Through tubing bridge plug having high expansion elastomer design

What is claimed is: 1. A high expansion bridge plug for use in a wellbore, the high expansion plug comprising: a first element stack comprising a first series of male and female elements; a second element stack comprising a second series of other male and other female elements; and a control assembly having an actuator rod for generating a compressive force against the the first element stack and the second element stack, the control assembly coupled to a power unit; wherein the compressive force generated causes the male elements and the female elements to expand and the female elements to at least partially encompass the male elements; wherein the first element stack includes a first constraint coupled to a top female element of the first series and the actuator rod and a second constraint coupled to a bottom element of the first series; wherein the second element stack includes a third constraint coupled to a top female element of the second series and the actuator rod and a fourth constraint coupled to a bottom element of the second series; wherein the constraints bound the first element stack to the second element stack, control nesting and expansion of the elements, and control leak paths; wherein the first series further comprises: the top female element and the bottom element and at least one middle element, wherein the top female element receives the middle element and the middle element receives the bottom element; and wherein the second series comprises: the other top female element and the other bottom element and at least one other middle element, wherein the other top female element receives the other middle element and the other middle element receives the other bottom element. 2. The bridge plug of claim 1 wherein the first series comprises a first O-ring coupled to the top female element and the actuator rod and a second O-ring coupled to the bottom element and the actuator rod and the second series comprises a third O-ring coupled to the other top female element and the actuator rod and fourth O-ring coupled to the other bottom element and the actuator rod. 3. The bridge plug of claim 1 wherein the first and second series includes an O-ring coupled to the top female element and the actuator rod and another O-ring coupled to the bottom element. 4. The bridge plug of claim 1 wherein the control assembly comprises the actuator rod and at least one compression assembly, and the first element stack and the second element stack are slidably disposed about the actuator rod. 5. The bridge plug of claim 1 wherein the male and female elements have cup or conical shapes. 6. The bridge plug of claim 1 wherein an angle of an element of the assembly is between 5-25 degrees. 7. The bridge plug of claim 1 wherein the length of the top female element is greater than the length of the middle or bottom element, wherein the length of the top female element is between 3 to 4.5 inches. 8. A high expansion bridge plug for use in a wellbore, the plug comprising: a first element stack comprising a first series of male and female elements; a second element stack comprising a second series of other male and other female elements; wherein compressive force generated from a control assembly causes the male elements and the female elements to expand and the female elements to surround the male elements; wherein the first element stack includes a first constraint coupled to a top female element of the first series and an actuator rod and a second constraint coupled to a bottom element of the first series; wherein the second element stack includes a third constraint coupled to a top female element of the second series and the actuator rod and a fourth constraint coupled to a bottom element of the second series; wherein the constraints bound the first element stack to the second element stack, control nesting and expansion of the elements, and control leak paths; and wherein the first series further comprises: the top female element and the bottom element and at least one middle element, wherein the top female element receives the middle element and the middle element receives the bottom element; and wherein the second series comprises: the other top female element and the other bottom element and at least one other middle element, wherein the other top female element receives the other middle element and the other middle element receives the other bottom element. 9. The bridge plug of claim 8 wherein the first series includes a first O-ring coupled to the top female element and the actuator rod and another O-ring coupled to the bottom element and the second series includes third O-ring coupled to the other top female element and the actuator rod and fourth O-ring coupled to the other bottom element. 10. The bridge plug of claim 8 wherein the male and female elements have cup or conical shapes. 11. The bridge plug of claim 8 wherein an angle of at least one element selected from a group consisting of the first series of male and female elements and the second series comprising the second series of male and female elements is between 5-25 degrees. 12. The high expansion bridge plug of claim 8 wherein the length of the top female element is greater than the length of the bottom element, wherein the length of the top female element is between 3 to 4.5 inches. 13. A method for plugging a perforation in a wellbore, the method comprising: placing a high expansion bridge plug on a wireline; running the high expansion bridge plug into the wellbore; plugging the perforation; wherein the high expansion bridge plug includes: a first element stack comprising a first series of male and female elements; a second element stack comprising a second series of other male and other female elements; and a control assembly having an actuator rod for generating a compressive force against the the first element stack and the second element stack, the control assembly coupled to a power unit; wherein the compressive force generated causes the male elements and the female elements to expand and the female elements to at least partially encompass the male elements; wherein the first element stack includes a first constraint coupled to a top female element of the first series and the actuator rod and a second constraint coupled to a bottom element of the first series; wherein the second element stack includes a third constraint coupled to a top female element of the second series and the actuator rod and a fourth constraint coupled to a bottom element of the second series; wherein the constraints bound the first element stack to the second element stack, control nesting and expansion of the elements, and control leak paths; wherein the first series further comprises: the top female element and the bottom element and at least one middle element, wherein the top female element receives the middle element and the middle element receives the bottom element; and wherein the second series comprises: the other top female element and the other bottom element and at least one other middle element, wherein the other top female element receives the other middle element and the other middle element receives the other bottom element. 14. The system of claim 13 wherein an angle of an element of the plug is between 5-25 degrees. 15. The system of claim 13 wherein the length of the top female element is greater than the length of the bottom element. 16. The method of claim 13 wherein the first series comprises a first O-ring coupled to the top female element and the actuator rod and a second O-ring coupled to the bo