terrific job to have here on the central coast of california uh both working the uh how we bring space capabilities to the fight on the space force side and then how we actually operate those capabilities it's a point of joint in support of joint warfighters around the world um and and national security interests so that's the context now what el i i also should mention you kind of alluded to john you're beginning that we're kind of in a change situation than we were a number of years ago and that space we now see space as a warfighting domain for most of my career going back a little ways most of my my focus in my jobs was making sure i could bring space capabilities to those that needed them bringing gps to that special operations uh soldier on the ground somewhere in the world bringing satellite communications for our nuclear command and control bringing those capabilities for other uses but i didn't have to worry in most of my career about actually defending those space capabilities themselves well now we do we've actually gone to a point where we're are being threatened in space we now are treating it more like any other domain normalizing in that regard as a warfighting domain and so we're going through some relatively emergent efforts to protect and defend our capabilities in space to to design our capabilities to be defended and perhaps most of all to train our people for this new mission set so it's a very exciting time and i know we'll get into it but you can't get very far into talking about all these space capabilities and how we want to protect and defend them and how we're going to continue their ability to deliver to warfighters around the globe without talking about cyber because they fit together very closely so anyway thanks for the chance to be here today and i look forward to the discussion general thank you so much for that opening statement and i would just say that not only is it historic with the space force it's super exciting because it opens up so much more challenges and opportunities for to do more and to do things differently so i appreciate that statement roland your opening statement your your job is to put stuff in space faster cheaper smaller better your opening statement please um yes um thank you john um and yes you know to um general shaw's point you know with with the space domain and the need to protect it now um is incredibly important and i hope that we are more of a help um than a thorn in your side um in terms of you know building satellites smaller faster cheaper um you know and um definitely looking forward to this discussion and you know figuring out ways where um the entire space domain can work together you know from industry to to us government even to the academic environment as well so first would like to say and preface this by saying i am not a cyber security expert um we you know we build satellites um and uh we launch them into orbit um but we are by no means you know cyber security experts and that's why um you know we like to partner with organizations like the california cyber security institute because they help us you know navigate these requirements um so um so i'm the ceo of um of maverick space systems we are a small aerospace business in san luis obispo california and we provide small satellite hardware and service solutions to a wide range of customers all the way from the academic environment to the us government and everything in between we support customers through an entire you know program life cycle from mission architecture and formulation all the way to getting these customer satellites in orbit and so what we try to do is um provide hardware and services that basically make it easier for customers to get their satellites into orbit and to operate so whether it be reducing mass or volume um creating greater launch opportunities or providing um the infrastructure and the technology um to help those innovations you know mature in orbit you know that's you know that's what we do our team has experienced over the last 20 years working with small satellites and definitely fortunate to be part of the team that invented the cubesat standard by cal poly and stanford uh back in 2000 and so you know we are in you know vandenberg's backyard um we came from cal poly san luis obispo um and you know our um our hearts are fond you know of this area and working with the local community um a lot of that success um that we have had is directly attributable um to the experiences that we learned as students um working on satellite programs from our professors and mentors um you know that's you know all you know thanks to cal poly so just wanted to tell a quick story so you know back in 2000 just imagine a small group of undergraduate students you know myself included with the daunting task of launching multiple satellites from five different countries on a russian launch vehicle um you know many of us were only 18 or 19 not even at the legal age to drink yet um but as you know essentially teenagers we're managing million dollar budgets um and we're coordinating groups um from around the world um and we knew that we knew what we needed to accomplish um yet we didn't really know um what we were doing when we first started um the university was extremely supportive um and you know that's the cal poly learn by doing philosophy um i remember you know the first time we had a meeting with our university chief legal counsel and we were discussing the need to to register with the state department for itar nobody really knew what itar was back then um and you know discussing this with the chief legal counsel um you know she was asking what is itar um and we essentially had to explain you know this is um launching satellites as part of the um the u.s munitions list and essentially we have a similar situation you know exporting munitions um you know we are in similar categories um you know as you know as weapons um and so you know after that initial shock um everybody jumped in you know both feet forward um the university um you know our head legal counsel professors mentors and the students um you know knew we needed to tackle this problem um because you know the the need was there um to launch these small satellites and um you know the the reason you know this is important to capture the entire spectrum of users of the community um is that the technology and the you know innovation of the small satellite industry occurs at all levels you know so we have academia commercial national governments we even have high schools and middle schools getting involved and you know building satellite hardware um and the thing is you know the the importance of cyber security is incredibly important because it touches all of these programs and it touches you know people um at a very young age um and so you know we hope to have a conversation today um to figure out you know how do we um create an environment where we allow these programs to thrive but we also you know protect and you know keep their data safe as well thank you very much roland appreciate that uh story too as well thanks for your opening statement gentlemen i mean i love this topic because defending the assets in space is is as obvious um you look at it but there's a bigger picture going on in our world right now and generally you kind of pointed out the historic nature of space force and how it's changing already operationally training skills tools all that stuff is revolving you know in the tech world that i live in you know change the world is a topic they use that's thrown around a lot you can change the world a lot of young people we have just other panels on this where we're talking about how to motivate young people changing the world is what it's all about with technology for the better evolution is just an extension of another domain in this case space is just an extension of other domains similar things are happening but it's different there's a huge opportunity to change the world so it's faster there's an expanded commercial landscape out there certainly government space systems are moving and changing how do we address the importance of cyber security in space general we'll start with you because this is real it's exciting if you're a young person there's touch points of things to jump into tech building hardware to changing laws and and everything in between is an opportunity and it's exciting and it's truly a chance to change the world how does the commercial government space systems teams address the importance of cyber security so john i think it starts with with the realization that as i like to say that cyber and space are bffs uh there's nothing that we do on the cutting edge of space that isn't heavy reliant heavily reliant on the cutting edge of cyber and frankly there's probably nothing on the cutting edge of cyber that doesn't have a space application and when you realize that you see how how closely those are intertwined as we need to move forward at at speed it becomes fundamental to to the to answering your question let me give a couple examples we one of the biggest challenges i have on a daily basis is understanding what's going on in the space domain those on the on the on the surface of the planet talk about tyranny of distance across the oceans across large land masses and i talk about the tyranny of volume and you know right now we're looking out as far as the lunar sphere there's activity that's extending out to the out there we expect nasa to be conducting uh perhaps uh human operations in the lunar environment in the next few years so it extends out that far when you do the math that's a huge volume how do you do that how do you understand what's happening in real time in within that volume it is a big data problem by the very definition of that that kind of effort to that kind of challenge and to do it successfully in the years ahead it's going to require many many sensors and the fusion of data of all kinds to present a picture and then analytics and predictive analytics that are going to deliver an idea of what's going on in the space arena and that's just if people are not up to mischief once you have threats introduced into that environment it is even more challenging so i'd say it's a big data problem that we'll be enjoying uh tackling in the years ahead a second example is you know we if i if i had to if we had to take a vote of what were the most uh amazing robots that have ever been designed by humans i think that spacecraft would have to be up there on the list whether it's the nasa spacecraft that explore other planets or the ones that we or gps satellites that that amazingly uh provide a wonderful service to the entire globe uh and beyond they are amazing technological machines that's not going to stop i mean all the work that roland talked about at the at the even even that we're doing it at the kind of the microsoft level is is putting cutting-edge technology into smaller packages you can to get some sort of capability out of that as we expand our activities further and further into space for national security purposes or for exploration or commercial or civil the the cutting edge technologies of uh artificial intelligence uh and machine to machine engagements and machine learning are going to be part of that design work moving forward um and then there's the threat piece as we try to as we operate these these capabilities how these constellations grow that's going to be done via networks and as i've already pointed out space is a warfighting domain that means those networks will come under attack we expect that they will and that may happen early on in a conflict it may happen during peace time in the same way that we see cyber attacks all the time everywhere in many sectors of of activity and so by painting that picture you kind of get you we start to see how it's intertwined at the very very base most basic level the cutting edge of cyber and cutting edge of space with that then comes the need to any cutting edge cyber security capability that we have is naturally going to be needed as we develop space capabilities and we're going to have to bake that in from the very beginning we haven't done that in the past as well as we should but moving forward from this point on it will be an essential ingredient that we work into all of our new capability roland we're talking about now critical infrastructure we're talking about new capabilities being addressed really fast so it's kind of chaotic now there's threats so it's not as easy as just having capabilities because you've got to deal with the threats the general just pointed out but now you've got critical infrastructure which then will enable other things down down the line how do you protect it how do we address this how do you see this being addressed from a security standpoint because you know malware these techniques can be mapped in as extended into into space and takeovers wartime peacetime these things are all going to be under threat that's pretty well understood i think people kind of get that how do we address it what's your what's your take yeah you know absolutely and you know i couldn't agree more with general shaw you know with cyber security and space being so intertwined um and you know i think with fast and rapid innovation um comes you know the opportunity for threats especially um if you have bad actors um that you know want to cause harm and so you know as a technology innovator and you're pushing the bounds um you kind of have a common goal of um you know doing the best you can um and you know pushing the technology balance making it smaller faster cheaper um but a lot of times what entrepreneurs and you know small businesses and supply chains um are doing and don't realize it is a lot of these components are dual use right i mean you could have a very benign commercial application but then a small you know modification to it and turn it into a military application and if you do have these bad actors they can exploit that and so you know i think the the big thing is um creating a organization that is you know non-biased that just wants to kind of level the playing field for everybody to create a set standard for cyber security in space i think you know one group that would be perfect for that you know is um cci um you know they understand both the cybersecurity side of things and they also have you know at cal poly um you know the the small satellite group um and you know just having kind of a a clearinghouse or um an agency where um can provide information that is free um you know you don't need a membership for and to be able to kind of collect that but also you know reach out to the entire value chain you know for a mission and um making them aware um of you know what potential capabilities are and then how it might um be you know potentially used as a weapon um and you know keeping them informed because i think you know the the vast majority of people in the space industry just want to do the right thing and so how do we get that information free flowing to you know to the us government so that they can take that information create assessments and be able to not necessarily um stop threats from occurring presently but identify them long before that they would ever even happen um yeah that's you know general i want to i want to follow up on that real quick before we go to the next talk track critical infrastructure um you mentioned you know across the oceans long distance volume you know when you look at the physical world you know you had you know power grids here united states you had geography you had perimeters uh the notion of a perimeter and the moat this is and then you had digital comes in then you have we saw software open up and essentially take down this idea of a perimeter and from a defense standpoint and that everything changed and we had to fortify those critical assets uh in the u.s space increases the same problem statement significantly because it's you can't just have a perimeter you can't have a moat it's open it's everywhere like what digital's done and that's why we've seen a slurge of cyber in the past two decades attacks with software so this isn't going to go away you need the critical infrastructure you're putting it up there you're formulating it and you've got to protect it how do you view that because it's going to be an ongoing problem statement what's the current thinking yeah i i think my sense is a mindset that you can build a a firewall or a defense or some other uh system that isn't dynamic in his own right is probably not heading in the right direction i think cyber security in the future whether it's for our space systems or for other critical infrastructure is going to be a dynamic fight that happens at a machine-to-machine um a speed and dynamic um i don't think it's too far off where we will have uh machines writing their own code in real time to fight off attacks that are coming at them and by the way the offense will probably be doing the same kind of thing and so i i guess i would not want to think that the answer is something that you just build it and you leave it alone and it's good enough it's probably going to be a constantly evolving capability constantly reacting to new threats and staying ahead of those threats that's the kind of use case just to kind of you know as you were kind of anecdotal example is the exciting new software opportunities for computer science majors i mean i tell my young kids and everyone man it's more exciting now i wish i was 18 again it's so so exciting with ai bro i want to get your thoughts we were joking on another panel with the dod around space and the importance of it obviously and we're going to have that here and then we had a joke it's like oh software's defined everything it says software's everything ai and and i said well here in the united states companies had data centers and they went to the cloud and they said you can't do break fix it's hard to do break fix in space you can't just send a tech up i get that today but soon maybe robotics the general mentions robotics technologies and referencing some of the accomplishments fixing things is almost impossible in space but maybe form factors might get better certainly software will play a role what's your thoughts on that that landscape yeah absolutely you know for for software in orbit um you know there's there's a push for you know software-defined radios um to basically go from hardware to software um and you know that's that that's a critical link um if you can infiltrate that and a small satellite has propulsion on board you could you know take control of that satellite and cause a lot of havoc and so you know creating standards and you know that kind of um initial threshold of security um you know for let's say you know these radios you know communications and making that um available um to the entire supply chain to the satellite builders um and operators you know is incredibly key and you know that's again one of the initiatives that um that cci is um is tackling right now as well general i want to get your thoughts on best practices around cyber security um state of the art today uh and then some guiding principles and kind of how the if you shoot the trajectory forward what what might happen uh around um supply chain there's been many stories where oh we outsourced the chips and there's a little chip sitting in a thing and it's built by someone else in china and the software is written from someone in europe and the united states assembles it it gets shipped and it's it's corrupt and it has some cyber crime making i'm oversimplifying the the statement but this is what when you have space systems that involve intellectual property uh from multiple partners whether it's from software to creation and then deployment you get supply chain tiers what are some of the best practices that you see involving that don't stunt the innovation but continues to innovate but people can operate safely what's your thoughts yeah so on supply chain i think i think the symposium here is going to get to hear from lieutenant general jt thompson uh from space missile system center down in los angeles and and uh he's a he's just down the road from us there uh on the coast um and his team is is the one that we look to really focus on as he acquires and develop again bake in cyber security from the beginning and knowing where the components are coming from and and properly assessing those as you as you put together your space systems is a key uh piece of what his team is focused on so i expect we'll hear him talk about that when it talks to i think she asked the question a little more deeply about how do the best practices in terms of how we now develop moving forward well another way that we don't do it right is if we take a long time to build something and then you know general general jt thompson's folks take a while to build something and then they hand it over to to to me and my team to operate and then they go hands-free and and then and then that's you know that's what i have for for years to operate until the next thing comes along that's a little old school what we're going to have to do moving forward with our space capabilities and with the cyber piece baked in is continually developing new capability sets as we go we actually have partnership between general thompson's team and mine here at vandenberg on our ops floor or our combined space operations center that are actually working in real time together better tools that we can use to understand what's going on the space environment to better command and control our capabilities anywhere from military satellite communications to space domain awareness sensors and such and so and we're developing those capabilities in real time it's a dev and and with the security pieces so devsecops is we're practicing that in in real time i think that is probably the standard today that we're trying to live up to as we continue to evolve but it has to be done again in close partnership all the time it's not a sequential industrial age process while i'm on the subject of partnerships so general thompson's and team and mine have good partnerships it's part partnerships across the board are going to be another way that we are successful and that uh it means with with academia in some of the relationships that we have here with cal poly it's with the commercial sector in ways that we haven't done before the old style business was to work with just a few large um companies that had a lot of space experience well we need we need a lot of kinds of different experience and technologies now in order to really field good space capabilities and i expect we'll see more and more non-traditional companies being part of and and organizations being part of that partnership that will work going forward i mentioned at the beginning that um uh allies are important to us so everything that uh that role and i've been talking about i think you have to extrapolate out to allied partnerships right it doesn't help me uh as a combined force component commander which is again one of my jobs it doesn't help me if the united states capabilities are cyber secure but i'm trying to integrate them with capabilities from an ally that are not cyber secure so that partnership has to be dynamic and continually evolving together so again close partnering continually developing together from the acquisition to the operational sectors with as many um different sectors of our economy uh as possible are the ingredients to success general i'd love to just follow up real quick i was having just a quick reminder for a conversation i had with last year with general keith alexander who was does a lot of cyber security work and he was talking about the need to share faster and the new school is you got to share faster and to get the data you mentioned observability earlier you need to see what everything's out there he's a real passionate person around getting the data getting it fast and having trusted partners so that's not it's kind of evolving as i mean sharing is a well-known practice but with cyber it's sensitive data potentially so there's a trust relationship there's now a new ecosystem that's new for uh government how do you view all that and your thoughts on that trend of the sharing piece of it on cyber so it's i don't know if it's necessarily new but it's at a scale that we've never seen before and by the way it's vastly more complicated and complex when you overlay from a national security perspective classification of data and information at various levels and then that is again complicated by the fact you have different sharing relationships with different actors whether it's commercial academic or allies so it gets very very uh a complex web very quickly um so that's part of the challenge we're working through how can we how can we effectively share information at multiple classification levels with multiple partners in an optimal fashion it is certainly not optimal today it's it's very difficult even with maybe one industry partner for me to be able to talk about data at an unclassified level and then various other levels of classification to have the traditional networks in place to do that i could see a solution in the future where our cyber security is good enough that maybe i only really need one network and the information that is allowed to flow to the players within the right security environment um to uh to make that all happen as quickly as possible so you've actually uh john you've hit on yet another big challenge that we have is um is evolving our networks to properly share with the right people at the right uh clearance levels as at speed of war which is what we're going to need yeah and i wanted to call that out because this is an opportunity again this discussion here at cal poly and around the world is for new capabilities and new people to solve the problems and um it's again it's super exciting if you you know you're geeking out on this it's if you have a tech degree or you're interested in changing the world there's so many new things that could be applied right now roland will get your thoughts on this because one of the things in the tech trends we're seeing this is a massive shift all the theaters of the tech industry are are changing rapidly at the same time okay and it affects policy law but also deep tech the startup communities are super important in all this too we can't forget them obviously the big trusted players that are partnering certainly on these initiatives but your story about being in the dorm room now you got the boardroom and now you got everything in between you have startups out there that want to and can contribute and you know what's an itar i mean i got all these acronym certifications is there a community motion to bring startups in in a safe way but also give them a ability to contribute because you look at open source that proved everyone wrong on software that's happening now with this now open network concept the general is kind of alluding to which is it's a changing landscape your thoughts i know you're passionate about this yeah absolutely you know and i think um you know as general shaw mentioned you know we need to get information out there faster more timely and to the right people um and involving not only just stakeholders in the us but um internationally as well you know and as entrepreneurs um you know we have this very lofty vision or goal uh to change the world and um oftentimes um you know entrepreneurs including myself you know we put our heads down and we just run as fast as we can and we don't necessarily always kind of take a breath and take a step back and kind of look at what we're doing and how it's touching um you know other folks and in terms of a community i don't know of any formal community out there it's mostly ad hoc and you know these ad hoc communities are folks who let's say have you know was was a student working on a satellite um you know in college and they love that entrepreneurial spirit and so they said well i'm gonna start my own company and so you know a lot of the these ad hoc networks are just from relationships um that are that have been built over the last two decades um you know from from colleagues that you know at the university um i do think formalizing this and creating um kind of a you know clearinghouse to to handle all of this is incredibly important yeah um yeah there's gonna be a lot of entrepreneurial activity no doubt i mean just i mean there's too many things to work on and not enough time so i mean this brings up the question though while we're on this topic um you got the remote work with covid everyone's working remotely we're doing this remote um interview rather than being on stage works changing how people work and engage certainly physical will come back but if you looked at historically the space industry and the talent you know they're all clustered around the bases and there's always been these areas where you're you're a space person you're kind of working there and there's jobs there and if you were cyber you were 10 in other areas over the past decade there's been a cross-pollination of talent and location as you see the intersection of space general start with you you know first of all central coast is a great place to live i know that's where you guys live but you can start to bring together these two cultures sometimes they're you know not the same maybe they're getting better we know they're being integrated so general can you just share your thoughts because this is uh one of those topics that everyone's talking about but no one's actually kind of addressed directly um yeah john i i think so i think i want to answer this by talking about where i think the space force is going because i think if there was ever an opportunity or inflection point in our department of defense to sort of change culture and and try to bring in non-traditional kinds of thinking and and really kind of change uh maybe uh some of the ways that the department of defense has does things that are probably archaic space force is an inflection point for that uh general raymond our our chief of space operations has said publicly for a while now he wants the us space force to be the first truly digital service and uh you know what we what we mean by that is you know we want the folks that are in the space force to be the ones that are the first adopters or the early adopters of of technology um to be the ones most fluent in the cutting edge technological developments on space and cyber and and other um other sectors of the of of the of the economy that are technologically focused uh and i think there's some can that can generate some excitement i think and it means that we probably end up recruiting people into the space force that are not from the traditional recruiting areas that the rest of the department of defense looks to and i think it allows us to bring in a diversity of thought and diversity of perspective and a new kind of motivation um into the service that i think is frankly is is really exciting so if you put together everything i mentioned about how space and cyber are going to be best friends forever and i think there's always been an excitement in them you know from the very beginning in the american psyche about space you start to put all these ingredients together and i think you see where i'm going with this that really changed that cultural uh mindset that you were describing it's an exciting time for sure and again changing the world and this is what you're seeing today people do want to change world they want a modern world that's changing roy look at your thoughts on this i was having an interview a few years back with a tech entrepreneur um techie and we were joking we were just kind of riffing and we and i said everything that's on star trek will be invented and we're almost there actually if you think about it except for the transporter room you got video you got communicators so you know not to bring in the star trek reference with space force this is digital and you start thinking about some of the important trends it's going to be up and down the stack from hardware to software to user experience everything your thoughts and reaction yeah abs absolutely and so you know what we're seeing is um timeline timelines shrinking dramatically um because of the barrier to entry for you know um new entrants and you know even your existing aerospace companies is incredibly low right so if you take um previously where you had a technology on the ground and you wanted it in orbit it would take years because you would test it on the ground you would verify that it can operate in space in a space environment and then you would go ahead and launch it and you know we're talking tens if not hundreds of millions of dollars to do that now um we've cut that down from years to months when you have a prototype on the ground and you want to get it launched you don't necessarily care if it fails on orbit the first time because you're getting valuable data back and so you know we're seeing technology being developed you know for the first time on the ground and in orbit in a matter of a few months um and the whole kind of process um you know that that we're doing as a small business is you know trying to enable that and so allowing these entrepreneurs and small small companies to to get their technology in orbit at a price that is sometimes even cheaper than you know testing on the ground you know this is a great point i think this is really an important point to call out because we mentioned partnerships earlier the economics and the business model of space is doable i mean you do a mission study you get paid for that you have technology you can get stuff up up quickly and there's a cost structure there and again the alternative was waterfall planning years and millions now the form factors are different now again there may be different payloads involved but you can standardize payloads you got robotic arms all this is all available this brings up the congestion problem this is going to be on the top of mind the generals of course but you got the proliferation okay of these constellation systems you have more and more tech vectors i mean essentially that's malware i mean that's a probe you throw something up in space that could cause some interference maybe a takeover general this is the this is the real elephant in the room the threat matrix from new stuff and new configurations so general how does the proliferation of constellation systems change the threat matrix so i i think the uh you know i guess i'm gonna i'm gonna be a little more optimistic john than i think you pitched that i'm actually excited about these uh new mega constellations in leo um i'm excited about the the growing number of actors that are that are going into space for various reasons and why is that it's because we're starting to realize a new economic engine uh for the nation and for human society so the question is so so i think we want that to happen right when uh um when uh we could go to almost any any other domain in history and and and you know there when when air traffic air air travel started to become much much more commonplace with many kinds of uh actors from from private pilots flying their small planes all the way up to large airliners uh you know there there was a problem with congestion there was a problem about um challenges about uh behavior and are we gonna be able to manage this and yes we did and it was for the great benefit of society i could probably look to the maritime domain for similar kinds of things and so this is actually exciting about space we are just going to have to find the ways as a society and it's not just the department of defense it's going to be civil it's going to be international find the mechanisms to encourage this continued investment in the space domain i do think the space force uh will play a role in in providing security in the space environment as we venture further out as as economic opportunities emerge uh wherever they are um in the in the lunar earth lunar system or even within the solar system space force is going to play a role in that but i'm actually really excited about the those possibilities hey by the way i got to say you made me think of this when you talked about star trek and and and space force and our technologies i remember when i was younger watching the the next generation series i thought one of the coolest things because being a musician in my in my spare time i thought one of the coolest things was when um commander riker would walk into his quarters and and say computer play soft jazz and there would just be the computer would just play music you know and this was an age when you know we had we had hard uh um uh media right like how will that that is awesome man i can't wait for the 23rd century when i can do that and where we are today is is so incredible on those lines the things that i can ask alexa or siri to play um well that's the thing everything that's on star trek think about it almost invented i mean you got the computers you got the only thing really is the holograms are starting to come in you got now the transporter room now that's physics we'll work on that right right so there's a there is this uh a balance between physics and imagination but uh we have not exhausted either well um personally everyone that knows me knows i'm a huge star trek fan all the series of course i'm an original purist but at that level but this is about economic incentive as well roland i want to get your thoughts because you know the gloom and doom you got to think about the the bad stuff to make it good if i if i put my glass half full on the table there's economic incentives just like the example of the plane and the air traffic there's there's actors that are more actors that are incented to have a secure system what's your thoughts to general's comments around the optimism and and the potential threat matrix that needs to be managed absolutely so and you know one of the things that we've seen over the years um as you know we build these small satellites is a lot of the technology you know that the general is talking about um you know voice recognition miniaturized chips and sensors um started on the ground and i mean you know you have you know your iphone um that about 15 years ago before the first iphone came out um you know we were building small satellites in the lab and we were looking at cutting-edge state-of-the-art magnetometers and sensors um that we were putting in our satellites back then we didn't know if they were going to work and then um a few years later as these students graduate they go off and they go out to under you know other industries and so um some of the technology that was first kind of put in these cubesats in the early 2000s you know kind of ended up in the first generation iphone smartphones um and so being able to take that technology rapidly you know incorporate that into space and vice versa gives you an incredible economic advantage because um not only are your costs going down um because you know you're mass producing you know these types of terrestrial technologies um but then you can also um you know increase you know revenue and profit um you know by by having you know smaller and cheaper systems general let's talk about that for real quickly it's a good point i want to just shift it into the playbook i mean everyone talks about playbooks for management for tech for startups for success i mean one of the playbooks that's clear from in history is investment in r d around military and or innovation that has a long view spurs innovation commercially i mean just there's a huge many decades of history that shows that hey we got to start thinking about these these challenges and you know next you know it's in an iphone this is history this is not like a one-off and now with space force you get you're driving you're driving the main engine of innovation to be all digital you know we we riff about star trek which is fun but the reality is you're going to be on the front lines of some really new cool mind-blowing things could you share your thoughts on how you sell that people who write the checks or recruit more talent well so i first i totally agree with your thesis that the that you know national security well could probably go back an awful long way hundreds to thousands of years that security matters tend to drive an awful lot of innovation and creativity because um you know i think the the probably the two things that drive drive people the most are probably an opportunity to make money uh but only by beating that out are trying to stay alive um and uh and so i don't think that's going to go away and i do think that space force can play a role um as it pursues uh security uh structures you know within the space domain to further encourage economic investment and to protect our space capabilities for national security purposes are going to be at the cutting edge this isn't the first time um i think we can point back to the origins of the internet really started in the department of defense and with a partnership i should add with academia that's how the internet got started that was the creativity in order to to meet some needs there cryptography has its roots in security but we use it uh in in national security but now we use it in for economic reasons and meant and a host of other kinds of reasons and then space itself right i mean we still look back to uh apollo era as an inspiration for so many things that inspired people to to either begin careers in in technical areas or in space and and so on so i think i think in that same spirit you're absolutely right i guess i'm totally agreeing with your thesis the space force uh will be and a uh will have a positive inspirational influence in that way and we need to to realize that so when we are asking for when we're looking for how we need to meet capability needs we need to spread that net very far look for the most creative solutions and partner early and often with those that that can that can work on those when you're on the new frontier you've got to have a team sport it's a team effort you mentioned the internet just anecdotally i'm old enough to remember this because i remember the days that was going on and said the government if the policy decisions that the u.s made at that time was to let it go a little bit invisible hand they didn't try to commercialize it too fast and but there was some policy work that was done that had a direct effect to the innovation versus take it over and next you know it's out of control so i think you know i think this this just a cross-disciplinary skill set becomes a big thing where you need to have more people involved and that's one of the big themes of this symposium so it's a great point thank you for sharing that roland your thoughts on this because you know you got policy decisions we all want to run faster we want to be more innovative but you got to have some ops view now mostly ops people want things very tight very buttoned up secure the innovators want to go faster it's the yin and yang that's that's the world we live in how's it all balanced in your mind yeah um you know one of the things um that may not be apparently obvious is that you know the us government and department of um of defense is one of the biggest investors in technology in the aerospace sector um you know they're not the traditional venture capitalists but they're the ones that are driving technology innovation because there's funding um you know and when companies see that the us governments is interested in something businesses will will re-vector um you know to provide that capability and in the i would say the more recent years we've had a huge influx of private equity venture capital um coming into the markets to kind of help augment um you know the government investment and i think having a good partnership and a relationship with these private equity venture capitalists and the us government is incredibly important because the two sides you know can can help collaborate and kind of see a common goal but then also too on um you know the other side is you know there's that human element um and as general shaw was saying it's like not you know not only do companies you know obviously want to thrive and do really well some companies just want to stay alive um to see their technology kind of you know grow into what they've always dreamed of and you know oftentimes entrepreneurs um are put in a very difficult position because they have to make payroll they have to you know keep the lights on and so sometimes they'll take investment um from places where they may normally would not have you know from potentially foreign investment that could potentially you know cause issues with you know the you know the us supply chain well my final question is the best i wanted to say for last because i love the idea of human space flight i'd love to be on mars i'm not sure i'll be able to make it someday but how do you guys see the possible impacts of cyber security on expanding human space flight operations i mean general this is your wheelhouse this is urine command putting humans in space and certainly robots will be there because they're easy to go because they're not human but humans in space i mean you're starting to see the momentum the discussion uh people are are scratching that itch what's your take on that how do we see making this more possible well i i think we will see we will see uh commercial space tourism uh in the future i'm not sure how wide and large a scale it will become but we'll we will see that and um part of uh i think the mission of the space force is going to be probably to again do what we're doing today is have really good awareness of what's going on the domain to uh to to to ensure that that is done safely and i think a lot of what we do today will end up in civil organizations to do space traffic management and safety uh in in that uh arena um and uh um it is only a matter of time uh before we see um humans going even beyond the you know nasa has their plan the the artemis program to get back to the moon and the gateway initiative to establish a a space station there and that's going to be an exploration initiative but it is only a matter of time before we have um private citizens or private corporations putting people in space and not only for tourism but for economic activity and so it'll be really exciting to watch it would be really exciting and space force will be a part of it general roland i want to thank you for your valuable time to come on this symposium i really appreciate it final uh comment i'd love to you to spend a minute to share your personal thoughts on the importance of cyber security to space and we'll close it out we'll start with you roland yeah so i think that the biggest thing um i would like to try to get out of this you know from my own personal perspective is um creating that environment that allows um you know the the aerospace supply chain small businesses you know like ourselves be able to meet all the requirements um to protect um and safeguard our data but also um create a way that you know we can still thrive and it won't stifle innovation um you know i'm looking forward um to comments and questions um you know from the audience um to really kind of help um you know you know basically drive to that next step general final thoughts the importance of cyber security to space i'll just i'll go back to how i started i think john and say that space and cyber are forever intertwined they're bffs and whoever has my job 50 years from now or 100 years from now i predict they're going to be saying the exact same thing cyber and space are are intertwined for good we will always need the cutting edge cyber security capabilities that we develop as a nation or as a as a society to protect our space capabilities and our cyber capabilities are going to need space capabilities in the future as well general john shaw thank you very much roland cleo thank you very much for your great insight thank you to cal poly for putting this together i want to shout out to the team over there we couldn't be in person but we're doing a virtual remote event i'm john furrier with thecube and siliconangle here in silicon valley thanks for watching

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]