Title :
Buffer placement in distributed RC-tree networks for minimal Elmore delay
Author :
van Ginneken, L.P.P.P.
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY
Abstract :
An algorithm is presented for choosing the buffer positions for a wiring tree such that the Elmore delay is minimal. For given required arrival times at the sinks of the wiring tree, the algorithm chooses buffers such that the required departure time at the source is as late as possible. The topology of the wiring tree, a Steiner tree, is assumed to be given, as well as the possible (legal) positions of the buffers. The algorithm uses a depth first search on the wiring tree to construct a set of time/capacitance pairs that correspond to different choices. The complexity of the algorithm is O(B2), where B is the number of possible buffer positions. An extension of the basic algorithm allows minimization of the number of buffers as a secondary objective
Keywords :
buffer circuits; circuit layout; distributed parameter networks; network topology; trees (mathematics); wiring; Steiner tree; buffer positions; complexity; departure time; depth first search; distributed RC-tree networks; minimal Elmore delay; minimization; required arrival times; time/capacitance pairs; topology; wiring tree; Capacitance; Circuits; Cost function; Ice; Intelligent networks; Law; Legal factors; Topology; Wire; Wiring;
Conference_Titel :
Circuits and Systems, 1990., IEEE International Symposium on
Conference_Location :
New Orleans, LA
DOI :
10.1109/ISCAS.1990.112223
