MCSE : Security Specialist
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CERTIFIED IN JUST 18 DAYS - 2003 PATH
Our 18 day
accelerated MCSE 2003: Security+ Training BootCamp provides
information technology professionals with the knowledge and skills
necessary to install, configure, support, and troubleshoot
Microsoft® Windows 2000- and 2003-based networks with a focus on
information security in the enterprise. This is an accelerated
course, designed for computer professionals that require effective,
real-world skill-building and timely certification.
Now Available MCSE
Certification Training
The MCSE 2003: Security+ Boot Camp delivers the greatest value on
the market for Windows 2003 Certification Training. During the
program, students will achieve the following certifications:
- Microsoft Certified Professional (MCP)
- Microsoft Certified Systems Administrator (MCSA)
- CompTIA Security+
- Microsoft Certified Systems Engineer (MCSE)
Call About Onsite Courses at your location
- Course Schedule
- Curriculum
Microsoft MCSE MCSA Certification Training Boot Camp Class Course
The MCSE Boot Camp is unlike any other. With our
class, you will learn more.
Our MCSE 2003: Security+ Accelerated Certification Program is the
most effective, efficient way to learn how to successfully design,
plan, and implement a network infrastructure, Active Directory®
infrastructure, and client deployment on the Windows Server 2003
platform.
Daily lectures, labs, and review sessions are supplemented by a
combination of:
- Proprietary Lab Manual & Microsoft Courseware - developed in
conjunction with Microsoft, adapting Microsoft Official Curriculum
to address the demands of accelerated learners
- Authorized CompTIA Security+ Lab Manual & Courseware
- Self Test™ or Transcender® Testing Software
You connect computers together in a network by using cables to
carry signals between computers. A cable that connects two
computers or network components is called a
segment.
Cables differ in their capabilities and are
categorized according to their ability to transmit data at
varying speeds, with different error rates. The three
major categories of cables that connect most networks are:
-
Twisted-pair
-
Coaxial
-
Fiber-optic
Twisted-Pair Cable
Twisted-pair cable (10baseT) consists of two insulated strands
of copper wire twisted around each other. There are two types of
twisted-pair cable: unshielded twisted pair (UTP) and shielded
twisted pair (STP). These are the most common cables used in
networks and can carry signals for 100 meters (about 328 feet).
-
UTP cable is the most popular type of twisted-pair cable and
is the most popular LAN cable.
-
STP cable uses a woven copper-braid jacket that is more
protective and of a higher quality than the jacket used by
UTP. STP also uses a foil wrap around each of the wire
pairs. This gives STP excellent shielding that protects the
transmitted data from outside interference, which in turn
allows STP to support higher transmission rates over longer
distances than UTP. Twisted-pair cabling uses Registered
Jack 45 (RJ-45) connectors to connect to a computer. These
are similar to Registered Jack 11 (RJ-11) connectors.
Coaxial Cable
Coaxial cable consists of a copper wire core surrounded by
insulation, a braided metal shielding, and an outer cover. The
core of a coaxial cable carries the electronic signals that make
up the data. This wire core can be either solid or stranded.
There are two types of coaxial cable: ThinNet coaxial cable
(10Base2) and ThickNet coaxial cable (10Base5). Coaxial cabling
is a good choice when transmitting data over long distances and
for reliably supporting higher data rates when using less
sophisticated equipment.
Coaxial cable must be terminated at each end.
-
ThinNet coaxial cable can carry a signal for approximately
185 meters (about 607 feet).
-
ThickNet coaxial cable can carry a signal for 500 meters
(about 1,640 feet).
Both ThinNet and ThickNet cable use a connection component,
known as a BNC connector, to make the connections between the
cable and the computers.
Fiber-Optic Cable
Fiber-optic cable uses optical fibers to carry digital data
signals in the form of modulated pulses of light. Because
fiber-optic cable carries no electrical impulses, the signal
cannot be tapped and its data cannot be stolen. Fiber-optic
cable is good for very high-speed, high-capacity data
transmission because the signal is transmitted very quickly and
with very little interference. A disadvantage of fiber-optic
cable is that it breaks easily if you are not careful during
installation. It is more difficult to cut than other cables and
requires special equipment to cut it
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