N.V. Arvind scite author profile

We report the design and characterization of a circuit technique to measure the on-chip delay of an individual logic gate (both inverting and noninverting) in its unmodified form. The test circuit comprises of digitally reconfigurable ring oscillator (RO). The gate under test is embedded in each stage of the ring oscillator. A system of linear equations is then formed with different configuration settings of the RO, relating the individual gate delay to the measured period of the RO, whose solution gives the delay of the individual gates. Experimental results from a test chip in 65-nm process node show the feasibility of measuring the delay of an individual inverter to within 1 ps accuracy. Delay measurements of different nominally identical inverters in close physical proximity show variations of up to 28% indicating the large impact of local variations. As a demonstration of this technique, we have studied delay variation with poly-pitch, length of diffusion (LOD) and different orientations of layout in silicon. The proposed technique is quite suitable for early process characterization, monitoring mature process in manufacturing and correlating model-to-hardware.Index Terms-Gate delay measurement, local variations, on-chip measurement, reconfigurable ring oscillator.

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Path based approach for crosstalk delay analysis

Arvind

Rajagopal

Ajith

et al.

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Asymmetric Aging: Introduction and Solution for Power-Managed Mixed-Signal SoCs

Jain

Cano²,

Pudi

et al. 2014

IEEE Trans. VLSI Syst.

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N.V. Arvind

A case study of ir-drop in structured at-speed testing

Within-Die Gate Delay Variability Measurement Using Reconfigurable Ring Oscillator

Path based approach for crosstalk delay analysis

Asymmetric Aging: Introduction and Solution for Power-Managed Mixed-Signal SoCs

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