The calendar below provides information on the lectures (L) for this course.
week # | TOPICS | KEY DATES |
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1 | L1: Overview of the Course. The "Classic" Definitional Framework of Multiparty Function Evaluation (along the lines of [C00]): Motivation for the Ideal-Model Paradigm. L2: The Basic Definition of Security. Variants. |
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2 | L3: The Non-Concurrent Composition Theorem. Example: Casting Zero-Knowledge within the Basic Definitional Framework. The Blum Protocol for Graph Hamiltonicity. L4: Sequential Composability of Zero-Knowledge. Problems with Non-Sequential Composability of Commitments and Zero-Knowledge. |
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3 | L5: Theory of Cryptography Conference (TCC) L6: Theory of Cryptography Conference (TCC) (cont.) |
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4 | L7: The Universally Composable (UC) Security Framework: Motivation and the Basic Definition (based on [C01]). L8: Alternative Formulations of UC Security. The Universal Composition Theorem. Survey of Feasibility Results in the UC Framework. |
Homework 1 out in L8 |
5 | L9: UC Commitments: Motivation. The Ideal Commitment Functionality. Impossibility of Realizations in the Plain Model. L10: UC Commitment in the Common Reference String Model (based on [CF01]). Realizing the Ideal Commitment Functionality. The Multi-Commitment Functionality and Realization. |
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6 | L11: UC Zero Knowledge from UC Commitments. Secure Realization of any Multi-Party Functionality with any Number of Faults: The Semi-Honest Case. (Static, Adaptive, Two-Party, Multi-Party.) L12: Secure Realization of any Functionality: The Byzantine Case. The Case of Honest Majority without Set-Up. |
Homework 1 due in L12 |
7 | L13: Universal Composition with Joint State. L14: UC Signatures. Equivalence with Existential Unforgeability Against Chosen Message Attacks (as in [GMRi88]). Usage for Certification and Authentication. |
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8 | L15: Authenticated Key Exchange and Secure-Session Protocols. L16: UC Formulation of Public-Key Encryption. Equivalence with CCA Security. |
Homework 2 out in L16 |
9 | L17: Electronic Voting/Introduction L18: Electronic Voting/Introduction (cont.) |
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10 | L19: Verifiable Mix-Nets L20: Verifiable Mix-Nets (cont.) |
Homework 2 due in L20 Homework 3 out in L20 |
11 | L21: Verifiable Mix-Nets (cont.) L22: Verifiable Mix-Nets (cont.) |
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12 | L23: Chaum's Voting Scheme L24: Chaum's Voting Scheme (cont.) |
Homework 3 due in L23 |
13 | L25: Pairing-Based Cryptography L26: Pairing-Based Cryptography (cont.) |
Homework 4 out one day after L25 Homework 4 due in L26 |