1. Characterization of a CMOS cell library for low-voltage operation
Department of Electrical and Computer Engineering
Jia Yao

2. Low-power and Low-voltage
Pavg = Pdyn + Pstatic
Pdyn = Ptran + Pshort-circuit
Ptran = α * C * Vdd 2 * f
Pshort-circuit = Isc * Vdd
CMOS: dynamic power
Reduction of the power supply voltage is the most efficient way to reduce the power consumption.

3. Concentration Study TSMC 0.18um standard cell library
Design basic CMOS cells in Hspice and run
simulation
Apply supply voltage from high to low to
observe the influence of lowering Vdd
Collect data and arrive to conclusion

4. Basic Parameters The environment temperature : 25 ℃
Input pulse T=24ns, and the width of input pulse is 12ns, so the frequency is 41.6MHz.
Input slew : 0.03ns
Channel length L=0.2um
Width Wn=2um, Wp=2.4um
Nmos:VTH0 =
Pmos: VTH0 =

5. Without and with outloading
Calculation
Gate Delay= (tphl+ tplh)/2
For two or more inputs
gate, calculate delay
separately.
1. Gate Delay
Vdd/2
Vdd
tphl
tplh in
Vdd
Vdd/2
Vdd/2 A Y
tphl
tplh B
out
Vdd
Without and with outloading
Vdd/2
Vdd/2 A Y Y’ B

6. Calculation 2. Power Calculation ※ Average power and Peak power
※ For two or more inputs, calculate power
separately, keep only one signal changing at
one time.
※ Without and with outloading

7. Inverter
2.5v
2.0v
1.8v
1.5v
1.2v
1.0v
0.8v
0.5v
A→Y↓
(ns)
0.0092
0.019
0.0113
0.021
0.0126
0.023
0.0151
0.026
0.0189
0.033
0.0240
0.042
0.0377
0.068
0.7660
1.266
A→Y↑
0.015
0.030
0.018
0.036
0.039
0.048
0.031
0.065
0.043
0.092
0.081
0.176
2.420
5.036
Delay
0.012
0.025
0.029
0.016
0.037
0.049
0.034
0.067
0.059
0.122
1.593
3.151
Avg Power
(uW/Mhz)
0.0558
0.1975
0.0357
0.1224
0.0293
0.0981
0.0210
0.0674
0.0149
0.0429
0.0109
0.0297
0.0074
0.0188
0.0029
0.0064
Peak
Power
32.29
48.76
25.32
39.73
17.76
26.83
13.48
15.09
9.71
8.40
4.62
3.23
0.14
0.09
Power-Delay
Product
(e-17)
0.0682
0.489
0.0519
0.350
0.0465
0.305
0.0400
0.248
0.0371
0.209
0.0367
0.200
0.0439
0.299
0.4714
2.020

9. Power-Delay Product

10. Comparison : with and without outloading
Delay
Avg Power
Peak Power
Power-Delay Product

11. Nand2

12. 2.5v
2.0v
1.8v
1.5v
1.2v
1.0v
0.8v
0.5v
A→Y↓
(ns)
0.016
0.029
0.018
0.033
0.020
0.035
0.023
0.042
0.031
0.055
0.040
0.077
0.083
0.143
2.4
2.987
A→Y↑
0.034
0.021
0.044
0.028
0.054
0.038
0.073
0.104
0.107
0.196
3.280
5.392
Delay
0.017
0.036
0.026
0.048
0.064
0.090
0.095
0.170
2.842
4.190
Avg Power
(uW/Mhz)
0.0789
0.2290
0.0504
0.1404
0.0412
0.1120
0.0293
0.0764
0.0195
0.0483
0.0132
0.0333
0.0094
0.0209
0.0036
0.0066
Peak
Power
48.25
63.32
30.81
38.17
24.71
29.62
17.66
18.27
10.18
9.08
5.51
4.50
1.90
1.46
0.09
0.11
Power-Delay
Product
(e-16)
0.0134
0.0719
0.0099
0.0511
0.0088
0.0445
0.0075
0.0364
0.0068
0.0310
0.0063
0.0301
0.0089
0.0354
0.1029
0.2760

13. 2.5v
2.0v
1.8v
1.5v
1.2v
1.0v
0.8v
0.5v
B→Y↓
(ns)
0.019
0.032
0.022
0.036
0.024
0.039
0.029
0.046
0.037
0.061
0.053
0.083
0.096
0.015
2.383
3.762
B→Y↑
0.025
0.041
0.030
0.049
0.033
0.054
0.066
0.058
0.089
0.082
0.125
0.152
0.230
3.989
6.091
Delay
0.026
0.043
0.047
0.035
0.056
0.075
0.068
0.104
0.124
0.122
3.168
4.927
Avg Power
(uW/Mhz)
0.1190
0.2903
0.7660
0.1779
0.0625
0.1420
0.0442
0.0964
0.0284
0.0604
0.0202
0.0413
0.0126
0.0255
0.0035
0.0063
Peak
Power
57.80
64.08
36.44
38.32
28.99
29.34
17.92
18.02
9.40
8.54
6.04
2.93
0.05
Power-Delay
Product
(e-16)
0.0257
0.105
0.0198
0.0756
0.0178
0.0664
0.0155
0.0543
0.0134
0.0454
0.0136
0.0429
0.0156
0.0312
0.1115
0.3108

14. Comparison : with and without outloading
Delay
Avg Power
Peak Power
Power-Delay Product

15. NOR2

16. 2.5v
2.0v
1.8v
1.5v
1.2v
1.0v
0.8v
0.5v
A→Y↓
(ns)
0.013
0.022
0.015
0.024
0.016
0.026
0.018
0.029
0.023
0.036
0.047
0.075
1.005
1.660
A→Y↑
0.027
0.06
0.032
0.07
0.037
0.08
0.100
0.067
0.14
0.011
0.22
0.242
0.45
7.938
11.96
Delay
0.020
0.041
0.049
0.053
0.033
0.065
0.045
0.090
0.131
0.145
0.264
4.471
6.812
Avg Power
(uW/Mhz)
0.0775
0.2298
0.0500
0.1399
0.1108
0.0294
0.0745
0.0189
0.0465
0.0139
0.0319
0.0091
0.0201
0.0034
0.0054
Peak
Power
64.91
83.87
42.72
54.07
33.62
43.32
24.49
28.59
16.20
15.69
10.36
8.62
4.50
3.32
0.12
1.13
Power-Delay
Product
(e-16)
0.0154
0.0940
0.0119
0.0679
0.0108
0.0592
0.0096
0.0487
0.0085
0.0420
0.0028
0.0133
0.0530
0.1532
0.3658

17. 2.5v
2.0v
1.8v
1.5v
1.2v
1.0v
0.8v
0.5v
B→Y↓
(ns)
0.015
0.024
0.017
0.027
0.018
0.028
0.021
0.032
0.026
0.040
0.034
0.051
0.055
0.082
1.104
1.762
B→Y↑
0.07
0.08
0.045
0.09
0.058
0.11
0.083
0.15
0.125
0.22
0.256
0.44
7.141
11.75
Delay
0.029
0.053
0.039
0.071
0.096
0.079
0.136
0.155
0.262
4.122
0.6756
Avg Power
(uW/Mhz)
0.100
0.2505
0.0647
0.1526
0.0524
0.1209
0.0368
0.0810
0.0235
0.0500
0.0162
0.0399
0.0101
0.0209
0.0033
0.0054
Peak
Power
70.48
85.80
45.92
54.08
37.06
42.85
26.05
27.65
15.04
14.75
8.52
7.93
3.30
2.96
0.05
Power-Delay
Product
(e-16)
0.0240
0.1124
0.0186
0.0812
0.0166
0.0706
0.0145
0.0573
0.0129
0.0478
0.0460
0.0156
0.0548
0.1349
0.3630

18. Comparison : with and without outloading
Delay
Avg Power
Peak Power
Power-Delay Product

19. Review
Around 1 V
With and without outloading
Separate calculation

20. Reference Class notes and slides from ELEC6270 by Dr. Agrawal
2. TSMC 0.18 um standard cell library data book
3. Hspice user guide
Boarh,M.; Owens, R.M.and Irwin, M.J, “Transistor sizing
For low power CMOS circuits’’ IEEE Trans. On Computer-
Aided Design of Integrated Circuits and System, vol.15,
pp , 1996