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MCSE : Security Specialist GET CERTIFIED IN JUST 18 DAYS - 2003 PATH Our MCSE 2003: Security+ Program: Allows you to achieve your certifications in a fraction of the time of 'traditional training' while delivering industry-leading exam passing percentages Helps students grasp complex technical concepts more easily by identifying and catering to individual student learning styles through a mixed visual, auditory and kinesthetic-tactual delivery system Enhances retention by employing accelerated learning techniques focused on committing information to long-term memory Albany, New York Albuquerque, New Mexico Alexandria, Virginia Anchorage, Alaska Atlanta, Georgia Austin, Texas Baltimore, Maryland Birmingham, Alabama Bismarck, North Dakota Boise, Idaho Boston, Massachusetts Charlotte, North Carolina Cheyenne, Wyoming Chicago, Illinois Cincinnati, Ohio Cleveland, Ohio Columbus, Ohio Concord, New Hampshire Dallas, Texas Denver, Colorado Des Moines, Iowa Detroit, Michigan Ft. Lauderdale, Florida Ft. Wayne, Indiana Honolulu, Hawaii Houston, Texas Huntsville, Alabama Indianapolis, Indiana Jackson, Mississippi Jackson, Wyoming Jacksonville, Florida Lexington, Kentucky Lincoln, Nebraska Los Angeles, California Las Vegas, Nevada Miami, Florida Milwaukee, Wisconsin Minneapolis, Minnesota Montpelier, Vermont Nashville, Tennessee New Orleans, Louisiana New York City Norfolk, Virginia Oklahoma City, Oklahoma Omaha, Nebraska Orlando, Florida Philadelphia, Pennsylvania Phoenix, Arizona Pierre, South Dakota Pittsburgh, Pennsylvania Portland, Maine Portland, Oregon Providence, Rhode Island Raleigh-Durham, North Carolina Richmond, Virginia Rockford, Illinois Sacramento, California St. Louis, Missouri Salt Lake City, Utah San Antonio, Texas San Diego, California San Francisco, California San Jose, California Sandestin, Florida Seattle, Washington Tulsa, Oklahoma Wichita, Kansas Wilmington, Delaware Canada Ontario British Columbia Vancouver. Toronto Montreal Calgary Winnipeg Quebec City Ottawa Edmonton. Repeaters Repeaters receive signals and retransmit them at their original strength and definition. This increases the practical length of a cable. (If a cable is very long, the signal weakens and becomes unrecognizable.) Installing a repeater between cable segments enables signals to travel farther. Repeaters do not translate or filter signals. For a repeater to work, both segments connected to the repeater must use the same access method. For example, a repeater cannot translate an Ethernet packet into a token ring packet. Repeaters do not act as filters to restrict the flow of problem traffic. Repeaters send every bit of data from one cable segment to another, even if the data consists of malformed packets or packets not destined for a computer on another segment.   Use a repeater to:   Connect two segments of similar or dissimilar cabling. Regenerate the signal to increase the distance transmitted. Transmit all traffic in both directions. Connect two segments in the most cost-effective manner.   Hubs Hubs are connectivity devices that connect computers in a star topology. Hubs contain multiple ports for connecting to network components. If you use a hub, a break in the network does not affect the entire network; only the segment and the computer attached to that segment fail. A single data packet sent through a hub goes to all connected computers.   There are two types of hubs:   Passive Hubs. Send the incoming signal directly through their ports without any signal processing. These hubs are usually wiring panels. Active Hubs. Sometimes called multiport repeaters, receive incoming signals, process the signals, and retransmit them at their original strengths and definitions to the connected computers or components.   Use a hub to: Easily change and expand wiring systems. Use different ports to accommodate a variety of cable types. Enable central monitoring of network activity and traffic.