Blockchain Courses Online

About

Cryptography is the study of information hiding and verification. It includes the protocols, algorithms and strategies to securely and consistently prevent or delay unauthorized access to sensitive information and enable verifiability of every component in a communication.

Cryptography is derived from the Greek words: kryptós, "hidden", and gráphein, "to write" - or "hidden writing". People who study and develop cryptography are called cryptographers. The study of how to circumvent the use of cryptography for unintended recipients is called cryptanalysis, or codebreaking. Cryptography and cryptanalysis are sometimes grouped together under the umbrella term cryptology, encompassing the entire subject. In practice, "cryptography" is also often used to refer to the field as a whole, especially as an applied science. At the dawn of the 21 century in an ever more interconnected and technological world cryptography started to be ubiquitous as well as the reliance on the benefits it brings, especially the increased security and verifiability.

Content

Part I: Introducing Cryptography

1. History of Cryptography
   1. Classical Cryptography
   2. Contemporary Cryptography
   3. Cryptography in Popular Culture
   4. Timeline of Notable Events
2. Fundamental Concepts
   1. Goals of Cryptography
   2. Goals of Cryptanalysis
   3. Role of Cryptography in Computer Security
   4. Symmetric Key Ciphers
   5. Asymmetric Key Ciphers
   6. Random Number Generation
   7. Hashes
   8. Key Distribution and Authentication (key management and the web of trust)
   9. Common flaws and weaknesses
   10. Secure Passwords
   11. S-box

Part II: Designing Cryptosystems

1. The Basic Principles
2. Little Secrets Hide Bigger Secrets
3. Open Algorithms and the Value of Peer-Review
4. Think Like a Cryptanalyst
5. Cryptography/Error Correction Systems
6. Mathematical Background
7. Computer Security is More Than Encryption
8. Unbroken is Not Necessarily Unbreakable

Part III: Cryptanalysis

1. The Basic Principles
2. Weaknesses
   1. Proportionality of Secrecy
      1. Length of the key
      2. Quality of Random Source
      3. Plaintext effect on Ciphertext
   2. Statistical Leaking
   3. Faulty Implementation
   4. Inadequate Peer-Review
   5. Social Engineering and Coercion
   6. Leakage and Side Channels
3. Attacks
   1. Brute-Force Attack
      1. Dictionary Attack
   2. Frequency Analysis
   3. Index of Coincidence
   4. Linear Cryptanalysis
   5. Differential Cryptanalysis
   6. Meet in the Middle Attack
   7. Man-in-the-middle attack
4. Breaking Hash Algorithms
   1. Collisions
      1. Generating
      2. Exploiting
   2. Birthday Attack
   3. Joux Attack
   4. Time Memory Trade Off (rainbow tables)
5. How Historical Systems Were Broken
   1. Transposition Ciphers
   2. Caesar Cipher
   3. Enigma Machine
   4. Permutation Cipher
   5. Vigenère Cipher

Part IV: Using Cryptosystems

1. Applying Cryptography
   1. Digital Signatures
      1. Introduction to Digital Signatures
      2. DSA
   2. Database protection
   3. E-Cash
   4. E-Voting
   5. DRM
   6. Biometrics
   7. Anonymity
2. Classical Ciphers
   1. Beale Cipher
   2. Transposition Ciphers
   3. Caesar cipher
   4. Atbash Cipher
   5. Autokey cipher
   6. Playfair Cipher
   7. Polyalphabetic substitution
   8. Scytale
   9. Substitution cipher
   10. nomenclator
   11. Permutation Cipher
   12. Affine cipher
   13. Vigenère cipher
   14. Polybius square
   15. ADFGVX cipher
   16. Fractionation (Polybius square, straddling checkerboard, CT-37c conversion table, etc.)
3. Contemporary Ciphers
   1. Symmetric Ciphers
      1. Enigma Machine
      2. Solitaire cipher
      3. One-Time Pads
      4. Ciphersaber
      5. Data Encryption Standard (DES)
      6. Advanced Encryption Standard
   2. Asymmetric Ciphers
      1. Overview
      2. A Basic Public Key Example
      3. RSA
      4. ElGamal
      5. Elliptic Curve
      6. Blum-Goldwasser
   3. Hashes
      1. MD5
      2. SHA-1
      3. SHA-2
      4. RadioGatún, the direct predecessor of SHA-3
      5. SHA-3
      6. RIPEMD-160
      7. Tiger
      8. message authentication code (often MAC); A MAC algorithm is sometimes called a keyed (cryptographic) hash function.
4. Protocols
   1. Authentication protocols
      1. e.g. Kerberos
   2. Key exchange protocols
      1. Diffie-Hellman
   3. Secure Communications
      1. e.g. SSL, SSH
      2. Generate a keypair using OpenSSL

Part V: Cryptography and Society

1. The Changing Nature of Cryptographic Use
2. Cryptography, Governments and Laws
3. Expectations of Normal Users

Part VI: Miscellaneous

1. Future Possibilities
   1. Quantum Cryptography
   2. Faster, More Parallel Linear Computers

About

Freqtrade is a free and open source crypto trading bot written in Python. It is designed to support all major exchanges and be controlled via Telegram. It contains backtesting, plotting and money management tools as well as strategy optimization by machine learning.

Disclaimer

This software is for educational purposes only. Do not risk money which you are afraid to lose. USE THE SOFTWARE AT YOUR OWN RISK. THE AUTHORS AND ALL AFFILIATES ASSUME NO RESPONSIBILITY FOR YOUR TRADING RESULTS. Always start by running a trading bot in Dry-run and do not engage money before you understand how it works and what profit/loss you should expect. We strongly recommend you to have coding and Python knowledge. Do not hesitate to read the source code and understand the mechanism of this bot.

Content

• Supported Exchange Marketplaces
• Features
• Quick Start
• Basic Usage
• Development Branches
• Support
• Requirements

About

Solidity is an object-oriented programming language for writing smart contracts. It is used for implementing smart contracts on various blockchain platforms, most notably, Ethereum. It was developed by Christian Reitwiessner, Alex Beregszaszi, and several former Ethereum core contributors to enable writing smart contracts on blockchain platforms such as Ethereum.

Solidity is a statically-typed programming language designed for developing smart contracts that run on the Ethereum Virtual Machine, also known as EVM.

Content

• Concept of Solidity programming language
• Truffle Framework and Ganache
• Smart Contract Test
• The Ethereum blockchain
• Security
• Metamask as Ethereum wallet
• Token deployment

About

Blockchain development is being known as perhaps the most progressive and huge improvement of today. Blockchain development was first recognized on the planet's most standard progressed money, Bitcoin, anyway has now changed the stance of a couple of affiliations and drew in them to use it regardless, for limit and move of huge worth.

Content

• The digital danger 
• Ethereum and Hyperledger Blockchain 
• Blockchain security 
• Creation of Blockchain-based applications 
• Develop Blockchain-based PKI arrangements 

About

It is a decentralized digital currency without a central bank or single administrator that can be sent from user to user on the peer-to-peer bitcoin network without the need for intermediaries. Transactions are verified by network nodes through cryptography and recorded in a public distributed ledger called a blockchain. Bitcoins are created as a reward for a process known as mining. They can be exchanged for other currencies, products, and services. Research produced by the University of Cambridge estimates that in 2017, there were 2.9 to 5.8 million unique users using a cryptocurrency wallet, most of them using bitcoin.

The course shows you the fundamental ideas of both Bitcoin and Blockchain and gives you a review of these intrinsic ideas by telling you the best way to construct Bitcoin-driven applications with Python. 

Content

• Bitcoin APIs in Python
• Creation of Bitcoin trading bots 
• Programs for Bitcoin payments
• Bitcoin mining software development
• Creation of keys, wallets and addresses in Python code
• Generation of Bitcoin transaction reports

About

A blockchain, originally block chain, is a growing list of records, called blocks, that are linked using cryptography. Each block contains a cryptographic hash of the previous block, a timestamp, and transaction data (generally represented as a Merkle tree).

By design, a blockchain is resistant to modification of its data. This is because once recorded, the data in any given block cannot be altered retroactively without alteration of all subsequent blocks. For use as a distributed ledger, a blockchain is typically managed by a peer-to-peer network collectively adhering to a protocol for inter-node communication and validating new blocks. Although blockchain records are not unalterable, blockchains may be considered secure by design and exemplify a distributed computing system with high Byzantine fault tolerance. The blockchain has been described as "an open, distributed ledger that can record transactions between two parties efficiently and in a verifiable and permanent way".

Content

• Blockchain overview
• Structure
  • Blocks
  • Decentralization
  • Openness
• Uses
  • Cryptocurrencies
  • Smart contracts
  • Financial services
  • Video games
  • Energy trading
  • Supply chain
  • Anti-counterfeiting
  • Health Care
  • Domain Names
  • Other uses
• Types
  • Public blockchains
  • Private blockchains
  • Hybrid blockchains
  • Sidechains

About

Bitcoin is a cryptocurrency invented in 2008 by an unknown person or group of people using the name Satoshi Nakamoto and started in 2009 when its implementation was released as open-source software.

It is a decentralized digital currency without a central bank or single administrator that can be sent from user to user on the peer-to-peer bitcoin network without the need for intermediaries. Transactions are verified by network nodes through cryptography and recorded in a public distributed ledger called a blockchain. Bitcoins are created as a reward for a process known as mining. They can be exchanged for other currencies, products, and services. Research produced by the University of Cambridge estimates that in 2017, there were 2.9 to 5.8 million unique users using a cryptocurrency wallet, most of them using bitcoin.

Content

• The fundamentals of addresses and transactions of Bitcoin
• Bitcoins in online marketplaces
• Bitcoins security from online theft using Brainwallets and cold storage
• Bitcoin’s underlying technology, the Blockchain
• Bitcoin configuration
• Mining Bitcoin and setting up a mining rig

About

Ethereum is a public blockchain platform with programmable exchange features, otherwise called ETH. OS: Linux, Windows, macOS, and Portable Operating System Interface.

Content

• Features of Ethereum 2.0 and development tools
• Ethereum’s basic principles and advanced security methods.
• Build blockchain projects
• Cryptocurrency tokens
• Write smart contracts
• Build DApps
• Code the class contracts
• Ethereum’s Network, problems, solutions

About

Hyperledger (or the Hyperledger project) is an umbrella project of open source blockchains and related tools, started in December 2015 by the Linux Foundation, and has received contributions from IBM, Intel and SAP Ariba, to support the collaborative development of blockchain-based distributed ledgers.

Content

• History and aims
• Notable frameworks
  • Hyperledger Fabric
  • Hyperledger Iroha
  • Hyperledger Sawtooth
  • Hyperledger Besu
• Tools
  • Hyperledger Caliper
  • Hyperledger Cello
  • Hyperledger Composer
  • Hyperledger Explorer
  • Hyperledger Quilt
  • Hyperledger Ursa

About

The worlds first Blockchain Operating System

LibertyOS is the first Blockchain Operating System. Heavily focused on user privacy, security, speed, stability and accessibility, LibertyOS combines a novel token model with a blockchain-centric advertising platform to radically transform user experiences. Users get smoother, faster, cleaner, secure, data-safe systems, and can earn cash by opting in to pre-screened, anonymous, non-intrusive ads. Advertisers, publishers receive better ad reporting and increased revenue shares. Built by highly skilled researchers and industry experts, LibertyOS presents the way forward for everyone interested in privacy and security on the open web.

About

Lightweight Blockchain dedicated OS

Blockchain Operative System Series BOSS is a new Linux distribution based on ubuntu core with important changes, highly improved security and the default incorporation of blockchain services and support for cryptocurrencies.It has been more than a decade since the physical birth of cryptocurrencies, although the idea is over 50 years old. The future will undoubtedly be governed by blockchain systems and operative systems must to be ready for this changes. BOSS bet to be pioneer on this. BOSS has an interesting combination of security, manageability, speed and performance and can be used on any x64 X86 machine LIVE or install it. Maximum performance in a really small space taking up less than 1 GB download which puts us at the forefront among the lightest and safest distributions as leaders in relation to gb-installed applications.