סילבוס הקורס התאוריה שמאחורי בלוקצ'יינס - תשע"ט, פקולטה למדעים מדויקים, אוניברסיטת ת"א

שנה"ל תשע"ט

התאוריה שמאחורי בלוקצ'יינס
The Theory Behind Blockchains

0368-3311-01

מדעים מדויקים


סמ' ב'	1500-1800	'ד	005	שיעור	ד"ר בטנסקי ניר

D:\Inetpub\shared\yedion\syllabus\03\2018\0368\0368331101_desc.txt Course description Since the emergence of Bitcoin, blockchains have taken the world by storm, giving rise to multi billion dollar industries and leading to talks of a new internet. So what are they exactly? Typically, the term blockchains refers to distributed public ledgers, where digital transactions are shared and managed by the users. A remarkable feature of modern blockchains, and the reason for much of the excitement, is that they are completely decentralized; namely, they do not depend on any form of central authority, nor require users to trust any such authority. Rather, the soundness of blockchains is guaranteed using cryptography. Originally driven by the concept of decentralized currency, it is now clear that the potential of blockchains goes way beyond. The course will cover the basics of blockchains, with focus on the theoretical concepts (mostly from cryptography but also other areas of TCS) on which blockchains are founded today, as well as concepts that could play an important role in the future development of blockchains. Along the way we will get familiar with Bitcoin and other existing blockchains, and aim to identify some of the future challenges in the area. Disclaimer: the topic of blockchains is extremely broad. It raises intriguing questions that span different areas of CS such as distributed computing, systems security, programming languages, and algorithmic game theory, as well as area beyond CS, such as economics, law, and sociology. We will not be able to touch all of these, but may occasionally touch on some of them as time permits. Tentative Syllabus Introduction The problem of digital currency (in broad strokes) Cryptographic concepts: digital signatures, collision-resistant hashing Consensus lower bounds, protocols for a fixed set of parties The Sybil attack TCS concepts: Byzantine agreement Reinventing consensus Consensus in Bitcoin (protocol and analysis) Cryptographic concepts: proofs of work (PoW), random oracles and cryptographic hash functions Reinventing consensus again Proofs of space Proofs of stake Bitcoin: under the hood P2P Network, Transactions, Mining, Attacks Anonymity in blockchains Cryptographic concepts: zero-knowledge proofs, commitments, blind signatures Scalability Cryptographic/TCS concepts: succinct proofs, probabilistically-checkable proofs, proof composition. Smart contracts Additional blockchain applilcations Timestamping, common randomness, fair secure computation

ש"ס: 4.0

Course description

Since the emergence of Bitcoin, blockchains have taken the world by storm, giving rise to multi billion dollar industries and leading to talks of a new internet. So what are they exactly? Typically, the term blockchains refers to distributed public ledgers, where digital transactions are shared and managed by the users. A remarkable feature of modern blockchains, and the reason for much of the excitement, is that they are completely decentralized; namely, they do not depend on any form of central authority, nor require users to trust any such authority. Rather, the soundness of blockchains is guaranteed using cryptography. Originally driven by the concept of decentralized currency, it is now clear that the potential of blockchains goes way beyond.

The course will cover the basics of blockchains, with focus on the theoretical concepts (mostly from cryptography but also other areas of TCS) on which blockchains are founded today, as well as concepts that could play an important role in the future development of blockchains. Along the way we will get familiar with Bitcoin and other existing blockchains, and aim to identify some of the future challenges in the area.

Disclaimer: the topic of blockchains is extremely broad. It raises intriguing questions that span different areas of CS such as distributed computing, systems security, programming languages, and algorithmic game theory, as well as area beyond CS, such as economics, law, and sociology. We will not be able to touch all of these, but may occasionally touch on some of them as time permits.

Tentative Syllabus

Introduction
- The problem of digital currency (in broad strokes)
- Cryptographic concepts: digital signatures, collision-resistant hashing

Consensus
- lower bounds, protocols for a fixed set of parties
- The Sybil attack
- TCS concepts: Byzantine agreement

Reinventing consensus
- Consensus in Bitcoin (protocol and analysis)
- Cryptographic concepts: proofs of work (PoW), random oracles and cryptographic hash functions

Reinventing consensus again
- Proofs of space
- Proofs of stake

Bitcoin: under the hood
- P2P Network, Transactions, Mining, Attacks

Anonymity in blockchains
- Cryptographic concepts: zero-knowledge proofs, commitments, blind signatures

Scalability
- Cryptographic/TCS concepts: succinct proofs, probabilistically-checkable proofs, proof composition.

Smart contracts

Additional blockchain applilcations
- Timestamping, common randomness, fair secure computation

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