Sökning: "VLSI Design Methodology"
Visar resultat 1 - 5 av 8 avhandlingar innehållade orden VLSI Design Methodology.
1. SiLago: Enabling System Level Automation Methodology to Design Custom High-Performance Computing Platforms : Toward Next Generation Hardware Synthesis Methodologies
Sammanfattning : .... LÄS MER
2. Design Issues in VLSI Implementation of Image Processing Hardware Accelerators - Methodology and Implementation
Sammanfattning : With the increasing capacity in today's hardware system design enabled by technology scaling, image processing algorithms with substantially more complexity can be implemented in a single chip with real-time performance. Combined with the demand for low power consumption or larger resolution seen in many applications such as mobile devices and HDTV, new design methodologies and hardware architectures are constantly called for to bridge the gap between designers productivity and what the technology could offer. LÄS MER
3. Manufacturability in the Nanometer Era: Regularity considerations in VLSI Circuits
Sammanfattning : Each reduction of the technology node has, along with improvements in IC fabricationtechnology, been the main driver in delivering the demand for function rich, integratedmobile electronics that are so prevalent. As devices keep growing smaller and geometriesapproach the order of a few atomic layers, it is increasingly difficult to achievecost-effective mass production for reasons related to performance and fabrication capability. LÄS MER
4. Accurate Leakage-Conscious Architecture-Level Power Estimation for SRAM-based Memory Structures
Sammanfattning : Following Moore’s Law, technology scaling will continue providing integration capacityof billions of transistors for IC industry. As transistors keep shrinking in size, leakagepower dissipation dramatically increases and gradually becomes a first-class design constraint. LÄS MER
5. Applications of decision diagrams in digital circuit design
Sammanfattning : Design methodology of digital circuits is a rapidly changing field. In the last 20 years, the number of transistors on a single chip has increased from thousands to tens of millions. This sets new demands on the design tools involved, their ability to capture specifications on a high level, and finally synthesize them into hardware implementations. LÄS MER