Design and FPGA implementation of a video scalar with on-chip reduced memory utilization

A novel architecture suitable for FPGA/ASIC implementation of a video scalar is presented. The scheme proposed here results in enormous savings of memory normally required, without compromising on the image quality. In the present work, SVGA compatible video sequence is scaled up to XGA format. The up scaling operation for a video sequence is carried out by scaling up the image input, followed by down scaling and filtering. The FPGA implementation of the proposed video-scaling algorithm is capable of processing high-resolution, color pictures of sizes up to 1024x768 pixels at the real time video rate of 30 frames/second. The design has been realized by RTL compliant Verilog coding, and fits into a single chip with a gate count utilization of two million gates. For lower resolution pictures, the mapped device can be scaled down. The present FPGA implementation compares favorably with another ASIC implementation.

[1]  Robert Bregovic,et al.  Multirate Systems and Filter Banks , 2002 .

[2]  Erup Interpolation in Digital Modems-Part 11 : Implementation and Performance , 2000 .

[3]  W.B. Mikhael,et al.  Polyphase implementation of a video scalar , 1997, Conference Record of the Thirty-First Asilomar Conference on Signals, Systems and Computers (Cat. No.97CB36136).

[4]  Babak Daneshrad,et al.  Word-serial Architectures for Filtering and Variable Rate Decimation , 2002, VLSI Design.

[5]  Tokyo,et al.  Proceedings. Euromicro Symposium on Digital System Design , 2003, Euromicro Symposium on Digital System Design, 2003. Proceedings..

[6]  Lars Erup,et al.  Interpolation in digital modems. II. Implementation and performance , 1993, IEEE Trans. Commun..

[7]  H. Samueli,et al.  VLSI architectures for a high-speed tunable digital modulator/ demodulator/bandpass-filter chip set , 1992, [Proceedings] 1992 IEEE International Symposium on Circuits and Systems.

[8]  Myung Hoon Sunwoo,et al.  An efficient variable-length tap FIR filter chip , 1998, Proceedings of 1998 Asia and South Pacific Design Automation Conference.