01:05 Asymmetric encryption 08:10 Certificates, Certificate Authorities (CA) 11:45 The RSA Algorithm 22:17 An implementation of RSA 28:04 Generation a CA, Private keys and certificates 40:58 Establishing SSL/TLS protected connections
24:00 . Can you make a video on how by implementing the algorithm in the way you did, T^x will result in a loop that only runs no more than 64 times (because we are using 64-bit numbers)? I feel like this is the first time I have gotten close to understanding the maths behind asymmetric key encryption really.
25:58 . You said (30893,31621) and (18101,31621) are the encryption and decryption keys. Is (30893,31621) one number? or that's two numbers. Same as (18101,31621). Thank you for making these videos.
01:05 Asymmetric encryption
08:10 Certificates, Certificate Authorities (CA)
11:45 The RSA Algorithm
22:17 An implementation of RSA
28:04 Generation a CA, Private keys and certificates
40:58 Establishing SSL/TLS protected connections
A great example and finally explained in an understandable way. Thanks for that. I was able to reproduce the example without any problems.
Thank you very much for your efforts and videos.
A great explanation thx for it.
24:00 . Can you make a video on how by implementing the algorithm in the way you did, T^x will result in a loop that only runs no more than 64 times (because we are using 64-bit numbers)?
I feel like this is the first time I have gotten close to understanding the maths behind asymmetric key encryption really.
25:58 . You said (30893,31621) and (18101,31621) are the encryption and decryption keys. Is (30893,31621) one number? or that's two numbers. Same as (18101,31621).
Thank you for making these videos.
I can't thank you enough. you were such a big help!
That video got a like only for the introduction already :D
Please continue the OS series
Fifth video comment to ask to bring back osdev
hey those meme in btw are funny 😀😀
Why is this topic so inherently confusing ? When it comes to the signing part... things can be difficult...
Space balls!!!!!
Austin Powers?
Space balls