Because you place a high value on low upfront cost, do not require a fast deployment schedule, and do not perceive a competitive threat, the fully spliced architecture appears best for you. In this architecture, individual elements are constructed together in the field. Lower material costs are offset by higher labor costs. Fully spliced networks tend to take the longest to construct.

看看一些连续cts Corning can provide for an fully spliced architecture.

Because you place a high value on low upfront cost, do not require a fast deployment schedule, and do not perceive a competitive threat, the fully spliced architecture appears best for you. In this architecture, individual elements are constructed together in the field. Lower material costs are offset by higher labor costs. Fully spliced Networks tend to take the longest to construct.

However, because you placed a higher value on quick response to customer service requests, you should consider the value a preconnectorized architecture could bring to your deployment. See more information onpreconnectorized networks.

看看一些连续cts Corning can provide for an fully spliced architecture.

Because you value first-installed cost, but also understand that speed of deployment helps counter a competitive threat, a preconnectorized (containing both spliced and preconnectorized elements) architecture bests fits your needs. In this architecture, spliced elements are used for the backbone of the network, while preconnectorized elements complete the final network connection to the customer. Preconnectorized networks tend to speed deployment, while balancing the cost of labor and materials, and generally can be deployed faster than fully spliced networks. They allow you to respond quickly to customer service requests, outpacing your competition.

看看一些连续cts Corning offers for an preconnectorized architecture.

Because you value first-installed cost, but also understand that speed of deployment helps counter a competitive threat, a preconnectorized (containing both spliced and preconnectorized elements) architecture bests fits your needs. In this architecture, spliced elements are used for the backbone of the network, while preconnectorized elements complete the final network connection to the customer. Preconnectorized networks tend to speed deployment, while balancing the cost of labor and materials, and generally can be deployed faster than fully spliced networks. They allow you to respond quickly to customer service requests, outpacing your competition.

However, if labor costs and speed to service are not critical to your deployment success, you may consider an fully-spliced architecture. See more information onfully-spliced networks.

看看一些连续cts Corning can provide for a preconnectorized architecture.

Because you value first-installed cost, but also understand that speed of deployment helps counter a competitive threat, a preconnectorized (containing both spliced and preconnectorized elements) architecture bests fits your needs. In this architecture, spliced elements are used for the backbone of the network, while preconnectorized elements complete the final network connection to the customer. Preconnectorized networks tend to speed deployment, while balancing the cost of labor and materials, and generally can be deployed faster than fully spliced networks. They allow you to respond quickly to customer service requests, outpacing your competition.

Because speed of deployment also appears to be a critical factor, you should consider a fully preconnectorized architecture. See more information onfully preconnectorized networks.

看看一些连续cts Corning can provide for a preconnectorized architecture.

You value networks that can be installed quickly to counter the competitive threats, and find the benefit of lower labor costs attractive. A fully preconnectorized architecture achieves this and best fits your needs. In this architecture, splicing and installation costs are minimized, and most network elements are designed to require only a final plug and play connection in the field. Labor costs are lower and deployment speed is faster than in other architecture types. Additionally, some capex costs can be deferred until revenue-generating customers require service. Speedy deployment, low labor costs, and quick customer response are all key elements of a fully preconnectorized architecture.

看看一些连续cts Corning can provide for a fully preconnectorized architecture

You value networks that can be installed quickly to counter the competitive threats, and find the benefit of lower labor costs attractive. A fully preconnectorized architecture achieves this and best fits your needs. In this architecture, splicing and installation costs are minimized, and most network elements are designed to require only a final plug and play connection in the field. Labor costs are lower and deployment speed is faster than in other architecture types. Additionally, some capex costs can be deferred until revenue-generating customers require service. Speedy deployment, low labor costs, and quick customer response are all key elements of a fully preconnectorized architecture.

Although a fully preconnectorized architecture appears best for you, if reducing labor costs is not as critical a consideration, you might consider a preconnectorized architecture. See more information onpreconnectorized networks.

看看一些连续cts Corning can provide for a fully preconnectorized architecture.