Measurement and modeling of on-chip transmission line effects in a 400 MHz microprocessor

On-chip interconnect delays are becoming an increasingly important factor for high-performance microprocessors. Consequently, critical on-chip wiring must be carefully optimized to reduce and control interconnect delays, and accurate interconnect modeling has become more important. This paper shows the importance of including transmission line effects in interconnect modeling of the on-chip clock distribution of a 400 MHz CMOS microprocessor. Measurements of clock waveforms on the microprocessor showing 30 ps skew were made using an electron beam prober. Waveforms from a test chip are also shown to demonstrate the importance of transmission line effects.

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