The tutorial is done at a reasonably high level, there are about two dozen books which cover things like DES encryption done at the bit-flipping level so I haven't bothered going down to this level at all. Instead I cover encryption protocols, weaknesses, applications, and other crypto security-related material. Since the slides are accompanying material for a proper tutorial, there's a lot of extra context which isn't available just by reading the slides. Bear in mind that some of the claims and comments on the slides need to be taken in the context of the full tutorial.
Accompanying the slides are about 150 images, unfortunately I can't make these available for copyright reasons.
The technical material consists of 7 parts:
Part1, 66 slides: Security threats and requirements, services and mechanisms, historical ciphers, cipher machines, stream ciphers, RC4, block ciphers, DES, breaking DES, brute-force attacks, other block ciphers (triple DES, RC2, IDEA, Blowfish, CAST-128, Skipjack, GOST, AES), block cipher encryption modes, public-key encryption (RSA, DH, Elgamal, DSA), elliptic curve algorithms, hash and MAC algorithms (MD2, MD4, MD5, SHA-1, RIPEMD-160, the HMAC's).
Part2, 104 slides: Key management, key distribution, the certification process, X.500 and X.500 naming, certification heirarchies, X.500 directories and LDAP, the PGP web of trust, certificate revocation, X.509 certificate structure and extensions, certificate profiles, setting up and running a CA, CA policies, RA's, timestamping, PGP certificates, SPKI, digital signature legislation.
Part3, 96 slides: IPSEC, ISAKMP, Oakley, Photuris, SKIP, ISAKMP/Oakley, SSL, non-US strong SSL, SGC, TLS, S-HTTP, SSH, SNMP security, email security mechanisms, PEM, the PEM CA model, PGP, PGP keys and the PGP trust model, MOSS, PGP/MIME, S/MIME and CMS, MSP.
Part4, 55 slides: User authentiction, Unix password encryption, LANMAN and NT domain authentication and how to break it, Netware 3.x and 4.x authentication, Kerberos 4 and 5, Kerberos-like systems (KryptoKnight, SESAME, DCE), authentication tokens, SecurID, S/Key, OPIE, PPP PAP/CHAP, PAP variants (SPAP, ARAP, MSCHAP), RADIUS, TACACS/XTACACS/TACACS+, ANSI X9.26, FIPS 196, biometrics, PAM.
Part 5, 27 slides: Electronic payment mechanisms, Internet transactions, payment systems (Netcash, Cybercash, book entry systems in general), Digicash, SET, the SET CA model.
Part 6, 44 slides: Why security is hard to get right, buffer overflows, protecting data in memory, storage sanitisation, data recovery techniques, random number generation, TEMPEST, snake oil crypto, selling security.
Part 7, 54 slides: Smart cards, smart card file structures, card commands, electronic purse standards, attacks on smart cards, voice encryption, GSM security and how to break it, traffic analysis, anonymity, mixes, onion routing, mixmaster, crowds, steganography, watermarking, misc. crypto applications (hashcash, PGP Moose).
Here endeth the technical material. The final part goes into crypto politics.
Part 8, 63 slides: History of crypto politics, digital telephony, Clipper, Fortezza and Skipjack, post-Clipper crypto politics, US export controls, effects of export controls, legal challenges, French and Russian controls, non-US controls (Wassenaar), Menwith Hill, Echelon, blind signal demodulation, Echelon and export controls, Cloud Cover, UK DTI proposals, various GAK issues.