Pressurizing and protecting a parent well during fracturing of a child well

What is claimed is: 1. A method for protecting a wellbore comprising: identifying a parent wellbore and a child wellbore; identifying a parent well stage along the parent wellbore that has the potential to interact with a child well stage along the child wellbore while the child well stage undergoes hydraulic fracturing, wherein the parent well stage is a length of the parent wellbore that is less than the entire length of the parent wellbore, wherein the child well stage is a length of the child wellbore that is less than the entire length of the child wellbore, wherein an axial plane is perpendicular to a longitudinal axis of the child wellbore, and wherein the axial plane of the child well stage intersects the parent well stage; pumping a treatment fluid downhole to the parent well stage for pressurizing the parent well stage to a pressure that is equal to or greater than a pressure in the child well stage while the child well stage undergoes hydraulic fracturing; maintaining the pressure in the parent well stage that is equal to or greater than the pressure in the child well stage while the child well stage undergoes hydraulic fracturing, wherein maintaining the pressure in the parent well stage further comprises adjusting an output rate of the treatment fluid based on a pressure change detected in the parent well stage; identifying a second parent well stage along the parent wellbore that has the potential to interact with a second child well stage along the child wellbore while the second child well stage undergoes hydraulic fracturing; pumping the treatment fluid downhole to the second parent well stage for pressurizing the second parent well stage to a pressure that is equal to or greater than a pressure in the second child well stage while the second child well stage undergoes hydraulic fracturing; and maintaining the pressure in the second parent well stage that is equal to or greater than the pressure in the second child well stage while the second child well stage undergoes hydraulic fracturing. 2. The method of claim 1 , wherein pumping the treatment fluid downhole to the parent well stage pressurizes the parent well stage to a pressure that is greater than the pressure in the child well stage while the child well stage undergoes hydraulic fracturing. 3. The method of claim 1 , wherein maintaining the pressure in the parent well stage further comprises increasing the pressure in the parent well stage by increasing the output rate of the treatment fluid in response to the pressure of the parent well stage being less than the pressure of the child well stage. 4. The method of claim 1 , wherein a pinpoint stimulation system is used for pumping the treatment fluid downhole to only the parent well stage. 5. The method of claim 1 , wherein identifying the parent well stage comprises identifying each parent well stage along an entire length of the parent wellbore that has the potential to experience an interaction with the child well stage as the child well stage undergoes the hydraulic fracturing. 6. A method for protecting a wellbore comprising: identifying a parent wellbore and a child wellbore; identifying a parent well stage located in the parent wellbore that has the potential to interact with a child well stage located in the child wellbore, wherein the parent well stage is a length of the parent wellbore that is less than the entire length of the parent wellbore, wherein the child well stage is a length of the child wellbore that is less than the entire length of the child wellbore, wherein an axial plane is perpendicular to a longitudinal axis of the child wellbore, and wherein the parent well stage lies in substantially the same axial plane as the child well stage; creating a dynamic pressure cloud around the parent well stage by pumping a treatment fluid to the parent well stage for pressurizing the parent well stage to a pressure that is equal to or greater than a pressure in the child well stage while the child well stage undergoes hydraulic fracturing; maintaining the dynamic pressure cloud around the parent well stage while the child well stage undergoes hydraulic fracturing; identifying a second parent well stage located in the parent wellbore that has the potential to interact with the child well stage in the child wellbore; creating the dynamic pressure cloud around the second parent well stage by pumping the treatment fluid to the second parent well stage for pressurizing the second parent well stage to a pressure that is equal to or greater than the pressure in the child well stage while the child well stage undergoes hydraulic fracturing; and maintaining the dynamic pressure cloud around both the parent well stage and the second parent well stage while the child well stage undergoes the hydraulic fracturing so that the pressure of both the parent well stage and the second parent well stage is equal to or greater than the pressure of the child well stage. 7. The method of claim 6 , wherein the treatment fluid is pumped to the parent well stage for pressurizing the parent well stage to a pressure that is greater than the pressure in the child well stage while the child well stage undergoes hydraulic fracturing. 8. The method of claim 6 , further comprising: stopping the hydraulic fracturing of the child well stage; and stopping the pumping of the treatment fluid to the parent well stage. 9. The method of claim 6 , wherein identifying the parent well stage comprises identifying each parent well stage along the entire length of the parent wellbore that has the potential to experience an interaction with the child well stage as the child well stage undergoes the hydraulic fracturing. 10. The method of claim 6 , wherein identifying the parent wellbore and the child wellbore and identifying the parent well stage that has the potential to interact with the child well stage comprises utilizing at least one of historic parent well fracturing treatment data, completion design data, or child well reservoir data. 11. The method of claim 6 , wherein identifying the parent wellbore and the child wellbore comprises estimating a fracturing pressure of the child wellbore. 12. The method of claim 6 , wherein creating the dynamic pressure cloud around the parent well stage comprises using a pinpoint stimulation system that stimulates the parent well stage while other parent well stages remain unstimulated. 13. The method of claim 6 , wherein maintaining the dynamic pressure cloud around the parent well stage and the second parent well stage further comprises adjusting an output rate of the treatment fluid based on a pressure change detected in at least one of the parent well stage and the second parent well stage. 14. A method for protecting a wellbore comprising: identifying a parent wellbore and a child wellbore; identifying a plurality of parent well stages within the parent wellbore, wherein each parent well stage of the plurality of parent well stages have a potential to interact with at least one corresponding child well stage within the child wellbore as the child wellbore undergoes hydraulic fracturing, wherein each parent well stage of the plurality of parent well stages is a length of the parent wellbore that is less than the entire length of the parent wellbore, wherein the at least one corresponding child well stage is a length of the child wellbore that is less than the entire length of the child wellbore, wherein an axial plane is perpendicular to a longitudinal axis of the child wellbore, and wherein the plurality of parent well stages lies in substantially the same axial plane as the at least one correspondin