We present a new detailed routing methodology specifically designed for datapath layouts. In typical state-of-the-art microprocessor designs, datapaths comprise about 70\% of the logic (excluding caches). Although research on datapath placement and global routing has been reported, very little research has been reported in the area of detailed routing for datapaths.Datapaths typically comprise regular {\em bit-slices} which are replicated. We define anet-cluster, which is collection of similarly structured nets present across different bit-slices. We introduce two clustering schemes (Footprint-driven clusteringandInstance-driven clustering) to extract such net-clusters. Then, we perform astrap-basedrouting on exactly one member net of each net-cluster (in a single representative bit-slice). Next, for each net, wepropagateits route to all other nets in its net-cluster. Our algorithm is unique in that it performs the detailed routing on asinglebit-slice, and infers the routing for all bit-slices using the notion of net clusters.We demonstrate at least 6$\times$ speed gains for industrial 32 and 64-bit datapath designs. The regularity of the routes across the bit-slices results in more predictable timing characteristics for the resulting datapath layout.

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

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