A near optimal algorithm for technology mapping minimizing area under delay constraints

The authors examine the problem of mapping a Boolean network using gates from a finite size cell library to minimize the total gate area subject to constraints on signal arrival time at the primary outputs. The approach consists of two steps: In the first step, delay functions are computed at all no...

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Bibliographic Details
Published in[1992] Proceedings 29th ACM/IEEE Design Automation Conference pp. 492 - 498
Main Authors Chaudhary, K., Pedram, M.
Format Conference Proceeding
LanguageEnglish
Published IEEE Comput. Soc. Press 1992
Subjects
Circuit synthesis
Computer networks
Delay effects
Inverters
Libraries
Logic circuits
Network synthesis
Polynomials
Timing
Tree graphs
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ISBN9780818628221
0818628227
ISSN0738-100X
DOI10.1109/DAC.1992.227753

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Summary:The authors examine the problem of mapping a Boolean network using gates from a finite size cell library to minimize the total gate area subject to constraints on signal arrival time at the primary outputs. The approach consists of two steps: In the first step, delay functions are computed at all nodes in the network, and in the second step the mapping solution is generated based on the computed delay functions and the required times at the primary outputs. For a NAND-decomposed tree, subject to load calculation errors, this two step approach finds the minimum area mapping satisfying all delay constraints if such a solution exists. The algorithm has polynomial run time on a node-balanced tree and is easily extended to mapping a directed acyclic graph. The results compared favorably with those of the MIS2.2 mapper.< >
ISBN:9780818628221
0818628227
ISSN:0738-100X
DOI:10.1109/DAC.1992.227753