FYI, this one is mine! Posted originally in CBTS. Hope you like it.
Alright, I'll get back to work too!
Ok, I'm with you. Can you clarify M and mm? I think it means the number of jumps between the c^2 record in (0,n). How far down in N to solve for RSA? Did VQC hint at how far we have to go when he crumbed us "What temp does vinegar boil at?" It's 212 deg F. Although he's a Brit, so maybe it's in Celsius.
Also, does t have usefulness in later n rows? MA brought up a good point that t is kinda useless (?) in later n rows (erratic), and that x is the variable we should be focusing on. VQC also hinted by saying "when I started, I wanted x to mark the spot." He also crumbed about generating the primes in this way "Think of 3 as (1+1+0.5+0.5)" Cryptic, but I've been thinking it over a lot.
Thoughts, Anons?
RSA #2: All VQC Posts. Add to bread, Baker?
RSA #3 coming up next. After Trips were disabled, VQC dropped lots of crumbs as an anon. I'll try to find all posts by bread, and post them for later reference.
RSA #2.
>>>/cbts/50228
>>>/cbts/53383
>>>/cbts/53432
>>>/cbts/53436
>>>/cbts/53466
>>>/cbts/53468
>>>/cbts/53469
>>>/cbts/53473
>>>/cbts/53475
>>>/cbts/53479
>>>/cbts/53481 *** imporatant
>>>/cbts/53482
>>>/cbts/53607
>>>/cbts/53609
>>>/cbts/53613
>>>/cbts/53615
>>>/cbts/53662
>>>/cbts/53668
>>>/cbts/53673
>>>/cbts/53678
>>>/cbts/53680
>>>/cbts/53681
>>>/cbts/53699
>>>/cbts/53770
>>>/cbts/58934
>>>/cbts/59055
>>>/cbts/65200
Holy Shit MA! Thats a BIGASSINTEGER. Like, Thicccccc Integer. Is this Integer in the Black?
Anyways, we need a VQC reference like Q has, so I'm gonna work on that while you do cool programming shit.
RSA #3 VQC Posts. ID: a8efc8
>>>/cbts/87168
>>>/cbts/87234
>>>/cbts/87300
>>>/cbts/87378
>>>/cbts/87414
Working on it now, MA!
RSA #4 VQC Posts. ID: bc16c7
>>>/cbts/98492
>>>/cbts/98560
>>>/cbts/107338
>>>/cbts/107342 rt >>>/cbts/107256
>>>/cbts/111903
>>>/cbts/111975 rt >>>/cbts/111942
>>>/cbts/111983
>>>/cbts/112148
>>>/cbts/112422
>>>/cbts/112425
>>>/cbts/112429 rt >>>/cbts/112172
There are more rt's but I did my best to include only relevant ones for math(s). If you fags want all of them, i can update. Let me know.
RSA #2: Stony Senpai Version. ID: aaa2ec
Baker, please add to next bread, under RSA #2, part 2.
>>>/cbts/74027
>>>/cbts/74303
>>>/cbts/74358
>>>/cbts/74393 rt >>>/cbts/74302
>>>/cbts/74488 rt >>>/cbts/74373
>>>/cbts/74509
>>>/cbts/74525
>>>/cbts/74623
>>>/cbts/74729
>>>/cbts/74965
>>>/cbts/74983 rt >>>/cbts/74790
>>>/cbts/75025 rt >>>/cbts/74769
>>>/cbts/75055 rt >>>/cbts/74778
>>>/cbts/75094 rt >>>/cbts/74386
>>>/cbts/75314 rt >>>/cbts/74769
>>>/cbts/75203 rt >>>/cbts/71555
>>>/cbts/75265 rt >>>/cbts/74278
>>>/cbts/75291 rt >>>/cbts/74380
>>>/cbts/75304 rt >>>/cbts/74355
>>>/cbts/75358 rt >>>/cbts/74459
>>>/cbts/75365 rt >>>/cbts/75349
>>>/cbts/75381 rt >>>/cbts/74169
>>>/cbts/75393 rt >>>/cbts/71582
>>>/cbts/75430 rt >>>/cbts/71369
>>>/cbts/75435 rt >>>/cbts/67618 *** PMA WTF!!! WORTH ANOTHER LOOK? VQC REPOSTS YOUR SHIT>>>
>>>/cbts/75486 rt >>>/cbts/71423
>>>/cbts/75506 rt >>>/cbts/72925
>>>/cbts/75514 rt >>>/cbts/75455
>>>/cbts/75519 rt >>>/cbts/73458
>>>/cbts/75527 rt >>>/cbts/66664
>>>/cbts/75535 rt >>>/cbts/75455
This was when Trips were banned suring RSA #2, and our Senpai showed up ALL BAKED to drop some wisdom. Enjoy the thread, it's fucking awesome.
sorry, green links. Fixes here.
75314 should be >>>/cbts/75134
75304 should be >>>/cbts/75309
Corrected! RSA#2 Stony Senpai Edition. Baker PLS add to Bread.
>>>/cbts/74027
>>>/cbts/74303
>>>/cbts/74358
>>>/cbts/74393 rt >>>/cbts/74302
>>>/cbts/74488 rt >>>/cbts/74373
>>>/cbts/74509
>>>/cbts/74525
>>>/cbts/74623
>>>/cbts/74729
>>>/cbts/74965
>>>/cbts/74983 rt >>>/cbts/74790
>>>/cbts/75025 rt >>>/cbts/74769
>>>/cbts/75055 rt >>>/cbts/74778
>>>/cbts/75094 rt >>>/cbts/74386
>>>/cbts/75134 rt >>>/cbts/74769
>>>/cbts/75203 rt >>>/cbts/71555
>>>/cbts/75265 rt >>>/cbts/74278
>>>/cbts/75291 rt >>>/cbts/74380
>>>/cbts/75309 rt >>>/cbts/74355
>>>/cbts/75358 rt >>>/cbts/74459
>>>/cbts/75365 rt >>>/cbts/75349
>>>/cbts/75381 rt >>>/cbts/74169
>>>/cbts/75393 rt >>>/cbts/71582
>>>/cbts/75430 rt >>>/cbts/71369
>>>/cbts/75435 rt >>>/cbts/67618 *** PMA WTF!!! WORTH ANOTHER LOOK? VQC REPOSTS YOUR SHIT>>>
>>>/cbts/75486 rt >>>/cbts/71423
>>>/cbts/75506 rt >>>/cbts/72925
>>>/cbts/75514 rt >>>/cbts/75455
>>>/cbts/75519 rt >>>/cbts/73458
>>>/cbts/75527 rt >>>/cbts/66664
>>>/cbts/75535 rt >>>/cbts/75455
This was when Trips were banned during RSA #2, and our Senpai showed up ALL BAKED to drop some wisdom. Enjoy the thread, it's fucking awesome.
Thanks Baker! Ponies??? I know you got a big stash. Bring out your best!
Chris, the day we (/vqc/faggots) can smoke a joint with you and talk about the universe (and meet each other) will be pretty awesome. We are all the wombMen, waiting to be birthed into the next level. Thanks for inspiring me to raise myself up another few quantum levels. What a trip this quest is!
Alright, faggots. I can't keep up with PMA, bc he's on top of his math and program game. But I did make myself useful compiling VQC posts. I have a place once again in the /VQC/ universe. Feeling peaceful and happy over here. This quest is really about bringing together fine minds (from all over the world) to work on a cool math problem (hardest I've ever worked on) to bring transparency (as opposed to dark and oppressive secrecy) to our world. I won't give up on this quest, bc it's the best I've ever worked on. I love you, lads. Glad to be here, friends.
Thanks for the clear explanation about M and mm! So can you just plug in c and get the correct number of jumps to make? Is it exact or approximate?
Awesome, MA! This is how my mind keeps thinking about it too. Starting from C, we find d and e, then go to e, get all the factors and jump down n levels. There must be an elegant way to do it, but I like your logarithmic hammer approach! HULK SMASH!! The meme is for you.
Liking the new Mascot! Thanks Topol!
Thanks boss! I guess I asked the same question again, duh. Thanks for your patience and willingness to explain things more than once.
Hey Lads! Here's a good link about the elliptical curve question VQC asked us to read up on:
https:/ /plus.maths.org/content/fermats-last-theorem-and-andrew-wiles
I'm following! Good question. Found these in the VQC archives, maybe helpful?
>>>/cbts/107342 rt >>>/cbts/107256
Right, Baker? I think he did. MA is going to town with his LogHammer. When we tie it together with the c^2 aa bb cc patterns from (0,n) that will be awesome.
Here's an idea: Take sqrt(c), get d and e. Go to (e,1) and find all the factors for c (MA's approach). Meanwhile, using PMA's approach, forget the e value for a minute, go to column 0, and start working to find the multiples of the factors from the first cell in (e,1). If we know all the factors from (e,1), can we bring them over to (0,n) and start looking up and down for c^2 aa bb cc, etc using those c factors? Just a thought.
Gotcha, thanks Baker! So we have to work on those two crumbs about using na and (n-1)a to tie c and ab records / columns and rows together?
Ok, here's what I found in the archives, lads. Hopefully there's something here that will help us.
>>>/cbts/107342 rt >>>/cbts/107256 na, nb, c, N, cN
>>>/cbts/50228 na, (n-1)a calc.
>>>/cbts/53432 towards the bottom of post, see quote below
>>>/cbts/53468 "Big part of key"?
Interesting passage about primes, c, n and N from:
>A value c will only appear in one column since the remainder of a number never changes.
>Since a value c can have more than one factorisation, a number c can appear more than once in a column at difference values of n
>A prime number appears once in a column. This is SIMPLE to calculate. >This calculation is important. I call n for a prime number big_n or N
>The product of two primes appears twice. Once the same as the prime, which is easy to calculate and the second time, this is the n that we are after.
>How many times does the product of three distinct primes appear?
Here's some hilarious shit I found in RSA #2:
"There seem to be two types of anon in this world: those who completely enjoy grade B faggotry and those who only partially enjoy it. Obviously you're the latter, but if you didn't have at least a bit of interest you would never have even read my post.
The idea here, dubious as it may sound, is that there is hidden structure in the fundamental nature of the numbers that make up our highly-secured Internet and emerging technologies such as crypto-currencies like bitcoin. This structure is postulated to be exploitable, potentially resulting in one of the most epic and spectacular happenings of all time.
So basically, while this certainly is grade B faggotry, it is ambitious faggotry looking to upgrade itself to A+ faggotry if conditions permit. Which IMO is max /comfy/ but maybe I'm just a grade B faggot in the end."
YEAH!!! CollegeANON in da house!! Where you been, faggot? Nice to see you!
PMA was working on something like this, and VQC even rt'd my post about it (along with a cryptic message). Check it out, see if it matches your idea. We even got yelled at by TLA later! Those were the good 'ol days:
>>>/cbts/75435 (VQC) rt >>>/cbts/67618 (Me)
PMA's posts I was replying to, about finding small square using t.
This made me LOL!! Thanks, Anon. "It is ambitious faggotry looking to upgrade itself to A+ faggotry if conditions permit." LOLOLOLOL! Better check the weather map. Hurricane MILO about to make landfall???
Noticing something interesting in column 0. N has an almost direct relationship to x. Seems to also be a clear pattern with even and odd n, just like for even and odd e. Check it out.
Even n.
{0:2:3:2:1:9} 2x1
{0:2:8:4:4:16} 2x2
{0:2:15:6:9:25} 2x3
{0:2:24:8:16:36} 2x4
{0:2:35:10:25:49} 2x5
{0:2:48:12:36:64} 2x6
{0:2:63:14:49:81} 2x7
{0:2:80:16:64:100} 2x8
{0:2:99:18:81:121} 2x9
{0:2:120:20:100:144} 2x10
{0:2:143:22:121:169} 2x11
{0:2:168:24:144:196} 2x12
Odd n
{0:3:12:6:6:24} 3x2
{0:3:36:12:24:54} 3x4
{0:3:72:18:54:96} 3x6
{0:3:120:24:96:150} 3x8
{0:3:180:30:150:216} 3x10
{0:3:252:36:216:294} 3x12
{0:3:336:42:294:384} 3x14
{0:3:432:48:384:486} 3x16
Even n:
{0:4:6:4:2:18} 4x1
{0:4:16:8:8:32} 4x2
{0:4:30:12:18:50} 4x3
{0:4:48:16:32:72} 4x4
{0:4:70:20:50:98} 4x5
{0:4:96:24:72:128} 4x6
{0:4:126:28:98:162} 4x7
{0:4:160:32:128:200} 4x8
{0:4:198:36:162:242} 4x9
{0:4:240:40:200:288} 4x10
{0:4:286:44:242:338} 4x11
{0:4:336:48:288:392} 4x12
Odd n
{0:5:20:10:10:40} 5x2
{0:5:60:20:40:90} 5x4
{0:5:120:30:90:160} 5x6
{0:5:200:40:160:250} 5x8
{0:5:300:50:250:360} 5x10
{0:5:420:60:360:490} 5x12
Even n
{0:6:9:6:3:27} 6x1
{0:6:24:12:12:48} 6x2
{0:6:45:18:27:75} 6x3
{0:6:72:24:48:108} 6x4
{0:6:105:30:75:147} 6x5
{0:6:144:36:108:192} 6x6
{0:6:189:42:147:243} 6x7
{0:6:240:48:192:300} 6x8
{0:6:297:54:243:363} 6x9
{0:6:360:60:300:432} 6x10
{0:6:429:66:363:507} 6x11
{0:6:504:72:432:588} 6x12
Clear pattern, could be useful. Thoughts, Anons?
Nice to see you TLA! Sorry the red pills weren't swallowed by your famalam. I was only able to help two people inch forward. The rest I avoided. Keep up your spirits!! We need your tough ass lovin' to help proof our spirited ideas. Glad you're back. CollegeAnon is back too! Where TF is our professor Teach???
Even (0,1) holds to the pattern:
Odd n:
{0:1:4:2:2:8} 1x2
{0:1:12:4:8:18} 1x4
{0:1:24:6:18:32} 1x6
{0:1:40:8:32:50} 1x8
{0:1:60:10:50:72} 1x10
{0:1:84:12:72:98} 1x12
{0:1:112:14:98:128} 1x14
{0:1:144:16:128:162} 1x16
{0:1:180:18:162:200} 1x18
{0:1:220:20:200:242} 1x20
{0:1:264:22:242:288} 1x22
{0:1:312:24:288:338} 1x24
Am I just posting some more basic bullshit that PMA already wrote a program for? Help me out anons. Just keeping my head down and searching the grid for patterns. Trying to tie rows and columns together, starting with row one and column 0.
Thanks for the feedback! I'm still working off the original .csv output (cause I need to learn programming), so not sure if my cells are complete. So does the pattern hold? From your examples it looks like it doesn't. I still see relationships between n and x in your examples, but you would arrive at x with different equations. What can you make of it MA?
Hey PMA, thanks! I'll re-read those posts now. Have you figured out the column 0 pattern to your satisfaction yet? Looks like you found an odd/even pattern in n as well. Ah, (0,1) thru (0,6) looks like we arrived at the same conclusion for those n values. How does work in higher values of n? Oh yeah, I see those x values tied to the n value in your second example, at least for n=9. There is some elegant formula hiding beneath all this, just working to find it.
"How do we USE the rows and columns to get what we need."
"Enumerate the rules for global, rows, columns and the solution will emerge."
Checking those digits, my fag. Uh, TBH those records are in my .csv too. Just got too excited to look further down, lol! My bad.
Program Help Needed. Ok, I'm on a Mac. I installed virtual studio, updated the .net shit, and still couldn't compile the file. Fucking rookie over here. Any advice? I actually can read all of you guy's program formulas, and understand them. I need to humble myself and ask for help with the program aspect.
Wow! Thanks for the cool memes Hobo! I can't program shit, but running a business for 12 years and studying the laws of Human Interaction (via Dale Carnegie, Napoleon Hill, etc) have helped me learn to thrive in any environment. It's meant to be that we are all here. Our rational/spiritual leanings attracted us to VQC. Just glad to be here.
"When the student is ready, the Master will appear."
Ok, maybe I should try Python. I don't expect you guys to teach me, and I have confidence that I will learn quickly.
Thanks Baker! If I'm really going to contribute as we move forward, I need to write formulas and code. Especially as we move to new projects like ECC. I can do it. Appreciate your support. So in Linux, do you use the terminal, or is there a program to write, compile, and run code?
PMA, f has been mystifying me since the beginning code VQC posted. Thanks for clarifying.
Baker, can i run a Linux environment on a Mac? If so, maybe I take your route. If Python runs well on a Mac, I'll go that way first.
Lads, I'm gonna grab that Python/Basilisk by the throat and stab it with the sword of Gryffindor. Um, Harry Potter memes, anyone?
WTF are those two badass lines moving into infinity? Actually, there are more than two, many more. Two arteries or vessels tho.
Checked! Thanks Baker. Apparently I'm going to get a degree in programming here as well, lol! I'm checking it out now. Downloading now. I fucking love you guys. Even my lady is like "math is a much better hobby for you than worrying about the end of the world."
LOL! MA, she knows. When we met I told her "At some point, I'm going to get heat for pursuing the truth." She was like, "OK, I'm cool with that."
Holy Shit, Hobo! What a great read! Questions to follow. Hey Anons, It's a 15-30 minute read, but well worth it, check it out. Copypasta for OpSec, anons.
https:/ /anonfile.com/Za43r2dab0/Unforseen_Concequences.rtf
Hey Topol! Good evening! Can I get your eyes on this? We need a cool ass VQC logo with the Rainbow Primes behind it. Q logos are starting point, make it fabulous! Can you help?