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Class Report 林常仁 Low Power Design: System and Algorithm Levels.

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Presentation on theme: "Class Report 林常仁 Low Power Design: System and Algorithm Levels."— Presentation transcript:

1 Class Report 林常仁 Low Power Design: System and Algorithm Levels

2 Why Low Power Battery life in portable systems Packaging and cooling cost Digital noise immunity Power supply rail design Environmental concerns Goal: reduce power dissipations but maintaining adequate throughput rate

3 Low Power Design Approaches System: Hardware-software partitioning, power distribution Algorithms: Complexity, concurrency, locality, regularity, data representation Architecture: Parallelism, pipelined, signal correlations Circuit/Logic: Size, logic design, logic style Technology: Scaling, threshold reduction, advanced packaging Run at minimum allowable voltage Reduce effective switching capacitance per sample

4 Level of Power Reduction Level of Abstraction Expected Saving Algorithm10–99% Architecture10-90% Logic Level20-40% Layout Level10-30% Device Level10-30% General Purpose Applicable Increasing Leverage

5 System Level Optimization System partition is very important for low power implementation of time-slicing OFDM receiver or system-on-chip (SOC) application Energy consumption determines the battery life. Functions are implemented in different modes: -- Active modes with different clocks (voltage) -- Standby mode with slow clock -- Sleep or suspend mode (slowest clock or shut down)

6 Power Reduction by Clock Gating Module Unit 1 Enable 1 Module Unit 2 Enable 2 Module Unit N Enable 2 Clock   Need circuit in standby mode or active mode to generate enable signals  Modules will be partitioned by -- application functions -- speed of implementation  In SOC applications, the global clock might activate the local clock generator  Reducing power consumption can use a global synchronous local synchronous (GALS) design style

7 Stopping Clock of Unused Block 0 0 1 Function A Function B 0 0 1 Function A Function B 0 1

8 Algorithm Level Optimization Apply fast algorithm to reduce the average switched capacitance C L per sample Multiplies are traded-off with adds Can be combined with other low area/power techniques via voltage scaling Select the suitable algorithm to meet the requirements and to reduce the computations Algorithm transforms: parallel/pipelined processing, look ahead, retiming, folding, unfolding, strength reduction

9 Algorithm Optimization - Example x0x0 x1x1 x1x1 x2x2 h0h0 h1h1 h0h0 h1h1 h0h0 h 1 -h 0 h1h1 y0y0 y1y1 y0y0 y1y1 x 0 +x 1 x 1 +x 2 x1x1 4 multipliers, 2 adds3 multipliers, 5 adds  Winograd’s algorithm reduce the number of multiplies at the price of the number of adds

10 Precomputation-Based Optimization Comparator A > B A(n-1) B(n-1) B(n-2) A(n-2) B(0) A(0) Load Disable When A(n-1)  B(n-1)  Achieve up to 75% power reduction with 3% area overhead  In the worst case, there are an additional 1 to 5 more gate delay

11 Don’t Care Optimization  x1x1 x2x2 x3x3 xnxn R1 h f R2  x1x1 x2x2 x3x3 xnxn R1 h f R2 LE FF

12 Comparison of 8X8 DCT Algorithms AlgorithmMultiplicationsAdditions Brute Force4096 Row-Column1024 Chen [CSF77]256416 Ligtenberg [LV86]208464 Arai [AAN88]80464 Feig [FW92]54462 Lee [CL92]112472

13 References A. P. Chandreakasan and R. W. Brodersen, Minimizing Power Consumption in Digital CMOS Circuits, IEEE Proceedings, pp.498-523, April 1995. M. Mehendale and S. D. Sherlekar, VLSI Synthesis of DSP Kernels, Kluwer Academic Publishers, 2001. K. K. Parhi, VLSI Digital Signal Processing Systems – Design and Implementation, John Wiley & Sons, 1999. S.S. Rofail and K. Yeo, Low-Voltage, Low-Power Digital BiCMOS Circutis, Prentice Hall, 2000.

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