Title :
Backside infrared probing for static voltage drop and dynamic timing measurements
Author :
Rusu, S. ; Seidel, S. ; Woods, G. ; Grannes, D. ; Muljono, H. ; Rowlette, J. ; Petrosky, K.
Author_Institution :
Intel Corp., Santa Clara, CA, USA
Abstract :
Due to the increased number of metal layers and flip-chip packaging, most high-performance microprocessors use optical solutions to probe internal nodes from the backside of the die. Existing probing systems use a focused infrared (1.064/spl mu/m) laser to probe internal diffusions from the backside of a chip thinned down to 100/spl mu/m. However, this optical probing setup does not provide accurate information about DC voltage levels. Also, because of the stroboscopic sampling used in laser probing, jitter measurements are difficult. This approach overcomes these limitations using alternative optical non-invasive techniques based on the infrared radiation emitted by hot electrons in saturated nMOS transistors under both static bias and switching conditions.
Keywords :
MOS digital integrated circuits; flip-chip devices; hot carriers; infrared spectroscopy; integrated circuit measurement; microprocessor chips; probes; timing; backside infrared probing; dynamic timing measurements; flip-chip packaging; high-performance microprocessors; hot electrons; infrared radiation; metal layers; optical noninvasive techniques; saturated nMOS transistors; static bias; static voltage drop; switching conditions; Electron optics; Jitter; Microprocessors; Optical saturation; Packaging; Probes; Sampling methods; Semiconductor device measurement; Stimulated emission; Voltage;
Conference_Titel :
Solid-State Circuits Conference, 2001. Digest of Technical Papers. ISSCC. 2001 IEEE International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-6608-5
DOI :
10.1109/ISSCC.2001.912636
