System and method for physically detecting counterfeit electronics

1 .- 53 . (canceled) 54 . A method, comprising: inputting signals into a power input and a clock input of a semiconductor; collecting, with an antenna and a receiver coupled to the antenna, electromagnetic energy in a radio frequency (RF) spectrum emitted by the semiconductor in a response to inputting power and clock signals; processing, with a processor, an emission signature of collected electromagnetic energy against a baseline emission signature of a genuine semiconductor; and determining, with the processor and based on a comparison of the processed emission signature against the baseline emission signature, a condition of the semiconductor. 55 . The method of claim 54 , wherein inputting the signals into the power and clock inputs comprises inputting, with an oscillator signal source, an oscillating signal into the clock input. 56 . The method of claim 54 , wherein inputting the signals into the power and clock inputs comprises inputting, with an oscillator signal source, a monotonic oscillating signal into the clock input. 57 . The method of claim 54 , wherein inputting the signals into the power and clock inputs comprises inputting, with an oscillator signal source, a multi-tone oscillating signal into the clock input. 58 . The method of claim 54 , wherein inputting the signals into the power and clock inputs comprises inputting, with an oscillator signal source, a modulated oscillating signal into the clock input. 59 . The method of claim 54 , wherein inputting the signals into the power and clock inputs comprises inputting, with a high precision signal frequency oscillation generation source, an oscillating signal into the clock input. 60 . The method of claim 54 , wherein inputting the signals into the power and clock inputs comprises inputting the signals through a fixture configured to receive the semiconductor therewithin. 61 . The method of claim 54 , wherein processing the emission signature comprises obtaining discrete wavelet transform coefficient statistics. 62 . The method of claim 54 , wherein processing the emission signature comprises obtaining relative phase measurement and comparing obtained phase measurement to an anticipated phase measurement. 63 . The method of claim 54 , wherein processing the emission signature comprises performing a clustering analysis. 64 . The method of claim 54 , wherein determining the condition of semiconductor comprises determining a counterfeit or a genuine condition of the semiconductor. 65 . The method of claim 54 , wherein determining the condition of semiconductor comprises determining a genuine condition of the semiconductor by matching the processed emission signature with the baseline emission signature. 66 . The method of claim 54 , wherein determining the condition of semiconductor comprises analyzing at least one of frequency locations of emissions components, phases of emissions, cross-modulation and inter-modulation components generated by internal circuitry, shape of any individual emission, quality factors of any individual emissions or timing characteristics of emissions. 67 . The method of claim 54 , further comprising energizing the semiconductor with a powered free-field illumination source during collection of the electromagnetic energy. 68 . The method of claim 54 , further comprising establishing the baseline emission signature of the semiconductor. 69 . The method of claim 54 , further comprising amplifying the emission signature of collected electromagnetic energy. 70 . A method, comprising: only inputting an oscillating signal into a clock input of a semiconductor; collecting, with an antenna and a receiver coupled to the antenna, electromagnetic energy in a radio frequency (RF) spectrum emitted by the semiconductor in a response to inputting the oscillating signal into the clock input; processing, with a processor, an emission signature of collected electromagnetic energy against a baseline emission signature of a genuine semiconductor; and determining, with the processor and based on a comparison of the processed emission signature against the baseline emission signature, a condition of the semiconductor. 71 . The method of claim 70 , further comprising changing a frequency setting of the oscillating signal and repeating inputting the oscillating signal, collecting the electromagnetic energy, processing the emission signature and determining the condition of the semiconductor. 72 . A method, comprising: only inputting a signal into a power input of a semiconductor; collecting, with an antenna and a receiver coupled to the antenna, electromagnetic energy in a radio frequency (RF) spectrum emitted by the semiconductor in a response to inputting the signal into the power input; processing, with a processor, an emission signature of collected electromagnetic energy against a baseline emission signature of a genuine semiconductor; and determining, with the processor and based on a comparison of the processed emission signature against the baseline emission signature, a condition of the semiconductor.