Abstract Anticipating the end of life for IR-based failure analysis techniques, a method of global backside preparation to ultra-thin remaining silicon thickness (RST) has been developed. When the remaining silicon is reduced, some redistribution of stress is expected, possibly altering the performance (timing) of integrated circuits in addition to electron-hole pair generation. In this work, a study of the electrical invasiveness due to grinding and polishing silicon integrated circuits to ultra-thin (< 5 um global, ~ 1 um local) remaining thickness is presented.

Abstract In this paper, we present a Superconducting Nanowire Single Photon Detector (SnSPD) system and its application to ultra low voltage Time-Resolved Emission (TRE) measurements (also known as Picosecond Imaging Circuit Analysis, PICA) of scaled VLSI circuits. The 9 µm-diameter detector is housed in a closed loop cryostat and fiber coupled to an existing Emiscope III tool for collecting spontaneous emission light from the backside of integrated circuits (ICs) down to a world record 0.5 V supply voltage in a few minutes.

Abstract In this paper, near-infrared photon emission spectroscopy measurements from ring oscillators in 45 nm and 32 nm SOI process technology are compared. Employing a cryogenically cooled camera, the measurements cover a broad spectral range from 1200-2200 nm. Both leakage and switching emission, increase monotonically with the wavelength, suggesting measurements should be made at longer wavelengths than has historically been practiced. The paper discusses the optimum cut-off wavelength for maximum signal-to-noise ratio and the obvious importance of reduced ambient temperature for performing measurements.