MCITP MCSE : Security Specialist
GET
CERTIFIED IN JUST 18 DAYS - 2003 PATH
Our daily schedule incorporates
different modes of instruction and learning environments to ensure
that students learn, retain, comprehend, and can apply knowledge
critical to becoming certified.
8:15 am to 9:00 am
Breakfast
9:00 am to 1:00 pm Instruction
1:00 pm to 1:30 pm Lunch
1:30 pm to 5:30 pm Instruction/Hands-on Labs
5:30 pm to 7:30 pm Dinner and Relaxation
7:30 pm to 8:00 pm Wrap Session
8:00 pm to 9:00 pm Practice Drills
Our MCITP 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.
Ethernet is a popular LAN technology that uses Carrier Sense
Multiple Access with Collision Detection (CSMA/CD) between
clients over a variety of cable types. Ethernet is passive,
which means it requires no power source of its own, and thus
does not fail unless the cable is physically cut or improperly
terminated. Ethernet is connected by using a bus topology in
which the cable is terminated at both ends. Ethernet uses
multiple communication protocols and can connect mixed computing
environments, including Netware, UNIX, Windows, and Macintosh.
Access Method
The network access method used for Ethernet is Carrier Sense
Multiple Access with Collision Detection (CSMA/CD). CSMA/CD is a
set of rules that determines how network devices respond when
two devices attempt to send data on the network simultaneously.
Transmission of data by multiple computers simultaneously over
the network causes a collision. Each computer on the network,
including clients and servers, checks the cable for network
traffic. Only when a computer detects that the cable is free and
that there is no traffic on the cable does it send data. After
the computer has transmitted data on the cable, no other
computer can transmit data until the original data has reached
its destination and the cable is again free. After detecting a
collision, a device waits a random delay time and then attempts
to retransmit the message. If the device detects a collision
again, it waits twice as long before trying to retransmit the
message.
Transfer Speed
Standard Ethernet, called 10BaseT, supports data transfer rates
of 10 Mbps over a wide range of cabling. Faster versions of
Ethernet are also available. Fast Ethernet (100BaseT) supports
data transfer rates of 100 Mbps, and Gigabit Ethernet supports
data rates of 1 Gbps (gigabits per second) or 1,000 Mbps.
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