#threefold — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #threefold, aggregated by home.social.
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Готово — английский перевод + хэштеги в конце.
Below is what I found about the Mycelium developers and the project itself (its goals, architecture, and status).
👤 Who is behind Mycelium — developers and initiators
Mycelium is developed by ThreeFold (ThreeFold Tech / ThreeFold Grid).
In official announcements, a contributor named **Lee Smet** is mentioned as leading the effort to build a new IPv6 overlay network.
The project is open-source, with the repository hosted on GitHub.
ThreeFold is an organization promoting decentralized networks and infrastructure. Mycelium is a component of their ecosystem — not a third-party plugin, but a native project.
🛠 What is Mycelium — architecture and key properties
Mycelium is:
An IPv6 overlay network written in Rust.
When joining, each node receives an IPv6 address from the `400::/7` range.
All connections are end-to-end encrypted; each node has a public/private key pair, and its network address is cryptographically tied to the private key.
The network is **locality-aware** — routing chooses optimal paths with minimal latency.
It supports multiple transport protocols: TCP, QUIC, etc.
Routing is inspired by (or partially based on) the **Babel routing protocol**.
Mycelium can operate without a TUN interface (as a **message bus only**) for lightweight encrypted data exchange.
The repository includes a **message-system** layer enabling encrypted messaging above the network layer.
📡 Project goals, design, and future direction
Mycelium aims to deliver a **secure, efficient and scalable** alternative to the traditional Internet with focus on privacy, decentralization, and resilience.
It is designed as part of the wider **ThreeFold Grid** ecosystem — serving as the network backbone for their services.
The developers target **planet-scale scalability**.
Mycelium is positioned not only as a private networking solution, but as infrastructure for many scenarios: secure P2P communications, self-hosting, IoT networking, decentralized services, cloud infrastructures, CDN-like usage, etc.
As of 2024–2025, Mycelium remains under active development — scaling is a key focus.
✅ Status, implementation and limitations
Mycelium is operational with builds available for Linux, macOS, Windows; iOS and Android are planned / in beta.
Documentation claims support for **up to ~100,000 nodes** within a single network.
Planned improvements include: enhanced resilience, NAT support, QUIC hole-punching, protocol expansion, easier deployment.
Mycelium is an actively maintained open-source project under the Apache-2.0 license.
🔎 Summary — strengths and potential risks
**Strengths:**
High-level security and privacy: true E2E encryption and crypto-bound addressing.
Decentralization — no single point of control.
Flexible: full IPv6 network or lightweight encrypted message bus.
Suitable for many use cases: private networking, P2P, IoT, remote work, decentralized services, private Internet access.
**Limitations / risks:**
Still maturing — global scaling goal remains unproven.
P2P overlay networks always depend on trust and correct configuration of peers.
Unclear real-world adoption and number of active nodes — affects reliability.
Some external services may still see public exit IP addresses (e.g., through NAT), which may reduce anonymity in practice.
If you want, I can **check live network metrics** — number of active nodes, adoption level, known issues, etc.
Hashtags
#Mycelium #ThreeFold #OverlayNetwork #IPv6 #RustLang #EndToEndEncryption #Decentralized #CyberSecurity #P2P #PrivateNetworking #SecureCommunication #NextGenInternet #ZeroTrust #NetworkingTech -
Готово — английский перевод + хэштеги в конце.
Below is what I found about the Mycelium developers and the project itself (its goals, architecture, and status).
👤 Who is behind Mycelium — developers and initiators
Mycelium is developed by ThreeFold (ThreeFold Tech / ThreeFold Grid).
In official announcements, a contributor named **Lee Smet** is mentioned as leading the effort to build a new IPv6 overlay network.
The project is open-source, with the repository hosted on GitHub.
ThreeFold is an organization promoting decentralized networks and infrastructure. Mycelium is a component of their ecosystem — not a third-party plugin, but a native project.
🛠 What is Mycelium — architecture and key properties
Mycelium is:
An IPv6 overlay network written in Rust.
When joining, each node receives an IPv6 address from the `400::/7` range.
All connections are end-to-end encrypted; each node has a public/private key pair, and its network address is cryptographically tied to the private key.
The network is **locality-aware** — routing chooses optimal paths with minimal latency.
It supports multiple transport protocols: TCP, QUIC, etc.
Routing is inspired by (or partially based on) the **Babel routing protocol**.
Mycelium can operate without a TUN interface (as a **message bus only**) for lightweight encrypted data exchange.
The repository includes a **message-system** layer enabling encrypted messaging above the network layer.
📡 Project goals, design, and future direction
Mycelium aims to deliver a **secure, efficient and scalable** alternative to the traditional Internet with focus on privacy, decentralization, and resilience.
It is designed as part of the wider **ThreeFold Grid** ecosystem — serving as the network backbone for their services.
The developers target **planet-scale scalability**.
Mycelium is positioned not only as a private networking solution, but as infrastructure for many scenarios: secure P2P communications, self-hosting, IoT networking, decentralized services, cloud infrastructures, CDN-like usage, etc.
As of 2024–2025, Mycelium remains under active development — scaling is a key focus.
✅ Status, implementation and limitations
Mycelium is operational with builds available for Linux, macOS, Windows; iOS and Android are planned / in beta.
Documentation claims support for **up to ~100,000 nodes** within a single network.
Planned improvements include: enhanced resilience, NAT support, QUIC hole-punching, protocol expansion, easier deployment.
Mycelium is an actively maintained open-source project under the Apache-2.0 license.
🔎 Summary — strengths and potential risks
**Strengths:**
High-level security and privacy: true E2E encryption and crypto-bound addressing.
Decentralization — no single point of control.
Flexible: full IPv6 network or lightweight encrypted message bus.
Suitable for many use cases: private networking, P2P, IoT, remote work, decentralized services, private Internet access.
**Limitations / risks:**
Still maturing — global scaling goal remains unproven.
P2P overlay networks always depend on trust and correct configuration of peers.
Unclear real-world adoption and number of active nodes — affects reliability.
Some external services may still see public exit IP addresses (e.g., through NAT), which may reduce anonymity in practice.
If you want, I can **check live network metrics** — number of active nodes, adoption level, known issues, etc.
Hashtags
#Mycelium #ThreeFold #OverlayNetwork #IPv6 #RustLang #EndToEndEncryption #Decentralized #CyberSecurity #P2P #PrivateNetworking #SecureCommunication #NextGenInternet #ZeroTrust #NetworkingTech -
Готово — английский перевод + хэштеги в конце.
Below is what I found about the Mycelium developers and the project itself (its goals, architecture, and status).
👤 Who is behind Mycelium — developers and initiators
Mycelium is developed by ThreeFold (ThreeFold Tech / ThreeFold Grid).
In official announcements, a contributor named **Lee Smet** is mentioned as leading the effort to build a new IPv6 overlay network.
The project is open-source, with the repository hosted on GitHub.
ThreeFold is an organization promoting decentralized networks and infrastructure. Mycelium is a component of their ecosystem — not a third-party plugin, but a native project.
🛠 What is Mycelium — architecture and key properties
Mycelium is:
An IPv6 overlay network written in Rust.
When joining, each node receives an IPv6 address from the `400::/7` range.
All connections are end-to-end encrypted; each node has a public/private key pair, and its network address is cryptographically tied to the private key.
The network is **locality-aware** — routing chooses optimal paths with minimal latency.
It supports multiple transport protocols: TCP, QUIC, etc.
Routing is inspired by (or partially based on) the **Babel routing protocol**.
Mycelium can operate without a TUN interface (as a **message bus only**) for lightweight encrypted data exchange.
The repository includes a **message-system** layer enabling encrypted messaging above the network layer.
📡 Project goals, design, and future direction
Mycelium aims to deliver a **secure, efficient and scalable** alternative to the traditional Internet with focus on privacy, decentralization, and resilience.
It is designed as part of the wider **ThreeFold Grid** ecosystem — serving as the network backbone for their services.
The developers target **planet-scale scalability**.
Mycelium is positioned not only as a private networking solution, but as infrastructure for many scenarios: secure P2P communications, self-hosting, IoT networking, decentralized services, cloud infrastructures, CDN-like usage, etc.
As of 2024–2025, Mycelium remains under active development — scaling is a key focus.
✅ Status, implementation and limitations
Mycelium is operational with builds available for Linux, macOS, Windows; iOS and Android are planned / in beta.
Documentation claims support for **up to ~100,000 nodes** within a single network.
Planned improvements include: enhanced resilience, NAT support, QUIC hole-punching, protocol expansion, easier deployment.
Mycelium is an actively maintained open-source project under the Apache-2.0 license.
🔎 Summary — strengths and potential risks
**Strengths:**
High-level security and privacy: true E2E encryption and crypto-bound addressing.
Decentralization — no single point of control.
Flexible: full IPv6 network or lightweight encrypted message bus.
Suitable for many use cases: private networking, P2P, IoT, remote work, decentralized services, private Internet access.
**Limitations / risks:**
Still maturing — global scaling goal remains unproven.
P2P overlay networks always depend on trust and correct configuration of peers.
Unclear real-world adoption and number of active nodes — affects reliability.
Some external services may still see public exit IP addresses (e.g., through NAT), which may reduce anonymity in practice.
If you want, I can **check live network metrics** — number of active nodes, adoption level, known issues, etc.
Hashtags
#Mycelium #ThreeFold #OverlayNetwork #IPv6 #RustLang #EndToEndEncryption #Decentralized #CyberSecurity #P2P #PrivateNetworking #SecureCommunication #NextGenInternet #ZeroTrust #NetworkingTech -
Готово — английский перевод + хэштеги в конце.
Below is what I found about the Mycelium developers and the project itself (its goals, architecture, and status).
👤 Who is behind Mycelium — developers and initiators
Mycelium is developed by ThreeFold (ThreeFold Tech / ThreeFold Grid).
In official announcements, a contributor named **Lee Smet** is mentioned as leading the effort to build a new IPv6 overlay network.
The project is open-source, with the repository hosted on GitHub.
ThreeFold is an organization promoting decentralized networks and infrastructure. Mycelium is a component of their ecosystem — not a third-party plugin, but a native project.
🛠 What is Mycelium — architecture and key properties
Mycelium is:
An IPv6 overlay network written in Rust.
When joining, each node receives an IPv6 address from the `400::/7` range.
All connections are end-to-end encrypted; each node has a public/private key pair, and its network address is cryptographically tied to the private key.
The network is **locality-aware** — routing chooses optimal paths with minimal latency.
It supports multiple transport protocols: TCP, QUIC, etc.
Routing is inspired by (or partially based on) the **Babel routing protocol**.
Mycelium can operate without a TUN interface (as a **message bus only**) for lightweight encrypted data exchange.
The repository includes a **message-system** layer enabling encrypted messaging above the network layer.
📡 Project goals, design, and future direction
Mycelium aims to deliver a **secure, efficient and scalable** alternative to the traditional Internet with focus on privacy, decentralization, and resilience.
It is designed as part of the wider **ThreeFold Grid** ecosystem — serving as the network backbone for their services.
The developers target **planet-scale scalability**.
Mycelium is positioned not only as a private networking solution, but as infrastructure for many scenarios: secure P2P communications, self-hosting, IoT networking, decentralized services, cloud infrastructures, CDN-like usage, etc.
As of 2024–2025, Mycelium remains under active development — scaling is a key focus.
✅ Status, implementation and limitations
Mycelium is operational with builds available for Linux, macOS, Windows; iOS and Android are planned / in beta.
Documentation claims support for **up to ~100,000 nodes** within a single network.
Planned improvements include: enhanced resilience, NAT support, QUIC hole-punching, protocol expansion, easier deployment.
Mycelium is an actively maintained open-source project under the Apache-2.0 license.
🔎 Summary — strengths and potential risks
**Strengths:**
High-level security and privacy: true E2E encryption and crypto-bound addressing.
Decentralization — no single point of control.
Flexible: full IPv6 network or lightweight encrypted message bus.
Suitable for many use cases: private networking, P2P, IoT, remote work, decentralized services, private Internet access.
**Limitations / risks:**
Still maturing — global scaling goal remains unproven.
P2P overlay networks always depend on trust and correct configuration of peers.
Unclear real-world adoption and number of active nodes — affects reliability.
Some external services may still see public exit IP addresses (e.g., through NAT), which may reduce anonymity in practice.
If you want, I can **check live network metrics** — number of active nodes, adoption level, known issues, etc.
Hashtags
#Mycelium #ThreeFold #OverlayNetwork #IPv6 #RustLang #EndToEndEncryption #Decentralized #CyberSecurity #P2P #PrivateNetworking #SecureCommunication #NextGenInternet #ZeroTrust #NetworkingTech -
Готово — английский перевод + хэштеги в конце.
Below is what I found about the Mycelium developers and the project itself (its goals, architecture, and status).
👤 Who is behind Mycelium — developers and initiators
Mycelium is developed by ThreeFold (ThreeFold Tech / ThreeFold Grid).
In official announcements, a contributor named **Lee Smet** is mentioned as leading the effort to build a new IPv6 overlay network.
The project is open-source, with the repository hosted on GitHub.
ThreeFold is an organization promoting decentralized networks and infrastructure. Mycelium is a component of their ecosystem — not a third-party plugin, but a native project.
🛠 What is Mycelium — architecture and key properties
Mycelium is:
An IPv6 overlay network written in Rust.
When joining, each node receives an IPv6 address from the `400::/7` range.
All connections are end-to-end encrypted; each node has a public/private key pair, and its network address is cryptographically tied to the private key.
The network is **locality-aware** — routing chooses optimal paths with minimal latency.
It supports multiple transport protocols: TCP, QUIC, etc.
Routing is inspired by (or partially based on) the **Babel routing protocol**.
Mycelium can operate without a TUN interface (as a **message bus only**) for lightweight encrypted data exchange.
The repository includes a **message-system** layer enabling encrypted messaging above the network layer.
📡 Project goals, design, and future direction
Mycelium aims to deliver a **secure, efficient and scalable** alternative to the traditional Internet with focus on privacy, decentralization, and resilience.
It is designed as part of the wider **ThreeFold Grid** ecosystem — serving as the network backbone for their services.
The developers target **planet-scale scalability**.
Mycelium is positioned not only as a private networking solution, but as infrastructure for many scenarios: secure P2P communications, self-hosting, IoT networking, decentralized services, cloud infrastructures, CDN-like usage, etc.
As of 2024–2025, Mycelium remains under active development — scaling is a key focus.
✅ Status, implementation and limitations
Mycelium is operational with builds available for Linux, macOS, Windows; iOS and Android are planned / in beta.
Documentation claims support for **up to ~100,000 nodes** within a single network.
Planned improvements include: enhanced resilience, NAT support, QUIC hole-punching, protocol expansion, easier deployment.
Mycelium is an actively maintained open-source project under the Apache-2.0 license.
🔎 Summary — strengths and potential risks
**Strengths:**
High-level security and privacy: true E2E encryption and crypto-bound addressing.
Decentralization — no single point of control.
Flexible: full IPv6 network or lightweight encrypted message bus.
Suitable for many use cases: private networking, P2P, IoT, remote work, decentralized services, private Internet access.
**Limitations / risks:**
Still maturing — global scaling goal remains unproven.
P2P overlay networks always depend on trust and correct configuration of peers.
Unclear real-world adoption and number of active nodes — affects reliability.
Some external services may still see public exit IP addresses (e.g., through NAT), which may reduce anonymity in practice.
If you want, I can **check live network metrics** — number of active nodes, adoption level, known issues, etc.
Hashtags
#Mycelium #ThreeFold #OverlayNetwork #IPv6 #RustLang #EndToEndEncryption #Decentralized #CyberSecurity #P2P #PrivateNetworking #SecureCommunication #NextGenInternet #ZeroTrust #NetworkingTech -
𝗥𝗲𝗮𝗱𝘆 𝘁𝗼 𝗲𝘅𝗽𝗹𝗼𝗿𝗲 𝘁𝗵𝗲 𝗳𝘂𝘁𝘂𝗿𝗲 𝗼𝗳 𝘁𝗵𝗲 𝗶𝗻𝘁𝗲𝗿𝗻𝗲𝘁?
Join us for our free webinar on Thursday, September 18
Learn how a new kind of internet is already up and running: decentralized, user-owned, private by design, and more energy-efficient than anything Big Tech offers today.
Register now: https://yourdatanetwork.webinargeek.com/introduction-to-the-decentralized-internet-1?cst=channel
#webinar #decentralizedinternet #digitalsovereignty #privacy #YourDataNetwork #threefold
https://yourdatanetwork.webinargeek.com/introduction-to-the-decentralized-internet-1?cst=channel
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Threefold Increase in Malware Targeting Credential Stores – Source: www.infosecurity-magazine.com https://ciso2ciso.com/threefold-increase-in-malware-targeting-credential-stores-source-www-infosecurity-magazine-com/ #rssfeedpostgeneratorecho #InfoSecurityMagazine #InfosecurityMagazine #CyberSecurityNews #Threefold
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@voorstad @hmblank
Naar aanleiding van de interessante podcast heb ik me er wat in verdiept. Het businessmodel lijkt wat op dat van #Helium. Ook daar verdien je tokens/crypto door het in de lucht houden van een node. Wat me wel opviel is dat het netwerk nog relatief klein is en dat de nodes die er zijn vaak in gebieden staan waar het reguliere internet ook volop aanwezig is. Mogelijk wel een keer een leuk project met wat tweedehands hardware.
#threefold -
Erg interessante aflevering van #detechnoloog van #bnr met Robert Jan Lamers over een decentraal internet met #threefold nodes. Je eigen plek op het internet. Je kunt zelf boer worden en je eigen stukje creëren.
https://www.bnr.nl/podcast/de-technoloog/10540948/terug-naar-een-decentraal-internet
Ben benieuwd wat jullie ideeën hierover zijn, is dit levensvatbaar, krijgt dit tractie? Of is het een model als de kettingbrieven van vroeger?
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Erg interessante aflevering van #detechnoloog van #bnr met Robert Jan Lamers over een decentraal internet met #threefold nodes. Je eigen plek op het internet. Je kunt zelf boer worden en je eigen stukje creëren.
https://www.bnr.nl/podcast/de-technoloog/10540948/terug-naar-een-decentraal-internet
Ben benieuwd wat jullie ideeën hierover zijn, is dit levensvatbaar, krijgt dit tractie? Of is het een model als de kettingbrieven van vroeger?
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Erg interessante aflevering van #detechnoloog van #bnr met Robert Jan Lamers over een decentraal internet met #threefold nodes. Je eigen plek op het internet. Je kunt zelf boer worden en je eigen stukje creëren.
https://www.bnr.nl/podcast/de-technoloog/10540948/terug-naar-een-decentraal-internet
Ben benieuwd wat jullie ideeën hierover zijn, is dit levensvatbaar, krijgt dit tractie? Of is het een model als de kettingbrieven van vroeger?
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Erg interessante aflevering van #detechnoloog van #bnr met Robert Jan Lamers over een decentraal internet met #threefold nodes. Je eigen plek op het internet. Je kunt zelf boer worden en je eigen stukje creëren.
https://www.bnr.nl/podcast/de-technoloog/10540948/terug-naar-een-decentraal-internet
Ben benieuwd wat jullie ideeën hierover zijn, is dit levensvatbaar, krijgt dit tractie? Of is het een model als de kettingbrieven van vroeger?
-
Erg interessante aflevering van #detechnoloog van #bnr met Robert Jan Lamers over een decentraal internet met #threefold nodes. Je eigen plek op het internet. Je kunt zelf boer worden en je eigen stukje creëren.
https://www.bnr.nl/podcast/de-technoloog/10540948/terug-naar-een-decentraal-internet
Ben benieuwd wat jullie ideeën hierover zijn, is dit levensvatbaar, krijgt dit tractie? Of is het een model als de kettingbrieven van vroeger?
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@dangillmor But then many Mastodon servers still run on centralised servers. Unles syou pick one on the Threefold decentralised grid, this one. 😉 #threefold #decentralised
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If you like modded Minecraft, here's a video from youtuber Threefold where they tour bases from a number of their modpack playthroughs.