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Course Criteria
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3.00 Credits
Prerequisite: CISN 300 with a grade of "C" or better.Course Transferable to CSU Hours: 45 hours LEC; 27 hours LAB This course covers advanced system administration in a client/server network. Topics include confi guring the server environment, implementing system policies, implementing and managing fault-tolerant disk volumes, and managing applications. Additional topics covered are managing connectivity for different network and client operating systems, as well as managing and implementing remote servers. This course covers material required for one of the Microsoft MCSE Networking certifi cation examinations. This course may be taken four times on a different Windows software version.
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3.00 Credits
Prerequisite: CISN 302 with a grade of "C" or better.Course Transferable to CSU Hours: 45 hours LEC; 27 hours LAB This course covers installing, confi guring, and administering Microsoft Windows Active Directory services. It also focuses on implementing Group Policy and understanding the Group Policy tasks required to manage users and computers. Group Policies are used to confi gure and manage the user desktop environment, confi gure and manage software, and implement and manage security settings. Installation and confi guration of Domain Naming System (DNS) and Windows Internet Naming System (WINS) is covered, as well as publishing, replication and the backup of the directory services data base. This course may be taken up to four times on different Windows operating system versions.
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3.00 Credits
Prerequisite: CISN 302 with a grade of "C" or better.Course Transferable to CSU Hours: 45 hours LEC; 27 hours LAB This course covers installing, confi guring, managing, and supporting a network infrastructure using the Microsoft Windows Server products. It focuses on TCP/IP and related services, including Dynamic Host Confi guration Protocol (DHCP), Domain Naming System (DNS), Windows Internet Naming Service (WINS), Internet Information Server (IIS), Public Key Infrastructure (PKI) and certifi cate service, Internet protocol security (IPSec), Network Address Translation (NAT), and remote access. It also covers confi guring Windows as a network router, Virtual Private Network (VPN) connectivity and managing a Windows deployment using Remote Installation Services (RIS). This course may be taken four times on different Windows operating system versions.
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3.00 Credits
Advisory: CISC 350. Course Transferable to CSU Hours: 54 hours LEC This course introduces basic fi ber optical technologies including splices, connectors, optical sources, detectors, optical amplifi ers, splitters and modulators. Optical switching technology and fi ber based standards and protocols are covered along with services such as voice, data and video. Industry procedures and practices are examined.
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3.00 Credits
Prerequisite: CISN 302 with a grade of "C" or better.Course Transferable to CSU Hours: 45 hours LEC; 27 hours LAB This course covers the installation and administration of messaging servers. Topics include the installation, confi guration, management and tuning of mail and messaging services on both servers and clients; mail access protocols; security issues; backup and restore of the messaging database; and Internet connectivity. This course may be taken four times for credit on different software versions.
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3.00 Credits
Advisory: CISC 310. Course Transferable to CSU Hours: 54 hours LEC This course introduces the Computer Science major to methods for solving typical computer problems through algorithm design. Topics covered include assessing and analyzing computer problems in a top-down, divide-and-conquer approach that leads to a programming solution. It also includes programming plans and detailed design documents from which source code versions of programs will be created.
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4.00 Credits
Prerequisite: CISP 360 with a grade of "C" or better.Course Transferable to UC/CSU Hours: 54 hours LEC; 54 hours LAB This course is an introduction to the architecture of microcomputers that use the Intel microprocessor. Topics include machine and assembly language, keyboard and screen manipulation, binary and binary coded decimal (BCD) arithmetic, American Standard Code for Information Interchange (ASCII) and binary conversion, table processing, macros, and subroutines. Machine language programs are traced as an aid to debugging.
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4.00 Credits
Prerequisite: CISP 310 with a grade of "C" or betterGeneral Education: AA/AS Area II(b) Course Transferable to UC/CSU Hours: 54 hours LEC; 54 hours LAB This course is an introduction to the fundamental theories of, and their applications in, digital computer design. Topics include machine code decoding, memory bus cycles, memory, arithmetic and logic unit, registers, latches, Boolean algebra, logic gates, state machines, binary representation, pipelining and Boolean equation optimization. Synthesis of the design of a computer in a hardware description language (HDL) is stressed. All topics are related to programming and overall computer system operations.
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4.00 Credits
Prerequisite: CISP 300, 340, 365, or 370 with a grade of "C" or betterAdvisory: CISP 317 General Education: AA/AS Area II(b) Course Transferable to CSU Hours: 54 hours LEC; 54 hours LAB This is a course in Programming using the language of COBOL to analyze and solve problems found in business and government. The programs use sequential disk fi les for input. Both printed reports and disk fi les are demonstrated output options. Updating of sequential fi les involves the use of multiple fi les as input and output. Current methods of problem solving include programming structure, topdown design, and modular programming techniques. Topics covered include report formatting, control breaks, and single and double arrays.
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4.00 Credits
Prerequisite: CISP 320 with a grade of "C" or better.Course Transferable to CSU Hours: 54 hours LEC; 54 hours LAB This course covers advanced COBOL concepts and programming techniques. The topics include sequential fi le processing, data editing, indexed sequential disk fi le processing, disk sorts, job control language, debugging techniques, table searching, segmentation, and subroutines. Emphasis is on structured design and structured programming utilizing top-down and modular techniques.
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