Electrical computers and digital processing systems: support – Computer power control
Patent
1998-06-03
2000-08-15
Ray, Gopal C.
Electrical computers and digital processing systems: support
Computer power control
713320, 713321, G06F 132, G06F 1750
Patent
active
06105139&
ABSTRACT:
A low-overhead controller-based power management technique that re-specifies control signals to reconfigure existing multiplexer networks and functional units to minimize unnecessary activity. Though the control signals in an RT-level implementation are fully specified, they can be re-specified under certain states/conditions when the data path components that they control need not be active. Another aspect of this invention is an algorithm to perform power management through controller re-specification, that consist of constructing an activity graph for each data path component, identifying conditions under which the component need not be active, and re-labeling the activity graph resulting in re-specification of the corresponding control expressions. The algorithm avoids the above negative effects of controller re-specification. Experimental results demonstrate that (i) controller re-specification allows us to perform efficient power management and obtain large power savings for control-flow intensive designs, which pose several challenges to conventional power management techniques, and (ii) it is important to consider the various potential negative effects while performing controller re-specification in order to obtain maximal power savings.
REFERENCES:
patent: 5298803 (1994-03-01), Starkweather
patent: 5331227 (1994-07-01), Hawes
patent: 5461345 (1995-10-01), Taki
patent: 5784627 (1998-07-01), MacDonald
Anthony Correale, Jr., "Overview of the Power Minimization Techniques Employed in the IBM PowerPC 4xx Embedded Controllers," International Symposium on Low Power Design, 1995.
B. Suessmigh and G. Paap, Abstract "Power PC 603 Microprocessor. Power Management," ACM 1994.
V. Tiwari et al, "Dynamic Power Management for Microprocessors: A Case Study," VLSI Design, 1997.
L. Benini et al., "Saving Power by Snythesizing Gated Clocks for Sequential Circuits," IEEE 1994.
G. E. Tellez, et al., "Activity-Driven Clock Design for Low Power Circuits," IEEE 1995.
C. Papachristou, et al, "An Effective Power Management Scheme for RTL Design Based on Multiple Clocks," IEEE 1996.
M. Alidina, et al., "Precomputation-Based Sequential Logic Optimization for Low Power," IEEE 1994.
V. Tiwari, et al., "Guarded Evaluation: Pushing Power Management to Logic Synthesis/Design," 1995.
E. Musoll and J. Cortadella, "High-Level Synthesis Techniques foir Reducing the Activity of Functional Units," IEEE 1995.
J. Monteiro, et al., "Scheduling Techniques to Enable Power Management," IEEE 1996.
A. Raghunathan, et al., "Glitch Analysis and Reduction in Register transrer Level Power Optimization," IEEE 1996.
A. Raghunathan and N. K. Jha, "Behavioral Synthesis for Low Power," IEEE 1994.
A. Raghunathan, et al., "Controller Re-Specification to Minimize Switching Activity in Controller/Data Path Circuits," IEEE 1996.
R. A. Bergamaschi et al., "Control Optimization in High-level Synthesis Using Behavioral Don't Cares," IEEE 1992.
S. C. Huang and W. H. Wolf, "Performance-Driven Synthesis in Controller-Datapath," IEEE 1994.
A. Raghunathan, et al., "Register-Transfer Level Estimation Techniques for Switching Activity and Power Consumption," IEEE 1996.
S. Bhattacharya, et al., "Clock Period Optimization During Resource Sharing and Assignment," ACM/IEEE 1994.
S. Bhattacharya et al., "Provably Correct High-Level Timing Analysis Without Path Sensitization," IEEE/ACM 1994.
S. Malik, "Analysis of Cyclic Combinational Circuits," IEEE 1994.
L. Stok, "False Loops Through Resource Sharing (Log CAD)," IEEE 1992.
S. Bhattacharya, et al., "Performance Analysis and Optimization of Schedules for Conditional and Loop-Intensive Specifications," IEEE 1994.
Dey Sujit
Jha Niraj K.
Raghunathan Anand
NEC USA Inc.
Ray Gopal C.
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