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...TCOM 503/EE 509 Problem Set 7 Due: 11/23/05 (Please hand in during class or to Ms. Gorte before class.)
Review: Overheads from the Volume III of the slide deck. Read: Notes on Lasers and Light. Read: Chapters 4 & 5 from Palais Dwights Office Hours: 4...
...TCOM 503/EE 509 Problem Set 2 Due: 09/28/05
Read: Chapters 1, 2 and 3 of the textbook by Palais (using 5th edition). Review: Overheads from the Volume I of bulk pack. Review: Complex numbers and vectors. Dwights Office Hours: 4:35 5:45 on Wednesday,...
...TCOM 503/EE 509 Problem Set 5 Due: 10/21/05 @ 12 Noon in 203 Moore
Review: Overheads from the Volume II of bulk pack. Review: Fourier Transforms use your own text of one of the texts in the bulk pack of readings on Fourier Transforms (the first one ...
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Advanced TCOM-606: Mobile Communications Systems 1 TCOM-606: Advanced Mobile Communications Systems Spring 2008 Instructor: Joe Herman S & T 2 Room 235 Tel.: x1645 E-mail: jherman2@gmu.edu Time and Place: Monday 7:20pm 10:00pm Innovation Hall - Room 203 Office Hours: Monday 6:30pm 7:10pm and by appointment Required Texts: Harte, Levine, and Kikta, 3G Wireless Demystified, McGraw-Hill, 2002 Smith and Collins, 3G Wireless Networks, McGraw-Hill, 2002 References: 1. Kaveh Pahlavan and Prashant Krishnamurthy, Principles of Wireless networks, Prentice Hall, ISBN 0-13-093003-2, 2002 2. Savo G. Glisic, Advanced Wireless Communications: 4G Technologies, John Wiley & Sons, ISBN: 0470867760, 2004 3. William Stallings: Wireless Communications and Networks, Prentice Hall, ISBN 0-13040864-6, 2002 4. Jon W. Mark and Weihua Zhuang, Wireless Communications Networking, Prentice Hall, ISBN 0-13-040905-7, 2003 5. Clint Smith and Daniel Collins, 3G Wireless Networks, New York, NY, McGraw-Hill, 2002 6. David J. Goodman, Wireless Personal Communications Systems, Reading, MA, AddisonWesley, 1997 7. Cameron Kelly Coursey, Understanding Digital PCS: The TDMA Standard, Boston, MA, Artech House, 1998 8. Joachim Tisal, The GSM Evolution: One Step Towards UMTS Second Edition, New York, NY, John Wiley and Sons, 2001 9. Vijay Garg, Wireless Network Evolution: 2G to 3G, Upper Saddle River, NJ, PrenticeHall, 2001 10. Harri Holma and Antti Toskala, WCDMA for UMTS Radio Access for Third Generation Mobile Communications, New York, NY, John Wiley and Sons, 2001 11. Charles N. Thurwachter, Wireless Networking, Prentice Hall, ISBN 0-13-088366-2, 2002 TCOM-606: Advanced Mobile Communications Systems 2 Homework: Reading assignments will be assigned each week. Problem solving (graded) assignments will be given as appropriate to the lecture material. Quizzes: Throughout the semester, quizzes will be given to reinforce material provided in class and to prepare the student for the midterm and final exams. Quizzes will be announced one week prior to the quiz date Exams: There will be both a midterm and a final comprehensive exam. The final will be given during the assigned exam time. Final Grades: Final grades will be determined as a weighted average of the homework, quiz score, midterm, and final exam in the following way: Homework Quiz Midterm Final 15% 20% 30% 35% TCOM-606: Advanced Mobile Communications Systems 3 Tentative Course Schedule Week 1 Introduction Overview of wireless communication systems Paging and 1st generation cellular services Transition from analog cellular to digital cellular (US vs. European experience) Features and services of 2G, 2.5G, 2.75G, and 3G systems (i.e. advanced calling services, mobile data, mobile internet, and etc.).. Week 2 Wireless Communication Concepts Propagation models; Multiple access methods; Wireless layer protocols; Antennas Week 3 Cellular System Concepts Market and technology overview; Cell splitting; Cellular system economics, cellular design concepts; intersystem operation and roaming Week 4 Personal Communications Services Overview PCS philosophy Advanced calling services and features Worldwide spectrum allocations and implementations Week 5 2nd Generation FDMA/TDMA Cellular Systems GSM Part 1 over-the-air design concepts Week 6 MID-TERM EXAM TCOM-606: Advanced Mobile Communications Systems 4 Week 7 2nd Generation FDMA/TDMA Cellular Systems GSM Part 2 Handoff; Roaming; Security Week 8 CDMA Cellular Systems CDMA concepts IS-95 (CDMAone) Part 1 over-the-air design concepts Week 9 CDMA Cellular Systems IS-95 (CDMAone) Part 2 Handoff; Power Control; Security Week 10 CDMA2000 Week 11 Transition to Third Generation GSM (2.75G) GSM data service evolution from circuit-switched to packet-switched, packet switching center, Mobile IP SMS, MMS, E-SMS GPRS and EDGE (EGPRS) Weeks 12-13 WCDMA The move to 3rd Generation GSM Over-the-air concepts; Handoff; Power Control; Security HSDPA and HSUPA Week 14 Competitive/Complementary Technologies Satellite Mobile Systems WiFi and WiMax Week 15 (scheduled exam date) Final exam
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George Mason >> TCOM >> 521 (Fall, 2008)
November 20, 2007 TCOM 521 Systems Engineering For Telecommunications Management Pre-Requisites: Term Time: Course Meets: Location: Instructor: Course Objectives TCOM 500 Spring 2008 4 30 PM to 7:10 PM on Mondays January 28-May 12 D.K.Sachdev (dksa...
George Mason >> TCOM >> 503 (Spring, 2008)
George Mason University School of Information Technology and Engineering TCOM 503/513 Fiber Optic Networks/Optical Communications Networks Version 11/26/07 Course meets 4:30-7:10 in Enterprise Hall, Room 278 This pair of courses covers the basic mat...
George Mason >> INFT >> 841 (Fall, 2009)
Solution of Problem 4 Consider the system of section 3.7.2, and assume that the matrix G that should be in front of wk-1 is not an identity matrix, but a general n x 1 column vector; derive a modified version of equation (3.112) corresponding to this...
George Mason >> TCOM >> 607 (Spring, 2008)
TCOM 607: Satellite Communications Pre-Requisites: Term Time: Schedule: TCOM 500 or ECE 540, and TCOM 551 Spring 2008 Thursdays, 4:30 - 7:10 p.m. Jan. 24 to May 8 Mar. 13 (Spring Break No Class) Location: Krug Hall, Room 242 Instructor: Dr. Seema Su...
George Mason >> TCOM >> 610 (Fall, 2008)
TCOM 610 Border Gateway Protocol Routing George Mason University Spring 2008 Instructor Bob Hockensmith eMail: bhockens@gmu.edu Office Hours: I prefer to handle by email; however, other arrangements can be made. Class Schedule Spring Session Days: T...
George Mason >> TCOM >> 590 (Fall, 2008)
TCOM 590 Sec 003 Incident Response and Corporate Forensics Department of Electrical and Computer Engineering George Mason University Spring, 2008 Syllabus revised 11/19/07 Administrative Information Instructor: Dr. Aleksandar Lazarevich Email: Ph...
George Mason >> TCOM >> 500 (Fall, 2008)
Modern Telecommunications -TCOM 500 George Mason University Spring 2008 Eliud Bonilla, Adjunct Professor e-mail: ebonilla@gmu.edu Experience: Over 20 years in the telecommunications field Announcements: The course will begin on January 23 and will en...
George Mason >> TCOM >> 690 (Fall, 2008)
IEEE Std 1220-1998 (Revision of IEEE Std 1220-1994) IEEE Standard for Application and Management of the Systems Engineering Process Sponsor Software Engineering Standards Committee of the IEEE Computer Society Approved 8 December 1998 IEEE-SA Sta...
George Mason >> ECE >> 665 (Spring, 2009)
Errata Introduction to Fourier Optics Second Edition December 11, 1999 First determine the number of the printing of the book you have. This can be done by examining the page on which the ISBN number and the Library of Congress Catalog Card numbers o...
George Mason >> INFT >> 841 (Fall, 2009)
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George Mason >> TCOM >> 505 (Spring, 2008)
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George Mason >> TCOM >> 510 (Spring, 2008)
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George Mason >> ECE >> 734 (Spring, 2008)
EE 734 Detection and Estimation Theory Call Number 17353 Spring Semester 2007 Instructor: Dr. John A. Tague Oce of Naval Research 875 North Randolph Street, Suite 1425 Arlington, Virginia 22203 703-696-4399 jtague@gmu.edu Meeting Time: 1:00-4:00 p.m...
George Mason >> TCOM >> 662 (Fall, 2008)
TCOM662 Advanced Secure Networking Department of Electrical and Computer Engineering George Mason University Spring, 2006 Course Description This is TCOMs most advanced network security course, designed to teach the current state of art and advanced...
George Mason >> ECE >> 646 (Fall, 2008)
ECE 646 Fall 2004 Multiple-choice test 1. (1 pt) Arrange the following ciphers in the order of the increasing measure of roughness for the ciphertext obtained by encrypting 1000-letter message with a given cipher (start from the cipher giving the sm...
George Mason >> ECE >> 448 (Fall, 2008)
Practice Hands-on Midterm Exam ECE 448 Spring 2006 All Lab Sections 5 bonus points Instructions: Zip all your deliverables into an archive <last_name>.zip and submit it through WebCT no later than Friday, March 10, 11:55 PM EST. Hands-on Design Pr...
George Mason >> ECE >> 645 (Fall, 2008)
Lecture 5 (portrait slides) Conditional-Sum Adder Parallel Prefix Network Adders Conditional Adder 1 3-level Conditional-Sum Adder xi+3 yi+3 xi+2 yi+2 xi+1 yi+1 xi yi 2 c=1 c=0 2 1 1 2 c=1 c=0 2 2 c=1 c=0 2 1 1 2 c=1 c=0 2 1+1 1 1 2 2 ...
George Mason >> ECE >> 331 (Fall, 2008)
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George Mason >> ECE >> 331 (Fall, 2008)
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George Mason >> ECE >> 332 (Fall, 2008)
file:/Bzy/khintz/gmu/courses/ece537/sample_code/kohlbrenner_testbench.txt - Author : Paul Kohlbrenner (pkohlbr1@gmu.edu, paul@pk40.com) - Course : ECE545, Homework 3, Problem 2.12 - File Name : hw3-problem12-tb.vhd - Design Units : TriState - Purpos...
George Mason >> ECE >> 543 (Fall, 2009)
Facts and myths of Enigma: breaking stereotypes Kris Gaj1 and Arkadiusz Orlowski2 1 George Mason University, Electrical and Computer Engineering 4400 University Drive, Fairfax, VA 22030, U.S.A. kgaj@gmu.edu 2 Institute of Physics, Polish Academy of ...
George Mason >> ECE >> 543 (Fall, 2009)
ECE 646 Cryptography and Computer Network Security Course web page: http:/ece.gmu.edu/courses/ECE543 ECE web page Courses Course web pages ECE 646 Kris Gaj Assistant Professor at GMU since Fall 1998 Research and teaching interests: cryptography...
George Mason >> ECE >> 543 (Fall, 2009)
ECE 646 - Lecture 1 Security Services Need for information security widespread use of data processing equipment: computer security widespread use of computer networks and distributed computing systems: network security Security Threats in Bankin...
George Mason >> ECE >> 543 (Fall, 2009)
Facts Kris Gaj Who reinvented the wheel? U.S.A.: Edward Hugh Hebern (1869-1952) first ideas in 1915 and 1917, filed for U.S. patent in 1921 Germany: Arthur Scherbius (1878-1929) German pa...
George Mason >> ECE >> 543 (Fall, 2009)
Lecture 10 RSA - Basics Public Key (Asymmetric) Cryptosystems Public key of Bob - KB Private key of Bob - kB Network Encryption Decryption Alice Bob Trap-door one-way function Whitfield Diffie and Martin Hellman New directions in cryptography, ...
George Mason >> ECE >> 543 (Fall, 2009)
ECE 646 - Lecture 14 Cryptographic standards Secret-key cryptography standards Federal standards Banking standards International standards NIST FIPS 46-1 DES FIPS 46-2 DES FIPS 81 Modes of operation FIPS 46-3 Triple DES ANSI X3.92 DES ISO ISO 8...
George Mason >> ECE >> 543 (Fall, 2009)
Project Preferences as of 09/17/2003 Software Education SE-1: Educational software for a cryptographic laboratory. Analysis of public-domain software SA-1 Survey of libraries of operations on large integers and elements of the Galois field, and thei...
George Mason >> ECE >> 543 (Fall, 2009)
ECE 646 - Lecture 3 Types of Cryptosystems Implementation of Security Services Secret-key (Symmetric) Cryptosystems key of Alice and Bob - KAB key of Alice and Bob - KAB Network Encryption Decryption Alice Bob 1 Key Distribution Problem User 2 ...
George Mason >> ECE >> 543 (Fall, 2009)
Lecture 16 Cryptographic standards Public-key Cryptography Standards international standards ISO ISO unofficial industry standards RSA Labs PKCS PKCS industry standards IEEE P1363 bank standards ANSI ANSI X9 federal standards NIST FIPS PKCS Pu...
George Mason >> ECE >> 543 (Fall, 2009)
ECE 646 Cryptography and Computer Network Security Course web page: http:/ece.gmu.edu/courses/ECE543 ECE web page Courses Course web pages ECE 646 Kris Gaj Assistant Professor at GMU since Fall 1998 Research and teaching interests: cryptography...
George Mason >> ECE >> 543 (Fall, 2009)
Tentative Project Preferences as of 09/15/04 Software Projects - Fall 2004 Educational software KRYPTOS - Educational software for a cryptographic laboratory. Noah Dowd noahdowd@yahoo.com Mayur Enjamoori menjamoo@gmu.edu Aparna Kasturi akasturi@gm...
George Mason >> ECE >> 543 (Fall, 2009)
ECE 646 - Lecture 1 Security Services Need for information security widespread use of data processing equipment: computer security widespread use of computer networks and distributed computing systems: network security Security Threats in Bankin...
George Mason >> ECE >> 543 (Fall, 2009)
ECE646 Lab #3 Kryptos Properties of secret-key ciphers A final report must be submitted by WebCT and is due on Tuesday, November 15, by 11:55 PM. BACKGROUND Expected Background: understanding of Lectures 7 and 8 Required Reading: W. Stallings, Cryp...
George Mason >> ECE >> 543 (Fall, 2009)
PRACTICE9 Give 3 or 4 signi cant digits for oating point numerical answers. Your psvn for this assignment is . that can be obtained by using RSA are: A. authentication and non-repudiation B. con dentiality and authentication C. integrity and authen...
George Mason >> ECE >> 543 (Fall, 2009)
ECE 646 - Lecture 2 Basic Concepts of Cryptology CRYPTOLOGY CRYPTOGRAPHY CRYPTANALYSIS from Greek cryptos - hidden, secret logos - word graphos - writing 1 Basic Vocabulary encryption (encipherment) message (plaintext, clear message) M Sender ...
George Mason >> ECE >> 543 (Fall, 2009)
Software Projects - Fall 2005 Educational software KRYPTOS - Educational software for a cryptographic laboratory. Padmanabhan Raman praman@gmu.edu Michael J. Lambert mlamber3@gmu.edu George Koodarappally gkoodara@gmu.edu Philip Hines - phines1@gm...
George Mason >> ECE >> 543 (Fall, 2009)
ECE 646 - Lecture 8 Secret-Key Ciphers: RC5 & IDEA - Revised RC5 Ron Rivest, MIT, 1994 (Rons Code 5, Rivests Cipher 5) variable key length (40 bits in the former export version, 128 bits to achieve the same strength as IDEA) variable block size...
George Mason >> ECE >> 543 (Fall, 2009)
G u a r a n t e e i n g T r u s t w o r t h y E l e c t r o n i c R e c o r d s TM Third-party Digital Timestamping Provides a reliable means of verifying time and content integrity independent of an organizations internal processes and controls. ...
George Mason >> ECE >> 543 (Fall, 2009)
ECE 646 - Lecture 12 Key management Using the same key for multiple messages M1 M2 M3 M4 M5 time EK time C1 C2 C3 C4 C5 1 Using Session Keys & Key Encryption Keys K1 K2 EKEK EKEK(K1) M1 M2 EKEK(K2) M3 EKEK(K3) M4 M5 time K3 time time EK1...
George Mason >> ECE >> 543 (Fall, 2009)
ECE 646 Lecture 11a Hash functions new attacks Hash function algorithms Customized (dedicated) MD2 MD4 Rivest 1988 Rivest 1990 Based on block ciphers MDC-2 MDC-4 Based on modular arithmetic MASH-1 1988-1996 IBM, Brachtl, Meyer, Schilling, 1988 ...
George Mason >> ECE >> 746 (Spring, 2008)
1 Analysis of Existing Implementations of True Random Number Generators M.Dugan, MS Computer Engineering Student, GMU AbstractThe goal of this project is to develop evaluation criteria for analyzing True Random Number Generators. Using these evalua...
George Mason >> ECE >> 447 (Fall, 2008)
ECE 447 Lab Assignment #1: A/D Simulation Assigned September 5, 6, 7, 2006. Due Dates: 1. Demonstrations of the lab assignment must be completed by the first 20 minutes of your lab on September 11, 12, 13, 2006. 2. The lab-write up and the source co...
George Mason >> ECE >> 448 (Fall, 2008)
Midterm Exam ECE 448 Spring 2007 Tuesday Section (15 points) Instructions Zip all your deliverables into an archive <last_name>.zip and submit it through WebCT no later than Tuesday, March 20, 10:30 PM EST. Introduction Design a digital system that...
George Mason >> ECE >> 646 (Fall, 2008)
ECE646 Fall 2008 Lab 1: Pretty Good Privacy Part 2 PLEASE READ THE FOLLOWING INSTRUCTIONS CAREFULLY: 1. You are required to address all the questions listed in this manual, in your final report. 2. All e-mails exchanged with other students as a par...
George Mason >> ECE >> 646 (Fall, 2008)
ECE 646 Fall 2002 Final Exam Exam track December 10, 2002 Multiple-choice test Choose 6 out of 7 problems 1. (2 pts) Precomputations (computations performed before a message or a ciphertext becomes available) can be used to speed up the following cr...
George Mason >> ECE >> 646 (Fall, 2008)
ECE 646 Laboratory 3 Implementation and Breaking of Public Key Cryptosystems using MAGMA Software access MAGMA (High performance software for Algebra, Number Theory, and Geometry) is available on the GMU server called enigma.gmu.edu, which can be acc...
George Mason >> ECE >> 646 (Fall, 2008)
PGP Lab Introduction Lab1 Section 3 GMU ID Public Card Name: Kris Gaj Email Address: kgaj01@yahoo.com Public Key Id: Finger Print: 0x46CDB96C 660E 3CCC 3095 1A21 B9BC 0F6F 2678 C362 46CD B96C Lab1 Section 3 A DIRECT TRUST GROUP GMU ID P.Card P.C...
George Mason >> ECE >> 646 (Fall, 2008)
ECE 646 Fall 2005 Multiple-choice test 1. (1 pt) Arrange the following ciphers in the order of the increasing measure of roughness for the ciphertext obtained by encrypting 1000-letter message with a given cipher (start from the cipher giving the sm...
George Mason >> ECE >> 646 (Fall, 2008)
ECE646 Lab #2 CrypTool Historical Ciphers A final report should be submitted using Blackboard and is due on Sunday, November 15, by 11:59 PM. BACKGROUND Expected Background: understanding of Lecture 6, Historical Ciphers Recommended Reading: W. Sta...
George Mason >> ECE >> 646 (Fall, 2008)
ECE 646, Midterm Exam 2 Fall 2001 Multiple-choice test 1. (1 pt) 1024-bit RSA can be securely used in the following block cipher modes (choose as many as appropriate): A. ECB B. counter mode with j=8 C. CFB with j=64 D. CBC E. OFB with j=1024 2. (1 p...
George Mason >> ECE >> 646 (Fall, 2008)
Multiple-choice test 1. (1 pt) The ciphertext character frequency shown in the attached figure most likely corresponds to the following cipher A. B. C. D. E. affine cipher with a=1 and b=2 Vigenere cipher with the period p=2 transposition cipher shif...
George Mason >> ECE >> 646 (Fall, 2008)
ECE646 Fall 2007 Lab 1: Pretty Good Privacy Part 1 PLEASE READ THE FOLLOWING INSTRUCTIONS CAREFULLY: 1. PART I, must be performed before the lecture on Wednesday, September 24th. In order to perform the following lab, you are required to have an u...
George Mason >> ECE >> 2005 (Fall, 2009)
PROJECT SPECIFICATION Hoang Le Steve Hubbard 1. Introduction and motivation In this project, the existing VHDL code which was written to run in SRC-6 (based on Xilinx FPGAs Virtex II 6000) will be examined and optimized to get to the desired speed. I...
George Mason >> ECE >> 646 (Fall, 2008)
PROJECT SPECIFICATION Hoang Le Steve Hubbard 1. Introduction and motivation In this project, the existing VHDL code which was written to run in SRC-6 (based on Xilinx FPGAs Virtex II 6000) will be examined and optimized to get to the desired speed. I...
George Mason >> ECE >> 2005 (Fall, 2009)
Implementation of Elliptic Curve Encryption in the GAIM Instant Messenger Client Matthew Estes Philip Hines Michael Lambert Objective Implement Elliptic Curve Encryption (ECC) support as a plug-in for the open source instant messenger client GAIM. A...
George Mason >> ECE >> 646 (Fall, 2008)
Implementation of Elliptic Curve Encryption in the GAIM Instant Messenger Client Matthew Estes Philip Hines Michael Lambert Objective Implement Elliptic Curve Encryption (ECC) support as a plug-in for the open source instant messenger client GAIM. A...
George Mason >> ECE >> 2005 (Fall, 2009)
Survey of the commercially available chips and IP cores implementing cryptographic algorithms Prerna A. Arora Michael R. Dugan Prajakta G. Gogte Introduction: Due to an increasing demand for system security, a large computational burden is being plac...
George Mason >> ECE >> 646 (Fall, 2008)
Survey of the commercially available chips and IP cores implementing cryptographic algorithms Prerna A. Arora Michael R. Dugan Prajakta G. Gogte Introduction: Due to an increasing demand for system security, a large computational burden is being plac...
George Mason >> ECE >> 2005 (Fall, 2009)
ECE 646 Project Specification Hardware Implementation of Twofish Block Cipher Submitted by - Ranjeeta Patil Introduction: Twofish was one of the five finalists in the AES contest. It is a 128-bit block cipher and supports key sizes of 128, 192 and ...
George Mason >> ECE >> 646 (Fall, 2008)
ECE 646 Project Specification Hardware Implementation of Twofish Block Cipher Submitted by - Ranjeeta Patil Introduction: Twofish was one of the five finalists in the AES contest. It is a 128-bit block cipher and supports key sizes of 128, 192 and ...
George Mason >> ECE >> 646 (Fall, 2008)
Capabilities and Performance of Java/C+/JNI Implementations of NTRU Public Key Cryptosystem Krishnapriya Kadati, Karthika Bhimavarapu and George Koodarappally History of NTRU Relatively new Public Key Cryptosystem First introduced in CRYPTO 96 F...
George Mason >> ECE >> 646 (Fall, 2008)
Analysis of Enterprise VPNs Project Presentation, ECE646- Dr. Kris Gaj Arif Basha December 19, 2005 Agenda Basics Description of Technologies Strengths & Weaknesses Test Lab Details Known Threats Market Survey Recommendations Conclusion Basics What...
George Mason >> ECE >> 646 (Fall, 2008)
Cellular Digital Packet Data Specification of wireless access to the internet and other public packet switched networks Basic components of CDPD T T T T M-ES Mobile end system MDBS Mobile database station MD-IS Mobile data intermediate system FES Fi...
George Mason >> ECE >> 646 (Fall, 2008)
Project SPI-2 Modulo Reduction of Large Integers using the Classical, Barrett, Montgomery Team Members: Bich-Ha Phung Michael Johnson Thomas Shackelford Sukhonthip Rueangvivatanakij Classical Algorithm (pseudo code ) The pseudo code of the Classic...
George Mason >> ECE >> 646 (Fall, 2008)
SHA-256 in FPGA A presentation by Damian Fedoryka Introduction Maps a message to a digest Secure 2n/2 attacks necessary (Birthday Paradox) SHA-256 as secure as AES-128 Standardized by Federal Government in 2002 Hash Application Digital Signat...
George Mason >> ECE >> 636 (Fall, 2009)
Lecture 14 Hardware Implementations of Cryptography Software or hardware? SOFTWARE security of data during transmission HARDWARE speed random key generation access control to keys tamper resistance (viruses, internal attacks) low cost flexibility...
George Mason >> ECE >> 636 (Fall, 2009)
(&(6SULQJ 9LVKQXPDOD5DQJDUDMDOX 3KRQH (0$,/YLVKQXPDOD#KRWPDLOFRP 3URMHFW6SHFLILFDWLRQ\'RFXPHQW Survey of the Capabilities of Cryptographic Smart Cards for a University . . . Table of Contents. . . . Introduction..1 . . Comparisons .1 Implementation...
George Mason >> ECE >> 636 (Fall, 2009)
Survey of Public Key Infrastructure Software Packages Project Specification Kevin Magee Matt Rutherford ECE 636 Spring 2001 Prof. Gaj Overview We plan to survey commercial software packages supporting Public Key Infrastructure (PKI). We will begin b...
George Mason >> ECE >> 636 (Fall, 2009)
S tatistical T e s t s for Randomness Chandrika Lanka Harini Vasudevan Swetha Manne Objective Study and test the existing Pseudorandom Number Generators using public domain implementation of NIST Statistical Test Suite and integrate the results wi...
George Mason >> ECE >> 636 (Fall, 2009)
3 IN 1 HARDWARE IMPLEMENTATION OF RJINDAEL CIPHER ECE636 PROJECT TIM GREMBOWSKI MAY 5, 2001 AGENDA RATIONALE IMPLEMENTATION PLAN OPERATIONAL OVERVIEW KEY UNIT COMPARE / STATUS ENCRYPTION UNIT COMPARE / STATUS OPPORTUNITIES IMPLEMENTATION PLAN WHY 3...
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