Large scale smart susceptor heater blankets requiring multi zone control

The invention claimed is: 1. An apparatus for processing an article through application of heat, comprising: a first smart susceptor heater blanket comprising a first wire ribbon, wherein: the first wire ribbon comprises a plurality of first wire assemblies; each first wire assembly is adjacent to at least one other first wire assembly; each first wire assembly comprises a litz wire and a susceptor wire wrapped around the litz wire to form a plurality of susceptor windings; the first wire ribbon serpentines across the first smart susceptor heater blanket; and the first wire ribbon is configured such that a current flow through each first wire assembly is in a direction opposite to a current flow through one or more adjacent first wire assemblies; and a second smart susceptor heater blanket comprising a second wire ribbon, wherein: the second wire ribbon comprises a plurality of second wire assemblies; each second wire assembly is adjacent to at least one other second wire assembly; each second wire assembly comprises a litz wire and a susceptor wire wrapped around the litz wire to form a plurality of susceptor windings; the second wire ribbon serpentines across the second smart susceptor heater blanket; and the second wire ribbon is configured such that a current flow through each second wire assembly is in a direction opposite to a current flow through one or more adjacent second wire assemblies, wherein one of the first wire assemblies of the first wire ribbon is positioned adjacent to one of the second wire assemblies of the second wire ribbon and is configured such that a flow of current therethrough is in direction that is opposite to a flow of current through the second wire assembly positioned adjacent thereto. 2. The apparatus of claim 1 , wherein the first smart susceptor heater blanket is electrically coupled in series to the second smart susceptor heater blanket. 3. The apparatus of claim 1 , wherein the first smart susceptor heater blanket is electrically coupled in parallel to the second smart susceptor heater blanket. 4. The apparatus of claim 3 , further comprising: a first power supply electrically coupled to the first wire ribbon of the first smart susceptor heater blanket; and a second power supply electrically coupled to the second wire ribbon of the second smart susceptor heater blanket. 5. The apparatus of claim 4 , further comprising a controller electrically coupled to the first power supply and to the second power supply, wherein the controller is configured to regulate a power output by the first power supply to the first wire ribbon, and is further configured to regulate a power output by the second power supply to the second wire ribbon. 6. The apparatus of claim 5 , further comprising: a first plurality of thermal sensors distributed across the first smart susceptor heater blanket, wherein the controller is configured to regulate the power output by the first power supply to the first wire ribbon based on an output received from the first plurality of thermal sensors; and a second plurality of thermal sensors distributed across the second smart susceptor heater blanket, wherein the controller is further configured to regulate the power output by the second power supply to the second wire ribbon based on an output received from the second plurality of thermal sensors. 7. The apparatus of claim 1 , further comprising: a first slave controller electrically coupled to the first smart susceptor heater blanket; a first plurality of thermal sensors distributed across the first smart susceptor heater blanket; a first power supply electrically coupled to the first slave controller and to the first smart susceptor heater blanket, wherein the first slave controller is configured to regulate a power output by the first power supply to the first smart susceptor heater blanket based on an output received from the first plurality of thermal sensors; a second slave controller electrically coupled to the second smart susceptor heater blanket; a second plurality of thermal sensors distributed across the second smart susceptor heater blanket; a second power supply electrically coupled to the second slave controller and to the second smart susceptor heater blanket, wherein the second slave controller is configured to regulate a power output by the second power supply to the second smart susceptor heater blanket based on an output received from the second plurality of thermal sensors; and a master controller electrically coupled to the first slave controller and to the second slave controller, wherein the master controller is configured to receive the output from the first plurality of thermal sensors and the output from the second plurality of thermal sensors, and is further configured to regulate the power output by the first power supply to the first smart susceptor heater blanket based on the output received from the second plurality of thermal sensors, and is further configured to regulate the power output by the second power supply to the second smart susceptor heater blanket based on the output received from the first plurality of thermal sensors. 8. The apparatus of claim 1 , wherein: the first wire ribbon has a first length that is within ±10% of a target length; and the second wire has a second length that is within ±10% of the target length. 9. The apparatus of claim 1 , further comprising a vacuum bag positioned adjacent to the first smart susceptor heater blanket and the second smart susceptor heater blanket, wherein the vacuum bag is configured to receive a plurality of composite plies pre-impregnated with an uncured resin during a debulking process. 10. The apparatus of claim 9 , further comprising a plurality of fasteners that mechanically attach the first smart susceptor heater blanket and the second smart susceptor heater blanket to the vacuum bag, and maintain the first smart susceptor heater blanket in a fixed position adjacent to the second smart susceptor heater blanket. 11. An apparatus for processing an article through application of heat, comprising: a first heater blanket comprising a first wire ribbon, the first wire ribbon comprising a plurality of first wire assemblies where each first wire assembly is adjacent to at least one other first wire assembly and each first wire assembly comprises a litz wire and a susceptor wire wrapped around the litz wire to form a plurality of susceptor windings, wherein the first wire ribbon is configured such that a current flow through each first wire assembly is in a direction opposite to a current flow through each adjacent first wire assembly of the first wire ribbon; a second heater blanket comprising a second wire ribbon, the second wire ribbon comprising a plurality of second wire assemblies where each second wire assembly is adjacent to at least one other second wire assembly and each second wire assembly comprises a litz wire and a susceptor wire wrapped around the litz wire to form a plurality of susceptor windings, wherein the second wire ribbon is configured such that a current flow through each second wire assembly is in a direction opposite to a current flow through each adjacent second wire assembly of the second wire ribbon; and one of the first wire assemblies of the first wire ribbon is positioned adjacent to one of the second wire assemblies of the second wire ribbon and is configured such that a flow of current therethrough is in direction that is opposite to a flow of current through the second wire assembly positioned adjacent thereto. 12. The apparatus of claim 11 , wherein the first heater blanket is electrically coupled in series to the second heater b