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Low power logic design
BY DINESH KUMAR
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STRATEGIES TO ACHIEVE LOW POWER DISSIPATION
dynamic power dissipation is directly proportional to activity factor(α),switching capacitance(c),frequency(f),and the supply voltage (vdd).
Suitable manufacturing process reduces dynamic power.Choose minimized transistors with narrow channel widthsSelect lower vdd.Choosing constant field scaling which provides a cubical
improvement in dynamic power for a given function.Static power dissipation can be reduced by reducing the
subthreshold leakage.
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CONTD…A variation on adjusting power supplies is to
divide the logic into high-speed and low-speed power groups run from separate power supplies.
Choose multiple threshold voltages to operate in critical and non-critical paths to eliminate the subthreshold leakage.
Dual-supply rails embedded in each logic cell so that the fast logic is connected to the high supply and slow is connected to the low supply.Level converters have to be inserted between the two styles of logic.For LOW vdd to HIGH vdd CVSL inverter/buffer circuit can be used.
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CONTD….Good floor planning reduces the number of long
wires in a system which reduces the parasitic capacitance and resistances.
ACTIVITY FACTOR: CMOS- typically 0.1 , dynamic logic - 0.5, clock- 1.
Pass transistors are used in lower power applications.where as dynamic and pseudo-nMOS gates appear attractive because they eliminate the bulky pMOS transistors tha account for 2/3 of the gate width in CMOS logic.
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EEPL[ENERGY ECONOMIZED PASS TRANSISTOR LOGIC]
The pass transistor logic has become commonplace in high speed and low power digital systems.
A new method for digital circuits EEPL is proposed by adopting the principle of regenerative positive feedback with pMOS switches.
Reduction in power and delay products when compared with CPL and SRPL.
To restore the output level,however, level restoration blocks(LRB) are used.
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Design of EEPL:
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Contd….EEPL structure is composed of “two inverters
and two minimum-size pMOS switches”.As one of the input of LRB is always ‘low’one
of the pMOS switch turn on,and then the level of the other is restored into the full range.
Because of “regenerative positive feedback, the average delay is shorter than that of CPL”. (fig a)
The energy is smaller than that of both CPL and SRPL independent of the W/L ratio of FB. (fig b)
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Average delay and energy:
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Layout:Layout of each logic is shown in…
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Contd….The area of the SRPL is larger than that of
EEPL from the fig 4…Shows the energy variation of each logic
according to the change of load capacitance and W/L ratio of FB.
Thus the EEPL has the minimum value, when the load capacitance are the same. Thus it is called “energy economized pass transistor logic(EEPL)”
In combinational and sequential circuits the EEPL performed by the usage of higher –bit data compressor without using the modified booth’s logical designs.
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Contd….Comparison of the full-adder performance in
each pass transistor logic. For m=1 or 3 the table is given with respect to the fundamental parameters as….
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54*54 bit multiplier [EEPL]Block diagram& spice output:
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7-bit serial counter using EEPLBlock diagram & circuit diagram of basic cell:
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Contd….
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Advantages: » consumes less energy compared to CPL &
SRPL. » usefull for high speed and low power
digital circuits.
Applications:
» combinational circuits & sequencial circuit.
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