Gingeropolous 1TB MRC Upgrade

Title: Gingeropolous 1TB MRC Upgrade

Introduction:

The Gingeropolous 1TB MRC upgrade proposal aims to purchase 1TB of RAM for a new server designed to enhance Monero Research Computing (MRC) capabilities. The goal is to provide additional computing resources for Monero-related research activities, facilitating larger data sets and more demanding tasks. The project will feature a dual EPYC processor system with 256 threads and aims to complete by February 2025. A total of 20 XMR is being raised for this upgrade.

Hashtags:
#Monero #MRC #Gingeropolous #1TBRAM #CryptoResearch #BlockchainResearch #MoneroDevelopment #XMR #OpenSourceResearch #TechUpgrade #ServerUpgrade #EPYC #MoneroCommunity #ResearchComputing #CryptoFunding

Bibliography:

1. Stallman, Richard M. Free Software, Free Society: Selected Essays of Richard M. Stallman. GNU Press, 2002.
2. Raymond, Eric S. The Cathedral and the Bazaar: Musings on Linux and Open Source by an Accidental Revolutionary. O’Reilly Media, 2001.
3. Torvalds, Linus, and David Diamond. Just for Fun: The Story of an Accidental Revolutionary. HarperBusiness, 2001.
4. Vaughan-Nichols, Steven J. "The Many Faces of Linux." Ziff Davis, 2023.
5. Sobell, Mark G. A Practical Guide to Linux Commands, Editors, and Shell Programming. Pearson, 2021.

The Gingeropolous 1TB MRC upgrade proposal is aiming to purchase 1TB of RAM for a new server designed for Monero research. The goal is to enhance the Monero Research Computing (MRC) cluster's capacity, aiding in research activities without memory constraints. The server will have a 2x EPYC setup and 256 threads, providing more compute power for researchers. Funds raised (20 XMR) will be used for RAM and additional hardware. The upgrade is expected to be completed by February 2025. More details here.

Criteria for Selecting Coins for Donation Address Listing

 Criteria for Selecting Coins for Donation Address Listing

Our approach to selecting coins for listing is based on clear principles that reflect our values and goals. We aim to support cryptocurrency projects that foster decentralization, innovation, and align with our vision of transparency and efficiency.

Keywords (blog tags):

• Cryptocurrency
• Coin selection
• Donation addresses
• Blockchain
• Decentralization
• Ethereum
• Bitcoin
• Crypto technology
• Crypto community
• Project transparency

Page description:
Discover the criteria for selecting coins for listing donation addresses. We support cryptocurrencies that drive innovation, transparency, scalability, and the development of decentralized ecosystems. Learn about the importance of trust, technology, and community in crypto projects.

Hashtags:
#Cryptocurrency #Blockchain #Ethereum #Bitcoin #CryptoTechnology #Decentralization #Transparency #CryptoCommunity #Donations #CoinSelection

1. Technological Value
We prioritize coins utilizing advanced technologies that enhance:

• Network scalability.
• Efficiency (Proof of Stake, Layer 2 solutions, etc.).
• Innovation in smart contracts or decentralized applications.
  For example: Ethereum, Polkadot, Solana, Polygon.

2. Recognition and Reliability
We support assets that hold significant trust within the crypto community, specifically:

• A stable track record in the market.
• Listing on leading exchanges.
• Continuous ecosystem development.
  For example: Bitcoin, Binance Coin, Cardano.

3. Community and Engagement
We consider projects that actively involve the community, contributing to its growth and support:

• Coins with active communities of developers and users.
• Availability of incentive programs (staking, bounties).
  For example: Dogecoin, Shiba Inu, Chiliz.

4. Ethics and Transparency
We prefer projects that:

• Transparently disclose their information.
• Demonstrate honesty and transparency in team operations.
• Avoid any market manipulation.
  For example: Monero, Zcash, VeChain.

5. Expanding Accessibility
We strive to make supporting our project as convenient as possible. Therefore, we choose coins that:

• Are widely used for global payments.
• Offer accessible wallets and support across various platforms.
  For example: Litecoin, Stellar, Tron.

Why Is This Important?
These criteria help us not only identify coins that best align with our principles but also form the foundation for long-term community support. We want every donation to be more than just financial aid — it should be part of a greater vision that unites people.

Visualization: Best Cryptocurrency to Buy Now: Updated
https://blog.slex.io/uk/education/best-crypto-to-buy-now/

How Does IPFS Work Through Yggdrasil?

 

How Does IPFS Work Through Yggdrasil?

IPFS (InterPlanetary File System) and Yggdrasil are two decentralized technologies that can work together to enable private, decentralized data sharing via a secure network.

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1. What is Yggdrasil?

Yggdrasil is a cryptographically secured peer-to-peer (P2P) network with global connectivity. It routes data between nodes over encrypted connections without relying on centralized servers.

2. What is IPFS?

IPFS is a protocol and distributed file system for storing, publishing, and sharing files. It allows files to be addressed by their hash, making the content immutable and identifiable in a decentralized network.

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IPFS and Yggdrasil Integration

3. Benefits of Running IPFS Over Yggdrasil:

• Encryption: Yggdrasil automatically encrypts all traffic between nodes, complementing IPFS, where data encryption is optional.
• Decentralization: Yggdrasil nodes don’t require static IP addresses, simplifying P2P connections for IPFS.
• Global Reachability: IPFS nodes within the Yggdrasil network can discover each other without public internet routes.

4. Setup Guide:

a) Install IPFS:
Install an IPFS node on your device using a client like Kubo (formerly go-ipfs).

b) Connect to Yggdrasil:
Run a Yggdrasil node on your device to get a unique Yggdrasil address. Example configuration:

yggdrasil -useconf -loglevel info

c) Configure Routing:
Once Yggdrasil is active, bind IPFS to the Yggdrasil address by adding the Yggdrasil interface (e.g., ygg0) to the IPFS daemon:

ipfs config Addresses.Swarm ["/ip4/127.0.0.1/tcp/4001", "/ip6/<Your_Yggdrasil_Address>/tcp/4001"]

d) Access Through Yggdrasil:
After starting IPFS, verify that nodes can communicate via Yggdrasil using the following command:

ipfs swarm peers

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5. Limitations and Considerations:

• Speed: Running IPFS over Yggdrasil might be slower due to the additional routing layer.
• Compatibility: IPFS nodes not on Yggdrasil won’t be directly accessible. However, bridges or hybrid nodes can solve this.
• Routing: For optimal performance, configure multiple neighboring Yggdrasil nodes in your network.

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Why Is This Useful?

The combination of IPFS and Yggdrasil enhances privacy, bypasses censorship, and ensures global connectivity. It is an ideal solution for securely storing and distributing content in a decentralized environment.

 Браузеры с интегрированными торрент-трекерами или клиентами встречаются редко, так как функциональность работы с торрентами обычно реализуется через сторонние приложения или расширения. Однако, существуют несколько вариантов, которые могут удовлетворить ваши потребности:

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1. Brave Browser

• Поддержка торрентов: Brave позволяет загружать торренты непосредственно через встроенный клиент WebTorrent. Он поддерживает как загрузку файлов, так и потоковое воспроизведение (например, видео прямо в браузере).
• Особенности: Работает без дополнительных плагинов. Функция доступна из коробки.

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2. Opera (через расширение)

• Интеграция через расширение: Opera поддерживает установку расширений, таких как "BitTorrent Surf".
• Особенности: Для полноценной работы требуется отдельное расширение или приложение.

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3. WebTorrent Desktop (как дополнение)

• Хотя WebTorrent — это не браузер, но существуют браузеры на основе его движка или с интеграцией:
  • FrostWire — популярный клиент с браузерным интерфейсом для скачивания торрентов.
  • WebTorrent-based Projects — различные кастомизированные версии браузеров.

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4. Torch Browser

• Интеграция: Этот браузер изначально предназначен для мультимедийного использования, включая встроенный торрент-клиент.
• Особенности:
  • Поддержка торрентов встроена и работает без необходимости установки дополнительного ПО.
  • Удобный для пользователей, которым нужно простое решение.

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5. Tribler

• Отличительная черта: Tribler — это гибридный браузер и торрент-клиент.
• Особенности: Разработан специально для торрентов с использованием сетей P2P и встроенной защиты приватности.

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6. Brave с добавлением PWA/WebTorrent

Вы также можете интегрировать работу с торрентами в большинстве современных браузеров, используя:

• Magnet-ссылки через WebTorrent;
• Расширения в браузерах, таких как Chrome или Firefox (например, Bitford, Seedr).

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Если вам нужно готовое решение, начните с Brave Browser, поскольку он прост в использовании и позволяет загрузку торрентов прямо в браузере без стороннего ПО.

Analytical Brief on the Subject: Vladimir Nikolaevich Sachkov - Wikiwand

 Analytical Brief on the Subject: Vladimir Nikolaevich Sachkov - Wikiwand

Link to the source

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Vladimir Nikolaevich Sachkov (b. 1929, Ivanovo Region) is a Soviet and Russian figure in the field of state security and cryptography, Major General, Doctor of Physical and Mathematical Sciences, and Professor.

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Brief Biography

• Education and Early Career
  Sachkov began his career in 1956, working as a senior officer, deputy head, and later head of a department within the Eighth Main Directorate of the KGB of the USSR.

• Activities in the KGB
  In 1974, he was appointed Deputy Chief of the Eighth Main Directorate of the KGB of the USSR, where he served until 1991.

• Work in FAPSI (Federal Agency for Government Communication and Information)
  From 1991 to 1993, Sachkov held the position of Chief of the Directorate for Security of Communication under the Federal Agency for Government Communication and Information (FAPSI), serving the President of the Russian Federation.

• Academic Activity
  Between 1993 and 2018, he served as Vice President and Full Member of the Academy of Cryptography of the Russian Federation.

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Scientific Achievements and Recognition

• Doctor of Physical and Mathematical Sciences, Professor.
• Honored Scientist of the Russian Federation.
• Laureate of the USSR State Prize.

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Contributions to Cryptography

Vladimir Sachkov made a significant impact on the development of cryptography and communication security in the USSR and Russia by holding key positions in governmental and academic institutions.

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Notes

Information about Vladimir Nikolaevich Sachkov is limited, and specific details of his biography may not be available in open sources.

Dash Development Team: Key Focus Areas Today and Future Plans

 

Dash Development Team: Key Focus Areas Today and Future Plans

The Dash project focuses on delivering fast, secure, and convenient financial transactions using decentralized infrastructure. Here are the team’s main focuses for today and their plans for the future:

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Key Focus Areas Today

1. Enhancing User Experience:

   • Updating the Dash Wallet interface.
   • Developing practical solutions for real-world Dash use, such as automatic currency conversion.

2. Strengthening Security:

   • Enhancing transaction protection mechanisms.
   • Regular network updates to address potential vulnerabilities.

3. Increasing Transaction Speed:

   • Further development of InstantSend for instant payments.
   • Optimizing the Masternode network infrastructure.

4. Expanding Integrations:

   • Integrating with global payment services.
   • Partnering with exchanges and e-commerce platforms.

5. Community Support:

   • Funding local and global initiatives to promote Dash.
   • Organizing events and educational programs for users.

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Plans for the Future

1. Dash Platform and DApps:

   • Launching Dash Platform as a foundation for decentralized applications (DApps) with extended functionality.
   • Advancing Dash Drive to provide decentralized data storage solutions.

2. Supporting DeFi Initiatives:

   • Integrating with decentralized finance platforms to expand Dash’s utility.

3. Global Adoption:

   • Expanding the partner network, including businesses in emerging markets where Dash can serve as an alternative to traditional financial systems.
   • Increasing the number of merchants and services accepting Dash.

4. Focus on Privacy:

   • Enhancing PrivateSend to allow users to conduct anonymous transactions.
   • Balancing privacy features with regulatory compliance.

5. Environmental Sustainability:

   • Developing more energy-efficient solutions for the network.
   • Balancing system resilience with resource efficiency.

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Dash continues to set an example of a thriving project driven by an active team, robust architecture, and a strong community.