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| Title: | Toward efficient static analysis of finite-precision effects in DSP applications via affine arithmetic modeling | Authors: | Fang C.F. Rutenbar R.A. P�schel M. Chen T. |
Keywords: | Affine arithmetic Custom floating-point Embedded hardware Probabilistic error bound Static error analysis |
Issue Date: | 2003 | Citation: | Fang C.F., Rutenbar R.A., P�schel M., Chen T. (2003). Toward efficient static analysis of finite-precision effects in DSP applications via affine arithmetic modeling. Proceedings - Design Automation Conference : 496-501. ScholarBank@NUS Repository. | Abstract: | We introduce a static error analysis technique, based on smart interval methods from affine arithmetic, to help designers translate DSP codes from full-precision floating-point to smaller finite-precision formats. The technique gives results for numerical error estimation comparable to detailed simulation, but achieves speedups of three orders of magnitude by avoiding actual bit-level simulation. We show results for experiments mapping common DSP transform algorithms to implementations using small custom floating point formats. | Source Title: | Proceedings - Design Automation Conference | URI: | http://scholarbank.nus.edu.sg/handle/10635/146343 | ISSN: | 0738100X |
| Appears in Collections: | Staff Publications |
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