Port mapping for series connected fiber optic terminals

What is claimed is: 1. A fiber optic cable assembly, comprising: a fiber optic cable having a plurality of optical fibers disposed therein between a first end and a second end of the fiber optic cable; a first connector having a first plurality of ports arranged in a predetermined port configuration having a plurality of port positions, the connector terminating the plurality of optical fibers on the first end of the fiber optic cable according to a first optical fiber port mapping scheme consisting of a first subset of the plurality of port positions of the predetermined port configuration, wherein the plurality of optical fibers disposed on the second end of the fiber optic cable are configured to be connected at the second end of the fiber optic cable to a second plurality of ports arranged in the same predetermined port configuration as the first plurality of ports, according to a second optical fiber port mapping scheme consisting of a second subset of the plurality of port positions of the predetermined port configuration different from the first subset of the plurality of port positions of the predetermined port configuration; and a second connector having the predetermined port configuration terminating the plurality of optical fibers on the second end of the fiber optic cable according to the second optical fiber port mapping scheme, wherein: at least one port position of the first plurality of ports does not terminate an optical fiber of the plurality of optical fibers; at least one port position of the second plurality of ports does not terminate an optical fiber of the plurality of optical fibers; and the at least one port position of the first plurality of ports that does not terminate an optical fiber is different from the at least one port position of the second plurality of ports that does not terminate an optical fiber. 2. The fiber optic cable assembly of claim 1 , wherein one or more of the plurality of optical fibers on the first end of the fiber optic cable are connected to at least one of a plurality of ports of a first fiber optic terminal. 3. The fiber optic cable assembly of claim 1 , wherein one or more of the plurality of optical fibers on the second end of the fiber optic cable are each connected to respective predetermined ports of a second fiber optic terminal. 4. The fiber optic cable assembly of claim 1 , wherein the fiber optic cable connects at least two fiber optic terminals in a series arrangement. 5. The fiber optic cable assembly of claim 1 , wherein the fiber optic cable is comprised of a cable stub. 6. The fiber optic cable assembly of claim 5 , wherein the cable stub is comprised of an upstream cable stub connected to a fiber optic terminal. 7. The fiber optic cable assembly of claim 6 , wherein the cable stub is connected to a second fiber optic terminal and is configured to connect to a first fiber optic terminal or to at least one additional fiber optic terminal that is connected to the first and second fiber optic terminals in a series arrangement. 8. The fiber optic cable assembly of claim 5 , wherein the fiber optic cable is comprised of a downstream cable stub connected to one or more of a first and a second fiber optic terminal. 9. The fiber optic cable assembly of claim 8 , wherein the fiber optic cable is configured to be connected to a subsequent one of the first or second fiber optic terminals or on at least one additional fiber optic terminal that is connected to the first and second fiber optic terminals in a series arrangement. 10. The fiber optic cable assembly of claim 8 , wherein one or more of the first and second fiber optic terminals are configured with a upstream cable stub and a downstream cable stub configured to be connected to a subsequent one of the first or second fiber optic terminals. 11. The fiber optic cable assembly of claim 5 , further comprising a second connector terminating the plurality of optical fibers on the second end of the fiber optic cable according to the second optical fiber port mapping scheme. 12. A fiber optic terminal, comprising: a housing; a first plurality of optical ports having a predetermined port configuration, the predetermined port configuration having a plurality of port positions, in the housing and connected to a plurality of optical fibers in a distribution cable extending inside the housing; and a fiber optic cable having a plurality of optical fibers disposed therein between a first end of the fiber optic cable according to a first optical fiber port mapping scheme comprising a first subset of the plurality of port positions of the predetermined port configuration such that at least one port position of the plurality of port positions of the predetermined port configuration is not connected to an optical fiber, and a second end of the fiber optic cable configured to be connected in the same predetermined port configuration as the first end of the fiber optic cable, according to a second optical fiber port mapping scheme comprising a second subset of the plurality of port positions of the predetermined port configuration such that at least one port position of the plurality of port positions of the predetermined port configuration is not connected to an optical fiber, wherein: the second subset of the plurality of port positions of the predetermined port configuration is different from the first subset of the plurality of port positions of the predetermined port configuration; and the plurality of optical fibers on the first end of the fiber optic cable are connected to the first subset of the first plurality of optical ports. 13. The fiber optic terminal of claim 12 , wherein the fiber optic cable is configured to optically connect certain predetermined ones of the plurality of optical fibers routed from one of the first plurality of optical ports to respective predetermined ports of a second plurality of optical ports on a second fiber optic terminal. 14. The fiber optic terminal of claim 12 , wherein the fiber optic terminal comprises at least one splitter configured to split an optical signal carried by one of the plurality of optical fibers into a plurality of optical signals each carried by one of a plurality of split optical fibers. 15. A fiber optic assembly, comprising: a plurality of first optical ports having a predetermined port configuration having a plurality of port positions in a first fiber optic terminal; a plurality of second optical ports having the same predetermined port configuration as the plurality of first optical ports in a second fiber optic terminal; and a fiber optic cable having a plurality of optical fibers disposed therein between a first end of the fiber optic cable according to a first optical fiber port mapping scheme comprising a first subset of the plurality of port positions of the predetermined port configuration such that at least one port position of the plurality of port positions of the predetermined port configuration is not connected to an optical fiber, and a second end of the fiber optic cable according to a second optical fiber port mapping scheme comprising a second subset of the plurality of port positions of the predetermined port configuration such that at least one port position of the plurality of port positions of the predetermined port configuration is not connected to an optical fiber, wherein: the second subset of the plurality of port positions of the predetermined port configuration is different from the first subset of the plurality of port positions of the predetermined port configuration; and the plurality of optical fibers on the first end of the