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ISPD
2000
ACM
2000
ACM
Simulating frequency-dependent current distribution for inductance modeling of on-chip copper interconnects
500+ MHz designs using deep-submicron (DSM) copper interconnects require accurate and efficient modeling of cladding-metals’ frequency-dependent impedance [1]. In this paper, for the first time, we simulate and describe the current distribution inside a copper-based interconnect in a rich set of multi-line structures. The difference of the resistivities of copper alloy and the cladding metals causes a non-monotonic current density versus cross-wire axis relation. The same situation does not occur for the state-of-the-art aluminum processes. It enlarges the inductance by more than 12 percent. Simulating the frequency dependence of the inductance with this property, we find that PEEC [2][3] can simulate cladded wire profile to achieve accurate inductance extraction. Other approximate methods result in inaccurate and lower inductance values. A new modeling methodology based on library look-up is then proposed to make an efficient field-solver based extraction flow for realistic DSM des...
Real-time Traffic| Added | 01 Aug 2010 |
| Updated | 01 Aug 2010 |
| Type | Conference |
| Year | 2000 |
| Where | ISPD |
| Authors | Li-Fu Chang, Keh-Jeng Chang, Robert Mathews |
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