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Transient time slot (tts) based run time leakage reduction method for low power vlsi circuits.
| Content Provider | CiteSeerX |
|---|---|
| Author | Prabhakar, V. S. V. Kishore, K. Lal |
| Abstract | Abstract- Due to Technology scaling the importance of leakage power has significantly increased in the modern day system-on-chip devices. The runtime leakage component during the active state is almost becoming equal to the standby leakage component. Hence Present day research is more focused on reduction of runtime leakage current.we present a novel runtime leakage reduction for 70nm technology. As an attempt to save the leakage power in the active mode, run-time power gating is explored at various design levels. In the present work we propose a power control method based on Transient Time Slot (TTS) of a logic gate. Using static timing analysis, for each logic gate of the circuit we find its idle period (non-transition period) within the clock period. We switch off the power supply during that period which saves significant amount of run time leakage power. The Logic gates are partitioned according to a heuristic algorithm proposed into clusters so that pair of control transistors is attached to each cluster. Power is supplied only during Transient Time Slot. We simulated ISCAC’85 bench mark circuits and observed that there is significant amount of run time leakage saved. We designed a multiplier using the proposed approach and observed about 85 % of runtime leakage savings. Later we simulated c6288 netlist which is a ideal transistor netlist and observed that same amount of runtime leakage power is saved as that of TTS method. There is slight increase in the area and delay which is trade off with the leakage savings |
| File Format | |
| Access Restriction | Open |
| Subject Keyword | Transient Time Slot Run Time Leakage Reduction Method Logic Gate Low Power Vlsi Circuit Leakage Power Significant Amount Control Transistor Run Time Leakage Slight Increase Non-transition Period C6288 Netlist Present Work Idle Period Bench Mark Circuit Standby Leakage Component Modern Day System-on-chip Device Using Static Timing Analysis Run Time Leakage Power Various Design Level Leakage Saving Power Supply Abstract Due Runtime Leakage Hence Present Day Research Runtime Leakage Power Clock Period Novel Runtime Leakage Reduction Runtime Leakage Saving Power Control Method Active Mode Active State Run-time Power Gating Heuristic Algorithm Ideal Transistor Netlist Tt Method Runtime Leakage Component |
| Content Type | Text |
| Resource Type | Article |
