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****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
Copyright (C) 2012 Synopsys, Inc. All Rights Reserved.
Unpublished-rights reserved under US copyright laws.
This program is protected by law and is subject to the
terms and conditions of the license agreement from Synopsys.
Use of this program is your acceptance to be bound by the
license agreement. HSPICE is the trademark of Synopsys, Inc.
Input File: noise.sp
Command line options: -hdlpath ../code -i noise.sp -o noise
lic:
lic: FLEXlm: v10.8
lic: USER: sourabh HOSTNAME: bwrcr720-2.eecs.berkeley.edu
lic: HOSTID: PID: 15394
lic: Using FLEXlm license file:
lic: 1701@sunv40z-1.eecs.berkeley.edu
lic: Checkout 1 hspice
lic: License/Maintenance for hspice will expire on 18-nov-2016/2015.06
lic: 1(in_use)/50(total) FLOATING license(s) on SERVER sunv40z-1.eecs.berkeley.
lic:
Init: read install configuration file: /tools/synopsys/hspice/G-2012.06/hspice/meta.cfg
**info** *pvaI* Module (bsimcmg): 5 unexpanded port, 0 init, 2015 behav, 64 contrib, 49/3015 expr(s)
**info** *pvaI* Resizing DB size for v count = 1
**info** *pvaI* Resizing DB size for v count = 2
**info** *pvaI* Has DIS (PC SB), 5 afCount
**info** *pvaI* 0 const-G and 0 const-C, Has switch branch.
**info** *pvaI* Module (bsimcmg): generated 4 flow node(s) during compilation.
**info** *pvaI* #### Total 762 line-size(s), 49 expr(s), 64 contr(s), 0 init(s), 2015 behav(s), 5 port(s)
Loading pVA library noise.pvadir/pvaRTL_linux.so...
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** circuit name directory
circuit number to circuit name directory
number circuitname definition multiplier
0 main circuit
1 x1. bsimcmg(va) 1.00
**info** *pvaI* Creating Verilog-A module 'bsimcmg' for X1
*****************************************************************
****** option summary
******
runlvl = 3 bypass = 2
Opening plot unit= 15
file=noise.pa0
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** operating point information tnom= 25.000 temp= 27.000 *****
***** operating point status is all simulation time is 0.
node =voltage node =voltage node =voltage
+0:1 = 1.0000 0:2 = 0. 0:bulk = 0.
+0:drain = 1.0000 0:gate = 0.5000
**** voltage sources
subckt
element 0:vbs 0:vds 0:vgs
volts 0. 1.0000 0.5000
current 3.906e-11 -1.314e-04 2.085e-14
power 0. 1.314e-04 -1.042e-14
total voltage source power dissipation= 1.314e-04 watts
**** resistors
subckt
element 0:rload
r value 1.0000
v drop 0.
current 0.
power 0.
**** inductors
subckt
element 0:lbias
l value 1.000e-03
v drop 0.
current 0.
power 0.
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.000e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0126
**** total output noise voltage = 8.606e-20 sq v/hz
= 2.934e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.730e-04
equivalent input noise at vgs
= 3.795e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.000e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 0. volts
**** total equivalent input noise = 0.
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.232e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0083
**** total output noise voltage = 6.863e-20 sq v/hz
= 2.620e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.664e-04
equivalent input noise at vgs
= 3.418e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.232e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 4.244e-09 volts
**** total equivalent input noise = 5.511e-06
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.519e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0054
**** total output noise voltage = 5.505e-20 sq v/hz
= 2.346e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.621e-04
equivalent input noise at vgs
= 3.079e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.519e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 5.980e-09 volts
**** total equivalent input noise = 7.794e-06
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.873e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0036
**** total output noise voltage = 4.432e-20 sq v/hz
= 2.105e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.593e-04
equivalent input noise at vgs
= 2.773e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.873e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 7.304e-09 volts
**** total equivalent input noise = 9.546e-06
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.310e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0023
**** total output noise voltage = 3.578e-20 sq v/hz
= 1.892e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.575e-04
equivalent input noise at vgs
= 2.497e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.310e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 8.416e-09 volts
**** total equivalent input noise = 1.102e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.848e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0015
**** total output noise voltage = 2.893e-20 sq v/hz
= 1.701e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.562e-04
equivalent input noise at vgs
= 2.249e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.848e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 9.393e-09 volts
**** total equivalent input noise = 1.232e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 3.511e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0010
**** total output noise voltage = 2.342e-20 sq v/hz
= 1.530e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.554e-04
equivalent input noise at vgs
= 2.026e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 3.511e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.028e-08 volts
**** total equivalent input noise = 1.350e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 4.328e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0007
**** total output noise voltage = 1.897e-20 sq v/hz
= 1.377e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.549e-04
equivalent input noise at vgs
= 1.825e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 4.328e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.109e-08 volts
**** total equivalent input noise = 1.458e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 5.336e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0004
**** total output noise voltage = 1.538e-20 sq v/hz
= 1.240e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.545e-04
equivalent input noise at vgs
= 1.643e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 5.336e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.184e-08 volts
**** total equivalent input noise = 1.559e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 6.579e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0003
**** total output noise voltage = 1.247e-20 sq v/hz
= 1.117e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.543e-04
equivalent input noise at vgs
= 1.480e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 6.579e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.255e-08 volts
**** total equivalent input noise = 1.654e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 8.111e+03 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0002
**** total output noise voltage = 1.011e-20 sq v/hz
= 1.005e-10 v/rt hz
transfer function value:
v(drain)/vgs = 7.542e-04
equivalent input noise at vgs
= 1.333e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 8.111e+03 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.322e-08 volts
**** total equivalent input noise = 1.743e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.000e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0001
**** total output noise voltage = 8.200e-21 sq v/hz
= 9.055e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.541e-04
equivalent input noise at vgs
= 1.201e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.000e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.386e-08 volts
**** total equivalent input noise = 1.828e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.232e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0001
**** total output noise voltage = 6.652e-21 sq v/hz
= 8.156e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.540e-04
equivalent input noise at vgs
= 1.082e-07 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.232e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.447e-08 volts
**** total equivalent input noise = 1.910e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.519e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 5.397e-21 sq v/hz
= 7.347e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.540e-04
equivalent input noise at vgs
= 9.744e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.519e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.506e-08 volts
**** total equivalent input noise = 1.988e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.873e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 4.380e-21 sq v/hz
= 6.618e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 8.778e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.873e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.562e-08 volts
**** total equivalent input noise = 2.063e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.310e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 3.554e-21 sq v/hz
= 5.962e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 7.908e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.310e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.616e-08 volts
**** total equivalent input noise = 2.135e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.848e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 2.885e-21 sq v/hz
= 5.371e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 7.124e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.848e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.669e-08 volts
**** total equivalent input noise = 2.205e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 3.511e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 2.342e-21 sq v/hz
= 4.839e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 6.419e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 3.511e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.720e-08 volts
**** total equivalent input noise = 2.274e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 4.328e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.902e-21 sq v/hz
= 4.361e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 5.784e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 4.328e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.770e-08 volts
**** total equivalent input noise = 2.340e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 5.336e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.545e-21 sq v/hz
= 3.930e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 5.213e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 5.336e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.818e-08 volts
**** total equivalent input noise = 2.404e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 6.579e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.255e-21 sq v/hz
= 3.542e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.699e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 6.579e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.866e-08 volts
**** total equivalent input noise = 2.467e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 8.111e+04 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.020e-21 sq v/hz
= 3.194e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.236e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 8.111e+04 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.912e-08 volts
**** total equivalent input noise = 2.528e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.000e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 8.293e-22 sq v/hz
= 2.880e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 3.820e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.000e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.957e-08 volts
**** total equivalent input noise = 2.588e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.232e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 6.747e-22 sq v/hz
= 2.598e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 3.446e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.232e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.001e-08 volts
**** total equivalent input noise = 2.647e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.519e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 5.493e-22 sq v/hz
= 2.344e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 3.109e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.519e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.045e-08 volts
**** total equivalent input noise = 2.705e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.873e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 4.476e-22 sq v/hz
= 2.116e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 2.806e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.873e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.087e-08 volts
**** total equivalent input noise = 2.762e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.310e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 3.651e-22 sq v/hz
= 1.911e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 2.535e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.310e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.129e-08 volts
**** total equivalent input noise = 2.818e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.848e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 2.982e-22 sq v/hz
= 1.727e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 2.291e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.848e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.171e-08 volts
**** total equivalent input noise = 2.873e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 3.511e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 2.439e-22 sq v/hz
= 1.562e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 2.072e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 3.511e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.212e-08 volts
**** total equivalent input noise = 2.927e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 4.328e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.999e-22 sq v/hz
= 1.414e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 1.875e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 4.328e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.252e-08 volts
**** total equivalent input noise = 2.981e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 5.336e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.642e-22 sq v/hz
= 1.281e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 1.700e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 5.336e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.293e-08 volts
**** total equivalent input noise = 3.035e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 6.579e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.352e-22 sq v/hz
= 1.163e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 1.542e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 6.579e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.333e-08 volts
**** total equivalent input noise = 3.089e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 8.111e+05 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.117e-22 sq v/hz
= 1.057e-11 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 1.402e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 8.111e+05 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.373e-08 volts
**** total equivalent input noise = 3.142e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.000e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 9.266e-23 sq v/hz
= 9.626e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 1.277e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.000e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.414e-08 volts
**** total equivalent input noise = 3.196e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.232e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 7.721e-23 sq v/hz
= 8.787e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 1.166e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.232e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.454e-08 volts
**** total equivalent input noise = 3.250e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.519e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 6.467e-23 sq v/hz
= 8.042e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 1.067e-08 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.519e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.495e-08 volts
**** total equivalent input noise = 3.304e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.873e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 5.450e-23 sq v/hz
= 7.382e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 9.792e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.873e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.537e-08 volts
**** total equivalent input noise = 3.360e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.310e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 4.625e-23 sq v/hz
= 6.800e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 9.021e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.310e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.580e-08 volts
**** total equivalent input noise = 3.417e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.848e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 3.955e-23 sq v/hz
= 6.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 8.342e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.848e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.624e-08 volts
**** total equivalent input noise = 3.476e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 3.511e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 3.413e-23 sq v/hz
= 5.842e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 7.749e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 3.511e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.671e-08 volts
**** total equivalent input noise = 3.537e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 4.328e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 2.972e-23 sq v/hz
= 5.452e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 7.232e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 4.328e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.719e-08 volts
**** total equivalent input noise = 3.601e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 5.336e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 2.615e-23 sq v/hz
= 5.114e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 6.784e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 5.336e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.770e-08 volts
**** total equivalent input noise = 3.670e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 6.579e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 2.326e-23 sq v/hz
= 4.822e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 6.397e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 6.579e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.825e-08 volts
**** total equivalent input noise = 3.742e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 8.111e+06 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 2.091e-23 sq v/hz
= 4.572e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 6.065e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 8.111e+06 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.884e-08 volts
**** total equivalent input noise = 3.821e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.000e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.900e-23 sq v/hz
= 4.359e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 5.782e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.000e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.949e-08 volts
**** total equivalent input noise = 3.907e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.232e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.745e-23 sq v/hz
= 4.178e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 5.542e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.232e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 3.020e-08 volts
**** total equivalent input noise = 4.001e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.519e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.620e-23 sq v/hz
= 4.025e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 5.339e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.519e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 3.099e-08 volts
**** total equivalent input noise = 4.106e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.873e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.518e-23 sq v/hz
= 3.897e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 5.169e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.873e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 3.187e-08 volts
**** total equivalent input noise = 4.224e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.310e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.436e-23 sq v/hz
= 3.789e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 5.026e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.310e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 3.287e-08 volts
**** total equivalent input noise = 4.356e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.848e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.369e-23 sq v/hz
= 3.700e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.908e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.848e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 3.400e-08 volts
**** total equivalent input noise = 4.506e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 3.511e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.315e-23 sq v/hz
= 3.626e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.810e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 3.511e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 3.528e-08 volts
**** total equivalent input noise = 4.676e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 4.328e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.271e-23 sq v/hz
= 3.565e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.728e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 4.328e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 3.675e-08 volts
**** total equivalent input noise = 4.871e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 5.336e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.235e-23 sq v/hz
= 3.514e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.661e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 5.336e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 3.843e-08 volts
**** total equivalent input noise = 5.094e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 6.579e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.206e-23 sq v/hz
= 3.473e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.606e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 6.579e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 4.035e-08 volts
**** total equivalent input noise = 5.349e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 8.111e+07 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.182e-23 sq v/hz
= 3.439e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.561e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 8.111e+07 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 4.256e-08 volts
**** total equivalent input noise = 5.642e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.000e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.163e-23 sq v/hz
= 3.411e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.524e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.000e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 4.509e-08 volts
**** total equivalent input noise = 5.978e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.232e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.148e-23 sq v/hz
= 3.388e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.494e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.232e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 4.798e-08 volts
**** total equivalent input noise = 6.361e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.519e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.135e-23 sq v/hz
= 3.370e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.470e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.519e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 5.128e-08 volts
**** total equivalent input noise = 6.799e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.873e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.125e-23 sq v/hz
= 3.354e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.450e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.873e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 5.504e-08 volts
**** total equivalent input noise = 7.299e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.310e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.117e-23 sq v/hz
= 3.342e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.433e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.310e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 5.932e-08 volts
**** total equivalent input noise = 7.866e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.848e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.110e-23 sq v/hz
= 3.332e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.420e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.848e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 6.417e-08 volts
**** total equivalent input noise = 8.510e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 3.511e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.105e-23 sq v/hz
= 3.324e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.409e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 3.511e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 6.966e-08 volts
**** total equivalent input noise = 9.238e-05
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 4.328e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.100e-23 sq v/hz
= 3.317e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.400e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 4.328e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 7.585e-08 volts
**** total equivalent input noise = 1.006e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 5.336e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.097e-23 sq v/hz
= 3.312e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.393e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 5.336e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 8.283e-08 volts
**** total equivalent input noise = 1.099e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 6.579e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.094e-23 sq v/hz
= 3.308e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.387e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 6.579e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 9.068e-08 volts
**** total equivalent input noise = 1.203e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 8.111e+08 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.092e-23 sq v/hz
= 3.304e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.383e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 8.111e+08 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 9.948e-08 volts
**** total equivalent input noise = 1.319e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.000e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.090e-23 sq v/hz
= 3.301e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.379e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.000e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.093e-07 volts
**** total equivalent input noise = 1.450e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.232e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.088e-23 sq v/hz
= 3.299e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.376e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.232e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.204e-07 volts
**** total equivalent input noise = 1.597e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.519e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.087e-23 sq v/hz
= 3.297e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.373e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.519e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.327e-07 volts
**** total equivalent input noise = 1.760e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.873e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.086e-23 sq v/hz
= 3.295e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.371e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.873e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.465e-07 volts
**** total equivalent input noise = 1.943e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.310e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.085e-23 sq v/hz
= 3.294e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.369e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.310e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.618e-07 volts
**** total equivalent input noise = 2.147e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.848e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.084e-23 sq v/hz
= 3.293e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.368e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.848e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.790e-07 volts
**** total equivalent input noise = 2.374e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 3.511e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.084e-23 sq v/hz
= 3.292e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.367e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 3.511e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.980e-07 volts
**** total equivalent input noise = 2.627e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 4.328e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.083e-23 sq v/hz
= 3.292e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.366e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 4.328e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.193e-07 volts
**** total equivalent input noise = 2.908e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 5.336e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.083e-23 sq v/hz
= 3.291e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.365e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 5.336e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.429e-07 volts
**** total equivalent input noise = 3.222e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 6.579e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.083e-23 sq v/hz
= 3.291e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.365e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 6.579e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.692e-07 volts
**** total equivalent input noise = 3.570e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 8.111e+09 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.083e-23 sq v/hz
= 3.290e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.364e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 8.111e+09 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 2.984e-07 volts
**** total equivalent input noise = 3.958e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.000e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.290e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.539e-04
equivalent input noise at vgs
= 4.364e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.000e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 3.309e-07 volts
**** total equivalent input noise = 4.389e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.232e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.290e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.540e-04
equivalent input noise at vgs
= 4.363e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.232e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 3.670e-07 volts
**** total equivalent input noise = 4.868e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.519e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.540e-04
equivalent input noise at vgs
= 4.363e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.519e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 4.071e-07 volts
**** total equivalent input noise = 5.400e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.873e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.541e-04
equivalent input noise at vgs
= 4.362e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.873e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 4.517e-07 volts
**** total equivalent input noise = 5.991e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.310e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.542e-04
equivalent input noise at vgs
= 4.361e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.310e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 5.012e-07 volts
**** total equivalent input noise = 6.648e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 2.848e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.543e-04
equivalent input noise at vgs
= 4.360e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 2.848e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 5.563e-07 volts
**** total equivalent input noise = 7.377e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 3.511e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.546e-04
equivalent input noise at vgs
= 4.359e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 3.511e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 6.174e-07 volts
**** total equivalent input noise = 8.187e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 4.328e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.549e-04
equivalent input noise at vgs
= 4.357e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 4.328e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 6.853e-07 volts
**** total equivalent input noise = 9.086e-04
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 5.336e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.555e-04
equivalent input noise at vgs
= 4.353e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 5.336e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 7.607e-07 volts
**** total equivalent input noise = 1.008e-03
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 6.579e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.563e-04
equivalent input noise at vgs
= 4.348e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 6.579e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 8.444e-07 volts
**** total equivalent input noise = 1.119e-03
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 8.111e+10 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.576e-04
equivalent input noise at vgs
= 4.341e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 8.111e+10 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 9.374e-07 volts
**** total equivalent input noise = 1.241e-03
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** noise analysis tnom= 25.000 temp= 27.000 *****
frequency = 1.000e+11 hz
**** resistor squared noise voltages (sq v/hz)
element 0:rload
rs 0.
1/f 0.
total 0.
rx 1.0000
**** total output noise voltage = 1.082e-23 sq v/hz
= 3.289e-12 v/rt hz
transfer function value:
v(drain)/vgs = 7.596e-04
equivalent input noise at vgs
= 4.330e-09 /rt hz
**** the results of the sqrt of integral (v**2 / freq)
from fstart upto 1.000e+11 hz. using more freq points
results in more accurate total noise values.
**** total output noise voltage = 1.041e-06 volts
**** total equivalent input noise = 1.377e-03
******
*samle netlist for bsim-mg
****** ac analysis tnom= 25.000 temp= 27.000 *****
x
freq voltage
drain
1.0000e+03 7.730e-04
1.2328e+03 7.664e-04
1.5199e+03 7.621e-04
1.8738e+03 7.593e-04
2.3101e+03 7.575e-04
2.8480e+03 7.562e-04
3.5111e+03 7.554e-04
4.3287e+03 7.549e-04
5.3367e+03 7.545e-04
6.5793e+03 7.543e-04
8.1113e+03 7.542e-04
1.0000e+04 7.541e-04
1.2328e+04 7.540e-04
1.5199e+04 7.540e-04
1.8738e+04 7.539e-04
2.3101e+04 7.539e-04
2.8480e+04 7.539e-04
3.5111e+04 7.539e-04
4.3287e+04 7.539e-04
5.3367e+04 7.539e-04
6.5793e+04 7.539e-04
8.1113e+04 7.539e-04
1.0000e+05 7.539e-04
1.2328e+05 7.539e-04
1.5199e+05 7.539e-04
1.8738e+05 7.539e-04
2.3101e+05 7.539e-04
2.8480e+05 7.539e-04
3.5111e+05 7.539e-04
4.3287e+05 7.539e-04
5.3367e+05 7.539e-04
6.5793e+05 7.539e-04
8.1113e+05 7.539e-04
1.0000e+06 7.539e-04
1.2328e+06 7.539e-04
1.5199e+06 7.539e-04
1.8738e+06 7.539e-04
2.3101e+06 7.539e-04
2.8480e+06 7.539e-04
3.5111e+06 7.539e-04
4.3287e+06 7.539e-04
5.3367e+06 7.539e-04
6.5793e+06 7.539e-04
8.1113e+06 7.539e-04
1.0000e+07 7.539e-04
1.2328e+07 7.539e-04
1.5199e+07 7.539e-04
1.8738e+07 7.539e-04
2.3101e+07 7.539e-04
2.8480e+07 7.539e-04
3.5111e+07 7.539e-04
4.3287e+07 7.539e-04
5.3367e+07 7.539e-04
6.5793e+07 7.539e-04
8.1113e+07 7.539e-04
1.0000e+08 7.539e-04
1.2328e+08 7.539e-04
1.5199e+08 7.539e-04
1.8738e+08 7.539e-04
2.3101e+08 7.539e-04
2.8480e+08 7.539e-04
3.5111e+08 7.539e-04
4.3287e+08 7.539e-04
5.3367e+08 7.539e-04
6.5793e+08 7.539e-04
8.1113e+08 7.539e-04
1.0000e+09 7.539e-04
1.2328e+09 7.539e-04
1.5199e+09 7.539e-04
1.8738e+09 7.539e-04
2.3101e+09 7.539e-04
2.8480e+09 7.539e-04
3.5111e+09 7.539e-04
4.3287e+09 7.539e-04
5.3367e+09 7.539e-04
6.5793e+09 7.539e-04
8.1113e+09 7.539e-04
1.0000e+10 7.539e-04
1.2328e+10 7.540e-04
1.5199e+10 7.540e-04
1.8738e+10 7.541e-04
2.3101e+10 7.542e-04
2.8480e+10 7.543e-04
3.5111e+10 7.546e-04
4.3287e+10 7.549e-04
5.3367e+10 7.555e-04
6.5793e+10 7.563e-04
8.1113e+10 7.576e-04
1.0000e+11 7.596e-04
y
-----------------------------------------------
x
freq inoise onoise
mag mag
1.0000e+03 3.795e-07 2.934e-10
1.2328e+03 3.418e-07 2.620e-10
1.5199e+03 3.079e-07 2.346e-10
1.8738e+03 2.773e-07 2.105e-10
2.3101e+03 2.497e-07 1.892e-10
2.8480e+03 2.249e-07 1.701e-10
3.5111e+03 2.026e-07 1.530e-10
4.3287e+03 1.825e-07 1.377e-10
5.3367e+03 1.643e-07 1.240e-10
6.5793e+03 1.480e-07 1.117e-10
8.1113e+03 1.333e-07 1.005e-10
1.0000e+04 1.201e-07 9.055e-11
1.2328e+04 1.082e-07 8.156e-11
1.5199e+04 9.744e-08 7.347e-11
1.8738e+04 8.778e-08 6.618e-11
2.3101e+04 7.908e-08 5.962e-11
2.8480e+04 7.124e-08 5.371e-11
3.5111e+04 6.419e-08 4.839e-11
4.3287e+04 5.784e-08 4.361e-11
5.3367e+04 5.213e-08 3.930e-11
6.5793e+04 4.699e-08 3.542e-11
8.1113e+04 4.236e-08 3.194e-11
1.0000e+05 3.820e-08 2.880e-11
1.2328e+05 3.446e-08 2.598e-11
1.5199e+05 3.109e-08 2.344e-11
1.8738e+05 2.806e-08 2.116e-11
2.3101e+05 2.535e-08 1.911e-11
2.8480e+05 2.291e-08 1.727e-11
3.5111e+05 2.072e-08 1.562e-11
4.3287e+05 1.875e-08 1.414e-11
5.3367e+05 1.700e-08 1.281e-11
6.5793e+05 1.542e-08 1.163e-11
8.1113e+05 1.402e-08 1.057e-11
1.0000e+06 1.277e-08 9.626e-12
1.2328e+06 1.166e-08 8.787e-12
1.5199e+06 1.067e-08 8.042e-12
1.8738e+06 9.792e-09 7.382e-12
2.3101e+06 9.021e-09 6.800e-12
2.8480e+06 8.342e-09 6.289e-12
3.5111e+06 7.749e-09 5.842e-12
4.3287e+06 7.232e-09 5.452e-12
5.3367e+06 6.784e-09 5.114e-12
6.5793e+06 6.397e-09 4.822e-12
8.1113e+06 6.065e-09 4.572e-12
1.0000e+07 5.782e-09 4.359e-12
1.2328e+07 5.542e-09 4.178e-12
1.5199e+07 5.339e-09 4.025e-12
1.8738e+07 5.169e-09 3.897e-12
2.3101e+07 5.026e-09 3.789e-12
2.8480e+07 4.908e-09 3.700e-12
3.5111e+07 4.810e-09 3.626e-12
4.3287e+07 4.728e-09 3.565e-12
5.3367e+07 4.661e-09 3.514e-12
6.5793e+07 4.606e-09 3.473e-12
8.1113e+07 4.561e-09 3.439e-12
1.0000e+08 4.524e-09 3.411e-12
1.2328e+08 4.494e-09 3.388e-12
1.5199e+08 4.470e-09 3.370e-12
1.8738e+08 4.450e-09 3.354e-12
2.3101e+08 4.433e-09 3.342e-12
2.8480e+08 4.420e-09 3.332e-12
3.5111e+08 4.409e-09 3.324e-12
4.3287e+08 4.400e-09 3.317e-12
5.3367e+08 4.393e-09 3.312e-12
6.5793e+08 4.387e-09 3.308e-12
8.1113e+08 4.383e-09 3.304e-12
1.0000e+09 4.379e-09 3.301e-12
1.2328e+09 4.376e-09 3.299e-12
1.5199e+09 4.373e-09 3.297e-12
1.8738e+09 4.371e-09 3.295e-12
2.3101e+09 4.369e-09 3.294e-12
2.8480e+09 4.368e-09 3.293e-12
3.5111e+09 4.367e-09 3.292e-12
4.3287e+09 4.366e-09 3.292e-12
5.3367e+09 4.365e-09 3.291e-12
6.5793e+09 4.365e-09 3.291e-12
8.1113e+09 4.364e-09 3.290e-12
1.0000e+10 4.364e-09 3.290e-12
1.2328e+10 4.363e-09 3.290e-12
1.5199e+10 4.363e-09 3.289e-12
1.8738e+10 4.362e-09 3.289e-12
2.3101e+10 4.361e-09 3.289e-12
2.8480e+10 4.360e-09 3.289e-12
3.5111e+10 4.359e-09 3.289e-12
4.3287e+10 4.357e-09 3.289e-12
5.3367e+10 4.353e-09 3.289e-12
6.5793e+10 4.348e-09 3.289e-12
8.1113e+10 4.341e-09 3.289e-12
1.0000e+11 4.330e-09 3.289e-12
y
-----------------------------------------------
***** job concluded
1****** HSPICE -- G-2012.06 32-BIT (May 27 2012) RHEL32 ******
******
*samle netlist for bsim-mg
****** job statistics summary tnom= 25.000 temp= 27.000 *****
****** Machine Information ******
CPU:
model name : Intel(R) Xeon(R) CPU E5-2643 0 @ 3.30GHz
cpu MHz : 3299.813
OS:
Linux version 2.6.32-573.7.1.el6.x86_64 (mockbuild@x86-031.build.eng.bos.redhat.com) (gcc version 4.4.7 20120313 (Red Hat 4.4.7-16) (GCC) ) #1 SMP Thu Sep 10 13:42:16 EDT 2015
****** HSPICE Threads Information ******
Command Line Threads Count : 1
Available CPU Count : 8
Actual Threads Count : 1
****** Circuit Statistics ******
# nodes = 11 # elements = 7
# resistors = 1 # capacitors = 1 # inductors = 1
# mutual_inds = 0 # vccs = 0 # vcvs = 0
# cccs = 0 # ccvs = 0 # volt_srcs = 3
# curr_srcs = 0 # diodes = 0 # bjts = 0
# jfets = 0 # mosfets = 0 # U elements = 0
# T elements = 0 # W elements = 0 # B elements = 0
# S elements = 0 # P elements = 0 # va device = 1
# vector_srcs = 0 # N elements = 0
****** Runtime Statistics (seconds) ******
analysis time # points tot. iter conv.iter
op point 0.00 1 4
ac analysis 0.02 89 89
readin 3.05
errchk 0.06
setup 0.00
output 0.00
peak memory used 119.59 megabytes
total cpu time 3.13 seconds
total elapsed time 8.67 seconds
job started at 08:29:06 12/31/2015
job ended at 08:29:15 12/31/2015
lic: Release hspice token(s)
lic: total license checkout elapse time: 0.21(s)
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