Techniques and tools for implementing IEEE 754 floating-point arithmetic on VLIW integer processors
PASCO '10: Proceedings of the 4th International Workshop on Parallel and Symbolic Computation(2010)
Abstract
Recently, some high-performance IEEE 754 single precision floating-point software has been designed, which aims at best exploiting some features (integer arithmetic, parallelism) of the STMicroelectronics ST200 Very Long Instruction Word (VLIW) processor. We review here the techniques and software tools used or developed for this design and its implementation, and how they allowed very high instruction-level parallelism (ILP) exposure. Those key points include a hierarchical description of function evaluation algorithms, the exploitation of the standard encoding of floating-point data, the automatic generation of fast and accurate polynomial evaluation schemes, and some compiler optimizations.
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Key words
floating-point arithmetic,single precision floating-point software,high instruction-level parallelism,compiler optimizations,software tool,accurate polynomial evaluation scheme,floating-point data,stmicroelectronics st200,automatic generation,long instruction word,function evaluation algorithm,vliw integer processor,code generation,very long instruction word,compiler optimization,ieee 754,instruction level parallelism,floating point arithmetic,floating point
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