I. Arsovski, Travis Hebig, Daniel Dobson, R. Wistort
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A Ternary Content Addressable Memory (TCAM) uses a two phase search operation where early prediction on its pre-search results prematurely activates the subsequent main-search operation, which is later interrupted only if the final pre-search results contradict the early prediction. This early main-search activation improves performance by 30%, while the low-probability of a late-correct has a negligible power impact. This Early Predict Late Correct (EPLC) sensing enables a high-performance TCAM compiler implemented in 32nm High-K Metal Gate SOI process to achieve 1Gsearch/sec throughput on a 2048×640bit TCAM instance while consuming only 0.76W. Embedded Deep-Trench (DT) capacitance for power supply noise mitigation adds 5% overhead for a total TCAM area of 1.56mm2.
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