Systems and methods for ferrite redundancy switch networks

What is claimed is: 1. A redundant ferrite switch system, the system comprising: a first plurality of circulator modules, wherein the first plurality of circulator modules comprises: a first plurality of first inputs; a first plurality of first outputs; and a first plurality of circulators configured to connect the first plurality of first inputs to the first plurality of first outputs; a second plurality of circulator modules, wherein the second plurality of circulator modules comprises: a second plurality of second inputs; a second plurality of second outputs; and a second plurality of circulators configured to connect the second plurality of second inputs to the second plurality of second outputs; a plurality of components coupled to the first plurality of circulator modules and coupled to the second plurality of circulator modules, wherein each circulator module in the first plurality of circulator modules and each circulator module in the second plurality of circulator modules is coupled to a respective component in the plurality of components wherein the first plurality of circulator modules and the second plurality of circulator modules is able to route a path through the redundant ferrite switch system when more than two components in the plurality of components have failed: and wherein each module of the first plurality of circulator modules comprises at least three circulators; and wherein each module of the second plurality of circulator modules comprises at least three circulators. 2. The system of claim 1 , wherein each third input of the first plurality of first inputs is terminated with a load and wherein each third output of the second plurality of second outputs is terminated with a load. 3. The system of claim 1 , wherein the first plurality of circulator modules comprises at least six circulator modules. 4. The system of claim 1 , wherein the second plurality of circulator modules comprises at least six circulator modules. 5. The system of claim 1 , wherein each third circulator module in the first plurality of circulator modules is coupled to a 2-for-1 redundant triad switch, wherein each third circulator module in the second plurality of circulator modules is coupled to a 2-for-1 redundant triad switch, and wherein each of the 2-for-1 redundant triad switches is coupled to two components of the plurality of components. 6. The system of claim 1 , wherein each circulator module in the first plurality of circulator modules is coupled to a 2-for-1 redundant triad switch, wherein each circulator module in the second plurality of circulator modules is coupled to a 2-for-1 redundant triad switch and wherein each of the 2-for-1 redundant triad switches is coupled to two components of the plurality of components. 7. The system of claim 1 , further comprising: a first waveguide connecting a first end of the first plurality of circulator modules to a second end of the first plurality of circulator modules, wherein the first end is located opposite the second end in the first plurality of circulator modules; and a second waveguide connecting a first end of the second plurality of circulator modules to a second end of the second plurality of circulator modules, wherein the first end is located opposite the second end in the second plurality of circulator modules. 8. The system of claim 1 , wherein if a first component in the plurality of components fails, the first plurality of circulator modules and the second plurality of circulator modules is able to route a path through a redundant component in the plurality of components without disrupting an active communication path in the redundant ferrite switch system other than the path that was active prior to when the first component failed. 9. A plurality of circulator modules for use in a redundant ferrite switch system comprising: a plurality of inputs; a plurality of outputs; a plurality of circulators coupling the plurality of inputs to the plurality of outputs; wherein either the plurality of inputs or the plurality of outputs is coupled to a plurality of components, wherein each circulator module in the plurality of circulator modules is coupled through one of the plurality of inputs and the plurality of outputs to a respective component in the plurality of components; wherein the plurality of circulator modules is able to route a path through the redundant ferrite switch system when more than two components in the plurality of components have failed; and wherein each module of the plurality of circulator modules comprises at least three circulators. 10. The plurality of circulator modules of claim 9 , wherein either at least three of the plurality of inputs are terminated with loads or at least three of the plurality of outputs are terminated with loads or both. 11. The plurality of circulator modules of claim 9 , wherein each third input of the plurality of inputs is terminated with a load and wherein each third output of the plurality of outputs is terminated with a load. 12. The plurality of circulator modules of claim 9 , wherein the plurality of circulator modules comprises at least six circulator modules. 13. The plurality of circulator modules of claim 9 , wherein each third circulator module in the plurality of circulator modules includes a 2-for-1 redundant triad switch and wherein each of the 2-for-1 redundant triad switches is coupled to two components in the plurality of components. 14. The plurality of circulator modules of claim 9 , wherein every circulator module in the plurality of circulator modules includes a 2-for-1 redundant triad switch and wherein each of the 2-for-1 redundant triad switches is coupled to two components in the plurality of components. 15. The plurality of circulator modules of claim 9 , further comprising a waveguide connecting a first end of the plurality of circulator modules to a second end of the plurality of circulator modules, wherein the first end is located opposite the second end in the plurality of circulator modules. 16. The plurality of circulator modules of claim 9 , wherein if a first component in the plurality of components fails, the plurality of circulator modules is able to route a path through a redundant component in the plurality of components without disrupting an active communication path in the plurality of circulator modules other than the path that was active prior to when the first component failed.