Différences entre versions de « Blockchain Technology »
Ligne 158 : | Ligne 158 : | ||
• Requires a way to reach “consensus” | • Requires a way to reach “consensus” | ||
+ | |||
*Example: Database Systems | *Example: Database Systems | ||
Ligne 170 : | Ligne 171 : | ||
• Single point of failure | • Single point of failure | ||
+ | |||
+ | |||
+ | * Distributed Database System | ||
+ | |||
+ | • A group of databases cooperating together to provide single data view to users | ||
+ | |||
+ | • Fault-tolerant | ||
+ | |||
+ | • Handle more concurrent load | ||
+ | |||
+ | • Requires “trust” among nodes (• Not a problem if owned by a single enterprise, • For nodes not fully trusting each other, a | ||
+ | “consensus” protocol is required to keep a consistent view of data) | ||
+ | |||
+ | * Distributed Ledger Technology (DLT) | ||
+ | |||
+ | • A type of distributed database system | ||
+ | |||
+ | • Immutable, append-only database of transactions (for example, exchanges of | ||
+ | assets or data) | ||
+ | |||
+ | • Ledgers are replicated, synchronized and shared across all nodes in the | ||
+ | distributed, peer-to-peer network | ||
+ | |||
+ | • Nodes reach consensus on transaction updates to its own copy of ledger, thus | ||
+ | maintaining consistent ledger state | ||
+ | |||
+ | • Via consensus protocol, this is achievable without central authority or trusted 3rd | ||
+ | party mediator | ||
+ | |||
+ | * Blockchain | ||
+ | |||
+ | • Blockchains are distributed digital ledgers of cryptographically signed transactions that are grouped into “blocks” | ||
+ | |||
+ | • Each block is “cryptographically” linked to the previous one after validation and undergoing a “consensus” decision | ||
+ | |||
+ | • As new blocks are added, older blocks become more difficult to modify | ||
+ | |||
+ | • New blocks are replicated across all copies of the ledger within the network, and any conflicts are resolved automatically using established rules | ||
+ | |||
+ | * First Blockchain | ||
+ | |||
+ | • Bitcoin is the world’s premier blockchain | ||
+ | |||
+ | • Launched in 2009 by an anonymous person (or a group of persons) known by the name of Satoshi Nakamoto | ||
+ | |||
+ | • Suspiciously around the time of the Subprime crisis | ||
+ | |||
+ | • First successful peer-to-peer electronic cash system | ||
+ | |||
+ | • Bitcoin illustrates how we use blockchain to maintain a history of valid transactions that are tamper-resistant, without any effort from central authority | ||
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Version du 26 mai 2022 à 19:41
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Traduction
Traductions
Définition
Domaine, Discipline, Thématique
Justification
Définition écrite
- System
A collection of interacting/interrelated entities structured as a whole
- Organized for a common purpose
- Entities may include
- Human
- Machines
- Procedures for different functions
- Interfaces to the environment (input/output)
- A system stays in some “state” at any given time
- Off duty. Under maintenance/update
- Operational (hopefully correctly as designed)
|
Blockchain Technology - Historique (+)
Définition graphique
Concepts ou notions associés
Blockchain Technology - Glossaire / (+)
Exemples, applications, utilisations
• Performance • Scalability • Redundancy (for fault-tolerance) • How to ensure consistency among nodes of a distributed system? • Even if some aren’t reliable nor honest? • Trust without trust? • Requires a way to reach “consensus”
• For a centralized database system, one central entity handles all requests and data processing • Data updates simple and quick • Cheaper to manage and maintain • Performance bottleneck under high concurrent requests • Single point of failure
• A group of databases cooperating together to provide single data view to users • Fault-tolerant • Handle more concurrent load • Requires “trust” among nodes (• Not a problem if owned by a single enterprise, • For nodes not fully trusting each other, a “consensus” protocol is required to keep a consistent view of data)
• A type of distributed database system • Immutable, append-only database of transactions (for example, exchanges of assets or data) • Ledgers are replicated, synchronized and shared across all nodes in the distributed, peer-to-peer network • Nodes reach consensus on transaction updates to its own copy of ledger, thus maintaining consistent ledger state • Via consensus protocol, this is achievable without central authority or trusted 3rd party mediator
• Blockchains are distributed digital ledgers of cryptographically signed transactions that are grouped into “blocks” • Each block is “cryptographically” linked to the previous one after validation and undergoing a “consensus” decision • As new blocks are added, older blocks become more difficult to modify • New blocks are replicated across all copies of the ledger within the network, and any conflicts are resolved automatically using established rules
• Bitcoin is the world’s premier blockchain • Launched in 2009 by an anonymous person (or a group of persons) known by the name of Satoshi Nakamoto • Suspiciously around the time of the Subprime crisis • First successful peer-to-peer electronic cash system • Bitcoin illustrates how we use blockchain to maintain a history of valid transactions that are tamper-resistant, without any effort from central authority |
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Questions possibles
Liaisons enseignements et programmes
Idées ou Réflexions liées à son enseignement
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Education: Autres liens, sites ou portails
Bibliographie
Pour citer cette page: (Technology)
ABROUGUI, M & al, 2022. Blockchain Technology. In Didaquest [en ligne]. <http:www.didaquest.org/wiki/Blockchain_Technology>, consulté le 24, novembre, 2024
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