| S# |
Lecture |
Course |
Institute |
Instructor |
Discipline |
| 1 |
1. Signatures, Hashing, Hash Chains, e-cash, and Motivation (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 2 |
10. PoW Recap, Other Fork Types (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 3 |
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 4 |
12. Transaction Malleability and Segregated Witness (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 5 |
13. Payment Channels and Lightning Network (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 6 |
14. Lightning Network and Cross-chain Swaps (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 7 |
15. Discreet Log Contracts (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 8 |
16. MAST, Taproot, Graftroot (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 9 |
17. Anonymity, Coinjoin and Signature Aggregation (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 10 |
18. Confidential Transactions (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 11 |
2. Proof of Work and Mining (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 12 |
22. Alternative Consensus Mechanisms (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 13 |
23. New Directions in Crypto (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 14 |
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 15 |
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 16 |
4. Transactions and the UTXO model (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 17 |
5. Synchronization Process and Pruning (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 18 |
6. Wallets and SPV (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 19 |
7. Catena: Efficient Non-equivocation via Bitcoin (M-I-T)
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
| 20 |
|
Cryptocurrency Engineering and Design (M-I-T)
|
MIT
|
Neha Narula, Tadge Dryja
|
Applied Sciences
|
