Qwest
Network Map
Network Redundancy
High Tech Web Service uses intelligent end-user
routing software called Border Gateway Protocol (BGP) between there
OC-3's. BGP identifies which path is the most efficient for each
data packet and then routes the packet to its destination on the
fastest path. This increases the speed at which web pages sent from
our NOC arrive at their destination.
Studies have shown that the most common reason
for downtime is circuit failure on Tier 1 provider backbones, the
major data highways. To guard against this potential problem, we
have two Tier-1 providers. If one experiences problems, we can route
traffic down another one. Furthermore, because we are OnNet with
Level(3) and Qwest, we share their digital distribution architecture,
which includes private peering network connections to major Internet
carriers such as MCI, Sprint, UUNET, EUNET, AT&T, AOL, Best,
Erols, @Home, IBM Advantis and others. These private peering arrangements
allow High Tech Web Service to quickly and efficiently exchange
packets of data with every major backbone carrier in a one-to-one
environment.
Network Reliability
Industry analysis reveals that 70% of downtime
of over 10 hours with any ISP is caused by telephone circuit failure.
With High Tech Web Service, Inc, circuit failure is virtually eliminated
as we are with Level(3) and Qwest.
High Tech Web Service providers also have peering
connections with other major Tier 1 providers that allow traffic
to be switched to alternate backbones should the need arise.
High Tech Web Service, Inc recognizes that downtime
is not an option for your servers. That's why we invest heavily
in hardware and facilities that ensure that your clients are up
and running on the web 24 hours a day, seven days a week.
Our Network Operations Center (NOC) features raised
flooring. This enables a constant flow of conditioned air and helps
to maintain uniform room temperature at all times. In addition,
raised flooring reduces static and ensures a professional, computer-grade
environment for your servers.
Finally, the NOC is located in a secure, monitored,
class A building with a minimum number of approved personnel allowed
access to highly sensitive areas and equipment. A detailed record
of employee and visitor entry is maintained at all times.
Uninterruptible Power System
To guard against local power failures, we have
two industrial-grade, three-phase Liebert UPS systems. These act
as back-up batteries, maintaining uninterrupted power in case of
surges or power outages. With these back-up systems in place, we
can keep our network up and running indefinitely without relying
on external power.
Industrial-Grade Air Conditioners
We have two Liebert 10 ton industrial air conditioners
that condition our computer rooms and operations center. Air temperature
is maintained at an optimal 65 degrees Fahrenheit.
Custom Web Servers
Our web servers are custom-built industrial machines
designed for a 24/7 web serving environment. All servers are equipped
with dual-redundant, 400-watt power supplies, hot swap Seagate Baracuda/Cheetah
drives and force-filtered cooling systems. In addition, our NOC
is equipped with an inventory of identically configured, burned-in
standby servers.
Force Filtered Cooling
All custom web servers are equipped with a positive-pressure
filtered-air system. Four large fans pull filtered air into each
server's protective case, and the components within are cooled by
fans that circulate this purified air. This constant introduction
of clean air into the case creates a positive pressure environment
ensuring that dust and particles remain outside the server.
Redundant Hot Swap Power Supplies
Each server employs dual-redundant hot swap power
supplies. If a power supply were to fail, the server would continue
running with power from the alternate supply. Meanwhile, alarms
would alert a technician, who would quickly restore redundancy.
In the meantime, servers and client sites would experience no downtime.
Standby Servers
We keep spare servers online of all CPU configurations.
If a server were to experience a hardware failure, we would turn
a key, grab the handle on the drive, pull it out and insert it into
an identical standby CPU. We would then reboot the second machine,
and the server would be up and running again in a matter of minutes.
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