Cagdas Akturan scite author profile

The paper proposes a novel soflware-pipelining algorithm, Register Sensitive Force Directed Retiming Algorithm (RS-FDRA), suitable for optimizing compilers targeting embedded VLIW processors. The key difference between RS-FDRA and previous approaches is that our algorithm can handle code size constraints along with latency and resource constraints. This capability enables the exploration of pareto "optimal" points with respect to code size and performance. RS-FDRA can also minimize the increase in "register pressure" typically incurred by software pipelining. This ability is critical since, the need to insert spill code may result in significant performance degradation. Extensive experimental results are presented demonstrating that the extended set of optimization goals and constraints supported by RS-FDRA enables a thorough compiler-assisted exploration of Wade-offs among performance, code size, and register requirements, for time critical segments of embedded software components.

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Akturan

Jacome

2002

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Cagdas Akturan

Resource constrained dataflow retiming heuristics for VLIW ASIPs

RS-FDRA: A register-sensitive software pipelining algorithm for embedded VLIW processors

Rs-Fdra

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