This thesis examines new timing measurement methods for self delay characterisation of Field-Programmable Gate Arrays (FPGAs) components and delay measurement of complex circuits on FPGAs. Two novel measurement techniques based on analysis of a circuit's output failure rate and transition probability is proposed for accurate, precise and efficient measurement of propagation delays. The transition probability based method is especially attractive, since it requires no modifications in the circuit-under-test and requires little hardware resources, making it an ideal method for physical delay analysis of FPGA circuits. The relentless advancements in process technology has led to smaller and denser transistors in integrated circuits. While FPGA...
textTiming analysis is a key sign-off step in the design of today's chips, but technology scaling in...
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...
This thesis examines new timing measurement methods for self delay characterisation of Field-Program...
The ability to measure delay of arbitrary circuits on FPGA offers many opportunities for on-chip cha...
Reliability, power consumption and timing performance are key concerns for today's integrated circui...
This paper presents a novel self-timed multi-purpose sensor especially conceived for Field Programma...
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 paper presents a novel self-timed multi-purpose sensor especially conceived for Field Programma...
We present a general technique for measuring the propagation delay on the internal wires of FPGA chi...
With the scaling of CMOS technology, critical paths in digital circuits have become largely sensitiv...
This thesis focuses on random local delay variability measurement and its modeling. It explains a ci...
We report the design and characterization of a circuit technique to measure the on-chip delay of a...
As integrated circuits are scaled down it becomes dif-ficult to maintain uniformity in process param...
textTiming analysis is a key sign-off step in the design of today's chips, but technology scaling in...
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...
This thesis examines new timing measurement methods for self delay characterisation of Field-Program...
The ability to measure delay of arbitrary circuits on FPGA offers many opportunities for on-chip cha...
Reliability, power consumption and timing performance are key concerns for today's integrated circui...
This paper presents a novel self-timed multi-purpose sensor especially conceived for Field Programma...
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 paper presents a novel self-timed multi-purpose sensor especially conceived for Field Programma...
We present a general technique for measuring the propagation delay on the internal wires of FPGA chi...
With the scaling of CMOS technology, critical paths in digital circuits have become largely sensitiv...
This thesis focuses on random local delay variability measurement and its modeling. It explains a ci...
We report the design and characterization of a circuit technique to measure the on-chip delay of a...
As integrated circuits are scaled down it becomes dif-ficult to maintain uniformity in process param...
textTiming analysis is a key sign-off step in the design of today's chips, but technology scaling in...
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...