bug-bounty458
google364
microsoft314
facebook272
xss250
apple179
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rce165
exploit141
cve111
account-takeover104
bragging-post101
phishing84
privilege-escalation81
csrf81
supply-chain68
stored-xss65
authentication-bypass63
dos63
browser62
reflected-xss57
react54
cloudflare51
reverse-engineering49
cross-site-scripting48
input-validation48
aws48
docker47
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access-control47
smart-contract45
web343
ethereum43
sql-injection43
web-security42
ssrf42
defi42
web-application41
oauth37
writeup37
race-condition36
burp-suite35
vulnerability-disclosure34
info-disclosure34
idor34
html-injection33
cloud33
auth-bypass33
lfi32
smart-contract-vulnerability32
0
2/10
The article argues that distributed systems theory (Amdahl's Law, CAP theorem, FLP impossibility) directly applies to AI agent coordination, proving that simply adding more agents cannot overcome fundamental mathematical limits on scalability. The solution is better system decomposition and reduced coupling, not raw agent count.
distributed-systems
ai-agents
coordination
scalability
system-design
amdahl-law
cap-theorem
flp-impossibility
multi-agent-systems
architectural-patterns
Petko D. Petkov
Amdahl's Law
Universal Scalability Law
FLP impossibility result
CAP theorem
Conway's Law