Add to ORKGEnergy-efficient design for self-timed circuits is investigated. Null convention logic is employed to construct speed-independent self-timed circuits. For error-free computation, the supply voltage automatically tracks the input data rate so that the supply voltage can be kept as small as possible while maintaining the speed requirement. For error-tolerable computation, such as soft digital signal processing, further energy saving is achieved at the cost of signal-to-noise ratio when an ultralow supply voltage is applied. Cadence simulation shows that 40 to 70% power can be saved by introducing -15 to -11 dB error in typical speech signal processing. © IEE, 2004
Emerging biomedical applications would benefit from the availability of digital processors with subs...
Self-timed logic design methods are developed using Threshold Combinational Reduction (TCR) within t...
Self-timed logic design methods are developed using Threshold Combinational Reduction (TCR) within t...
Energy-efficient design for self-timed circuits is investigated. Null convention logic is employed t...
Supply voltage scalable system design for low power is investigated using self-timed circuits in thi...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
In this paper, we propose a self-timed architecture for low power digital signal processing with ult...
In this paper, a self-timed architecture for low voltage low power design is proposed. Compared to s...
In this paper, a self-timed architecture for low voltage low power design is proposed. Compared to s...
Abstract — Further power and energy reductions via technology and voltage scaling have become extrem...
Emerging biomedical applications would benefit from the availability of digital processors with subs...
Self-timed logic design methods are developed using Threshold Combinational Reduction (TCR) within t...
Self-timed logic design methods are developed using Threshold Combinational Reduction (TCR) within t...
Energy-efficient design for self-timed circuits is investigated. Null convention logic is employed t...
Supply voltage scalable system design for low power is investigated using self-timed circuits in thi...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
Recent research has demonstrated that for certain types of applications like sampled audio systems, ...
In this paper, we propose a self-timed architecture for low power digital signal processing with ult...
In this paper, a self-timed architecture for low voltage low power design is proposed. Compared to s...
In this paper, a self-timed architecture for low voltage low power design is proposed. Compared to s...
Abstract — Further power and energy reductions via technology and voltage scaling have become extrem...
Emerging biomedical applications would benefit from the availability of digital processors with subs...
Self-timed logic design methods are developed using Threshold Combinational Reduction (TCR) within t...
Self-timed logic design methods are developed using Threshold Combinational Reduction (TCR) within t...