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Physical Layer
Switch - Electronic Patch Panels
High-speed
serial switch fabric technologies are steadily replacing bus solutions,
especially in the realm of high performance computing. We offer switching
solutions for constructing systems based on these new technologies.
With over 8 years of experience in switching fibre channel, our solutions
bring the most experience to the market and the most complete offering
of technology. These switches have been implemented worldwide in both
the commercial and military space.
Industry leading companies such as Brocade, EMC, Engenio, Fujitsu, JNI,
NASA, Lockheed Martin, Raytheon, Boeing, Northup Grumman, and Warner Brothers
to name a few.
LinkXchange® products are scalable, versatile, multi-purpose switches
that provide protocol transparent, low-latency switching for digital signals
up to 4 Gb/sec. With LinkXchange, network and system configurations can
be made quickly and easily through an easy-to-use interface, thus saving
time and money.
They are available in a variety of form-factors. LinkXchange switches
can handle a wide array of protocols including 1/2/4/10G Fibre Channel,
10/100/1000/10G Ethernet, FDDI, SONET/SDH OC-3, OC-12, OC-48, HD, SDI,
as well as many non-standard protocols.
Physical Layer Switching in a Development Laboratory Environment
An ideal application of physical layer switching is the development and
system integration laboratory of a large defense and aerospace project.
Typical of this would be the integration of the avionics system of a multi-role
single seat, agile combat aircraft. The completed avionics system is made
up of numerous subsystems, such as radars, missile warning, visual sensors,
flight control, defensive aids, electronic warfare and so on. These are
each designed and fully tested individually but their performance must
be further tested and verified in a complete functional and representative
electromagnetic environment during system integration. The process of
integration is incremental and repetitive. As each new subsystem or software
capability is added the system must be retested and, in the case of certain
subsystems, the overall system might need to be simplified or reconfigured
in order to properly test all of its functionality.
Each of the subsystems would be connected to the Physical Layer Switch
once only, but routed to any others by changing the configuration. In
the case of a combat aircraft, many such subsystems might use Fibre Channel
in its arbitrated loop topology as this is the most efficient form of
interconnection in the deployed configuration. However, in the laboratory
this is not always the most convenient – if a subsystem is to be
added to the loop, cables must be disconnected and the new subsystem hooked
in. Using a Physical Layer Switch allows arbitrated loops to be created,
modified and tested just by changing the configuration with the knowledge
that the final integrated system will perform in just that same way when
it is eventually deployed in the aircraft.
Physical Layer Switching
Physical Layer Switching (PLS) is analogous to an electronic patch panel
which operates independently of any routing or link protocols encapsulated
in the data transmissions. It can be used to switch serial/digital signals
such as Fibre Channel, Ethernet, High Definition video, Firewire and Serial
FPDP at up to 4.25Gbps from any input to any output or to any number of
outputs (multicasting). Such a PLS passes the protocol completely transparently
so that a signal “in” always results in the same signal “out”.
A switch can have as many as 288 data ports plus an out-of-band Ethernet
control port used to set up the pathways through the PLS and to read the
results of periodic diagnostic testing. The routing of the switch can
be changed at any time via the control port giving great flexibility in
the way the switch can be used. Switches are available in fully packaged
form, typically for use in a development laboratory, or are available
in VMEbus or CompactPCI formats for deployment in harsh environments in
embedded multi-computer systems and subsystems.
Since 1997, Gillaspy Associates has built
a solid reputation for developing strong relationships with our customers
by providing quality solutions and ongoing support.
Products Pages
GLX4000 4.25 Gb/s 288-port
Switch
GLX4000 4.25 Gb/s 144-port Switch
VLX2500 3.125 Gb/s 16-port VME
Switch
VLX2500 3.125 Gb/s 8-port VME Switch
LX2500 2.5 Gb/s 32-port Switch
LX1500e 1.5 Gb/s 32-port Switch
Curtiss Wright
