Main Page
About FCIT
History
Strategy
Administration>
Current Administration
Prevouis Administration
Organization Strucutre
Industrial Advisory Board
PhotoAlbum
Lab Guides
Departments
Computer Science
Information Technology
Information Systems
Academics
Bachelor Programs
Graduate Programs
Executive Programs
Academic Calendar
Admission
Bachelor Degree & Transferring
Admission from the Foundation Year
Transferring to the Faculty
Graduate Studies
Graduate Programs
Executive Programs
Scientific Research
Groups and Units
Research Groups
Research Interests
Distinguished Scientists Program
Faculty Journal
Faculty and Staff
Faculty
CS Department
IT Department
IS Department
Staff
Accreditation Integration & Management System (AIM
Development and Quality Unit
Work at FCIT
Capabilities Under the Spotlight
Code of Ethics
Students
Bachelor
ِAcademic Services
Preparatory Year Courses
Students' Guide
Academic Advising
Laboratories and Facilities
Student rights and duties
Graduate
Polices and Regulations
Students' Guide
Student's Handbook
New Student Orientation
Templates of proposals and theses for masters and
Courses
CS Program
IT Program
IS Program
Alumni Registration
Students Activities
Entrepreneurship Club
Cybersecurity Club
Data Science Club
Programming Club
Community
Industrial partnerships
Cisco Academy
Microsoft Academy
Oracle Academy
Files
Researches
Contact Us
عربي
English
About
Admission
Academic
Research and Innovations
University Life
E-Services
Search
Faculty of Computing and Information Technology
Document Details
Document Type
:
Article In Journal
Document Title
:
An efficient message digest algorithm (MD) for data security
خوارزمية فعالة "لهضم الرسالة" وذلك من أجل تأمين البيانات
Subject
:
Data Security Algorithms
Document Language
:
English
Abstract
:
This paper presents a new proposed message digest (MD) algorithm. Many of its characteristics (application domain, performance and implementation structure) are similar to those of the MD4 family of hash functions. The proposed algorithm takes as input a message of arbitrary length and produces as output a 128/160-bit fingerprint or message digest. New features of the proposed algorithm include the heavy use of data-dependent rotations and the inclusion of integer multiplication as an additional primitive operation. These proposed features are expected to provide a high security level with enhancement in throughput. The proposed algorithm is intended for digital signature applications, where a large file must be compressed in a secure manner before being signed(encrypted) with a private secret key under a public-key crypto system. The proposed algorithm is designed to be quite fast on 32-bit machines. In addition, it does not require any large substitution tables, so that the algorithm can be coded quite compactly. We describe its general characteristics, architecture and implementation, and give a complete specification for MD-160/128. Several test vectors are used to inspect the validity of the proposed algorithm. Also, we compare the software performance of several MD4-based algorithms, which is of independent interest. Simulation results show that the throughput of the proposedMD-128 algorithm is about 76.4 Mbit/s while that of RIPEMD-128 (Race Integrity Primitives Evaluation MD, 128-bit) is about 69.8 Mbit/s.
ISSN
:
0-7803-7101-1
Journal Name
:
IEEE Xplore
Volume
:
1
Issue Number
:
1
Publishing Year
:
1422 AH
2001 AD
Article Type
:
Article
Added Date
:
Monday, May 30, 2011
Researchers
Researcher Name (Arabic)
Researcher Name (English)
Researcher Type
Dr Grade
Email
عبد الحميد رجب
Ragab, Abdul Hamid
Researcher
Doctorate
نبيل إسماعيل
Ismail, Nabil
Researcher
Doctorate
أسامة فرج الله
Farag Allah, Osama
Researcher
Doctorate
Files
File Name
Type
Description
29813.docx
docx
Back To Researches Page