>> Welcome to the AWS Startup Showcase: New Breakthroughs in DevOps, Data Analytics, and Cloud Management Tools. I'm Lisa Martin. I'm pleased to welcome JT Giri, the CEO and founder of nOps, to the program. JT, welcome. It's great to have you. >> Thank you, Lisa. Glad to be here. >> Talk to me about nOps. This was founded in 2017, you're the founder. What do you guys do? >> Yeah. So just a little bit background on myself. You know, I've been migrating companies to AWS ever since EC2 was in beta. And you know, in the beginning I had to convince people like, "Hey, you should move to cloud." And the question people used to ask me, like, "Is cloud secure?" I'm glad no one is asking that question anymore. So, as I was building and migrating customers to the cloud, one of the things I realized very early on, is just cloud, there are so many resources, so many teams provisioning resources, then how do you align with your business goals? So we created nOps so that, for a mission, how do you are you build a platform where you make sure every single change and every single resource in the cloud is aligned with the business needs, right? Like we really helped people to make the right trade-offs. >> So you mentioned you've been doing this since EC2 was in beta, and we just celebrated, with AWS, EC2's 15th birthday. So you've been doing this awhile. You don't look old enough, but you've been doing this for awhile. So one of the things that I read on the website, I always love to understand messaging, that nOps says about itself, "The first cloud ops platform "designed to sync revenue growth across your teams." Talk to me about how you do that. >> Yeah. So one of the problems we see in the market right now, there are a lot of tools, there are a lot of dashboards that shows like, "Hey, you have this many issues, "here's the opportunity to fix issues. "And here are the security issues." We're more focused on how do we take those issues from a backlog and fixing those issues. Right? So our focus is more on operationalizing, so your teams could actually own that, prioritize, and actually remediate those issues. So that's where we focus our energy. >> Got it. Let's talk about cloud ops now, and how it varies or differs from traditional cloud management. >> Yeah, I think, like I mentioned, cloud management seems to be more like visibility. And everyone knows that there are challenges in their cloud environment. But when you focus more on the operation side, what we really try to do, from an issue, how do you actually fix that issue? How do you prioritize? How do you make the right trade-offs. Right? Trade offs is important because we make a lot of decisions in the cloud when you're building your infrastructure. Sometime you might have to prioritize for costs, sometime you might have to prioritize based on the SLA. You might have to add more resources to hit your SLAs. So we really help you to prioritize. And we build sort of accountability. You know, you can create roles. Most of the time, what we noticed, I truly believe that if it's everyone's responsibility, it's no one's responsibility. You know? So what we do is we help, within the tool, to establish clear roles and responsibilities. And we show audit log of people reviewing and fixing security issues. And we show audit log of people fixing and reviewing cost issues. That's one way we're trying to bring accountability. >> I like what you said, if everyone's responsible, then really no one is. And that seems to be a persistent problem that we see in businesses across industries, is just still that challenge with aligning IT and business. And especially with the dynamics of the market, JT, that we've seen in the last 18 months, things are moving so quickly. Talk to me about how you guys have been helping companies, especially in the last 18 months, with such change to get that alignment. So that that visibility and those clear roles are established and functional. >> Yeah. You know, what we really do is obviously listen to the customers. Right? And one of the challenges we hear over and over is like, you know, I know I have issues in the cloud environment that I really need help prioritizing. And they're really looking for a framework where they can come in and say, "Okay these are the people who are responsible for security. "These are the people who are responsible for the cost." So as part of onboarding with nOps, that's one of the things you do, you define your workloads. By the way, we automatically create your workload across all your accounts. And then we allow you to move resources around if you like. But then one of the first thing we do is assign roles and responsibilities for each one of these workloads. Oh, it's been incredible to see, when you have that kind of accountability, people actually do make sure that the resources are aligned with the business needs. >> So are you seeing, I mean, that's kind of a cultural shift. That changed management is a challenging process. How are you seeing that evolve in organizations who've been used to doing things maybe in a little bit of a blinders on kind of mode? >> Yeah. Well, changed management is an area where we spent a lot of time, because in cloud, changed management is almost like a fire hose. Right? There's so many changes and you could have 20 people or 20 different teams making changes. I think what people really want is sort of root cause analysis. Like, "Hey, this is what changed here. "Here's why it changed. "And here's how actions we could take, or you could take." So this is where we focus on this, where nOps focuses on. We really help people to show the root cause analysis, these three, four things, these three, four changes are related to this cost increase or these security issues. And we show like a clear path on taking action on those issues. >> That's critical. The ability to show the paths, to take the action to remediate or make any changes, course corrections. As we've learned in the last 18 months, real time is no longer for so many industries, a nice-to-have. The ability to be able to pivot on the fly is a survival and thriving mechanism. So that is really key. I do want to talk about the relationship with nOps and AWS. Here we are at the AWS startup showcase. Give me a little overview on the partnership. >> It's been an incredible. Like I said, I have a long history of working with AWS, and I started a consulting company, a very, very successful one. And so I have years of working with AWS partner teams. I think it's incredible. We were the first company in this, maybe not first, maybe very early. We were part of this Well-Architected framework. And when I came out of that training, the Well-Architected training, I was so excited. I was like, "Wow, this is amazing." You know? Because, to me, whenever you're building infrastructure, you really are making trade-offs. You know, sometime you optimize for cost, sometime you optimize for reliability. So it has been incredible to work with the Well-Architected team. Or Amazon also has this, another program, called FTR: Foundational Technical Review. We've been working closely with that team. So yeah, it's been amazing to collaborate with AWS. >> It sounds pretty synergistic. Have you had a chance influence infrastructure, and some of the technical direction? >> Oh, absolutely. Yeah. We work very closely. One of the cool thing about AWS is that they do take customers' feedback very, very seriously. And, Lisa, also other way around. Right? If AWS is going to build something, having that insight into the roadmap is very beneficial. Because if they're doing it, there's no point of us trying to reinvent the wheel. So that kind of synergy is very helpful. >> That's excellent. Let's talk about customers, now. I always loved talking about customer use cases and outcomes. You guys have a great story with Uber. Walk us through what the challenges were, how nOps came in, what you deployed, and how the business is being impacted positively. >> Yeah, I think Uber and all the enterprises, they sort of have the same challenge, right? There are many teams provisioning infrastructure. How do you make sure all those resources are aligned with your business needs? And in addition to that, not only you have different teams provisioning resources, there are different workloads. And these workloads have different requirements. Right? Some are production workloads, some are just maybe task workloads. So one of the things Uber did, they really embraced sort of nOps' way of managing infrastructure, building accountability, sharing these dashboards with all the different teams. And it was incredible, because within first 30 days they were able to save up to 15%. This was in their autonomous vehicle unit. And they spent a lot of money. And having to see that kind of cost saving, it was just amazing. And we see this over and over. And so like when customers are using platform, it's just incredible how much cost savings are there. >> So Uber, you said, in their autonomous vehicle department saved 15% in just the first 30 days alone. And you said that's a common positive business outcome that you're seeing from customers across industries, is that immediate cost savings. Tell me a little bit more about that as a differentiator of nOps' business. >> Yeah. Because as I mentioned earlier, one of the things we do, we bring accountability. Right? Most of the time when people, before nOps, maybe there are resources that are not accounted for. There is not clear owners, there's no budgets, there's no chargebacks. So I do think that's a huge differentiator of nOps, because, as part of onboarding, as you establish these roles and these responsibilities, you find so much unaccounted resources. And sometimes you don't even need those resources, and you shut them down. And those are the easiest next steps. Right? Like, you don't need to architect, you just shut it down. Like no one needs these resources. So that, I do believe, that's our strength. And we were able to demonstrate this over and over, this, on average, 15-30% cost saving in the first month or so. >> That's excellent. That's a lot of what customers, especially these days, are looking for, is cost optimization across the organization. What are some of the things that you've seen, that nOps has experienced in the last 18 months, with so much acceleration? Anything that surprised you, any industries that you see as really leading edge here, or prime candidates for your technology? >> Yeah. A couple of things. We see a lot of partners, a lot of other consulting company, leveraging nOps as a part of their offering. That's been amazing, we have a lot of partners who really leverage nOps as a go to market and ongoing management of their customers. And I do see that shift from the customer side as well. I think the complexity of cloud continues to kind of increase, like you just mentioned, it sounds like from last 18 months, it accelerated even more. How do you stay up to date, you know? And how do you always make sure that you're following best practices? So companies bring in partners to help them implement solutions. And then these partners are leveraging tools like nOps. And we've seen a lot of momentum around that. >> Tell me a little bit about how partners are leveraging nOps. What are some of the synergistic benefits on both sides? >> Yeah, so normally partners leverage nOps, you know, they will use it for Well-Architected assessments. And, you know, I've personally done a lot of these Well-Architected assessments. And, you know, early on, I kind of learned that, assessments are only good if you're able to move forward with fixing issues in the customer's environment. So what we really do, we really help customers, or sorry, we really help partners to actually do these Well-Architected assessments automatically. We auto discover issues, and then we help them to create proposals so they can present it to the customers like, "Hey, here are the five things we can help you with, "and here's how much it will cost." And, you know, we really streamline that whole process. And it's amazing that some partners used to take like days to do these assessments. Now they can do it an hour. And we also increase the close rate on SoW's because they are a lot more clear. You know, like here are the issues and here's how we can help you to fix those issues. >> You got some great business metrics there, in terms of speed and reduction in cost, reduction in speed. But it sounds like what you're doing is helping those partners build a business case for their customers far more efficiently and more clearly than they've ever been able to do before. >> Absolutely. Yeah, yeah. And... >> Go ahead. >> Yeah, so absolutely. Before nOps, everyone is using spreadsheets most of the time. Right? It's spreadsheets to collect information, and emails back and forth. And after the partner's start using nOps, they use nOps to facilitate these assessments. And once they have these customers as ongoing customers, they use nOps for checks and balances to make sure they're constantly aligned. Right? And we have a lot of success of having real revenue impact on partners' business, by leveraging nOps. >> Excellent. That's true value and true trust there. Last question. Where can you point folks, a CTA or URL that you want people to go to to learn more about nOps? >> Yeah. Basically just go to nops.io and just put on signup. Yeah. I love doing this stuff. I love talking to the customers. Feel free to reach out to me, as well: jt@nops. I would love to have a conversation. But yeah, just nops.io is the best place to get started. >> Awesome, nops.io. And I can hear enthusiasm for this, and your genuineness comes through the zoom screen here, JT. I totally thought that the whole time. Thank you for talking to me about nOps, how you guys are helping organizations really embrace cloud ops and evolve from traditional cloud management tools. We appreciate your time. >> Thanks, Lisa. >> For JT Giri, I'm Lisa Martin. You're watching the AWS Startup Showcase.

>>mhm >>Hello and welcome to this cube conversation here in Palo alto California, I'm john for a year host of the cube, we're here with a great guest Jt gear, Ceo and founder and ops Hot Startup. Jt Welcome to the cube conversation. >>Hey, that sound, thanks for having me. It sounds like we know each other, we used to run into each other at meat out. So yeah, >>it's fun to talk to you because I know you're, you know, scratching the devops it from the beginning before devops was devops before infrastructure of code was infrastructure as code. All that's played out. So it's really a great ride. I know you had a good time doing it a lot of action though. If you look at devops it's kind of like this new, I won't say devops two point because it kind of cliche but you're starting to see the mature ization of companies besides the early adopters and the people who are hardcore adopting and they realize this is amazing and then they? Re platform in the cloud and they go great, let's do more and next thing, you know, they have an operations issue and they got a really kind of stabilize and then also not break anything. So this is kind of the wheelhouse of what you guys are doing in ops reminds me of no ops, no operations, you know, we don't want to have a lot of extra stuff. This is a big thing. Take a but take them in to explain the company, you're what you guys stand for and what you're all about. >>Yeah, so you know, our main focus is more on the operation side, so, you know the reason why you move to cloud or the reason why you have devops practices, you want to go fast. Um but you know when you're building cloud infrastructure, you have to make trade offs right? You have to maybe some environment, maybe you have to optimize for S L A. And maybe another workload, you have to optimize for um you know, maybe costs, right? So what we're on a mission to do is to make sure that companies are able to make the right trade offs, right? We help companies to make sure all their workload, every single resource in the cloud is aligned with the business needs, you know, so we do a lot of cool things by like, you know, bringing accountability mapping and we're close to different genes. But yeah, the end goal is, can we make sure that every single resource on data Bs is aligned with the business needs >>and they're also adding stuff. Every reinvent zillion more services get announced. So a lot, a lot of stuff going on, I gotta ask you while I got you here, what is the definition of cloud apps these days, from your standpoint and why is it important? A lot of folks are looking at this and they want to have stable operations. They love the cloud really can't deny the cloud value at all. But cloud ops has become a big topic. What is cloud apps and why is it important. >>Right? I mean, first of all, Like you just mentioned, right? Like Amazon keeps on launching more services. It's over 200. So the environment is very complex, Right? And then mm complexity within the services is uh pretty uh you really need to be the main expert for example, know everything about do So, you know, our question to us is, let's say if you find a critical issue, uh let's say you want to uh you know, enable multi AZ on your RDS for example. Uh and it's critical because you know, you're running a uh high availability workloads on AWS. How do you follow up on that right to us. Operation is how do you build a cloud backlog? How do you prioritize, how do you come together as a team to actually remediate those issues? No one is tackling that job, everyone's surfaces like, hey, here's 1000 things that are wrong with your environment. No one is focused on like how do you go from these issues to prioritization to backlog to actually coming together as a team. You know, I've been fixing some of those issues. That's that's what operation means is >>I know it's totally hard because sometimes I don't even know what's going on. I gotta ask you why, why is it harder now? Why are people, I mean I get the impression that people like looking the other way? I hope it goes the problem kind of goes away. What are the challenges? What's the big blocker from getting at the root cause or trying to solve these problems? What's the big thing that's holding people back? >>Yeah, I mean, when I first got into, you know, I t you know, I was working in data center and every time we needed a server, you know, we have to ask for approvals, right? And you finally got a server, but nowadays anyone could provision resources. And normally you have different people within the team's provisioning resources and you can have hundreds of different teams who are provisioning resources. So the complexity uh and the speed that we are, you know, provisioning resources across multiple people, it just continues to go higher and higher. So that's why uh you know, on the surface it might look that hey, this, you know, maybe the biggest instance uh is, you know, aligned with the business needs, you know, looking at the changes, it's hard to know, are those aligned with the business? They're not? So that's that's that's where the complexity and player. >>So the question I get a lot from people we talk about devops and cloud, cloud apps or cloud management or whatever kind of buzz words out there, it kind of comes down to cloud apps and cloud management seems to be the category, people focus on. How is cloud ops different then? Say the traditional cloud management and what impact does it have for customers and why should they care and what do they need an option. >>Right. So one of the things we do uh and and we do think that cloud operation is sort of an evolution from cloud management. We make sure that Every single resource 1st, first of all blondes and workload. So and you know, workload could be a group of microservices uh and then uh you know every single workload has owners like define owners who are responsible for making sure they managed budget that they're responsible for security that normally doesn't exist. Right? Cloud is this black box, you know where multiple people are provisioning resources, you know, everyone tries to sort of build sort of a structure to kind of see like what are these resources for? What are these resources for as part of onboarding to end up? So what we do, we actually, you know, analyze all your metadata. We create like 56 workloads and then we say here is a bucket where there's there, this is totally unassigned, right? And then we actually walked them through assigning different roles and also we walk them through to kinda looking under this unallocated resources and assign resources for those as well. So once you're done, every single resource has clear definition, right? Is this a compliant? Uh you know hip hop workload, what are the run books, what is this for? John I don't know if he heard that before. Sometimes there are workloads running and how people don't know, I don't even know who is the owner, right? So after you're done with an office and after you're managing and uh, you know, uh, managing your workload on and off, you have full visibility and clear understanding of what are the. It's funny, it's >>funny you mentioned the workloads being kind of either not knowing the owners, but also we see people um, with the workloads sometimes it's like throwing a switch and leaving the hose on the water on. And next thing you know, they get the bill. They're like, oh my God, what happened? Why did I leave? What, what is this? So there's a lot of things that you could miss. This brings up the point you just said and what you said earlier aligning resources across the cloud uh and and having accountability. And then you, you mentioned at the top of this interview that aligning with the business needs. I find that fastest. I would like to take him in to explain because it sounds really hard. I get how you can align the resources and do some things, identify what's going on, accountability kind of map that that's, that's good tech. How does that, how do you get that to the alignment on the business side. >>Yeah. I mean we start by, first of all, like I said, you know, we use machine learning to play these workloads? And then we asked basic questions about the workload. You know, what is this workload for? Uh Do you need to meet with any kind of compliance is for this workload? Uh What is your S. O. A. For this workload? You know, depending on that. We we make recommendations. Uh So we kind of ask those questions and we also walk them through where they create roles. Like we asked who was responsible for creating budgets or managing security for this workload and guess what also the you know the bucket where resources are allocated for. We ask for you know, owners for that as well like in this bucket who's the owner for who's going to monitor the budget and things like that. So you know we asked, you know, we start by just asking the question, having teams complete that sort of information and also you know, why do you a little bit more information on how this aligns with the business needs? You know, >>talk about the complexity side of it. I love that conversation around the number of services. You said 200 services depending how you count what you call services in the thousands of so many different things uh knobs to turn on amazon uh web services. So why are people um focused on the complexity and the partnering side? Because you know, it's the clouds at E. P. I. Based system. So you're dealing with a lot of different diverse resources. So you have complexity and diversity. Can you talk me through how that works? Because that's that seems to be a tough beast to tame the difference between the complexity of services and also working with other people. >>Yeah for sure like this this normal to have um you know maybe thousands of lambda functions in their application. We're working with a customer where within last month there were nine million containers that launched and got terminated right there, pretty much leveraging, auto scaling and things like that. So these environments are like very complex. You know, there's a lot of moving pieces even, you know, depending on the type of services they're using. So again what we do, you know we when we look at tags and we look at other variables like environments and we look at who's provisioning resources, those resources and we try to group them together and that way there's accountability uh you know if the cost goes up for one workload were able to show that team like your cost is going up uh And also we can show uh unallocated bucket that hey within last week Your cost is you know, $4,000 higher in the unallocated bucket. Where would you like to move this these resources to just like an ongoing game. You >>know, you know jt I was talking with my friend jerry Chen is that Greylock partners is a V. C. Has been on the cube many times a couple of years ago. We're talking about how you can build a business within the cloud, in the shadows of the clouds, what he called it, but I called it more the enabling side and and that's happened now, you're seeing the massive growth. I'm also talking to some C X O C IOS or CSOs and they're like trying to figure out which companies that are evolving and growing to be to buy from, get to get the technology. Uh and they always say to me john I'm looking for game changing kind of impact. I'm looking for the efficiency and you know, enablement, the classic kind of criteria. So how would you guys position yourself to those buyers out there that might want to look at you guys as a solution and ups what game changing aspect of what you do is out there, how would you talk to that that C I O or C. So or buyer um out in the end the enterprise and the thieves ran his piece. What would you say to them? >>Yeah, I think the biggest uh advantage and I think right now it's a necessity, you hear these stories where, you know, people provision resources, they don't even know which project is it for. It's just very hard to govern the cloud environment, but I believe we're the only tool. Mhm where you want to compromise on the speed, right? The whole reason um cloud but they want to innovate faster. No one wants to follow that. Right? But I think what's important. We need to make sure everything is aligned with the business value. Uh, we allow people to do that. You know, we, we, we can both fast at the same time. You can have some sort of guard rails. So there are proper ownership. There's accountability. People are collaborating and people are also rightsizing terminating resources, they're not using. It's like, you know, I think if companies are looking for a tool that's gonna drive better accountability on how people build and collaborate on cloud, I think reply the best solution. >>So people are evolving with the cloud and you mentioned terminating services. That's a huge deal in cloud. Native things are being spun up and turned off all the time. So you need to have good law, You have a good visibility, observe ability is one of the hottest buzzwords out there. We see a zillion companies saying, hey, we're observe ability, which is to me is just monitoring stuff. They can sure you're tracking everything. So when you have all this and you start to operationalize this next gen, next level cloud scale, cost optimization and visibility is huge. Um, what is the, what is the secret sauce uh, for that you guys offer? Because the change management is a big 12 teams are changing too cost team accountability. All this is kind of, it's not just speeds and feeds, there's, it's kind of intersection of both. What's your take on that reaction to that? >>Yeah, I think it's the Delta. Right? So change management, What you're really looking for is not a, like a fire hose, you're looking for. What changed what the root cause who did it, what happened? Right. Because it's totally normal for someone to provision maybe thousands or even millions containers. But how many of those got shut down? What is the delta and uh, you know, if there is a, there is an anomaly, what is the root cause? Right? Uh, how we fix it. So you know the way we've changed managers, change management is a lot different. We really get to the root cause analysis and we really help companies to make, really show what changed and how they can take action to a media. But if there were issues, >>I want to put a little plug in for you guys. I noticed you guys have a really strong net promoter score. You have happy customers also get partners. A lot of enablement there. You kind of got a lot of things going on. Um, explain what you guys are all about. How did you get here? What's the day in the life of a customer that you're serving? Why then why are the scores so high? Um, take us through a use case of someone getting that value. >>Yeah. So I, I come from like a consulting background, john so you know, I was migrating companies to read the Bs when the institute was in beta and then I, you know, founded a consulting company over 100 employees. Really successful interview. S premier partner called in clouds. And so Enos was born there because because you know it was, it was born out a consulting company, there are a lot of other partners who are leveraging the tools to help their customers and it goes back to our point earlier, john like amazon has to wonder services, right? We are noticing customers are open to work with partners and uh you know with different partners that really helped them to make sure they're making the right decisions when they are building on cloud. So a lot of the partners, a lot of the consulting companies are leveraging uh and hopes to deliver value to their customers as far as uh you know how we actually operate. You know, we pay attention to uh you know what, what customers are looking for, what, where are the next sort of challenges uh you know, customers are facing in a cloud environment world like super obsessed, you know, like we're trying to figure out how do we make sure every single resource is aligned with the business value without slowing companies down so that really drives us, we're constantly welcome customers to stay true to the admission >>and that's the ethos of devops moving fast. The old quote Mark Zuckerberg used to have move fast, break stuff and then he revised it to move move fast and make it stable, which is essentially operational thing. Right, so you're starting to see that maturity, I noticed that you guys also have a really cool pricing model, very easy to get in and you have a high end too. So talk us through about how to engage with you guys, how do people get involved? Just click and just jump in there, buying software buying services, take a minute to explain how people can, can work with you. >>Yeah, it's just, it's just signing up on our site, you know, our pricing is tier model, uh you know, once you sign up, if you do need help with, you know, remediating high risk issues we can bring in partners, we have a strong partner ecosystem. Uh we could definitely help you do interviews to the right partners but it's as simple as just signing up and just taking me out. First thing I guess. >>Jt great chatting with you have been there from early days of devops, born in the field, getting, getting close to the customers and you mentioned ec two and beta, they just celebrate their 15th birthday and I remember one of my starts that didn't actually get off the off the blocks, they didn't even have custom domains at that time was still the long remember the long you are else >>everything was ephemeral like when you restart server, everything will go away a cool >>time. And I just remember saying to myself man, every entrepreneur is going to use this service who would ever go out and buy and host the server. So you were there from the beginning and it's been great to see the success. Thanks for coming on the cube >>all That's >>okay. Jt thanks so much as a cube conversation here in Palo alto. I'm john for your host. Thanks for watching. Mhm.

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

>> Announcer: From around the globe, it's "theCUBE" covering Space and Cybersecurity Symposium 2020 hosted by Cal Poly. >> I want to welcome to theCUBE's coverage, we're here hosting with Cal Poly an amazing event, space and the intersection of cyber security. This session is Defending Satellite and Space Infrastructure from Cyber Threats. We've got two great guests. We've got Major General John Shaw of combined force space component commander, U.S. space command at Vandenberg Air Force Base in California and Roland Coelho, 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 Cybersecurity Symposium. Appreciate it. >> Absolutely. >> Guys defending satellites and space infrastructure is the new domain, obviously it's a war-fighting 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 very proud to be part of this effort and part of the partnership that we have with Cal Poly on a number of fronts. In my job here, I actually 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 standup of the United States Space Force. That happened December 20th, last year, and again momentous, the first new branch in our military since 1947. And it's just over nine months old now, as we're makin' this recording. And already we're seein' a lot of change with regard to how we are approaching organizing, training, and equipping on a service side for space capabilities. And so, 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 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 war-fighting operations. Most people are more familiar perhaps with Central Command, CENTCOM or Northern Command, NORTHCOM, or even Strategic Command, STRATCOM. Well, now we have a SPACECOM. 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 working with other, all the additional capabilities that other services bring, as well as our allies. The combined in that title means that under certain circumstances, I would lead in an allied effort in space operations. And so it's actually a terrific job to have here on the central coast of California. Both working how we bring space capabilities to the fight on the Space Force side, and then how we actually operate those capabilities in support of joint warfighters around the world and national security interests. So that's the context. Now what also I should mention and you kind of alluded to John at your beginning, we're kind of in a changed situation than we were a number of years ago, in that we now see space as a war-fighting domain. For most of my career, goin' back a little ways, most of my focus in my jobs was making sure I could bring space capabilities to those that needed them. Bringing GPS to that special operations 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 war-fighting domain. And so we're going through some relatively emergent efforts to protect and defend our capabilities in space, 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 to do more and to do things differently. So I appreciate that statement. Roland in your opening statement. Your job is to put stuff in space, faster, cheaper, smaller, better, your opening statement, please. >> Yes, thank you, John. And yes, to General Shaw's point with the space domain and the need to protect it now is incredibly important. And I hope that we are more of a help than a thorn in your side in terms of building satellites smaller, faster, cheaper. Definitely looking forward to this discussion and figuring out ways where the entire space domain can work together, from industry to U.S. government, even to the academic environment as well. So first, I would like to say, and preface this by saying, I am not a cybersecurity expert. We build satellites and we launch them into orbit, but we are by no means cybersecurity experts. And that's why we like to partner with organizations like the California Cybersecurity Institute because they help us navigate these requirements. So I'm the CEO 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 U.S. government and everything in between. We support customers through an entire 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 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, creating greater launch opportunities, or providing the infrastructure and the technology to help those innovations mature in orbit, that's what we do. Our team has experience over the last 20 years, working with small satellites. And I'm definitely fortunate to be part of the team that invented the CubeSat standard by Cal Poly and Stanford back in 2000. And so, we are in VandenBerg's backyard. We came from Cal Poly San Luis Obispo and our hearts are fond of this area, and working with the local community. A lot of that success that we have had is directly attributable to the experiences that we learned as students, working on satellite programs from our professors and mentors. And that's all thanks to Cal Poly. So just wanted to tell a quick story. So back in 2000, just imagine a small group of undergraduate students, myself included, with the daunting task of launching multiple satellites from five different countries on a Russian launch vehicle. Many of us were only 18 or 19, not even at the legal age to drink yet, but as essentially teenagers we were managing million-dollar budgets. And we were coordinating groups from around the world. And we knew what we needed to accomplish, yet we didn't really know what we were doing when we first started. The university was extremely supportive and that's the Cal Poly learn-by-doing philosophy. I remember the first time we had a meeting with our university chief legal counsel, and we were discussing the need to register with the State Department for ITAR. Nobody really knew what ITAR was back then. And discussing this with the chief legal counsel, she was asking, "What is ITAR?" And we essentially had to explain, this is, launching satellites is part of the U.S. munitions list. And essentially we had a similar situation exporting munitions. We are in similar categories as weapons. And so, after that initial shock, everybody jumped in both feet forward, the university, our head legal counsel, professors, mentors, and the students knew we needed to tackle this problem because the need was there to launch these small satellites. And the reason this is important to capture the entire spectrum of users of the community, is that the technology and the innovation of the small satellite industry occurs at all levels, so we have academia, commercial, national governments. We even have high schools and middle schools getting involved and building satellite hardware. And the thing is the importance of cybersecurity is incredibly important because it touches all of these programs and it touches people at a very young age. And so, we hope to have a conversation today to figure out how do we create an environment where we allow these programs to thrive, but we also protect and keep their data safe as well. >> Thank you very much Roland. Appreciate that a story too as well. Thanks for your opening statement. Gentlemen, I mean I love this topic because defending the assets in space is obvious, if you look at it. But there's a bigger picture going on in our world right now. And general, 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 evolving. You know in the tech world that I live in, change the world is a topic they use, gets thrown around a lot, you can change the world. A lot of young people, and we have other panels on this where we're talkin' about how to motivate young people, changing the world is what it's all about 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 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 cybersecurity 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 everything in between is an opportunity, and it's exciting. And it is truly a chance to change the world. How does the commercial government space systems teams, address the importance of cybersecurity? >> So, John, I think it starts with the realization that as I like to say, that cyber and space are BFFs. There's nothing that we do on the cutting edge of space that isn't 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 and you see how closely those are intertwined as we need to move forward at speed, it becomes fundamental to answering your question. Let me give a couple examples. One of the biggest challenges I have on a daily basis is understanding what's going on in the space domain. Those on the surface of the planet talk about tyranny of distance across the oceans or across large land masses. And I talk about the tyranny of volume. And right now, we're looking out as far as the lunar sphere. There's activity that's extending out there. We expect NASA to be conducting perhaps 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 within that volume? It is a big data problem by the very definition of that kind of effort and 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 enjoy tackling in the years ahead. Now, a second example is, if we had to take a vote of what were the most 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 GPS satellites that amazingly provide a wonderful service to the entire globe and beyond. They are amazing technological machines. That's not going to stop. I mean, all the work that Roland talked about, even that we're doin' at the kind of the microsat level is putting cutting-edge technology into small a package as 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 cutting-edge technologies of artificial intelligence and machine-to-machine engagements and machine learning are going to be part of that design work moving forward. And then there's the threat piece. As we operate these capabilities, as these constellations grow, that's going to be done via networks. And as I've already pointed out space is a war-fighting 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 activity. And so by painting that picture, we start to see how it's intertwined at the very, very most basic level, the cutting edge of cyber and cutting edge of space. With that then comes the need to, any cutting edge cybersecurity 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 capability. >> Roland, we're talkin' about now, critical infrastructure. We're talkin' 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, 'cause 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 the line. How do you protect it? How do we address this? How do you see this being addressed from a security standpoint? Because malware, these techniques can be mapped in, extended into space and takeovers, wartime, peace time, these things are all going to be under threat. That's pretty well understood, and I think people kind of get that. How do we address it? What's your take? >> Yeah, yeah, absolutely. And I couldn't agree more with General Shaw, with cybersecurity and space being so intertwined. And, I think with fast and rapid innovation comes the opportunity for threats, especially if you have bad actors that want to cause harm. And so, as a technology innovator and you're pushing the bounds, you kind of have a common goal of doing the best you can, and pushing the technology bounds, making it smaller, faster, cheaper. But a lot of times what entrepreneurs and small businesses and supply chains are doing, and don't realize it, is a lot of these components are dual use. I mean, you could have a very benign commercial application, but then a small modification to it, can turn it into a military application. And if you do have these bad actors, they can exploit that. And so, I think that the big thing is creating a organization that is non-biased, that just wants to kind of level the playing field for everybody to create a set standard for cybersecurity in space. I think one group that would be perfect for that is CCI. They understand both the cybersecurity side of things, and they also have at Cal Poly the small satellite group. And just having kind of a clearing house or an agency where can provide information that is free, you don't need a membership for. And to be able to kind of collect that, but also reach out to the entire value chain for a mission, and making them aware of what potential capabilities are and then how it might be potentially used as a weapon. And keeping them informed, because I think 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 the U.S. government so that they can take that information, create assessments, and be able to, not necessarily stop threats from occurring presently, but identify them long before that they would ever even happen. Yeah, that's- >> General, I want to follow up on that real quick before we move to the next top track. Critical infrastructure you mentioned, across the oceans long distance, volume. When you look at the physical world, you had power grids here in the United States, you had geography, you had perimeters, the notion of a perimeter and a moat, 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 everything changed. And we have to fortify those critical assets in the U.S. Space increases the same problem statement significantly, because 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 surge 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 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 think my sense is that a mindset that you can build a firewall, or a defense, or some other system that isn't dynamic in its own right, is probably not headed in the right direction. I think cybersecurity in the future, whether it's for space systems, or for other critical infrastructure is going to be a dynamic fight that happens at a machine-to-machine speed and dynamic. I don't think that it's too far off where we will have 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 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, 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 exciting with AI. Roland, 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. Software's everything, AI. And I said, "Well here in the United States, companies had data centers and then they went to the cloud." And then he said, "You can 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, in 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 landscape? >> Yeah, absolutely. You know, for software in orbit, there's a push for software-defined radios to basically go from hardware to software. And that's a critical link. If you can infiltrate that and a small satellite has propulsion on board, you could take control of that satellite and cause a lot of havoc. And so, creating standards and that kind of initial threshold of security, for let's say these radios, or communications and making that available to the entire supply chain, to the satellite builders, and operators is incredibly key. And that's again, one of the initiatives that CCI is tackling right now as well. >> General, I want to get your thoughts on best practices around cybersecurity, state-of-the-art today, and then some guiding principles, and kind of how the, if you shoot the trajectory forward, what might happen around supply chain? There's been many stories where, we outsource the chips and there's a little chip sittin' 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 corrupt, and it has some cyber, I'm making it up, I'm oversimplifying the statement. But this is what when you have space systems that involve intellectual property from multiple partners, whether it's from software to creation and then deployment. You got supply chain tiers. What are some of 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 the symposium here is going to get to hear from General JT Thompson from space and missile system center down in Los Angeles, and he's just down the road from us there on the coast. And his team is the one that we look to to really focus on, as he fires and develops to again bake in cybersecurity from the beginning and knowing where the components are coming from, and properly assessing those as you put together your space systems, is a key piece of what his team is focused on. So I expect, we'll hear him talk about that. When it talks to, I think, so you 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 General JT Thompson's folks take a while to build something, and then they hand it over to me, and my team operate and then they go hands free. And then that's what I have 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 operation center, that are actually working in real time together, better tools that we can use to understand what's going on in the space environment to better command and control our capabilities anywhere from military satellite communications, to space domain awareness, sensors, and such. And we're developing those capabilities in real time. And with the security pieces. So DevSecOps is we're practicing that 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 team and mine have good partnerships. It's partnerships across the board are going to be another way that we are successful. And that it means with academia and 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 companies that had a lot of space experience. Well, 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 organizations, being part of that partnership that will work goin' forward. I mentioned at the beginning that allies are important to us. So everything that Roland and I have been talking about I think you have to extrapolate out to allied partnerships. It doesn't help me as a combined force component commander, which is again, one of my jobs. It doesn't help me if the United States capabilities are cybersecure, but I'm tryin' to integrate them with capabilities from an ally that are not cybersecure. 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 different sectors of our economy 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 does a lot of cybersecurity work, and he was talking about the need to share faster. And the new school is you got to share faster 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's 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 government. How do you view all that and your thoughts on that trend of the sharing piece of it on cyber? >> So, 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 complex web very quickly. So that's part of the challenge we're workin' through. 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 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 cybersecurity 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 to make that all happen as quickly as possible. So you've actually, John you've hit on yet another big challenge that we have, is evolving our networks to properly share, with the right people, at the right clearance levels at the 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. It's again, it's super exciting if you're geeking out on this. If you have a tech degree or you're interested in changin' the world, there's so many new things that could be applied right now. Roland, I want to get your thoughts on this, because one of the things in the tech trends we're seeing, and this is a massive shift, all the theaters of the tech industry are changing rapidly at the same time. 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've got the boardroom and now you got everything in between. You have startups out there that want to and can contribute. 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 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 was kind of alluding to. Which is, it's a changing landscape. Your thoughts, I know you're passionate about this. >> Yeah, absolutely. And I think as General Shaw mentioned, we need to get information out there faster, more timely and to the right people, and involving not only just stakeholders in the U.S., but internationally as well. And as entrepreneurs, we have this very lofty vision or goal to change the world. And oftentimes, entrepreneurs, including myself, 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 other folks. And in terms of a community, I don't know of any formal community out there, it's mostly ad hoc. And, these ad hoc communities are folks who let's say was a student working on a satellite in college. And they loved that entrepreneurial spirit. And so they said, "Well, I'm going to start my own company." And so, a lot of these ad hoc networks are just from relationships that have been built over the last two decades from colleagues at the university. I do think formalizing this and creating kind of a clearing house to handle all of this is incredibly important. >> And there's going to be a lot of entrepreneurial activity, no doubt, I mean there's too many things to work on and not enough time. I mean this brings up the question that I'm going to, while we're on this topic, you got the remote work with COVID, everyone's workin' remotely, we're doin' this remote interview rather than being on stage. Work's changing, how people work and engage. Certainly physical will come back. But if you looked at historically the space industry and the talent, they're all clustered around the bases. And there's always been these areas where you're a space person. You kind of work in there and the job's there. And if you were cyber, you were generally 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 we'll start with you, 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 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 one of those topics that everyone's talkin' about, but no one's actually kind of addressed directly. >> Yeah, John, I think so. I think I want to answer this by talkin' about where I think the Space Force is going. Because I think if there was ever an opportunity or an inflection point in our Department of Defense to sort of change culture and try to bring in non-traditional kinds of thinking and really kind of change maybe some of the ways that the Department of Defense does things that are probably archaic, Space Force is an inflection point for that. General Raymond, our Chief of Space Operations, has said publicly for awhile now, he wants the U.S. Space Force to be the first truly digital service. And what we mean by that is we want the folks that are in the Space Force to be the ones that are the first adopters, the early adopters of technology. To be the ones most fluent in the cutting edge, technologic developments on space and cyber and other sectors of the economy that are technologically focused. And I think there's some, that can generate some excitement, I think. And it means that we'll probably ended 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 into the service, that I think is frankly 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 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 goin' with this. That this is a chance to really change that cultural 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 the world. They want a modern world that's changing. Roland, I'll get your thoughts on this. I was having an interview a few years back with a technology entrepreneur, a techie, and we were joking, we were just kind of riffing. 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, 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, absolutely. And so, what we're seeing is timelines shrinking dramatically because of the barrier to entry for new entrants and even your existing aerospace companies is incredibly low, right? So if you take 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 a space environment. And then you would go ahead and launch it. And we're talking tens, if not hundreds of millions of dollars to do that. Now, 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, we're seeing technology being developed for the first time on the ground and in orbit in a matter of a few months. And the whole kind of process that we're doing as a small business is trying to enable that. And so, allowing these entrepreneurs and small companies to get their technology in orbit at a price that is sometimes even cheaper than 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 that you get stuff up quickly, and there's a cost structure there. And again, the alternative was waterfall planning, years and millions. Now the form factors are doing, now, again, there may be different payloads involved, but you can standardize payloads. You've got robotic arms. This is all available. This brings up the congestion problem. This is going to be on the top of mind of the generals of course, but you've got the proliferation of these constellation systems. You're going to 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 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 think the, you know I guess I'm going to be a little more optimistic John than I think you pitched that. I'm actually excited about these new mega constellations in LEO. I'm excited about the growing number of actors that are going into space for various reasons. And why is that? It's because we're starting to realize a new economic engine for the nation and for human society. So the question is, so I think we want that to happen. When we could go to almost any other domain in history and when air travel started to become much, much more commonplace with many kinds of actors from private pilots flying their small planes, all the way up to large airliners, there was a problem with congestion. There was a problem about, challenges about behavior, and are we going to 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 that Space Force will play a role in providing security in the space environment, as we venture further out, as economic opportunities emerge, wherever they are 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 those possibilities. Hey, by the way, I got to say, you made me think of this when you talked about "Star Trek" and Space Force and our technologies, I remember when I was younger watchin' the Next Generation series. I thought one of the coolest things, 'cause bein' a musician in my spare time, I thought one of the coolest things was when Commander Riker would walk into his quarters and say, "Computer play soft jazz." And there would just be, the computer would just play music. And this was an age when we had hard media. 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 so incredible on those lines. The things that I can ask Alexa or Siri to play. >> Well that's the thing, everything that's on "Star Trek," think about it, it's almost invented. I mean, you got the computers, you got, the only thing really is, holograms are startin' to come in, you got, now the transporter room. Now that's physics. We'll work on that. >> So there is this balance between physics and imagination, but we have not exhausted either. >> Well, firstly, 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, 'cause the gloom and doom, we got to think about the bad stuff to make it good. If I put my glass half full on the table, this economic incentives, just like the example of the plane and the air traffic. There's more actors that are incented to have a secure system. What's your thoughts to general's comments around the optimism and the potential threat matrix that needs to be managed. >> Absolutely, so one of the things that we've seen over the years, as we build these small satellites is a lot of that technology that the General's talking about, voice recognition, miniaturized chips, and sensors, started on the ground. And I mean, you have your iPhone, that, about 15 years ago before the first iPhone came out, we were building small satellites in the lab and we were looking at cutting-edge, state-of-the-art magnetometers and sensors that we were putting in our satellites back then. We didn't know if they were going to work. And then a few years later, as these students graduate, they go off and they go out to other industries. And so, some of the technology that was first kind of put in these CubeSats in the early 2000s, kind of ended up in the first generation iPhone, smartphones. And so being able to take that technology, rapidly incorporate that into space and vice versa gives you an incredible economic advantage. Because not only are your costs going down because you're mass producing these types of terrestrial technologies, but then you can also increase revenue and profit by having smaller and cheaper systems. >> General, let's talk about that real quickly, that'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 your 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 challenges. And next thing you know it's in an iPhone. This is history, this is not like a one off. And now with Space Force you're driving the main engine of innovation to be all digital. You know, we riff about "Star Trek" which is fun, 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 to the people who write the checks or recruit more talent? >> First, I totally agree with your thesis that 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. You know I think probably the two things that drive people the most are probably an opportunity to make money, but beating that out are trying to stay alive. And so, I don't think that's going to go away. And I do think that Space Force can play a role as it pursues security structures, 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. I think we can point back to the origins of the internet, really started in the Department of Defense, with a partnership I should add, with academia. That's how the internet got started. That was the creativity in order to meet some needs there. Cryptography has its roots in security, in national security, but now we use it for economic reasons and a host of other kinds of reasons. And then space itself, I mean, we still look back to Apollo era as an inspiration for so many things that inspired people to either begin careers in technical areas or in space and so on. So I think in that same spirit, you're absolutely right. I guess I'm totally agreeing with your thesis. The Space Force will have a positive, inspirational influence in that way. And we need 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 can work on those. >> When you're on the new frontier, you got to have a team sport, it's a team effort. And you mentioned the internet, just anecdotally I'm old enough to remember this 'cause I remember the days that it was goin' on, is that 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. But there was some policy work that was done, that had a direct effect to the innovation. Versus take it over, and the next thing you know it's out of control. So I think there's this cross-disciplinary skillset 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 got policy decisions. We all want to run faster. We want to be more innovative, but you got to have some ops view. Now, most of the ops view people want things very tight, very buttoned up, secure. The innovators want to go faster. It's the ying and yang. That's the world we live in. How's it all balance in your mind? >> Yeah, one of the things that may not be apparently obvious is that the U.S. government and Department of Defense is one of the biggest investors in technology in the aerospace sector. They're not the traditional venture capitalists, but they're the ones that are driving technology innovation because there's funding. And when companies see that the U.S. government is interested in something, businesses will revector to provide that capability. And, I would say the more recent years, we've had a huge influx of private equity, venture capital coming into the markets to kind of help augment the government investment. And I think having a good partnership and a relationship with these private equity, venture capitalists and the U.S. government is incredibly important because the two sides can help collaborate and kind of see a common goal. But then also too, on the other side there's that human element. And as General Shaw was saying, not only do companies obviously want to thrive and do really well, some companies just want to stay alive to see their technology kind of grow into what they've always dreamed of. And oftentimes entrepreneurs are put in a very difficult position because they have to make payroll, they have to keep the lights on. And so, sometimes they'll take investment from places where they may normally would not have, from potentially foreign investment that could potentially cause issues with the U.S. supply chain. >> Well, my final question is the best I wanted to save for last, because I love the idea of human space flight. I'd love to be on Mars. I'm not sure I'm able to make it someday, but how do you guys see the possible impacts of cybersecurity on expanding human space flight operations? I mean, general, this is your wheelhouse. This is your in command, putting humans in space and certainly robots will be there because they're easy to go 'cause they're not human. But humans in space. I mean, you startin' to see the momentum, the discussion, people are scratchin' that itch. What's your take on that? How do we see makin' this more possible? >> Well, I think we will see commercial space tourism in the future. I'm not sure how wide and large a scale it will become, but we will see that. And part of the, I think the mission of the Space Force is going to be probably to again, do what we're doin' today is have really good awareness of what's going on in the domain 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 in that arena. And, it is only a matter of time before we see humans going, even beyond the, NASA has their plan, the Artemis program to get back to the moon and the gateway initiative to establish a space station there. And that's going to be a NASA exploration initiative. But it is only a matter of time before we have 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'll 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. Really appreciate it. Final comment, I'd love you to spend a minute to share your personal thoughts on the importance of cybersecurity to space and we'll close it out. We'll start with you Roland. >> Yeah, so I think the biggest thing I would like to try to get out of this from my own personal perspective is creating that environment that allows the aerospace supply chain, small businesses like ourselves, be able to meet all the requirements to protect and safeguard our data, but also create a way that we can still thrive and it won't stifle innovation. I'm looking forward to comments and questions, from the audience to really kind of help, basically drive to that next step. >> General final thoughts, the importance of cybersecurity to space. >> 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 a hundred years from now, I predict they're going to be sayin' the exact same thing. Cyber and space are intertwined for good. We will always need the cutting edge, cybersecurity capabilities that we develop as a nation or 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 Coelho, thank you very much for your great insight. Thank you to Cal Poly for puttin' 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. (upbeat music)

>> Announcer: From around the globe, it's The Cube, covering Space and Cybersecurity Symposium 2020, hosted by Cal Poly. >> Everyone, welcome to this special virtual conference, the Space and Cybersecurity Symposium 2020 put on by Cal Poly with support from The Cube. I'm John Furey, your host and master of ceremony's got a great topic today, and this session is really the intersection of space and cybersecurity. This topic, and this conversation is a cybersecurity workforce development through public and private partnerships. And we've got a great lineup, we've Jeff Armstrong is the president of California Polytechnic State University, also known as Cal Poly. Jeffrey, thanks for jumping on and Bong Gumahad. The second, Director of C4ISR Division, and he's joining us from the Office of the Under Secretary of Defense for the acquisition and sustainment of Department of Defense, DOD, and of course Steve Jacques is Executive Director, founder National Security Space Association, and managing partner at Velos. Gentlemen, thank you for joining me for this session, we've got an hour of conversation, thanks for coming on. >> Thank you. >> So we've got a virtual event here, we've got an hour to have a great conversation, I'd love for you guys to do an opening statement on how you see the development through public and private partnerships around cybersecurity and space, Jeff, we'll start with you. >> Well, thanks very much, John, it's great to be on with all of you. On behalf of Cal Poly, welcome everyone. Educating the workforce of tomorrow is our mission at Cal Poly, whether that means traditional undergraduates, masters students, or increasingly, mid-career professionals looking to upskill or re-skill. Our signature pedagogy is learn by doing, which means that our graduates arrive at employers, ready day one with practical skills and experience. We have long thought of ourselves as lucky to be on California's beautiful central coast, but in recent years, as we've developed closer relationships with Vandenberg Air Force Base, hopefully the future permanent headquarters of the United States Space Command with Vandenberg and other regional partners, We have discovered that our location is even more advantageous than we thought. We're just 50 miles away from Vandenberg, a little closer than UC Santa Barbara and the base represents the Southern border of what we have come to think of as the central coast region. Cal Poly and Vandenberg Air Force Base have partnered to support regional economic development, to encourage the development of a commercial space port, to advocate for the space command headquarters coming to Vandenberg and other ventures. These partnerships have been possible because both parties stand to benefit. Vandenberg, by securing new streams of revenue, workforce, and local supply chain and Cal Poly by helping to grow local jobs for graduates, internship opportunities for students and research and entrepreneurship opportunities for faculty and staff. Crucially, what's good for Vandenberg Air Force Base and for Cal Poly is also good for the central coast and the U.S., creating new head of household jobs, infrastructure, and opportunity. Our goal is that these new jobs bring more diversity and sustainability for the region. This regional economic development has taken on a life of its own, spawning a new nonprofit called REACH which coordinates development efforts from Vandenberg Air Force Base in the South to Camp Roberts in the North. Another factor that has facilitated our relationship with Vandenberg Air Force Base is that we have some of the same friends. For example, Northrop Grumman has as long been an important defense contractor and an important partner to Cal Poly, funding scholarships in facilities that have allowed us to stay current with technology in it to attract highly qualified students for whom Cal Poly's costs would otherwise be prohibitive. For almost 20 years, Northrop Grumman has funded scholarships for Cal Poly students. This year, they're funding 64 scholarships, some directly in our College of Engineering and most through our Cal Poly Scholars Program. Cal Poly scholars support both incoming freshmen and transfer students. These are especially important, 'cause it allows us to provide additional support and opportunities to a group of students who are mostly first generation, low income and underrepresented, and who otherwise might not choose to attend Cal Poly. They also allow us to recruit from partner high schools with large populations of underrepresented minority students, including the Fortune High School in Elk Grove, which we developed a deep and lasting connection. We know that the best work is done by balanced teams that include multiple and diverse perspectives. These scholarships help us achieve that goal and I'm sure you know Northrop Grumman was recently awarded a very large contract to modernize the U.S. ICBM armory with some of the work being done at Vandenberg Air Force Base, thus supporting the local economy and protecting... Protecting our efforts in space requires partnerships in the digital realm. Cal Poly has partnered with many private companies such as AWS. Our partnerships with Amazon Web Services has enabled us to train our students with next generation cloud engineering skills, in part, through our jointly created digital transformation hub. Another partnership example is among Cal Poly's California Cyber Security Institute College of Engineering and the California National Guard. This partnership is focused on preparing a cyber-ready workforce, by providing faculty and students with a hands on research and learning environment side by side with military law enforcement professionals and cyber experts. We also have a long standing partnership with PG&E most recently focused on workforce development and redevelopment. Many of our graduates do indeed go on to careers in aerospace and defense industry. As a rough approximation, more than 4,500 Cal Poly graduates list aerospace or defense as their employment sector on LinkedIn. And it's not just our engineers in computer sciences. When I was speaking to our fellow panelists not too long ago, speaking to Bong, we learned that Rachel Sims, one of our liberal arts majors is working in his office, so shout out to you, Rachel. And then finally, of course, some of our graduates soar to extraordinary heights, such as Commander Victor Glover, who will be heading to the International Space Station later this year. As I close, all of which is to say that we're deeply committed to workforce development and redevelopment, that we understand the value of public-private partnerships, and that we're eager to find new ways in which to benefit everyone from this further cooperation. So we're committed to the region, the state and the nation, in our past efforts in space, cyber security and links to our partners at, as I indicated, aerospace industry and governmental partners provides a unique position for us to move forward in the interface of space and cyber security. Thank you so much, John. >> President Armstrong, thank you very much for the comments and congratulations to Cal Poly for being on the forefront of innovation and really taking a unique, progressive view and want to tip a hat to you guys over there, thank you very much for those comments, appreciate it. Bong, Department of Defense. Exciting, you've got to defend the nation, space is global, your opening statement. >> Yes, sir, thanks John, appreciate that. Thank you everybody, I'm honored to be in this panel along with Preston Armstrong of Cal Poly and my longtime friend and colleague Steve Jacques of the National Security Space Association to discuss a very important topic of a cybersecurity workforce development as President Armstrong alluded to. I'll tell you, both of these organizations, Cal Poly and the NSSA have done and continue to do an exceptional job at finding talent, recruiting them and training current and future leaders and technical professionals that we vitally need for our nation's growing space programs, as well as our collective national security. Earlier today, during session three, I, along with my colleague, Chris Samson discussed space cyber security and how the space domain is changing the landscape of future conflicts. I discussed the rapid emergence of commercial space with the proliferation of hundreds, if not thousands of satellites, providing a variety of services including communications, allowing for global internet connectivity, as one example. Within DOD, we continued to look at how we can leverage this opportunity. I'll tell you, one of the enabling technologies, is the use of small satellites, which are inherently cheaper and perhaps more flexible than the traditional bigger systems that we have historically used and employed for DOD. Certainly not lost on me is the fact that Cal Poly pioneered CubeSats 28, 27 years ago, and they set a standard for the use of these systems today. So they saw the value and benefit gained way ahead of everybody else it seems. And Cal Poly's focus on training and education is commendable. I'm especially impressed by the efforts of another of Steven's colleague, the current CIO, Mr. Bill Britton, with his high energy push to attract the next generation of innovators. Earlier this year, I had planned on participating in this year's cyber innovation challenge in June, Oops, Cal Poly hosts California middle, and high school students, and challenge them with situations to test their cyber knowledge. I tell you, I wish I had that kind of opportunity when I was a kid, unfortunately, the pandemic changed the plan, but I truly look forward to future events such as these, to participate in. Now, I want to recognize my good friend, Steve Jacques, whom I've known for perhaps too long of a time here, over two decades or so, who was an acknowledged space expert and personally I've truly applaud him for having the foresight a few years back to form the National Security Space Association to help the entire space enterprise navigate through not only technology, but policy issues and challenges and paved the way for operationalizing space. Space, it certainly was fortifying domain, it's not a secret anymore, and while it is a unique area, it shares a lot of common traits with the other domains, such as land, air, and sea, obviously all are strategically important to the defense of the United States. In conflict, they will all be contested and therefore they all need to be defended. One domain alone will not win future conflicts, and in a joint operation, we must succeed in all. So defending space is critical, as critical as to defending our other operational domains. Funny, space is the only sanctuary available only to the government. Increasingly as I discussed in a previous session, commercial space is taking the lead in a lot of different areas, including R&D, the so-called new space. So cybersecurity threat is even more demanding and even more challenging. The U.S. considers and futhered access to and freedom to operate in space, vital to advancing security, economic prosperity and scientific knowledge of the country, thus making cyberspace an inseparable component of America's financial, social government and political life. We stood up US Space Force a year ago or so as the newest military service. Like the other services, its mission is to organize, train and equip space forces in order to protect U.S. and allied interest in space and to provide spacecape builders who joined force. Imagine combining that U.S. Space Force with the U.S. Cyber Command to unify the direction of the space and cyberspace operation, strengthen DOD capabilities and integrate and bolster a DOD cyber experience. Now, of course, to enable all of this requires a trained and professional cadre of cyber security experts, combining a good mix of policy, as well as a high technical skill set. Much like we're seeing in STEM, we need to attract more people to this growing field. Now, the DOD has recognized the importance to the cybersecurity workforce, and we have implemented policies to encourage its growth. Back in 2013, the Deputy Secretary of Defense signed a DOD Cyberspace Workforce Strategy, to create a comprehensive, well-equipped cyber security team to respond to national security concerns. Now, this strategy also created a program that encourages collaboration between the DOD and private sector employees. We call this the Cyber Information Technology Exchange program, or CITE that it's an exchange program, which is very interesting in which a private sector employee can naturally work for the DOD in a cyber security position that spans across multiple mission critical areas, important to the DOD. A key responsibility of the cyber security community is military leaders, unrelated threats, and the cyber security actions we need to have to defeat these threats. We talked about rapid acquisition, agile business processes and practices to speed up innovation, likewise, cyber security must keep up with this challenge. So cyber security needs to be right there with the challenges and changes, and this requires exceptional personnel. We need to attract talent, invest in the people now to grow a robust cybersecurity workforce for the future. I look forward to the panel discussion, John, thank you. >> Thank you so much, Bob for those comments and, you know, new challenges or new opportunities and new possibilities and freedom to operate in space is critical, thank you for those comments, looking forward to chatting further. Steve Jacques, Executive Director of NSSA, you're up, opening statement. >> Thank you, John and echoing Bongs, thanks to Cal Poly for pulling this important event together and frankly, for allowing the National Security Space Association be a part of it. Likewise, on behalf of the association, I'm delighted and honored to be on this panel of President Armstrong, along with my friend and colleague, Bong Gumahad. Something for you all to know about Bong, he spent the first 20 years of his career in the Air Force doing space programs. He then went into industry for several years and then came back into government to serve, very few people do that. So Bong, on behalf of the space community, we thank you for your lifelong devotion to service to our nation, we really appreciate that. And I also echo a Bong shout out to that guy, Bill Britton. who's been a long time co-conspirator of ours for a long time, and you're doing great work there in the cyber program at Cal Poly, Bill, keep it up. But Professor Armstrong, keep a close eye on him. (laughter) I would like to offer a little extra context to the great comments made by President Armstrong and Bong. And in our view, the timing of this conference really could not be any better. We all recently reflected again on that tragic 9/11 surprise attack on our homeland and it's an appropriate time we think to take pause. While a percentage of you in the audience here weren't even born or were babies then, for the most of us, it still feels like yesterday. And moreover, a tragedy like 9/11 has taught us a lot to include, to be more vigilant, always keep our collective eyes and ears open, to include those "eyes and ears from space," making sure nothing like this ever happens again. So this conference is a key aspect, protecting our nation requires we work in a cyber secure environment at all times. But you know, the fascinating thing about space systems is we can't see 'em. Now sure, we see space launches, man, there's nothing more invigorating than that. But after launch they become invisible, so what are they really doing up there? What are they doing to enable our quality of life in the United States and in the world? Well to illustrate, I'd like to paraphrase elements of an article in Forbes magazine, by Bongs and my good friend, Chuck Beames, Chuck is a space guy, actually had Bongs job a few years in the Pentagon. He's now Chairman and Chief Strategy Officer at York Space Systems and in his spare time, he's Chairman of the Small Satellites. Chuck speaks in words that everyone can understand, so I'd like to give you some of his words out of his article, paraphrase somewhat, so these are Chuck's words. "Let's talk about average Joe and plain Jane. "Before heading to the airport for a business trip "to New York city, Joe checks the weather forecast, "informed by NOAA's weather satellites, "to see what to pack for the trip. "He then calls an Uber, that space app everybody uses, "it matches riders with drivers via GPS, "to take him to the airport. "So Joe has launched in the airport, "unbeknownst to him, his organic lunch is made "with the help of precision farming "made possible to optimize the irrigation and fertilization "with remote spectral sensing coming from space and GPS. "On the plane, the pilot navigates around weather, "aided by GPS and NOAA's weather satellites "and Joe makes his meeting on time "to join his New York colleagues in a video call "with a key customer in Singapore, "made possible by telecommunication satellites. "En route to his next meeting, "Joe receives notice changing the location of the meeting "to the other side of town. "So he calmly tells Siri to adjust the destination "and his satellite-guided Google maps redirect him "to the new location. "That evening, Joe watches the news broadcast via satellite, "report details of meeting among world leaders, "discussing the developing crisis in Syria. "As it turns out various forms of "'remotely sensed information' collected from satellites "indicate that yet another banned chemical weapon "may have been used on its own people. "Before going to bed, Joe decides to call his parents "and congratulate them for their wedding anniversary "as they cruise across the Atlantic, "made possible again by communication satellites "and Joe's parents can enjoy the call "without even wondering how it happened. "The next morning back home, "Joe's wife, Jane is involved in a car accident. "Her vehicle skids off the road, she's knocked unconscious, "but because of her satellite equipped OnStar system, "the crash is detected immediately, "and first responders show up on the scene in time. "Joe receives the news, books an early trip home, "sends flowers to his wife "as he orders another Uber to the airport. "Over that 24 hours, "Joe and Jane used space system applications "for nearly every part of their day. "Imagine the consequences if at any point "they were somehow denied these services, "whether they be by natural causes or a foreign hostility. "In each of these satellite applications used in this case, "were initially developed for military purposes "and continued to be, but also have remarkable application "on our way of life, just many people just don't know that." So ladies and gentlemen, now you know, thanks to Chuck Beames. Well, the United States has a proud heritage of being the world's leading space-faring nation. Dating back to the Eisenhower and Kennedy years, today, we have mature and robust systems operating from space, providing overhead reconnaissance to "watch and listen," provide missile warning, communications, positioning, navigation, and timing from our GPS system, much of which you heard in Lieutenant General JT Thomson's earlier speech. These systems are not only integral to our national security, but also to our quality of life. As Chuck told us, we simply no longer can live without these systems as a nation and for that matter, as a world. But over the years, adversaries like China, Russia and other countries have come to realize the value of space systems and are aggressively playing catch up while also pursuing capabilities that will challenge our systems. As many of you know, in 2007, China demonstrated its ASAT system by actually shooting down one of its own satellites and has been aggressively developing counterspace systems to disrupt ours. So in a heavily congested space environment, our systems are now being contested like never before and will continue to be. Well, as a Bong mentioned, the United States have responded to these changing threats. In addition to adding ways to protect our system, the administration and the Congress recently created the United States Space Force and the operational United States Space Command, the latter of which you heard President Armstrong and other Californians hope is going to be located at Vandenberg Air Force Base. Combined with our intelligence community, today we have focused military and civilian leadership now in space, and that's a very, very good thing. Commensurately on the industry side, we did create the National Security Space Association, devoted solely to supporting the National Security Space Enterprise. We're based here in the DC area, but we have arms and legs across the country and we are loaded with extraordinary talent in scores of former government executives. So NSSA is joined at the hip with our government customers to serve and to support. We're busy with a multitude of activities underway, ranging from a number of thought-provoking policy papers, our recurring spacetime webcasts, supporting Congress's space power caucus, and other main serious efforts. Check us out at nssaspace.org. One of our strategic priorities and central to today's events is to actively promote and nurture the workforce development, just like Cal-Poly. We will work with our U.S. government customers, industry leaders, and academia to attract and recruit students to join the space world, whether in government or industry, and to assist in mentoring and training as their careers progress. On that point, we're delighted to be working with Cal Poly as we hopefully will undertake a new pilot program with them very soon. So students stay tuned, something I can tell you, space is really cool. While our nation's satellite systems are technical and complex, our nation's government and industry workforce is highly diverse, with a combination of engineers, physicists and mathematicians, but also with a large non-technical expertise as well. Think about how government gets these systems designed, manufactured, launching into orbit and operating. They do this via contracts with our aerospace industry, requiring talents across the board, from cost estimating, cost analysis, budgeting, procurement, legal, and many other support tasks that are integral to the mission. Many thousands of people work in the space workforce, tens of billions of dollars every year. This is really cool stuff and no matter what your education background, a great career to be part of. In summary, as Bong had mentioned as well, there's a great deal of exciting challenges ahead. We will see a new renaissance in space in the years ahead and in some cases it's already begun. Billionaires like Jeff Bezos, Elon Musk, Sir Richard Branson, are in the game, stimulating new ideas and business models. Other private investors and startup companies, space companies are now coming in from all angles. The exponential advancement of technology and micro electronics now allows a potential for a plethora of small sat systems to possibly replace older satellites, the size of a Greyhound bus. It's getting better by the day and central to this conference, cybersecurity is paramount to our nation's critical infrastructure in space. So once again, thanks very much and I look forward to the further conversation. >> Steve, thank you very much. Space is cool, it's relevant, but it's important as you pointed out in your awesome story about how it impacts our life every day so I really appreciate that great story I'm glad you took the time to share that. You forgot the part about the drone coming over in the crime scene and, you know, mapping it out for you, but we'll add that to the story later, great stuff. My first question is, let's get into the conversations, because I think this is super important. President Armstrong, I'd like you to talk about some of the points that was teased out by Bong and Steve. One in particular is the comment around how military research was important in developing all these capabilities, which is impacting all of our lives through that story. It was the military research that has enabled a generation and generation of value for consumers. This is kind of this workforce conversation, there are opportunities now with research and grants, and this is a funding of innovation that is highly accelerated, it's happening very quickly. Can you comment on how research and the partnerships to get that funding into the universities is critical? >> Yeah, I really appreciate that and appreciate the comments of my colleagues. And it really boils down to me to partnerships, public-private partnerships, you have mentioned Northrop Grumman, but we have partnerships with Lockheed Martin, Boeing, Raytheon, Space X, JPL, also member of an organization called Business Higher Education Forum, which brings together university presidents and CEOs of companies. There's been focused on cybersecurity and data science and I hope that we can spill into cybersecurity and space. But those partnerships in the past have really brought a lot forward. At Cal Poly, as mentioned, we've been involved with CubeSat, we've have some secure work, and we want to plan to do more of that in the future. Those partnerships are essential, not only for getting the R&D done, but also the students, the faculty, whether they're master's or undergraduate can be involved with that work, they get that real life experience, whether it's on campus or virtually now during COVID or at the location with the partner, whether it may be governmental or industry, and then they're even better equipped to hit the ground running. And of course we'd love to see more of our students graduate with clearance so that they could do some of that secure work as well. So these partnerships are absolutely critical and it's also in the context of trying to bring the best and the brightest in all demographics of California and the U.S. into this field, to really be successful. So these partnerships are essential and our goal is to grow them just like I know our other colleagues in the CSU and the UC are planning to do. >> You know, just as my age I've seen, I grew up in the eighties and in college and they're in that system's generation and the generation before me, they really kind of pioneered the space that spawned the computer revolution. I mean, you look at these key inflection points in our lives, they were really funded through these kinds of real deep research. Bong, talk about that because, you know, we're living in an age of cloud and Bezos was mentioned, Elon Musk, Sir Richard Branson, you got new ideas coming in from the outside, you have an accelerated clock now in terms of the innovation cycles and so you got to react differently, you guys have programs to go outside of the defense department, how important is this because the workforce that are in schools and/or folks re-skilling are out there and you've been on both sides of the table, so share your thoughts. >> No, thanks Johnny, thanks for the opportunity to respond to, and that's what, you know, you hit on the nose back in the 80's, R&D and space especially was dominated by government funding, contracts and so on, but things have changed as Steve pointed out, allow these commercial entities funded by billionaires are coming out of the woodwork, funding R&D so they're taking the lead, so what we can do within the DOD in government is truly take advantage of the work they've done. And since they're, you know, paving the way to new approaches and new way of doing things and I think we can certainly learn from that and leverage off of that, saves us money from an R&D standpoint, while benefiting from the product that they deliver. You know, within DOD, talking about workforce development, you know, we have prioritized and we have policies now to attract and retain the talent we need. I had the folks do some research and it looks like from a cybersecurity or workforce standpoint, a recent study done, I think last year in 2019, found that the cyber security workforce gap in U.S. is nearing half a million people, even though it is a growing industry. So the pipeline needs to be strengthened, getting people through, you know, starting young and through college, like Professor Armstrong indicated because we're going to need them to be in place, you know, in a period of about maybe a decade or so. On top of that, of course, is the continuing issue we have with the gap with STEM students. We can't afford not have expertise in place to support all the things we're doing within DoD, not only DoD but the commercial side as well, thank you. >> How's the gap get filled, I mean, this is, again, you've got cybersecurity, I mean, with space it's a whole other kind of surface area if you will, it's not really surface area, but it is an IOT device if you think about it, but it does have the same challenges, that's kind of current and progressive with cybersecurity. Where's the gap get filled, Steve or President Armstrong, I mean, how do you solve the problem and address this gap in the workforce? What are some solutions and what approaches do we need to put in place? >> Steve, go ahead., I'll follow up. >> Okay, thanks, I'll let you correct me. (laughter) It's a really good question, and the way I would approach it is to focus on it holistically and to acknowledge it upfront and it comes with our teaching, et cetera, across the board. And from an industry perspective, I mean, we see it, we've got to have secure systems in everything we do, and promoting this and getting students at early ages and mentoring them and throwing internships at them is so paramount to the whole cycle. And that's kind of, it really takes a focused attention and we continue to use the word focus from an NSSA perspective. We know the challenges that are out there. There are such talented people in the workforce, on the government side, but not nearly enough of them and likewise on the industry side, we could use more as well, but when you get down to it, you know, we can connect dots, you know, the aspects that Professor Armstrong talked about earlier to where you continue to work partnerships as much as you possibly can. We hope to be a part of that network, that ecosystem if you will, of taking common objectives and working together to kind of make these things happen and to bring the power, not just of one or two companies, but of our entire membership thereabout. >> President Armstrong-- >> Yeah, I would also add it again, it's back to the partnerships that I talked about earlier, one of our partners is high schools and schools Fortune, Margaret Fortune, who worked in a couple of administrations in California across party lines and education, their fifth graders all visit Cal Poly, and visit our learned-by-doing lab. And you've got to get students interested in STEM at an early age. We also need the partnerships, the scholarships, the financial aid, so the students can graduate with minimal to no debt to really hit the ground running and that's exacerbated and really stress now with this COVID induced recession. California supports higher education at a higher rate than most states in the nation, but that has brought this year for reasons all understand due to COVID. And so our partnerships, our creativity, and making sure that we help those that need the most help financially, that's really key because the gaps are huge. As my colleagues indicated, you know, half a million jobs and I need you to look at the students that are in the pipeline, we've got to enhance that. And the placement rates are amazing once the students get to a place like Cal Poly or some of our other amazing CSU and UC campuses, placement rates are like 94%. Many of our engineers, they have jobs lined up a year before they graduate. So it's just going to take a key partnerships working together and that continued partnership with government local, of course, our state, the CSU, and partners like we have here today, both Steve and Bong so partnerships is the thing. >> You know, that's a great point-- >> I could add, >> Okay go ahead. >> All right, you know, the collaboration with universities is one that we put on lot of emphasis here, and it may not be well known fact, but just an example of national security, the AUC is a national centers of academic excellence in cyber defense works with over 270 colleges and universities across the United States to educate and certify future cyber first responders as an example. So that's vibrant and healthy and something that we ought to take advantage of. >> Well, I got the brain trust here on this topic. I want to get your thoughts on this one point, 'cause I'd like to define, you know, what is a public-private partnership because the theme that's coming out of the symposium is the script has been flipped, it's a modern era, things are accelerated, you've got security, so you've got all of these things kind of happenning it's a modern approach and you're seeing a digital transformation play out all over the world in business and in the public sector. So what is a modern public-private partnership and what does it look like today because people are learning differently. COVID has pointed out, which is that we're seeing right now, how people, the progressions of knowledge and learning, truth, it's all changing. How do you guys view the modern version of public-private partnership and some examples and some proof points, can you guys share that? We'll start with you, Professor Armstrong. >> Yeah, as I indicated earlier, we've had, and I could give other examples, but Northrop Grumman, they helped us with a cyber lab many years ago that is maintained directly, the software, the connection outside it's its own unit so the students can learn to hack, they can learn to penetrate defenses and I know that that has already had some considerations of space, but that's a benefit to both parties. So a good public-private partnership has benefits to both entities and the common factor for universities with a lot of these partnerships is the talent. The talent that is needed, what we've been working on for years of, you know, the undergraduate or master's or PhD programs, but now it's also spilling into upskilling and reskilling, as jobs, you know, folks who are in jobs today that didn't exist two years, three years, five years ago, but it also spills into other aspects that can expand even more. We're very fortunate we have land, there's opportunities, we have ONE Tech project. We are expanding our tech park, I think we'll see opportunities for that and it'll be adjusted due to the virtual world that we're all learning more and more about it, which we were in before COVID. But I also think that that person to person is going to be important, I want to make sure that I'm driving across a bridge or that satellite's being launched by the engineer that's had at least some in person training to do that in that experience, especially as a first time freshman coming on campus, getting that experience, expanding it as an adult, and we're going to need those public-private partnerships in order to continue to fund those at a level that is at the excellence we need for these STEM and engineering fields. >> It's interesting people and technology can work together and these partnerships are the new way. Bongs too with reaction to the modern version of what a public successful private partnership looks like. >> If I could jump in John, I think, you know, historically DOD's had a high bar to overcome if you will, in terms of getting rapid... pulling in new companies, miss the fall if you will, and not rely heavily on the usual suspects, of vendors and the like, and I think the DOD has done a good job over the last couple of years of trying to reduce that burden and working with us, you know, the Air Force, I think they're pioneering this idea around pitch days, where companies come in, do a two-hour pitch and immediately notified of, you know, of an a award, without having to wait a long time to get feedback on the quality of the product and so on. So I think we're trying to do our best to strengthen that partnership with companies outside of the main group of people that we typically use. >> Steve, any reaction, any comment to add? >> Yeah, I would add a couple and these are very excellent thoughts. It's about taking a little gamble by coming out of your comfort zone, you know, the world that Bong and I, Bong lives in and I used to live in the past, has been quite structured. It's really about, we know what the threat is, we need to go fix it, we'll design as if as we go make it happen, we'll fly it. Life is so much more complicated than that and so it's really, to me, I mean, you take an example of the pitch days of Bong talks about, I think taking a gamble by attempting to just do a lot of pilot programs, work the trust factor between government folks and the industry folks and academia, because we are all in this together in a lot of ways. For example, I mean, we just sent a paper to the white house at their request about, you know, what would we do from a workforce development perspective and we hope to embellish on this over time once the initiative matures, but we have a piece of it for example, is a thing we call "clear for success," getting back to president Armstrong's comments so at a collegiate level, you know, high, high, high quality folks are in high demand. So why don't we put together a program that grabs kids in their underclass years, identifies folks that are interested in doing something like this, get them scholarships, have a job waiting for them that they're contracted for before they graduate, and when they graduate, they walk with an SCI clearance. We believe that can be done, so that's an example of ways in which public-private partnerships can happen to where you now have a talented kid ready to go on day one. We think those kinds of things can happen, it just gets back down to being focused on specific initiatives, giving them a chance and run as many pilot programs as you can, like pitch days. >> That's a great point, it's a good segue. Go ahead, President Armstrong. >> I just want to jump in and echo both the Bong and Steve's comments, but Steve that, you know, your point of, you know our graduates, we consider them ready day one, well they need to be ready day one and ready to go secure. We totally support that and love to follow up offline with you on that. That's exciting and needed, very much needed more of it, some of it's happening, but we certainly have been thinking a lot about that and making some plans. >> And that's a great example, a good segue. My next question is kind of re-imagining these workflows is kind of breaking down the old way and bringing in kind of the new way, accelerate all kinds of new things. There are creative ways to address this workforce issue and this is the next topic, how can we employ new creative solutions because let's face it, you know, it's not the days of get your engineering degree and go interview for a job and then get slotted in and get the intern, you know, the programs and you'd matriculate through the system. This is multiple disciplines, cybersecurity points at that. You could be smart in math and have a degree in anthropology and be one of the best cyber talents on the planet. So this is a new, new world, what are some creative approaches that's going to work for you? >> Alright, good job, one of the things, I think that's a challenge to us is, you know, somehow we got me working for, with the government, sexy right? You know, part of the challenge we have is attracting the right level of skill sets and personnel but, you know, we're competing, oftentimes, with the commercial side, the gaming industry as examples is a big deal. And those are the same talents we need to support a lot of the programs that we have in DOD. So somehow we have do a better job to Steve's point about making the work within DOD, within the government, something that they would be interested early on. So attract them early, you know, I could not talk about Cal Poly's challenge program that they were going to have in June inviting high school kids really excited about the whole idea of space and cyber security and so on. Those are some of the things that I think we have to do and continue to do over the course of the next several years. >> Awesome, any other creative approaches that you guys see working or might be an idea, or just to kind of stoke the ideation out there? Internships, obviously internships are known, but like, there's got to be new ways. >> Alright, I think you can take what Steve was talking about earlier, getting students in high school and aligning them sometimes at first internship, not just between the freshman and sophomore year, but before they enter Cal Poly per se and they're involved. So I think that's absolutely key, getting them involved in many other ways. We have an example of upskilling or work redevelopment here in the central coast, PG&E Diablo nuclear plant that is going to decommission in around 2024. And so we have a ongoing partnership to work and reposition those employees for the future. So that's, you know, engineering and beyond but think about that just in the manner that you were talking about. So the upskilling and reskilling, and I think that's where, you know, we were talking about that Purdue University, other California universities have been dealing with online programs before COVID, and now with COVID so many more Faculty were pushed into that area, there's going to be a much more going and talk about workforce development in upskilling and reskilling, the amount of training and education of our faculty across the country in virtual and delivery has been huge. So there's always a silver linings in the cloud. >> I want to get your guys' thoughts on one final question as we end the segment, and we've seen on the commercial side with cloud computing on these highly accelerated environments where, you know, SAS business model subscription, and that's on the business side, but one of the things that's clear in this trend is technology and people work together and technology augments the people components. So I'd love to get your thoughts as we look at a world now, we're living in COVID, and Cal Poly, you guys have remote learning right now, it's at the infancy, it's a whole new disruption, if you will, but also an opportunity enable new ways to encollaborate, So if you look at people and technology, can you guys share your view and vision on how communities can be developed, how these digital technologies and people can work together faster to get to the truth or make a discovery, hire, develop the workforce, these are opportunities, how do you guys view this new digital transformation? >> Well, I think there's huge opportunities and just what we're doing with this symposium, we're filming this on Monday and it's going to stream live and then the three of us, the four of us can participate and chat with participants while it's going on. That's amazing and I appreciate you, John, you bringing that to this symposium. I think there's more and more that we can do. From a Cal Poly perspective, with our pedagogy so, you know, linked to learn by doing in-person will always be important to us, but we see virtual, we see partnerships like this, can expand and enhance our ability and minimize the in-person time, decrease the time to degree, enhance graduation rate, eliminate opportunity gaps for students that don't have the same advantages. So I think the technological aspect of this is tremendous. Then on the upskilling and reskilling, where employees are all over, they can re be reached virtually, and then maybe they come to a location or really advanced technology allows them to get hands on virtually, or they come to that location and get it in a hybrid format. So I'm very excited about the future and what we can do, and it's going to be different with every university, with every partnership. It's one size does not fit all, There's so many possibilities, Bong, I can almost imagine that social network that has a verified, you know, secure clearance. I can jump in, and have a little cloak of secrecy and collaborate with the DOD possibly in the future. But these are the kind of crazy ideas that are needed, your thoughts on this whole digital transformation cross-pollination. >> I think technology is going to be revolutionary here, John, you know, we're focusing lately on what we call visual engineering to quicken the pace of the delivery capability to warfighter as an example, I think AI, Machine Language, all that's going to have a major play in how we operate in the future. We're embracing 5G technologies, and the ability for zero latency, more IOT, more automation of the supply chain, that sort of thing, I think the future ahead of us is very encouraging, I think it's going to do a lot for national defense, and certainly the security of the country. >> Steve, your final thoughts, space systems are systems, and they're connected to other systems that are connected to people, your thoughts on this digital transformation opportunity. >> Such a great question and such a fun, great challenge ahead of us. Echoing my colleagues sentiments, I would add to it, you know, a lot of this has, I think we should do some focusing on campaigning so that people can feel comfortable to include the Congress to do things a little bit differently. You know, we're not attuned to doing things fast, but the dramatic, you know, the way technology is just going like crazy right now, I think it ties back to, hoping to convince some of our senior leaders and what I call both sides of the Potomac river, that it's worth taking this gamble, we do need to take some of these things you know, in a very proactive way. And I'm very confident and excited and comfortable that this is going to be a great time ahead and all for the better. >> You know, I always think of myself when I talk about DC 'cause I'm not a lawyer and I'm not a political person, but I always say less lawyers, more techies than in Congress and Senate, so (laughter)I always get in trouble when I say that. Sorry, President Armstrong, go ahead. >> Yeah, no, just one other point and Steve's alluded to this and Bong did as well, I mean, we've got to be less risk averse in these partnerships, that doesn't mean reckless, but we have to be less risk averse. And also, as you talk about technology, I have to reflect on something that happened and you both talked a bit about Bill Britton and his impact on Cal Poly and what we're doing. But we were faced a few years ago of replacing traditional data, a data warehouse, data storage, data center and we partnered with AWS and thank goodness, we had that in progress and it enhanced our bandwidth on our campus before COVID hit, and with this partnership with the digital transformation hub, so there's a great example where we had that going. That's not something we could have started, "Oh COVID hit, let's flip that switch." And so we have to be proactive and we also have to not be risk-averse and do some things differently. That has really salvaged the experience for our students right now, as things are flowing well. We only have about 12% of our courses in person, those essential courses and I'm just grateful for those partnerships that I have talked about today. >> And it's a shining example of how being agile, continuous operations, these are themes that expand the space and the next workforce needs to be built. Gentlemen, thank you very much for sharing your insights, I know Bong, you're going to go into the defense side of space in your other sessions. Thank you gentlemen, for your time, for a great session, I appreciate it. >> Thank you. >> Thank you gentlemen. >> Thank you. >> Thank you. >> Thank you, thank you all. I'm John Furey with The Cube here in Palo Alto, California covering and hosting with Cal Poly, the Space and Cybersecurity Symposium 2020, thanks for watching. (bright atmospheric music)

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