1 00:00:00,240 --> 00:00:02,559 Speaker 1: A new player has entered the game, and it's called 2 00:00:02,600 --> 00:00:06,760 Speaker 1: the Willow Quantum chip. It's Google's latest breakthrough in computing power. 3 00:00:06,920 --> 00:00:10,280 Speaker 1: Now the internet is a blaze with one question. Could 4 00:00:10,280 --> 00:00:14,600 Speaker 1: this quantum machine destroy bitcoin? And why stop there? What 5 00:00:14,680 --> 00:00:19,600 Speaker 1: about higher value targets, central banks, Department of Defense, corporations 6 00:00:19,720 --> 00:00:23,360 Speaker 1: or more. Well, the headlines are terrifying, the debates online 7 00:00:23,360 --> 00:00:25,640 Speaker 1: are pretty heated. In the stakes well, of course they're 8 00:00:25,680 --> 00:00:28,120 Speaker 1: higher than ever. But what if I told you the 9 00:00:28,120 --> 00:00:31,200 Speaker 1: truth is actually far more fascinating. In this video, I'm 10 00:00:31,200 --> 00:00:34,120 Speaker 1: going to break down what Google Willow chip really is. 11 00:00:34,200 --> 00:00:36,640 Speaker 1: We'll talk about the potential risks that opposes to bitcoin. 12 00:00:36,760 --> 00:00:39,400 Speaker 1: If you're holding bitcoin, should you be worried? And we're 13 00:00:39,400 --> 00:00:42,919 Speaker 1: going to look at other infrastructure that's at risk as well. Now, 14 00:00:42,920 --> 00:00:44,680 Speaker 1: real quick, my name is Mark Boss. I've been making 15 00:00:44,680 --> 00:00:47,800 Speaker 1: bitcoin content for over eight years. I'm a bitcoin focused 16 00:00:47,880 --> 00:00:50,479 Speaker 1: venture capital investor, and in this video I'm going to 17 00:00:50,520 --> 00:00:52,760 Speaker 1: share some of the same insights that I've learned and 18 00:00:52,800 --> 00:00:57,720 Speaker 1: we use every single day. So let's go all right now, 19 00:00:57,760 --> 00:01:01,200 Speaker 1: I've been making content specifically for bitcoin for now over 20 00:01:01,280 --> 00:01:04,480 Speaker 1: eight years. And if I had just one dollar for 21 00:01:04,600 --> 00:01:07,800 Speaker 1: every single time somebody told me, yeah, but quantum computing 22 00:01:07,880 --> 00:01:10,440 Speaker 1: is going to destroy the whole thing. Well, I'd probably 23 00:01:10,480 --> 00:01:13,040 Speaker 1: have well enough to buy one whole bitcoin. I've been 24 00:01:13,080 --> 00:01:15,000 Speaker 1: asked that question a lot, and I would typically answer 25 00:01:15,080 --> 00:01:18,000 Speaker 1: something like, yeah, well what about aliens? They could come 26 00:01:18,040 --> 00:01:19,920 Speaker 1: destroy the world tomorrow too, if you want to deal 27 00:01:19,920 --> 00:01:23,319 Speaker 1: with hypotheticals, because there is no quantum computing, right, that's 28 00:01:23,400 --> 00:01:27,559 Speaker 1: my typical answer. But the ANSWER's changed because now quantum 29 00:01:27,600 --> 00:01:30,679 Speaker 1: computing is here. So now rather than having to answer, 30 00:01:31,000 --> 00:01:34,440 Speaker 1: you know, answer some hypothetical in the future, maybe threat 31 00:01:34,480 --> 00:01:36,880 Speaker 1: like an astroid destroying the earth, now we have a 32 00:01:36,920 --> 00:01:39,520 Speaker 1: real thing. So let's talk about that for a minute, 33 00:01:39,520 --> 00:01:41,640 Speaker 1: because now let me answer this question for once and all, 34 00:01:41,680 --> 00:01:43,160 Speaker 1: and then when people ask me all this said, then 35 00:01:43,200 --> 00:01:48,080 Speaker 1: the video. Okay, so introducing Google's new Willow chip. Like 36 00:01:48,120 --> 00:01:51,640 Speaker 1: I said, the first real quantum computing that we've had, 37 00:01:52,000 --> 00:01:55,440 Speaker 1: the first real threat we have to break encryption, including 38 00:01:55,560 --> 00:01:58,560 Speaker 1: the potentially Bitcoin's encryption. Okay, So, first of all, they've 39 00:01:58,560 --> 00:02:00,480 Speaker 1: been working on this in a long time. Mule has 40 00:02:00,520 --> 00:02:04,200 Speaker 1: basically cracked a thirty year challenge. They've been working on 41 00:02:04,240 --> 00:02:07,280 Speaker 1: this for a really long time. Now, what quantum computing 42 00:02:07,320 --> 00:02:10,280 Speaker 1: does is it allows computers to be way more powerful 43 00:02:10,400 --> 00:02:13,400 Speaker 1: and allows them to process way more transaction. So if 44 00:02:13,440 --> 00:02:16,480 Speaker 1: a computer is trying to guess a password, for example, 45 00:02:16,840 --> 00:02:19,600 Speaker 1: like your typical twelve character password that might have one 46 00:02:19,639 --> 00:02:22,800 Speaker 1: capital letter and one character, it could take a regular computer, right, 47 00:02:22,800 --> 00:02:25,640 Speaker 1: don't on something like thirty five thousand years, but a 48 00:02:25,760 --> 00:02:28,880 Speaker 1: quantum computer, because it could try so much faster, could 49 00:02:28,880 --> 00:02:31,760 Speaker 1: break it in minutes potentially. Okay, So they've been working 50 00:02:31,800 --> 00:02:34,480 Speaker 1: on this for over thirty years now. What they've been 51 00:02:34,480 --> 00:02:37,040 Speaker 1: able to do, the breakthrough that they've had is as 52 00:02:37,080 --> 00:02:40,959 Speaker 1: this quantum computer is processing transactions, it's able to reduce 53 00:02:41,040 --> 00:02:43,880 Speaker 1: the errors, and because of that, they're able to scale 54 00:02:44,120 --> 00:02:46,440 Speaker 1: these cubits. Okay, so this is sort of how they 55 00:02:46,560 --> 00:02:50,320 Speaker 1: measure the speed and the processing power of these quantum computers. 56 00:02:50,400 --> 00:02:53,000 Speaker 1: So this quantum computer is so fast it could crack 57 00:02:53,040 --> 00:02:55,720 Speaker 1: a code in about five minutes that would take a 58 00:02:55,800 --> 00:03:00,720 Speaker 1: regular computer ten septillion years. I don't even know what 59 00:03:00,760 --> 00:03:03,760 Speaker 1: that is. Ten sip tillion years, which is ten to 60 00:03:03,919 --> 00:03:08,280 Speaker 1: twenty fifth power or basically looks like this that many 61 00:03:08,360 --> 00:03:10,480 Speaker 1: zeros haven't added them up. It's a really long time, 62 00:03:10,480 --> 00:03:14,359 Speaker 1: ten million years. So this is a really fast innovation 63 00:03:14,440 --> 00:03:16,840 Speaker 1: that Google's been able to do. Okay, so the question 64 00:03:16,960 --> 00:03:19,680 Speaker 1: is then what will they do with this new power, 65 00:03:19,919 --> 00:03:21,840 Speaker 1: and is it a threat to bitcoin and is it 66 00:03:21,840 --> 00:03:24,640 Speaker 1: a threat to encryption overall. Let's break that down. So 67 00:03:24,680 --> 00:03:27,160 Speaker 1: the first thing is we have to understand that bitcoin 68 00:03:27,280 --> 00:03:31,120 Speaker 1: represents an entire shift in the way technology is built. 69 00:03:31,160 --> 00:03:32,639 Speaker 1: You can be talk about this regularly if you watch 70 00:03:32,639 --> 00:03:36,600 Speaker 1: my videos talking about the decentralized revolution. So what we 71 00:03:36,680 --> 00:03:40,480 Speaker 1: have is that basically all of our databases experience Amazon, 72 00:03:40,600 --> 00:03:43,920 Speaker 1: your bank, the central bank, cent they're all centralized databases. 73 00:03:44,040 --> 00:03:47,040 Speaker 1: All the data sits in one central database and it's controlled, 74 00:03:47,080 --> 00:03:50,400 Speaker 1: it's protected by the cybersecurity team. Versus Bitcoin has now 75 00:03:50,400 --> 00:03:54,280 Speaker 1: introduced a decentralized database. And so really what we're witnessing 76 00:03:54,360 --> 00:03:59,440 Speaker 1: is centralization versus decentralization. Now, besides the main aspect of 77 00:03:59,480 --> 00:04:03,800 Speaker 1: one database versus many databases, we have different types of encryption. 78 00:04:04,080 --> 00:04:07,160 Speaker 1: But let me just break down the centralized versus decentralized. 79 00:04:07,280 --> 00:04:09,720 Speaker 1: So this is what's going on. The Internet actually started 80 00:04:09,760 --> 00:04:13,560 Speaker 1: as a very decentralized ecosystem. As a matter of fact, 81 00:04:13,560 --> 00:04:16,120 Speaker 1: when I launched my first internet business back in nineteen 82 00:04:16,200 --> 00:04:18,640 Speaker 1: ninety nine, I had to have a server in my 83 00:04:18,800 --> 00:04:23,320 Speaker 1: office with my own servers with raid hot, swappable hard drives, 84 00:04:23,320 --> 00:04:26,400 Speaker 1: et cetera. Because there was no Amazon Cloud, there was 85 00:04:26,440 --> 00:04:28,120 Speaker 1: nothing like that, so I had to run my own server. 86 00:04:28,240 --> 00:04:31,120 Speaker 1: So at that time, the Internet was very decentralized. Everybody 87 00:04:31,240 --> 00:04:34,680 Speaker 1: ran their own database right and uploaded directly to the cloud. 88 00:04:34,800 --> 00:04:37,440 Speaker 1: But since then, what's happened as the Internet got very centralized. 89 00:04:37,520 --> 00:04:39,720 Speaker 1: So now you log in with your Facebook ID or 90 00:04:39,760 --> 00:04:43,279 Speaker 1: your Google ID. Everything sits on the Amazon Cloud. Everything 91 00:04:43,360 --> 00:04:45,559 Speaker 1: runs through our Gmail or Google right, and so everything 92 00:04:45,560 --> 00:04:48,440 Speaker 1: got centralized. The problem with centralized systems is we see 93 00:04:48,480 --> 00:04:54,680 Speaker 1: how they're prone to fraud, manipulation, also break ins. We'll 94 00:04:54,680 --> 00:04:56,480 Speaker 1: talk about that in a minute. Now, what we can 95 00:04:56,520 --> 00:04:59,120 Speaker 1: see is where we're at as centralized systems are now 96 00:04:59,160 --> 00:05:01,000 Speaker 1: starting to go down for many reasons I'm going to 97 00:05:01,040 --> 00:05:03,120 Speaker 1: break down for you, and we're starting to see the 98 00:05:03,240 --> 00:05:06,039 Speaker 1: rise now of decentralized systems. And so it's going to 99 00:05:06,040 --> 00:05:08,279 Speaker 1: be a massive paradigm shift that will happen over the 100 00:05:08,279 --> 00:05:11,360 Speaker 1: next twenty five thirty years. I talk about this quite often, 101 00:05:11,600 --> 00:05:14,200 Speaker 1: but to break this down again, centralized versus de centralized again, 102 00:05:14,240 --> 00:05:17,360 Speaker 1: So you have one database, your bank, Amazon experience, et cetera. 103 00:05:17,800 --> 00:05:19,320 Speaker 1: And think of it like this, Like if you had 104 00:05:19,440 --> 00:05:22,320 Speaker 1: one billion dollars in one bank, that's a really big target. 105 00:05:22,480 --> 00:05:25,159 Speaker 1: There's a lot of people that would potentially break into 106 00:05:25,200 --> 00:05:27,520 Speaker 1: that bank try to crack the code of that bank 107 00:05:27,560 --> 00:05:29,960 Speaker 1: to get that billion dollars. But if I had a 108 00:05:30,000 --> 00:05:34,400 Speaker 1: billion banks with one dollar each, what's the point. It's 109 00:05:34,480 --> 00:05:36,440 Speaker 1: way too much work for me to go to each 110 00:05:36,480 --> 00:05:38,440 Speaker 1: bank one by one and one and break into them 111 00:05:38,680 --> 00:05:40,640 Speaker 1: to get one dollar at a time. A billion times 112 00:05:40,680 --> 00:05:43,040 Speaker 1: that wouldn't do it. And that's the difference of centralized 113 00:05:43,200 --> 00:05:47,000 Speaker 1: versus decentralized systems now in bitcoins specifically, that's dig into this. 114 00:05:47,040 --> 00:05:50,680 Speaker 1: There's different types of encryption. So when you think of experience, 115 00:05:50,680 --> 00:05:51,960 Speaker 1: and I'm going to talk about all some of the 116 00:05:51,960 --> 00:05:54,680 Speaker 1: biggest breaks and as a matter of fact, the biggest database, 117 00:05:54,720 --> 00:05:57,080 Speaker 1: most secure database in the world, was hacked. I'm going 118 00:05:57,120 --> 00:05:58,719 Speaker 1: to tell you what that was in a second. We 119 00:05:58,760 --> 00:06:01,360 Speaker 1: have to understand that all of the so centralized systems 120 00:06:01,600 --> 00:06:04,440 Speaker 1: run a different type of encryption than bitcoin. So first'll 121 00:06:04,440 --> 00:06:06,000 Speaker 1: talk about bitcoin, then we'll get to the rest. So 122 00:06:06,040 --> 00:06:09,120 Speaker 1: a couple ways to think about this encryption. So database encryption, 123 00:06:09,200 --> 00:06:15,000 Speaker 1: your typical database uses symmetric encryption algorithms like AES for example, 124 00:06:15,200 --> 00:06:19,960 Speaker 1: advanced encryption standards. Now Bitcoin uses different encryption as a 125 00:06:19,960 --> 00:06:22,160 Speaker 1: matter of fact that it uses two different types of encryption, 126 00:06:22,520 --> 00:06:26,479 Speaker 1: and this primarily uses asymmetric cryptography. All right, So there's 127 00:06:26,560 --> 00:06:30,240 Speaker 1: elliptical curve and there's Shaw two fifty six. Let me 128 00:06:30,279 --> 00:06:32,160 Speaker 1: break those down for you, just so you can understand. 129 00:06:32,279 --> 00:06:34,279 Speaker 1: I'm not going to go super deep into the weeds here. 130 00:06:34,400 --> 00:06:36,280 Speaker 1: I want to give you the base information so you 131 00:06:36,320 --> 00:06:38,200 Speaker 1: can understand this and at least sound intelligent if you 132 00:06:38,200 --> 00:06:40,360 Speaker 1: want to have a conversation, and if you want go 133 00:06:40,440 --> 00:06:42,919 Speaker 1: research this. If you're a computer nerd, you can go 134 00:06:42,960 --> 00:06:44,799 Speaker 1: research this a little bit more. Okay, So the first 135 00:06:44,800 --> 00:06:48,680 Speaker 1: thing is there's there's different parts of the Bitcoin network itself. 136 00:06:48,720 --> 00:06:51,040 Speaker 1: There's Bitcoin the network, and there's Bitcoin the asset that 137 00:06:51,160 --> 00:06:54,800 Speaker 1: moves on the network. And the Bitcoin network itself uses 138 00:06:55,040 --> 00:06:59,800 Speaker 1: mining computers to process transactions. This is hashing, right, and 139 00:07:00,040 --> 00:07:03,280 Speaker 1: then there's the transactions themselves, more of the nodes. We'll 140 00:07:03,279 --> 00:07:04,800 Speaker 1: talk about that in a second. So the first is 141 00:07:04,839 --> 00:07:07,520 Speaker 1: we have Bitcoin protocol and it uses the Shaw two 142 00:07:07,560 --> 00:07:09,720 Speaker 1: fifty six. You might have heard of this before. This 143 00:07:09,840 --> 00:07:13,680 Speaker 1: is for all hashing operations. So for the bitcoin mining, 144 00:07:13,720 --> 00:07:18,040 Speaker 1: the processing computers to process the transactions, they mark them 145 00:07:18,040 --> 00:07:21,080 Speaker 1: as a hash that's now saved in time in this 146 00:07:21,240 --> 00:07:23,480 Speaker 1: block for everyone to see. All right. This is what 147 00:07:23,520 --> 00:07:26,000 Speaker 1: we call proof of work, a proof of work mechanism. 148 00:07:26,280 --> 00:07:29,320 Speaker 1: In order for a miner to submit a block to 149 00:07:29,400 --> 00:07:32,040 Speaker 1: the network, the hash of the block must be below 150 00:07:32,200 --> 00:07:34,320 Speaker 1: a certain threshold. So it's basically trying to figure out 151 00:07:34,360 --> 00:07:36,960 Speaker 1: this code and if it gets that, then it will 152 00:07:36,960 --> 00:07:39,520 Speaker 1: put that hash into the blockchain. All right. So for 153 00:07:39,600 --> 00:07:42,960 Speaker 1: that we're using Shaw two fifty six encryption, all right. 154 00:07:43,000 --> 00:07:45,280 Speaker 1: But we have another type of encryption as well, and 155 00:07:45,320 --> 00:07:48,640 Speaker 1: this is for the signatory part. Okay, so for digital 156 00:07:48,720 --> 00:07:51,680 Speaker 1: signatures and for bitcoin we use something else, and this 157 00:07:51,720 --> 00:07:57,120 Speaker 1: is called a ec DSA, which is an elliptical curve cryptography. 158 00:07:57,200 --> 00:07:58,960 Speaker 1: Let me, let me give you an analogy that maybe 159 00:07:58,960 --> 00:08:02,280 Speaker 1: this will make sense for you. So with bitcoin and cryptocurrency, 160 00:08:02,400 --> 00:08:05,000 Speaker 1: you never actually like download a coin. What you think 161 00:08:05,040 --> 00:08:07,480 Speaker 1: of is like think of the blockchain, which is a database. 162 00:08:07,720 --> 00:08:10,840 Speaker 1: Think of a blockchain database as like a digital locker system. Okay, 163 00:08:11,120 --> 00:08:14,160 Speaker 1: and so like you have a public address of your locker, 164 00:08:14,200 --> 00:08:16,320 Speaker 1: say C nineteen and I could say, hey, would you 165 00:08:16,360 --> 00:08:18,440 Speaker 1: go to my locker and you know, slide that envelope 166 00:08:18,480 --> 00:08:20,040 Speaker 1: into my locker for me. So I've given you my 167 00:08:20,160 --> 00:08:22,920 Speaker 1: public address of the locker CE nineteen. You can go 168 00:08:23,000 --> 00:08:26,000 Speaker 1: and put something into the locker. Everybody can see the locker. 169 00:08:26,040 --> 00:08:29,360 Speaker 1: Everybody knows they're C nineteen right there. But then I 170 00:08:29,360 --> 00:08:31,520 Speaker 1: have a private key where I could open the locker 171 00:08:31,760 --> 00:08:33,640 Speaker 1: and get that envelope out and I can put into 172 00:08:33,640 --> 00:08:36,560 Speaker 1: another one. And that's basically the way the blockchain database 173 00:08:36,600 --> 00:08:38,960 Speaker 1: works as well. So we have a public address that 174 00:08:39,000 --> 00:08:41,960 Speaker 1: everybody can see, and we can hash into those and 175 00:08:42,000 --> 00:08:45,079 Speaker 1: people can see transactions from them. It's open, it's transparent. 176 00:08:45,400 --> 00:08:48,680 Speaker 1: But then I have the private key to then move 177 00:08:48,720 --> 00:08:52,040 Speaker 1: bitcoin from one wallet address to another wallet address, and 178 00:08:52,080 --> 00:08:53,480 Speaker 1: so that's what we're talking about. So in order to 179 00:08:53,760 --> 00:08:55,800 Speaker 1: move that bitcoin, I have to sign it. I have 180 00:08:55,840 --> 00:08:58,520 Speaker 1: to give it my digital signature, and we're using a 181 00:08:58,520 --> 00:09:03,240 Speaker 1: signature algorithm elliptical curve, and this allows a private key 182 00:09:03,640 --> 00:09:06,920 Speaker 1: to sign any type of message. Digital signatures are frequently 183 00:09:07,000 --> 00:09:10,320 Speaker 1: used to sign transactions and to send the bitcoin. Okay, 184 00:09:10,480 --> 00:09:12,520 Speaker 1: So that's how it works. Now, the signature is published 185 00:09:12,760 --> 00:09:15,600 Speaker 1: to the blockchain, so that any member of the Bitcoin 186 00:09:15,679 --> 00:09:19,560 Speaker 1: network can verify it's transparent, so anyone can see this. 187 00:09:19,600 --> 00:09:23,760 Speaker 1: We say, don't trust verify. Any member can verify that 188 00:09:23,840 --> 00:09:27,880 Speaker 1: the signature, the public key, and the message match. So 189 00:09:27,960 --> 00:09:31,760 Speaker 1: now we can achieve consensus. The whole network can agree 190 00:09:31,880 --> 00:09:35,360 Speaker 1: that this happened because it's visible. Bitcoin is purely peer 191 00:09:35,400 --> 00:09:38,800 Speaker 1: to peer, so it's moving from one wallet address to another, 192 00:09:38,880 --> 00:09:41,679 Speaker 1: from my wallet to your wallet directly without going through 193 00:09:41,679 --> 00:09:46,560 Speaker 1: an intermediary. Although miners process each transaction, they're unable to 194 00:09:46,679 --> 00:09:50,959 Speaker 1: produce the valid signature for other people's bitcoins. So the 195 00:09:51,000 --> 00:09:53,640 Speaker 1: miners are able to put the hash in the blockchain, 196 00:09:53,880 --> 00:09:56,440 Speaker 1: but then you, with your private key, can sign that 197 00:09:56,480 --> 00:09:58,960 Speaker 1: transaction to complete it. So those are the two different 198 00:09:59,000 --> 00:10:03,320 Speaker 1: types of an decryption, and they are very difficult to correct. 199 00:10:03,400 --> 00:10:05,840 Speaker 1: Let me give you a visual way this works. So 200 00:10:06,160 --> 00:10:09,160 Speaker 1: this is private knowledge right here, says the private key. 201 00:10:09,480 --> 00:10:11,880 Speaker 1: Only I would have the key to open my locker 202 00:10:12,000 --> 00:10:14,720 Speaker 1: CE nineteen and the message. But this is all what's 203 00:10:14,760 --> 00:10:18,520 Speaker 1: public knowledge. So the public key, that's C nineteen. Everybody 204 00:10:18,559 --> 00:10:22,439 Speaker 1: knows the locker address, the address of that blockchain address. 205 00:10:22,840 --> 00:10:25,640 Speaker 1: We have the signature, everybody would know that I signed it, 206 00:10:26,160 --> 00:10:28,360 Speaker 1: and we would see the message hash going into the 207 00:10:28,400 --> 00:10:32,920 Speaker 1: signature verification, so everybody can verify all of this. But 208 00:10:33,000 --> 00:10:36,319 Speaker 1: again I only have my private key. Sorry, if this 209 00:10:36,360 --> 00:10:39,000 Speaker 1: is elementary for some of you, and maybe this is 210 00:10:39,080 --> 00:10:40,199 Speaker 1: over your head for some of the other of you. 211 00:10:40,480 --> 00:10:42,520 Speaker 1: If you're more interested in this, again, there's a ton 212 00:10:42,559 --> 00:10:45,320 Speaker 1: of resources. Just go google it. You can find that. Okay. 213 00:10:45,360 --> 00:10:47,480 Speaker 1: So to understand if this quantum computing is really a 214 00:10:47,520 --> 00:10:50,160 Speaker 1: threat to bitcoin, we want to go back in time 215 00:10:50,200 --> 00:10:52,000 Speaker 1: a little bit. So we can go back to when 216 00:10:52,080 --> 00:10:55,640 Speaker 1: bitcoin originated, back in like two thousand and nine, when 217 00:10:55,679 --> 00:10:58,880 Speaker 1: on the message boards we had Satoshi interacting with other developers, 218 00:10:59,160 --> 00:11:03,000 Speaker 1: and in those early messages we can see that Satoshi 219 00:11:03,200 --> 00:11:07,800 Speaker 1: actually envisioned something like this happening and being becoming a problem. 220 00:11:07,960 --> 00:11:10,040 Speaker 1: So we can see here on the message board Satoshi 221 00:11:10,080 --> 00:11:14,160 Speaker 1: a founding senior member. This message is June fourteenth of 222 00:11:14,280 --> 00:11:17,760 Speaker 1: twenty ten. So at that time, when Bitcoin was just 223 00:11:17,880 --> 00:11:20,880 Speaker 1: coming out being introduced, they already were asking but what 224 00:11:20,960 --> 00:11:23,400 Speaker 1: about quantum computing? The same questions have been asked, you 225 00:11:23,440 --> 00:11:25,520 Speaker 1: know whatever, one hundred thousand times. Now at the time 226 00:11:25,559 --> 00:11:28,319 Speaker 1: they didn't have quantum computing. But here's what Satoshi said. 227 00:11:28,640 --> 00:11:31,360 Speaker 1: He said that SHAW two fifty six from the bitcoin 228 00:11:31,440 --> 00:11:35,880 Speaker 1: hashing encryption. SHAW fifty six is very strong, he said, 229 00:11:35,880 --> 00:11:37,800 Speaker 1: It's not like the incremental step from MD five to 230 00:11:37,840 --> 00:11:41,040 Speaker 1: SHOT one. It can last several decades. This is in 231 00:11:41,080 --> 00:11:44,120 Speaker 1: twenty ten. He said that unless there's some massive breakthrough attack, 232 00:11:44,160 --> 00:11:46,920 Speaker 1: which there hasn't been, if SHAW two fifty six became 233 00:11:47,040 --> 00:11:50,560 Speaker 1: completely broken, which potentially could happen with Willow and I'm 234 00:11:50,559 --> 00:11:52,920 Speaker 1: going to tell you what that timeframe looks like. If 235 00:11:53,240 --> 00:11:56,440 Speaker 1: it becomes completely broken, we could come to some agreement 236 00:11:56,720 --> 00:12:00,320 Speaker 1: about what the honest blockchain was before the trouble starts guarded, 237 00:12:00,840 --> 00:12:04,600 Speaker 1: and then we could continue from there. Hey, small business owner, 238 00:12:04,800 --> 00:12:07,560 Speaker 1: are you buried in all types of work keeping you 239 00:12:07,600 --> 00:12:10,199 Speaker 1: from the real thing that makes you money? Well that's 240 00:12:10,200 --> 00:12:12,199 Speaker 1: where Just Works comes in. They're the all in one 241 00:12:12,240 --> 00:12:15,560 Speaker 1: platform that supports small business growth. You can get all 242 00:12:15,640 --> 00:12:18,840 Speaker 1: their tools that help with benefits like payroll and HR 243 00:12:18,960 --> 00:12:23,000 Speaker 1: and compliance with transparent pricing. Now they help you hire 244 00:12:23,040 --> 00:12:27,720 Speaker 1: top talent internationally, internew markets, quickly scale international operations without 245 00:12:27,720 --> 00:12:30,800 Speaker 1: the workload, and forevery how do I do it? Question? 246 00:12:30,960 --> 00:12:33,320 Speaker 1: You can reach out to their expert staff from sole 247 00:12:33,400 --> 00:12:37,280 Speaker 1: proprietor or a team of twenty Just Works empowers all 248 00:12:37,360 --> 00:12:41,120 Speaker 1: kinds of small businesses with real human support. So visit 249 00:12:41,320 --> 00:12:44,880 Speaker 1: justworks dot com slash podcast to join the thousands of 250 00:12:44,880 --> 00:12:49,520 Speaker 1: small businesses that trust just Works to take care of payroll, benefits, compliance, 251 00:12:49,600 --> 00:12:55,360 Speaker 1: and more. Again that's Justworks dot com slash podcasts. If 252 00:12:55,360 --> 00:12:58,240 Speaker 1: the hash breakdown came gradually, so at this point, it's 253 00:12:58,240 --> 00:13:00,440 Speaker 1: coming gradually. Again, I'll give you that time for a minute. 254 00:13:00,520 --> 00:13:02,679 Speaker 1: If it comes gradually, which it is, we could then 255 00:13:02,720 --> 00:13:06,640 Speaker 1: transition to a new hash in an orderly way. So 256 00:13:06,800 --> 00:13:08,880 Speaker 1: already in twenty ten, they were being asked what about 257 00:13:08,920 --> 00:13:11,320 Speaker 1: quantum computing, and they said, hey, well cool, when we 258 00:13:11,320 --> 00:13:14,360 Speaker 1: have quantum computing that could break this encryption, then we 259 00:13:14,440 --> 00:13:18,080 Speaker 1: can also use it to create a new encryption style. 260 00:13:18,400 --> 00:13:20,920 Speaker 1: You see. So he was already predicting this, and so 261 00:13:21,000 --> 00:13:24,040 Speaker 1: these developers were already thinking about this. Now let's talk 262 00:13:24,080 --> 00:13:27,800 Speaker 1: about the timeframe. So the main takeaway is one they 263 00:13:27,800 --> 00:13:30,320 Speaker 1: started to think about this right away. Number two, Bitcoin, 264 00:13:30,440 --> 00:13:34,920 Speaker 1: as this decentralized technology was designed to evolve. We don't 265 00:13:34,960 --> 00:13:36,920 Speaker 1: know what's going to happen over the next one hundred years, 266 00:13:37,040 --> 00:13:40,559 Speaker 1: the next thousand years, but Bitcoin was designed to evolve 267 00:13:40,679 --> 00:13:44,360 Speaker 1: with those times. Now, the developers have been aware of 268 00:13:44,360 --> 00:13:46,280 Speaker 1: this for a really long time, as I said, back 269 00:13:46,280 --> 00:13:49,960 Speaker 1: to twenty ten. But again, how fast is this coming? 270 00:13:50,080 --> 00:13:52,160 Speaker 1: Could it catch them off guard? Like he said, even 271 00:13:52,160 --> 00:13:54,600 Speaker 1: if it did, we could do something about it. But 272 00:13:54,640 --> 00:13:56,839 Speaker 1: also if we have more time, we can do it orderly. Okay, Well, 273 00:13:56,840 --> 00:14:00,480 Speaker 1: here's Google's timeline. Here's a timeline of Google's quantum processors, 274 00:14:00,520 --> 00:14:03,520 Speaker 1: including their release yars and cubits. So remember the cubit 275 00:14:03,600 --> 00:14:06,320 Speaker 1: measures how powerful that quantum computing it is. So they 276 00:14:06,360 --> 00:14:09,480 Speaker 1: had foxtail in twenty sixteen, it was twenty two today, 277 00:14:09,559 --> 00:14:11,640 Speaker 1: let's just fast forward to Willow twenty twenty four one 278 00:14:11,720 --> 00:14:15,080 Speaker 1: hundred and five cubits, which okay, from twenty two to 279 00:14:15,200 --> 00:14:16,840 Speaker 1: one hundred and five, you can do the maths about 280 00:14:16,840 --> 00:14:19,360 Speaker 1: a five times upgrade. Well, the question that you would 281 00:14:19,360 --> 00:14:22,280 Speaker 1: ask is how many cubits would you need to get 282 00:14:22,280 --> 00:14:25,280 Speaker 1: to become a threat to bitcoin. Well, what we can 283 00:14:25,320 --> 00:14:27,720 Speaker 1: see again, there's two different types of encryption. But for 284 00:14:27,800 --> 00:14:32,000 Speaker 1: the elliptical curve, for the Digno digital signature, we're going 285 00:14:32,080 --> 00:14:38,840 Speaker 1: to need about ten thousand million cubits. The same for 286 00:14:38,920 --> 00:14:41,400 Speaker 1: Show two fifty six we need one thousand to fifteen 287 00:14:41,440 --> 00:14:44,280 Speaker 1: hundred logical, but the physical would need to be somewhere 288 00:14:44,320 --> 00:14:47,400 Speaker 1: between one thousand to ten thousand per logical cubit. So 289 00:14:48,000 --> 00:14:51,480 Speaker 1: basically we're we've already five x in a decade, but 290 00:14:51,560 --> 00:14:54,040 Speaker 1: now we're going to need to go way beyond that. 291 00:14:54,320 --> 00:14:56,080 Speaker 1: So what does that mean as far as timeframe, Well, 292 00:14:56,120 --> 00:14:58,720 Speaker 1: based off of this, knowing that things don't move linear, 293 00:14:58,720 --> 00:15:02,200 Speaker 1: they probably move exponentially, we're somewhere in the ten to 294 00:15:02,400 --> 00:15:05,960 Speaker 1: twenty year range before it becomes a threat to bitcoin. 295 00:15:06,000 --> 00:15:09,120 Speaker 1: Now again, it gives this ten to twenty years, which 296 00:15:09,160 --> 00:15:11,160 Speaker 1: is a big range because it could move exponentially, but 297 00:15:11,240 --> 00:15:13,160 Speaker 1: we're already aware of this and we can already start 298 00:15:13,200 --> 00:15:16,320 Speaker 1: to move in an orderly fashion. Okay, So just summarizing 299 00:15:16,360 --> 00:15:19,960 Speaker 1: this for you for Bitcoin's future in regards to quantum 300 00:15:19,960 --> 00:15:23,400 Speaker 1: computing and the risk that's there. Number one, Yes, quantum 301 00:15:23,400 --> 00:15:26,400 Speaker 1: computing is it's coming. It's actually here, right, So it's here, 302 00:15:26,600 --> 00:15:29,040 Speaker 1: but it's going to take time to evolve somewhere. Like 303 00:15:29,040 --> 00:15:31,640 Speaker 1: I said, ten to twenty years, and we can move ahead. Again, 304 00:15:31,680 --> 00:15:36,520 Speaker 1: Bitcoin's designed to adapt and to evolve in this and 305 00:15:36,560 --> 00:15:39,480 Speaker 1: again we have this timeframe, so all the developers are 306 00:15:39,600 --> 00:15:42,440 Speaker 1: already working on solutions for this, which will be in 307 00:15:42,480 --> 00:15:46,120 Speaker 1: place well before this happens. Okay, so that's it for bitcoin. 308 00:15:46,200 --> 00:15:47,840 Speaker 1: But the one thing that I would always say to 309 00:15:47,840 --> 00:15:50,800 Speaker 1: anybody would ask me about what about quantum computing destroying bitcoin? 310 00:15:50,840 --> 00:15:53,840 Speaker 1: As I'd say, well, there's probably plenty of other high 311 00:15:53,960 --> 00:15:56,800 Speaker 1: value targets they could go after. So why go after 312 00:15:56,880 --> 00:15:58,720 Speaker 1: the small little asset like bitcoin which is now about 313 00:15:58,760 --> 00:16:00,840 Speaker 1: two tillion dollars when you can go after the world 314 00:16:01,240 --> 00:16:05,960 Speaker 1: like national security, toppling governments? What about Department of Defense? 315 00:16:05,960 --> 00:16:09,160 Speaker 1: What about taking over the military, the weapons, the nuclear weapons, 316 00:16:09,160 --> 00:16:11,760 Speaker 1: all of that. What about central banks, I mean printing 317 00:16:11,800 --> 00:16:15,240 Speaker 1: yourself unlimited amounts of money and credit or Wall Street 318 00:16:15,240 --> 00:16:18,640 Speaker 1: the finance you know, traditional banking, wiping out loans, giving 319 00:16:18,680 --> 00:16:21,920 Speaker 1: yourself loans, etc. And of course there's corporate espionage and 320 00:16:21,960 --> 00:16:23,640 Speaker 1: all that, and I want to show you some examples 321 00:16:23,680 --> 00:16:26,000 Speaker 1: of that. But just real quick going back to bitcoin 322 00:16:26,040 --> 00:16:29,000 Speaker 1: for a second, thinking about game theory playing out, why 323 00:16:29,040 --> 00:16:31,480 Speaker 1: would somebody first, who would they be and why would 324 00:16:31,480 --> 00:16:33,840 Speaker 1: they want to attack bitcoin? Well, you could say I'd 325 00:16:33,880 --> 00:16:35,760 Speaker 1: be the governments want to shut it down. But with 326 00:16:35,800 --> 00:16:39,760 Speaker 1: the United States, Russia, China all moving to now adopt bitcoin. 327 00:16:39,840 --> 00:16:41,520 Speaker 1: I don't think they would do that. So then you 328 00:16:41,520 --> 00:16:43,560 Speaker 1: would say, well, it would be some high level crook 329 00:16:43,560 --> 00:16:45,800 Speaker 1: that would want to steal a lot of the bitcoin. Well, 330 00:16:45,880 --> 00:16:48,080 Speaker 1: number one, they'd make way more money attacking one of 331 00:16:48,120 --> 00:16:50,560 Speaker 1: these other networks, but more important than number two. If 332 00:16:50,640 --> 00:16:53,120 Speaker 1: they did that and they you know, hacked into bitcoin 333 00:16:53,160 --> 00:16:55,640 Speaker 1: wallets or whatever, and they stole a bunch of bitcoin, 334 00:16:56,440 --> 00:16:58,920 Speaker 1: they'd basically make all that bitcoin they just sold worthless 335 00:16:59,080 --> 00:17:01,520 Speaker 1: because if you could have the bitcoin network, then it 336 00:17:01,520 --> 00:17:04,360 Speaker 1: would make it worthless because it's all about the security 337 00:17:04,440 --> 00:17:07,359 Speaker 1: they have, and so by hacking into it and stealing 338 00:17:07,400 --> 00:17:10,040 Speaker 1: it becomes worthless. They'd be much better off doing some 339 00:17:10,080 --> 00:17:11,760 Speaker 1: of these other high value targets. And let's take a 340 00:17:11,800 --> 00:17:15,120 Speaker 1: look at that. We can already see even without quantum computing, 341 00:17:15,119 --> 00:17:16,520 Speaker 1: and how big of a problem this is. So I'll 342 00:17:16,560 --> 00:17:18,240 Speaker 1: tell you how big it will be in the future. 343 00:17:18,400 --> 00:17:21,800 Speaker 1: We can see fintech. Forty five of the top fifty 344 00:17:21,880 --> 00:17:25,439 Speaker 1: banks have already confirmed being hacked and having their data stolen. 345 00:17:25,680 --> 00:17:29,560 Speaker 1: Forty five of the top fifty banks they cannot keep 346 00:17:29,600 --> 00:17:32,399 Speaker 1: their network secure. Let's talk about some of the biggest 347 00:17:32,440 --> 00:17:35,560 Speaker 1: ones we've had in recent time. You might remember Equifax. 348 00:17:35,600 --> 00:17:37,479 Speaker 1: It was one of the largest breaches in US histrius 349 00:17:37,520 --> 00:17:41,480 Speaker 1: is twenty seventeen, one hundred and forty three million people, 350 00:17:41,520 --> 00:17:44,440 Speaker 1: about almost half the population of the United States were affected. 351 00:17:44,520 --> 00:17:47,679 Speaker 1: And what did they get? They got everything social security numbers, 352 00:17:47,720 --> 00:17:51,080 Speaker 1: birth dates, addresses, driver's license, everything you need to go 353 00:17:51,119 --> 00:17:52,800 Speaker 1: set up credit in somebody's name for one hundred and 354 00:17:52,800 --> 00:17:57,200 Speaker 1: forty three million people. Honeypots. First American Financial Corporation twenty nineteen, 355 00:17:57,240 --> 00:18:00,119 Speaker 1: eight hundred and eighty five million records, eight hundred eighty 356 00:18:00,200 --> 00:18:02,960 Speaker 1: five that's multiple times the size the United States. Again, 357 00:18:03,080 --> 00:18:06,080 Speaker 1: solid security numbers, mortgage paperwork, all the things you need 358 00:18:06,119 --> 00:18:09,200 Speaker 1: to go set of credit in somebody else's name. Honey Pots. 359 00:18:09,520 --> 00:18:12,040 Speaker 1: That's worth way more money. What about this? We have 360 00:18:13,000 --> 00:18:16,720 Speaker 1: another really big one back here NPD National Public Data 361 00:18:16,720 --> 00:18:20,520 Speaker 1: twenty twenty four This was very recently. Two point nine billion, 362 00:18:20,920 --> 00:18:24,119 Speaker 1: two point nine billion personal records exposed, names, addresses, birthdate, 363 00:18:24,160 --> 00:18:29,399 Speaker 1: SoC security numbers, nearly every American. Again, that's important data. 364 00:18:29,840 --> 00:18:34,080 Speaker 1: Yahoo breaches twenty thirteen, twenty fourteen, three billion, five hundred million. 365 00:18:34,280 --> 00:18:36,120 Speaker 1: This is a big one, most important one. I think 366 00:18:36,119 --> 00:18:38,800 Speaker 1: this is the biggest one in history. Is called CAM 367 00:18:38,880 --> 00:18:41,880 Speaker 1: four breach. This happened in twenty twenty ten point eight 368 00:18:42,280 --> 00:18:45,199 Speaker 1: billion records, almost eleven billion records. I didn't know what 369 00:18:45,200 --> 00:18:46,600 Speaker 1: this one was. I had to go look it up, 370 00:18:46,840 --> 00:18:49,400 Speaker 1: and it's the largest data breach in history, a number 371 00:18:49,440 --> 00:18:53,080 Speaker 1: of records, and this is one of the largest adult websites, 372 00:18:53,320 --> 00:18:58,560 Speaker 1: and they got people's sexual preferences and browsing history and emails. 373 00:18:58,840 --> 00:19:01,040 Speaker 1: I mean, this led to a massive problem for people 374 00:19:01,040 --> 00:19:03,879 Speaker 1: that use those things, and lots of other breaches. But 375 00:19:04,280 --> 00:19:07,720 Speaker 1: if you think that's bad, not just all of those equifacts, 376 00:19:08,000 --> 00:19:12,280 Speaker 1: not just adult websites, not just NDB public records, not 377 00:19:12,359 --> 00:19:16,359 Speaker 1: just that. How about supposedly the number one hacking companies, 378 00:19:16,640 --> 00:19:19,359 Speaker 1: supposedly the safest computer network in the world. I'm talking 379 00:19:19,400 --> 00:19:24,920 Speaker 1: about the NSA themself. The US Security Agency were hacked, 380 00:19:24,960 --> 00:19:27,920 Speaker 1: it says here shadow brokers leak raised alarming questions. Was 381 00:19:27,960 --> 00:19:32,199 Speaker 1: the NSA hacked? And the answer is yes, it was, 382 00:19:32,640 --> 00:19:35,960 Speaker 1: And so every single computer network is being hacked. The 383 00:19:36,040 --> 00:19:39,119 Speaker 1: NSA was hacked. Bitcoin can't be. So if quantum quantum 384 00:19:39,160 --> 00:19:41,119 Speaker 1: computer it is here, which I already showed you it is, 385 00:19:42,320 --> 00:19:45,199 Speaker 1: there's a big problem. And so we have all of 386 00:19:45,200 --> 00:19:49,240 Speaker 1: our infrastructures risks from water systems, to energy systems, to 387 00:19:49,440 --> 00:19:53,400 Speaker 1: weapons systems, to banking systems. Everything has at risk right now, 388 00:19:53,640 --> 00:19:55,479 Speaker 1: and so this is opening up a massive problem as 389 00:19:55,480 --> 00:19:57,199 Speaker 1: well as a math for opportunity. Now I want to 390 00:19:57,200 --> 00:20:00,240 Speaker 1: go into a sponsored part of this video here talk 391 00:20:00,240 --> 00:20:02,240 Speaker 1: about a sponsor, but this is to highlighting a big 392 00:20:02,280 --> 00:20:07,000 Speaker 1: potential opportunity. Okay, So with quantum computing already here again 393 00:20:07,040 --> 00:20:11,320 Speaker 1: it's about one billion times faster than regular computing, they're 394 00:20:11,359 --> 00:20:15,160 Speaker 1: now able to crack all the security, guessing people's passwords. 395 00:20:15,359 --> 00:20:19,760 Speaker 1: Basically they could break into any database. So now cybersecurity 396 00:20:19,880 --> 00:20:22,160 Speaker 1: needs to be upgraded. It's sort of like the race 397 00:20:22,200 --> 00:20:24,480 Speaker 1: with viruses, right, So a new virus comes out, we 398 00:20:24,520 --> 00:20:26,760 Speaker 1: need to update our antivirus software. And so now if 399 00:20:26,800 --> 00:20:29,119 Speaker 1: we have new hacking tools, we have to upgrade the 400 00:20:29,119 --> 00:20:31,760 Speaker 1: tools we'd use to prevent the hackers from getting in. 401 00:20:31,960 --> 00:20:34,159 Speaker 1: So cybersecurity is we upgraded and this is coming down 402 00:20:34,280 --> 00:20:37,920 Speaker 1: really fast. Mackenzie and Company the largest consulting company in 403 00:20:37,960 --> 00:20:42,719 Speaker 1: the world. They predict two trillion dollars is coming just 404 00:20:42,800 --> 00:20:45,560 Speaker 1: to this sector within the next couple of years. What 405 00:20:45,680 --> 00:20:50,200 Speaker 1: is that quantum proof or encryption? Quantum proofing. Here's a 406 00:20:50,320 --> 00:20:53,120 Speaker 1: chart you can see right here. If you think crypto 407 00:20:53,200 --> 00:20:55,920 Speaker 1: is big, you think AI was big, this is quantum 408 00:20:56,000 --> 00:21:00,960 Speaker 1: computing stocks right now. Quantum computing stocks are absolutetely flying 409 00:21:01,080 --> 00:21:03,960 Speaker 1: right now because of this, and we can see right here. 410 00:21:04,040 --> 00:21:07,119 Speaker 1: Think about it like in terms of this, Forget meme coins, 411 00:21:07,240 --> 00:21:11,800 Speaker 1: crypto meme cooins, forget hype supercycles. This is a quantum supercycle. Okay, 412 00:21:11,800 --> 00:21:15,840 Speaker 1: so think about this. A trillion dollar asset class within 413 00:21:15,840 --> 00:21:19,480 Speaker 1: a decade. So right now, Bitcoin just hit two trillion dollars. Okay, 414 00:21:19,560 --> 00:21:22,280 Speaker 1: that's fifteen years it took Bitcoin to get to two 415 00:21:22,320 --> 00:21:26,960 Speaker 1: trillion dollars. But mackenzie is saying they're forecasting multi trillion 416 00:21:27,000 --> 00:21:30,320 Speaker 1: dollars for quantum in just a couple of years. The 417 00:21:30,400 --> 00:21:33,480 Speaker 1: quantum industry is priced just one tenth of the valueless 418 00:21:33,520 --> 00:21:36,280 Speaker 1: memes and one half of Tier two. So right now 419 00:21:36,440 --> 00:21:40,000 Speaker 1: quantum isn't anywhere close to meme coins or bitcoin or 420 00:21:40,000 --> 00:21:42,320 Speaker 1: any of that. But McKenzie is saying over two trillion 421 00:21:42,359 --> 00:21:44,680 Speaker 1: dollars is coming in in the next couple of years. 422 00:21:44,800 --> 00:21:47,720 Speaker 1: That will make this asset class way bigger than any 423 00:21:47,760 --> 00:21:49,879 Speaker 1: of the meme coins or things like that. And so 424 00:21:50,160 --> 00:21:54,440 Speaker 1: scope technologies entering in that space, helping companies create more 425 00:21:54,520 --> 00:21:57,879 Speaker 1: secure encryption for their passwords. We'll show you how that 426 00:21:57,920 --> 00:22:00,720 Speaker 1: works in just a second. Okay, Now, as far as 427 00:22:00,720 --> 00:22:04,200 Speaker 1: the company goes, it was founded by Sean Prescott. He's 428 00:22:04,240 --> 00:22:08,640 Speaker 1: a former Swiss intelligence He comes from what they call 429 00:22:08,800 --> 00:22:11,480 Speaker 1: the Swift Swiss NSA. Hopefully they're a little bit ler 430 00:22:11,520 --> 00:22:13,720 Speaker 1: than the US and NSA that got hacked, and they're 431 00:22:13,720 --> 00:22:16,320 Speaker 1: the first to offer this quantum security. So this is 432 00:22:16,359 --> 00:22:18,880 Speaker 1: like first to market taking a product to the market 433 00:22:18,920 --> 00:22:21,080 Speaker 1: that's super hot right now. And basically what they do 434 00:22:21,119 --> 00:22:24,120 Speaker 1: is they create one hundred percent quantum resistant encryption keys. 435 00:22:24,480 --> 00:22:27,359 Speaker 1: And so basically right now is usually a last pass 436 00:22:27,440 --> 00:22:31,000 Speaker 1: or some password manager to create this twelve character password, 437 00:22:31,240 --> 00:22:34,080 Speaker 1: but it was created by some sort of an algorithm 438 00:22:34,080 --> 00:22:36,760 Speaker 1: which makes it very easy to track. And so what 439 00:22:36,840 --> 00:22:38,840 Speaker 1: Scope Technology is doing is giving you a way to 440 00:22:39,080 --> 00:22:42,720 Speaker 1: upgrade those passwords right now or allow companies to use 441 00:22:42,760 --> 00:22:46,199 Speaker 1: this new type of encrypted passwords. So as this quantum 442 00:22:46,280 --> 00:22:49,400 Speaker 1: computing is getting released, you're not at risk all right. 443 00:22:49,440 --> 00:22:52,240 Speaker 1: So what Scope Technologies is doing is sitting at the 444 00:22:52,280 --> 00:22:53,960 Speaker 1: forefront of this and what we're seeing is there's a 445 00:22:54,000 --> 00:22:57,440 Speaker 1: complete frenzy of m and a mergers and acquisition activity 446 00:22:57,440 --> 00:22:59,119 Speaker 1: going on the space. As I showed you, some of 447 00:22:59,160 --> 00:23:02,240 Speaker 1: these stocks in the quantum space are going up astronomically 448 00:23:02,240 --> 00:23:05,600 Speaker 1: because everybody realizes now that Google willill release his chip, 449 00:23:05,840 --> 00:23:08,639 Speaker 1: they better do something about it. Lots of mergers and 450 00:23:08,640 --> 00:23:11,280 Speaker 1: acquisitions happen in the space. Google as a matter of fact, 451 00:23:11,280 --> 00:23:15,320 Speaker 1: acquired a company called Whiz for twenty three billion dollars. 452 00:23:15,359 --> 00:23:17,560 Speaker 1: Like it's a race. It's like a space race, so 453 00:23:17,680 --> 00:23:20,520 Speaker 1: to speak. So Scope is now ready. They already have 454 00:23:20,600 --> 00:23:23,320 Speaker 1: this product to roll out right now with quantum encryption 455 00:23:23,440 --> 00:23:25,760 Speaker 1: keys which are basically random key. So right now, if 456 00:23:25,760 --> 00:23:29,560 Speaker 1: you're using a password key generator, it's coming from some 457 00:23:29,680 --> 00:23:32,800 Speaker 1: sort of a program. It's not randomized, and that's a problem. 458 00:23:32,840 --> 00:23:35,879 Speaker 1: So for example, if you used hopefully you don't something 459 00:23:35,920 --> 00:23:38,840 Speaker 1: as simple as like password one, two three, for example, 460 00:23:39,359 --> 00:23:41,400 Speaker 1: it would take that and it would translate it into 461 00:23:41,440 --> 00:23:48,160 Speaker 1: like a thousand character key, something long like this, even longer, right, 462 00:23:48,160 --> 00:23:50,159 Speaker 1: I had to truncate it for this, and so it 463 00:23:50,200 --> 00:23:53,560 Speaker 1: will create that randomized it'll be so long that even 464 00:23:53,640 --> 00:23:56,560 Speaker 1: the new quantum computers won't be able to crack that. 465 00:23:56,720 --> 00:23:59,119 Speaker 1: So look, I'm not saying to go buy Scope This 466 00:23:59,160 --> 00:24:01,760 Speaker 1: is a sponsored video, but I want to highlight this 467 00:24:01,880 --> 00:24:04,920 Speaker 1: problem and I want to highlight this opportunity. Quantum computing 468 00:24:05,000 --> 00:24:08,320 Speaker 1: is here right now, Quantum computing stocks are flying through 469 00:24:08,320 --> 00:24:11,480 Speaker 1: the roof. Quantum Computing is scheduled per mackenzie, to get 470 00:24:11,520 --> 00:24:13,800 Speaker 1: two trillion dollars dumped in, which would make it bigger 471 00:24:13,840 --> 00:24:17,080 Speaker 1: than crypto, make it bigger than everything growing fast. And 472 00:24:17,200 --> 00:24:19,359 Speaker 1: if you don't buy this, at least put it on 473 00:24:19,400 --> 00:24:21,840 Speaker 1: your watch list and pay attention to what's going on 474 00:24:22,000 --> 00:24:24,720 Speaker 1: because quantum computing is here, it's going to be accelerating 475 00:24:24,800 --> 00:24:27,120 Speaker 1: really rapidly. Your bitcoin is not at risk, but every 476 00:24:27,160 --> 00:24:29,400 Speaker 1: other computer network is. All right, that's what I got. 477 00:24:29,440 --> 00:24:31,040 Speaker 1: Hopefully enjoyed this video. Let me know what you think 478 00:24:31,080 --> 00:24:32,959 Speaker 1: in the comments down below. Give me a like if 479 00:24:32,960 --> 00:24:34,399 Speaker 1: you liked it, and that's what I got. Right to 480 00:24:34,440 --> 00:24:36,120 Speaker 1: your success, I'm out