Keeping computer networks operating at peak efficiency is critical for any organization, according to professionals, as it can be used to create a secure, stable and efficient network for users. At the same time, the cost of ensuring the network and systems remains cost effective is extremely high. The report points out that the cost of maintaining a network system in the US is approximately five times higher than comparable peer countries in Europe, Asia, and South America.
That said, in today’s world, most small business owners have to consider the cost of maintaining a network at all as well. Businesses can use iot connectivity to connect their SIMs globally. The WAN infrastructure can be expensive, and in many cases, larger organizations are spending far more than they should when looking to upgrade their network equipment, while there are other systems that help in this area such as Fortinet and others like it.
Another report, the “Power and Economic Impact of Government-Owned and Operated National Electrical Networks”, found that these networks support nearly $230 billion in economic activity and $130 billion in local industry in the US. Furthermore, the economic impact of this infrastructure can go above and beyond the value to small businesses and local residents.
In 2014, the US installed 1,143 miles of fiber optic network infrastructure. This included about 150 miles of municipal network in cities, towns, and cities, and 874 miles of cable access and infrastructure, such as fiber, coaxial cable, wireless, copper telephone wires, and cable TV.
These national networks are critical to the economy and infrastructure of most communities. Furthermore, these networks can also be leased to other private sector companies, which typically have access to the capacity of these networks for higher speeds, speeds up to 1 gigabit per second, and multiple devices.
Another report, “Comparison of Broadband Deployment and Technology Requirements”, examined 10 broadband networks in the US. According to the report, these networks provide end users with the following:
13 Mbps: Average upload speed for all 10 broadband networks was between 13.0 Mbps and 13.8 Mbps, respectively.
15 Mbps: Average download speed for all 10 broadband networks was between 15.0 Mbps and 15.8 Mbps, respectively.
100 Mbps: Average upload speed for all 10 broadband networks was between 100 Mbps and 102.8 Mbps, respectively.
100 Mbps: Average download speed for all 10 broadband networks was between 100 Mbps and 102.8 Mbps, respectively. Up to 700 Kbps: Average upload speed for fiber, wireless, and coaxial networks was between 70.0 Mbps and 110.0 Mbps, respectively.
Using this measurement, the average speed that an end user could get was about 75.2 Mbps (13.8% of the total capacity). Meanwhile, for a metropolitan area with at least 300,000 households, the average speed was about 130.7 Mbps (15% of the total capacity).
The US network infrastructure infrastructure is a service provider’s lifeline and ensures the most efficient use of resources for users. Instead of just keeping the old infrastructure running and hoping things go well, companies need to think about the potential for damages on their systems.