Method of detecting irregular current flow in an integrated circuit device and apparatus therefor

The invention claimed is: 1. A method of detecting irregular high current flow within an integrated circuit (IC) device, the method comprising: obtaining infrared (IR) emission information for the IC device; identifying at least one functional component of a plurality of functional components within one or more functional modules of the IC device, the at least one identified functional component comprising a high current flow, based on the obtained IR emission information; obtaining IR emission information for a plurality of reference components, wherein each of the plurality of reference components comprising different IR emission spectral properties, the different IR emission spectral properties corresponding to IR emission spectral properties of different ones of the plurality of functional components, wherein the plurality of reference components formed within a reference module of the IC device, and wherein each of the plurality of reference components having individually configured bias conditions that correspond to bias conditions of a different one of the plurality of functional components; and determining whether the high current flow of the at least one functional component comprises an irregular high current flow based on a comparison of respective IR emission information for the at least one functional component and a corresponding one of the plurality of reference components. 2. The method of claim 1 , wherein the method comprises: performing a comparison of the IR emission information for the at least one functional component and IR emission information for the at least one reference component; and determining that the high current flow of the at least one functional component comprises an irregular high current flow if an IR emission intensity for the at least one functional component exceeds an IR emission intensity for the at least one reference component. 3. The method of claim 2 wherein the method comprises determining that the high current flow of the at least one functional component comprises an irregular high current flow if an IR emission intensity for the at least one functional component exceeds an IR emission intensity for the at least one reference component by more than a threshold amount. 4. The method of claim 1 , wherein the method comprises obtaining IR emission information for the at least one reference component under at least one bias condition corresponding to at least one bias condition of the at least one functional component comprising the high current flow. 5. The method of claim 4 , wherein the method comprises configuring the at least one bias condition of the at least one reference component to match the at least one bias condition of the at least one functional component comprising the high current flow, prior to obtaining IR emission information for the at least one reference component. 6. The method of claim 5 , wherein the method comprises configuring at least one bias condition of the at least one reference component from a group comprising of at least one of: at least one power supply signal value provided to the at least one reference component, at least one bias control signal value provided to a gate/base junction of the at least one reference component, at least one power supply signal profile provided to the at least one reference component, and at least one bias control signal profile provided to a gate/base junction of the at least one reference component. 7. The method of claim 4 , wherein the method comprises: performing a comparison of respective IR emission intensities for the at least one functional component and the at least one reference component under corresponding bias conditions; and if the IR emission intensity for the at least one reference component does not match the IR emission intensity for the at least one functional component under corresponding bias conditions, modifying at least one bias condition for the at least one reference component to cause the IR emission intensity of the at least one reference component to match that of the IR emission intensity of the at least one functional component, obtaining a measurement of current flow for the at least one reference component under the modified bias conditions, and determining a current flow value for the at least one functional component based at least partly on the measured current flow for the at least one reference component. 8. The method of claim 7 , wherein the method comprises iteratively modifying at least one bias condition for the at least one reference component to cause the IR emission intensity of the at least one reference component to match the IR emission intensity of the at least one functional component, if the IR emission intensity for the at least one reference component does not match the IR emission intensity for the at least one functional component under corresponding bias conditions. 9. The method of claim 1 , wherein the method further comprises: identifying, from a plurality of reference components within the IC device, at least one reference component comprising IR emission spectral properties corresponding to those of the at least one functional component comprising the high current flow; obtaining IR emission information for at least one identified reference component within the IC device; and determining whether the high current flow of the at least one functional component comprises an irregular high current flow based at least partly on a comparison of respective IR emission information for the at least one functional component and the at least one reference component. 10. An integrated circuit (IC) device comprising at least one functional module arranged to perform at least one operational function of the IC device; the at least one functional module comprising a plurality of functional components; wherein the IC device further comprises at least one infrared (IR) emission reference module comprising a plurality of IR emission reference components, each IR emission reference component of the plurality of IR emission reference components comprising different IR emission spectral properties corresponding to those of the plurality of functional components, and each of the plurality of reference components having individually configured bias conditions that correspond to bias conditions of a different one of the plurality of functional components. 11. The IC device of claim 10 , wherein the at least one IR emission reference module further comprises a reference control unit arranged to configure at least one bias condition of the at least one IR emission reference component. 12. The IC device of claim 11 , wherein the reference control unit is arranged to configure the at least one bias condition of the at least one IR emission reference component to match at least one corresponding bias condition of the at least one functional component. 13. The IC device of claim 11 , wherein the reference control unit is configured to modify the at least one bias condition of the at least one IR emission reference component. 14. The IC device of claim 11 , wherein the reference control unit is arranged to configure at least one bias condition of the at least one IR emission reference component from a group comprising of at least one of: at least one power supply signal value provided to the at least one IR emission reference component; at least one bias signal value provided to a gate/base junction of the at least one IR emission reference component; at least one power supply signal profile provided to the at least one IR emission reference component; and at least one bias sign