Word-Length Aware DSP Hardware Design Flow Based on High-Level Synthesis
Multimedia applications such as video and image processing are often characterized as computation intensive applications. For these applications the word-length of data and instructions is different throughout the application. Generating hardware architectures is not a straightforward task since it...
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| Veröffentlicht in: | Journal of signal processing systems 2011-03, Vol.62 (3), p.341-357 |
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| container_title | Journal of signal processing systems |
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| creator | Le Gal, Bertrand Casseau, Emmanuel |
| description | Multimedia applications such as video and image processing are often characterized as computation intensive applications. For these applications the word-length of data and instructions is different throughout the application. Generating hardware architectures is not a straightforward task since it requires a deep word-length analysis in order to properly determine what hardware resources are needed. In this paper we suggest an automated design methodology based on high-level synthesis which takes care of data word-length and interconnection resource cost in order to generate area and power efficient fixed-point architectures for DSP applications. Both ASIC and FPGA technologies are targeted. Experimental results show that our proposed approach reduces area by 6% to 42% on FPGA technology and by 9% to 48 % on ASIC compared to previous approaches. Power saving can reach up to 44% on FPGA technology and 36% on ASIC. |
| doi_str_mv | 10.1007/s11265-010-0467-8 |
| format | Article |
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| subjects | Architecture Circuits and Systems Computer Imaging Design engineering Digital signal processing Electrical Engineering Engineering Engineering Sciences Field programmable gate arrays Hardware Image Processing and Computer Vision Micro and nanotechnologies Microelectronics Pattern Recognition Pattern Recognition and Graphics Signal processing Signal,Image and Speech Processing Synthesis Vision |
| title | Word-Length Aware DSP Hardware Design Flow Based on High-Level Synthesis |
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