⚡️🔎 TECH - The Internet Engineering Task Force (IETF) has pu...

FLASH

npub1f4uyypghstsd8l4sxng4ptwzk6awfm3mf9ux0yallfrgkm6mj6es50r407

hex

eed404cbcad39f198158eb90290284c47b0e40e3e200f90b637c069600217c53

nevent

nevent1qqswa4qye09d88ces9vwhypfq2zvg7cwgr37yq8epd3hcp5kqqshc5cprpmhxue69uhhyetvv9ujuem4d36kwatvw5hx6mm9qgsy67zzq5tc9cxnl6crf52s4hptdwhyaca5j7r8jwll535tdadedvccqjte4

Kind-1 (TextNote)

2026-04-16T18:24:22Z

⚡️🔎 TECH - The Internet Engineering Task Force (IETF) has published a first draft of what IPv8—promised to replace IPv4 and IPv6—might look like. A simpler and definitive solution to the problem of Internet addresses.

In practical terms, IPv8 uses addresses consisting of 8 groups of 4 digits ranging from 0 to 255, rather than the 4 groups used in IPv4. This ensures full backward compatibility with IPv4. The IPv4 address “192.168.5.1” becomes the IPv8 address “0.0.0.0.192.168.5.1.”

IPv6 Failed:

This is not the first attempt to solve the problem of addressing devices on the Internet. Over 30 years ago, IPv6 was developed and deployed in an earlier effort to address the issue. The rollout was particularly complex and slow. IPv6 introduced an entirely new hexadecimal addressing system (for example: 2001:0db8:0000:0000:0000:8a2e:0370:7334). https://blossom.primal.net/52f467c0cd50c1a2ccce857956ff23abbad4314371090eb30903378b4e4b0e42.jpg

原始 JSON

{
  "kind": 1,
  "id": "eed404cbcad39f198158eb90290284c47b0e40e3e200f90b637c069600217c53",
  "pubkey": "4d7842051782e0d3feb034d150adc2b6bae4ee3b49786793bffa468b6f5b96b3",
  "created_at": 1776363862,
  "tags": [
    [
      "imeta",
      "url https://blossom.primal.net/52f467c0cd50c1a2ccce857956ff23abbad4314371090eb30903378b4e4b0e42.jpg",
      "m jpeg",
      "dim 1200.0x675.0"
    ]
  ],
  "content": "⚡️🔎 TECH - The Internet Engineering Task Force (IETF) has published a first draft of what IPv8—promised to replace IPv4 and IPv6—might look like. A simpler and definitive solution to the problem of Internet addresses.\n\nIn practical terms, IPv8 uses addresses consisting of 8 groups of 4 digits ranging from 0 to 255, rather than the 4 groups used in IPv4. This ensures full backward compatibility with IPv4. The IPv4 address “192.168.5.1” becomes the IPv8 address “0.0.0.0.192.168.5.1.”\n\nIPv6 Failed:\n\nThis is not the first attempt to solve the problem of addressing devices on the Internet. Over 30 years ago, IPv6 was developed and deployed in an earlier effort to address the issue.\nThe rollout was particularly complex and slow. IPv6 introduced an entirely new hexadecimal addressing system (for example: 2001:0db8:0000:0000:0000:8a2e:0370:7334).\nhttps://blossom.primal.net/52f467c0cd50c1a2ccce857956ff23abbad4314371090eb30903378b4e4b0e42.jpg",
  "sig": "beb88572c9ea04b377115d901297ef63071e0b144b97bf0914a27c680d151ae3ac1da92051df40525eb2caaac04df3553164fece698b5605884d5d99086a05b5"
}