Algorithm-based low-power transform coding architectures.
Journal
1995 International Conference on Acoustics, Speech, and Signal Processing, ICASSP '95, Detroit, Michigan, USA, May 08-12, 1995
Pages
3267-3270
Date Issued
1995
Author(s)
Abstract
In most low-power VLSI designs, the supply voltage is usually reduced to lower the total power consumption. However, the device speed will be degraded as the supply voltage goes down. In this paper, we propose new algorithmic-level techniques for compensating the increased delays based on the multirate approach. We will show how to compute most of the discrete sinusoidal transforms through the decimated low-speed sequences with reasonable linear hardware overhead. For the case where the decimation factor is equal to two, the overall power consumption can be reduced to about one-third of the original design. The resulting multirate low-power architectures are regular, modular, and free of global communications. Such properties are very suitable for VLSI implementations. The proposed architectures can also be applied to very high-speed block transforms where only low-speed operators are required.
SDGs
Type
conference paper
