this post was submitted on 15 Oct 2024
51 points (84.0% liked)
Cybersecurity
5689 readers
114 users here now
c/cybersecurity is a community centered on the cybersecurity and information security profession. You can come here to discuss news, post something interesting, or just chat with others.
THE RULES
Instance Rules
- Be respectful. Everyone should feel welcome here.
- No bigotry - including racism, sexism, ableism, homophobia, transphobia, or xenophobia.
- No Ads / Spamming.
- No pornography.
Community Rules
- Idk, keep it semi-professional?
- Nothing illegal. We're all ethical here.
- Rules will be added/redefined as necessary.
If you ask someone to hack your "friends" socials you're just going to get banned so don't do that.
Learn about hacking
Other security-related communities !databreaches@lemmy.zip !netsec@lemmy.world !cybersecurity@lemmy.capebreton.social !securitynews@infosec.pub !netsec@links.hackliberty.org !cybersecurity@infosec.pub !pulse_of_truth@infosec.pub
Notable mention to !cybersecuritymemes@lemmy.world
founded 1 year ago
MODERATORS
you are viewing a single comment's thread
view the rest of the comments
view the rest of the comments
Isnt that something you can break on a raspberry pi in like seconds?
Much less than seconds. The naive algorithm is a loop to 4096 doing one integer divide on each iteration. I think the limiting factor is going to be the memory access to load the code from main memory, so you can say the whole thing can basically be done within the length of time of one memory fetch.
I still think it’s a significant development. Doing a toy problem on a radically different hardware platform that has the potential to scale up and tackle real-scale problems orders of magnitude more efficiently than the existing architecture is progress. I’m just saying that saying “break RSA” is pure clickbait.
Edit: I got curious whether my intuition about this is right. Reading from main memory on an ARM generally takes 100 ns, and doing an integer modulo takes around 40 cycles apparently. So the total time is way longer than a memory read. If you assume 1 GHz clock speed, and that the memory reads and looping code are dwarfed by the cost of the modulo operation itself, then a Raspberry Pi can factor a 22-bit integer in about 163 microseconds. The memory operation is negligible.
This is the reason I love lemmy