Comparative study on low-power high-performance flip-flops / Jämförande studie av högpreserande lågeffektsvippor

Oskuii, Saeeid Tahmasbi

January 2004

<p>This thesis explores the energy-delay space of eight widely referred flip-flops in a 0.13µm CMOS technology. The main goal has been to find the smallest set of flip-flop topologies to be included in a “high performance” flip-flop cell library covering a wide range of power-performance targets. Based on the comparison results, transmission gate-based flip-flops show the best powerperformance trade-offs with a total delay (clock-to-output + setup time) down to 105ps. For higher performance, the pulse-triggered flip-flops are the fastest (80ps) alternatives suitable to be included in a flip-flop cell library. However, pulse-triggered flip-flops consume significantly larger power (about 2.5x) compared to other fast but fully dynamic flip-flops such as TSPC and dynamic TG-based flip-flops.</p>

Electronics

flip flops

latches

low power

standard cell

cell library

energy delay space

Elektronik

Electronics

Elektronik

Comparative study on low-power high-performance flip-flops / Jämförande studie av högpreserande lågeffektsvippor

Oskuii, Saeeid Tahmasbi

January 2004

This thesis explores the energy-delay space of eight widely referred flip-flops in a 0.13µm CMOS technology. The main goal has been to find the smallest set of flip-flop topologies to be included in a “high performance” flip-flop cell library covering a wide range of power-performance targets. Based on the comparison results, transmission gate-based flip-flops show the best powerperformance trade-offs with a total delay (clock-to-output + setup time) down to 105ps. For higher performance, the pulse-triggered flip-flops are the fastest (80ps) alternatives suitable to be included in a flip-flop cell library. However, pulse-triggered flip-flops consume significantly larger power (about 2.5x) compared to other fast but fully dynamic flip-flops such as TSPC and dynamic TG-based flip-flops.

Electronics

flip flops

latches

low power

standard cell

cell library

energy delay space

Elektronik

Electronics

Elektronik