Tag: frequency 71 MHz

 
+

Towards an H.264/AVC HW/SW Integrated Solution: An Efficient VBSME Architecture

Abstract:

This paper presents an efficient real-time variable block size motion estimation architecture. The proposed architecture provides motion vectors for each 16 times 16 block and its 40 sub-blocks. The proposed architecture is a single-instruction multiple-data architecture integrated with embedded SRAMs on one chip. The architecture has been prototyped using Xilinx Virtex-4 XC4VSX35-10 field-programmable gate array. It processes 30-CIF fps using 71-MHz clock frequency. Its maximum clock frequencyuency is 187.7 MHz and the maximum throughput is 20 4CIF fps. The prototyped architecture has 175 k gates and 18 kbits embedded SRAM.

Published in:

Circuits and Systems II: Express Briefs, IEEE Transactions on  (Volume:55 ,  Issue: 9 )

Mohammed Sayed, Wael Badawy, and Graham Jullien, “Towards an H.264/AVC HW/SW Integrated Solution: An Efficient VBSME Architecture”, IEEE Transactions on Circuits and Systems II, Volume: 55, Issue: 9, pp. 912-916, Sept. 2008.

+

Towards an H.264/AVC HW/SW Integrated Solution: An Efficient VBSME Architecture

Abstract:

This paper presents an efficient real-time variable block size motion estimation architecture. The proposed architecture provides motion vectors for each 16 times 16 block and its 40 sub-blocks. The proposed architecture is a single-instruction multiple-data architecture integrated with embedded SRAMs on one chip. The architecture has been prototyped using Xilinx Virtex-4 XC4VSX35-10 field-programmable gate array. It processes 30-CIF fps using 71-MHz clock frequency. Its maximum clock frequencyuency is 187.7 MHz and the maximum throughput is 20 4CIF fps. The prototyped architecture has 175 k gates and 18 kbits embedded SRAM.

Published in:

Circuits and Systems II: Express Briefs, IEEE Transactions on  (Volume:55 ,  Issue: 9 )

Mohammed Sayed, Wael Badawy, and Graham Jullien, “Towards an H.264/AVC HW/SW Integrated Solution: An Efficient VBSME Architecture”, IEEE Transactions on Circuits and Systems II, Volume: 55, Issue: 9, pp. 912-916, Sept. 2008.