Timing Extraction identifies the delay of fine-grained components within an FPGA. From these computed delays, the delay of any path can be calculated. Moreover, a comparison of the fine-grained delays allows a detailed understanding of the amount and type of process variation that exists in the FPGA. To obtain these delays, Timing Extraction measures, using only resources already available in the FPGA, the delay of a small subset of the total paths in the FPGA. We apply Timing Extraction to the Logic Array Block (LAB) on an Altera Cyclone III FPGA to obtain a view of the delay down to near-individual LUT SRAM cell granularity, characterizing components with delays on the order of tens to a few hundred picoseconds with a resolution of ±3.2ps...
This thesis examines new timing measurement methods for self delay characterisation of Field-Program...
As integrated circuits are scaled down it becomes dif-ficult to maintain uniformity in process param...
The impact of process variation in deep-submicron technologies is especially pronounced for SRAM arc...
Timing Extraction identifies the delay of fine-grained components within an FPGA. From these compute...
Timing Extraction identifies the delay of fine-grained components within an FPGA. From these compute...
Circuit variation is one of the biggest problems to overcome if Moore\u27s Law is to continue. It is...
Circuit variation is one of the biggest problems to overcome if Moore\u27s Law is to continue. It is...
This thesis examines new timing measurement methods for self delay characterisation of Field-Program...
Each new generation of FPGAs features smaller transistor sizes and more densely arranged features. T...
Both random and systematic within-die process variations (PV) are growing more severe with shrinking...
This paper studies the difficulty of predicting interconnect delay in an industrial setting. Fifty i...
This thesis focuses on random local delay variability measurement and its modeling. It explains a ci...
grantor: University of TorontoAs process geometries shrink into the deep-submicron region,...
Technology and design trends have made timing analysis the bottleneck of electronic design automatio...
Circuits implemented in FPGAs have delays that are dom-inated by its programmable interconnect. This...
This thesis examines new timing measurement methods for self delay characterisation of Field-Program...
As integrated circuits are scaled down it becomes dif-ficult to maintain uniformity in process param...
The impact of process variation in deep-submicron technologies is especially pronounced for SRAM arc...
Timing Extraction identifies the delay of fine-grained components within an FPGA. From these compute...
Timing Extraction identifies the delay of fine-grained components within an FPGA. From these compute...
Circuit variation is one of the biggest problems to overcome if Moore\u27s Law is to continue. It is...
Circuit variation is one of the biggest problems to overcome if Moore\u27s Law is to continue. It is...
This thesis examines new timing measurement methods for self delay characterisation of Field-Program...
Each new generation of FPGAs features smaller transistor sizes and more densely arranged features. T...
Both random and systematic within-die process variations (PV) are growing more severe with shrinking...
This paper studies the difficulty of predicting interconnect delay in an industrial setting. Fifty i...
This thesis focuses on random local delay variability measurement and its modeling. It explains a ci...
grantor: University of TorontoAs process geometries shrink into the deep-submicron region,...
Technology and design trends have made timing analysis the bottleneck of electronic design automatio...
Circuits implemented in FPGAs have delays that are dom-inated by its programmable interconnect. This...
This thesis examines new timing measurement methods for self delay characterisation of Field-Program...
As integrated circuits are scaled down it becomes dif-ficult to maintain uniformity in process param...
The impact of process variation in deep-submicron technologies is especially pronounced for SRAM arc...