A Hardware-Efficient Programmable FIR Processor Using Input-Data and Tap Folding
: Advances in nanoelectronic fabrication have enabled integrated circuits to operate at a high frequency. The finite impulse response (FIR) filter needs only to meet real-time demand. Accordingly, increasing the FIR architecture's folding number can compensate the high-frequency operation and r...
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| Published in | EURASIP journal on advances in signal processing Vol. 2007; no. 1; p. 092523 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
BioMed Central Ltd
28.01.2007
SpringerOpen |
| Online Access | Get full text |
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| Abstract | : Advances in nanoelectronic fabrication have enabled integrated circuits to operate at a high frequency. The finite impulse response (FIR) filter needs only to meet real-time demand. Accordingly, increasing the FIR architecture's folding number can compensate the high-frequency operation and reduce the hardware complexity, while continuing to allow applications to operate in real time. In this work, the folding scheme with integrating input-data and tap folding is proposed to develop a hardware-efficient programmable FIR architecture. With the use of the radix-4 Booth algorithm, the 2-bit input subdata approach replaces the conventional 3-bit input subdata approach to reduce the number of latches required to store input subdata in the proposed FIR architecture. Additionally, the tree accumulation approach with simplified carry-in bit processing is developed to minimize the hardware complexity of the accumulation path. With folding in input data and taps, and reduction in hardware complexity of the input subdata latches and accumulation path, the proposed FIR architecture is demonstrated to have a low hardware complexity. By using the TSMC 0.18
m CMOS technology, the proposed FIR processor with 10-bit input data and filter coefficient enables a 128-tap FIR filter to be performed, which takes an area of 0.45
, and yields a throughput rate of 20 M samples per second at 200 MHz. As compared to the conventional FIR processors, the proposed programmable FIR processor not only meets the throughput-rate demand but also has the lowest area occupied per tap. |
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| AbstractList | Advances in nanoelectronic fabrication have enabled integrated circuits to operate at a high frequency. The finite impulse response (FIR) filter needs only to meet real-time demand. Accordingly, increasing the FIR architecture's folding number can compensate the high-frequency operation and reduce the hardware complexity, while continuing to allow applications to operate in real time. In this work, the folding scheme with integrating input-data and tap folding is proposed to develop a hardware-efficient programmable FIR architecture. With the use of the radix-4 Booth algorithm, the 2-bit input subdata approach replaces the conventional 3-bit input subdata approach to reduce the number of latches required to store input subdata in the proposed FIR architecture. Additionally, the tree accumulation approach with simplified carry-in bit processing is developed to minimize the hardware complexity of the accumulation path. With folding in input data and taps, and reduction in hardware complexity of the input subdata latches and accumulation path, the proposed FIR architecture is demonstrated to have a low hardware complexity. By using the TSMC 0.18 m CMOS technology, the proposed FIR processor with 10-bit input data and filter coefficient enables a 128-tap FIR filter to be performed, which takes an area of 0.45 , and yields a throughput rate of 20 M samples per second at 200 MHz. As compared to the conventional FIR processors, the proposed programmable FIR processor not only meets the throughput-rate demand but also has the lowest area occupied per tap. : Advances in nanoelectronic fabrication have enabled integrated circuits to operate at a high frequency. The finite impulse response (FIR) filter needs only to meet real-time demand. Accordingly, increasing the FIR architecture's folding number can compensate the high-frequency operation and reduce the hardware complexity, while continuing to allow applications to operate in real time. In this work, the folding scheme with integrating input-data and tap folding is proposed to develop a hardware-efficient programmable FIR architecture. With the use of the radix-4 Booth algorithm, the 2-bit input subdata approach replaces the conventional 3-bit input subdata approach to reduce the number of latches required to store input subdata in the proposed FIR architecture. Additionally, the tree accumulation approach with simplified carry-in bit processing is developed to minimize the hardware complexity of the accumulation path. With folding in input data and taps, and reduction in hardware complexity of the input subdata latches and accumulation path, the proposed FIR architecture is demonstrated to have a low hardware complexity. By using the TSMC 0.18 m CMOS technology, the proposed FIR processor with 10-bit input data and filter coefficient enables a 128-tap FIR filter to be performed, which takes an area of 0.45 , and yields a throughput rate of 20 M samples per second at 200 MHz. As compared to the conventional FIR processors, the proposed programmable FIR processor not only meets the throughput-rate demand but also has the lowest area occupied per tap. |
| Author | Chen, Li-Hsun Chen, Oscal T-C |
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| Snippet | : Advances in nanoelectronic fabrication have enabled integrated circuits to operate at a high frequency. The finite impulse response (FIR) filter needs only... Advances in nanoelectronic fabrication have enabled integrated circuits to operate at a high frequency. The finite impulse response (FIR) filter needs only to... |
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| Title | A Hardware-Efficient Programmable FIR Processor Using Input-Data and Tap Folding |
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