Search for dissertations about: "thesis on power gating"
Showing result 1 - 5 of 11 swedish dissertations containing the words thesis on power gating.
-
1. Static Power Reduction and Estimation in CMOS Circuits Considering Emerging Leakage Mechanisms
Abstract : Due to semiconductor technology advancements, the static power dissipation caused by leakage currents in CMOS circuits is growing at a much faster rate than dynamic power; the dominant power component. As a result, controlling and limiting static power becomes as crucial as controlling dynamic power. READ MORE
-
2. Performance and Energy Efficient Network-on-Chip Architectures
Abstract : The scaling of MOS transistors into the nanometer regime opens the possibility for creating large Network-on-Chip (NoC) architectures containing hundreds of integrated processing elements with on-chip communication. NoC architectures, with structured on-chip networks are emerging as a scalable and modular solution to global communications within large systems-on-chip. READ MORE
-
3. Multi-Mode Datapath Circuits for Flexible and Energy-Efficient Computing
Abstract : Tailored to run domain-specific applications under very strict constraints on, for example, real-time performance and power dissipation, embedded systems rarely can be implemented on general-purpose computing platforms. Rather, the embedded processor's architecture and implementation technology should be fine tuned to the needs of the particular embedded system. READ MORE
-
4. Scaling and Gating Attosecond Pulse Generation
Abstract : High-order harmonic generation (HHG) provides the basis for attosecond light sources delivering coherent pulses in the extreme ultraviolet spectral region. Such light sources are employed for a variety of applications within imaging, attosecond spectroscopy, and high-precision frequency metrology. READ MORE
-
5. Gating and modulation mechanism of voltage gated sodium channels
Abstract : Voltage-gated sodium channels (Nav channels) play an essential role in nerve impulse conduction in excitable cells. Thus, these channels are involved in several neurological and muscular disorders. Understanding their mechanism of functioning is essential for designing drugs targeting them. READ MORE