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发表于 2024-9-30 11:57:43
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显示全部楼层
链接: https://pan.baidu.com/s/1LXcrqy_0Eg8UPMazNWhI_Q 提取码: bg63
It seems that you are using the wrong method to run the license service.
In order to run this version, the system OS needs to be upgraded to a REDHAT 8.x or 9.x kernel. Although I haven't been able to test it yet, it seems that the patched version, created with the help of a brilliant individual, operates as described below.
/home/tools/hspice/W-2024.09/hspice/demo/hspice/apps]$ hspice -i noise_app.sp
****** PrimeSim HSPICE -- W-2024.09 linux64 (Aug 27 2024 9174816) ******
Copyright (c) 1986 - 2024 by Synopsys, Inc. All Rights Reserved.
This software and the associated documentation are proprietary
to Synopsys, Inc. This software may only be used in accordance
with the terms and conditions of a written license agreement with
Synopsys, Inc. All other use, reproduction, or distribution of
this software is strictly prohibited.
Input File: noise_app.sp
Command line options: /home/tools/hspice/W-2024.09/hspice/linux64/hspice -i noise_app.sp
Start time: Wed Sep 25 02:50:36 2024
lic:
lic: FLEXlm: SDK_14.2
lic: USER: eda HOSTNAME: rocky
lic: HOSTID: ffffffffa8c09703 PID: 562067
scientific notation:
a=10**-18 f=10**-15 p=10**-12 n=10**-9 u=10**-6
m=10**-3 k=10**3 x=10**6 g=10**9
circuit parameter definitions
parameter = value
constants - tnom kt vt gapsi ni
298.15000 4.1163e-21 25.69184m 1.11562 1.2565e+16
1****** PrimeSim HSPICE -- W-2024.09 linux64 (Aug 27 2024 9174816) ******
******
* a common source nmos amplifier
****** mos model parameters tnom= 25.000 temp= 25.000 ******
Model file: noise_app.sp
Model line: 3
***************************************************************************
*** model parameters model name: 0:n_tran model type:nmos ***
***************************************************************************
*** general parameters ***
deriv= 0.
*** level 49 model parameters ***
hspver= 2006.03 level= 49
version= 3.22 paramchk= 0
apwarn= 1 lite= 0
vgslim= 0 binUnit= 1
capMod= 3 xpart= 1
mobMod= 1 nqsMod= 0
stiMod= 0 elm= 5
sfvtflag= 0 tox= 1.5e-08 meter
xj= 1.5e-07 meter binflag= 0
lmin= 0 meter lmax= 0 meter
wmin= 0 meter wmax= 0 meter
lref= 0 meter wref= 0 meter
lint= 0 meter wint= 0 meter
lmult= 1 wmult= 1
ll= 0 lln= 1
lw= 0 lwn= 1
lwl= 0 wl= 0
wln= 1 ww= 0
wwn= 1 wwl= 0
dwg= 0 m/V dwb= 0 m/V^1/2
xl= 0 xw= 0
a0= 1 ags= 0 V^-1
b0= 0 meter b1= 0 meter
keta= -0.047 V^-1 voff= -0.08 V
ngate= 0 cm^-3 vbx= 0 V
vbm= -3 V xt= 1.55e-07 meter
vth0= 0.7 V nch= 1.7e+17 cm^-3
nsub= 6e+16 cm^-3 nlx= 1.74e-07 meter
gamma1= 1.03038 V^-1/2 gamma2= 0.612136 V^-1/2
k1= 0 V^1/2 k2= 0
k3= 80 k3b= 0 V^-1
w0= 2.5e-06 meter dvt0= 2.2
dvt1= 0.53 dvt2= -0.032 V^-1
dvt0w= 0 meter^-1 dvt1w= 5.3e+06 meter^-1
dvt2w= -0.032 V^-1 dsub= 0.56
eta0= 0.08 etab= -0.07 V^-1
u0= 0.067 m^2/V/sec ua= 2.25e-09 m/V
ub= 5.87e-19 (m/V)^2 uc= -4.65e-11 V^-1
vsat= 80000 m/sec a1= 0 v^-1
a2= 1 delta= 0.01 V
rdsw= 0 ohm-um prwg= 0 V^-1
prwb= 0 V^-1/2 wr= 1
pclm= 1.3 pdiblc1= 0.39
pdiblc2= 0.0086 pdiblcb= 0 V^-1
pscbe1= 4.24e+08 V/m pscbe2= 1e-05 V/m
drout= 0.56 pvag= 0
nfactor= 1 cdsc= 0.00024 f/m^2
cdscb= 0 f/V/m^2 cdscd= 0 f/V/m^2
cit= 0 f/m^2 alpha0= 0 m/V
beta0= 30 V dlc= 0 meter
dwc= 0 meter clc= 1e-07 meter
cle= 0.6 cgso=2.07188e-10 f/m
cgdo=2.07188e-10 f/m cgbo= 0 f/m
cgsl= 0 f/m cgdl= 0 f/m
ckappa= 0.6 cf=7.29897e-11 f/m
acde= 1 m/V moin= 15 V^1/2
toxm= 1.5e-08 m dtoxcv= 0 m
vfb (not used) alpha1= 0 1/V
ijth= 0 A noff= 1
voffcv= 0 tcj= 0 1/K
tcjsw= 0 1/K tcjswg= 0 1/K
tpb= 0 V/K tpbsw= 0 V/K
tpbswg= 0 V/K llc= 0
lwc= 0 lwlc= 0
wlc= 0 wwc= 0
wwlc= 0 tnom= 298.15 K
kt1= -0.11 V kt1l= 0
kt2= 0.022 ute= -1.5
ua1= 4.31e-09 m/V ub1= -7.61e-18 (m/V)^2
uc1= -5.6e-11 m/V^2 at= 33000 m/s
prt= 0
using Berkeley noise model noiMod= 1
noia= 1e+20 noib= 50000
noic= -1.4e-12 em= 4.1e+07
ef= 1 af= 0.826
kf= 4e-29 gdsnoi=-1.23457e-29
using Hspice diodes using ACM
acm= 0 hdif= 0 meter
ldif= 0 meter js= 0 amp/m^2
jsw= 0 amp/m xti= 0
n= 1 cj=0.000101851 f/m^2
mj= 0.5 pb= 0.8 V
cjsw= 0 f/m mjsw= 0.33
php= 0.8 V pbsw (not used)
cjgate= 0 f/m cjswg (not used)
mjswg (not used) pbswg (not used)
**** List of Port Elements
Port Number Mode Zo DC bias
1 single ( 50.0 ,0.0) 2.10
2 single (0.200E+05,0.0) 0.00
Warning: Pd = 0 is less than Weff = 4e-05 in BSIM3 model 0:n_tran element m1 with W = 4e-05, L = 1.5e-06
******
* a common source nmos amplifier
****** circuit element summary tnom= 25.000 temp= 25.000 ******
**** resistors
element name 0:rs
node1 0:in
node2 0:g1
model
res eff 50.0000
tc1 0.
tc2 0.
scale 1.0000
m 1.0000
ac 50.0000
temp 25.0000
l 0.
w 0.
cap 0.
noise 1.000e+00
**** independent sources
name node1 node2 dc volt ac mag ac phase type
vdd vdd 0 5.0000 0. 0. dc
**** port elements
name node1 node2 dc volt ac mag ac phase type
0:p1 0:in 0:0 2.1000 100.0000m 0.
z0 rdc rac rtran
50.0000 50.0000 50.0000 50.0000
0:p2 0
ut 0:vdd 0. 0. 0.
z0 rdc rac rtran
20.0000k 20.0000k 20.0000k 20.0000k
**** mosfets
**** BSIM3v3 Model (Level49 or Level53)
element name 0:m1
drain 0
ut
gate 0:g1
source 0:0
bulk 0:0
model 0:n_tran
w eff 40.0000u
l eff 1.5000u
rd eff 0.
rs eff 0.
cdsat 0.
cssat 0.
capbd 0.
capbs 0.
temp 25.0000
aic
nf 1.0000
sa 0.
sb 0.
sd 0.
saeff 0.
sbeff 0.
mulu0 1.0000
mulua 1.0000
mulub 1.0000
m 1.0000
w drawn 40.0000u
l drawn 1.5000u
*****************************************************************
****** option summary
******
runlvl = 3 bypass = 2.0000
**info** dc convergence successful at Newton-Raphson method
******
* a common source nmos amplifier
****** operating point information tnom= 25.000 temp= 25.000 ******
****** operating point status is all simulation time is 0.
node =voltage node =voltage node =voltage
+0:g1 = 2.1000 0:in = 2.1000 0
ut = 2.6787
+0:vdd = 5.0000
**** voltage sources
subckt
element 0:vdd
volts 5.0000
current -116.0653u
power 580.3266u
total voltage source power dissipation= 580.3266u watts
**** port elements
subckt
element 0:p1 0:p2
volts 2.1000 -2.3213
current 0. -116.0653u
power 0. -269.4232u
total port element power dissipation= -269.4232u watts
**** resistors
subckt
element 0:rs
r value 50.0000
v drop 0.
current 0.
power 0.
**** mosfets
subckt
element 0:m1
model 0:n_tran
region Saturation
id 116.0653u
ibs 0.
ibd 0.
vgs 2.1000
vds 2.6787
vbs 0.
vth 1.7221
vdsat 215.8463m
vod 377.8907m
beta 2.5529m
gam eff 2.5175
gm 551.7267u
gds 3.6716u
gmb 367.7191u
cdtot 11.2095f
cgtot 134.3648f
cstot 160.1349f
cbtot 92.1421f
cgs 92.6331f
cgd 11.2044f
Frequency = 10.0000x Hz
NF (mag) = 1.0+44.3778
NF (dB) = 16.5684
Element Contribution to NF (mag) (dB)
m1 TOT 43.3497 16.3699
rs TOT 1.02810 120.368m
Frequency = 12.5893x Hz
NF (mag) = 1.0+44.0118
NF (dB) = 16.5333
Element Contribution to NF (mag) (dB)
m1 TOT 42.9837 16.3330
rs TOT 1.02810 120.368m
Frequency = 15.8489x Hz
NF (mag) = 1.0+43.7211
NF (dB) = 16.5051
Element Contribution to NF (mag) (dB)
m1 TOT 42.6930 16.3036
rs TOT 1.02810 120.368m
Frequency = 19.9526x Hz
NF (mag) = 1.0+43.4901
NF (dB) = 16.4826
Element Contribution to NF (mag) (dB)
m1 TOT 42.4620 16.2800
rs TOT 1.02810 120.368m
Frequency = 25.1189x Hz
NF (mag) = 1.0+43.3066
NF (dB) = 16.4647
Element Contribution to NF (mag) (dB)
m1 TOT 42.2785 16.2612
rs TOT 1.02810 120.368m
Frequency = 31.6228x Hz
NF (mag) = 1.0+43.1608
NF (dB) = 16.4504
Element Contribution to NF (mag) (dB)
m1 TOT 42.1327 16.2462
rs TOT 1.02810 120.368m
Frequency = 39.8107x Hz
NF (mag) = 1.0+43.0449
NF (dB) = 16.4390
Element Contribution to NF (mag) (dB)
m1 TOT 42.0168 16.2342
rs TOT 1.02810 120.368m
Frequency = 50.1187x Hz
NF (mag) = 1.0+42.9526
NF (dB) = 16.4298
Element Contribution to NF (mag) (dB)
m1 TOT 41.9245 16.2247
rs TOT 1.02810 120.368m
Frequency = 63.0957x Hz
NF (mag) = 1.0+42.8790
NF (dB) = 16.4226
Element Contribution to NF (mag) (dB)
m1 TOT 41.8509 16.2170
rs TOT 1.02810 120.368m
Frequency = 79.4328x Hz
NF (mag) = 1.0+42.8201
NF (dB) = 16.4167
Element Contribution to NF (mag) (dB)
m1 TOT 41.7920 16.2109
rs TOT 1.02810 120.368m
Frequency = 100.000x Hz
NF (mag) = 1.0+42.7726
NF (dB) = 16.4120
Element Contribution to NF (mag) (dB)
m1 TOT 41.7445 16.2060
rs TOT 1.02810 120.368m
Frequency = 125.893x Hz
NF (mag) = 1.0+42.7338
NF (dB) = 16.4082
Element Contribution to NF (mag) (dB)
m1 TOT 41.7057 16.2020
rs TOT 1.02810 120.368m
Frequency = 158.489x Hz
NF (mag) = 1.0+42.7012
NF (dB) = 16.4049
Element Contribution to NF (mag) (dB)
m1 TOT 41.6731 16.1986
rs TOT 1.02810 120.368m
Frequency = 199.526x Hz
NF (mag) = 1.0+42.6725
NF (dB) = 16.4021
Element Contribution to NF (mag) (dB)
m1 TOT 41.6444 16.1956
rs TOT 1.02810 120.368m
Frequency = 251.189x Hz
NF (mag) = 1.0+42.6453
NF (dB) = 16.3994
Element Contribution to NF (mag) (dB)
m1 TOT 41.6172 16.1927
rs TOT 1.02810 120.368m
Frequency = 316.228x Hz
NF (mag) = 1.0+42.6166
NF (dB) = 16.3965
Element Contribution to NF (mag) (dB)
m1 TOT 41.5885 16.1897
rs TOT 1.02810 120.368m
Frequency = 398.107x Hz
NF (mag) = 1.0+42.5828
NF (dB) = 16.3931
Element Contribution to NF (mag) (dB)
m1 TOT 41.5547 16.1862
rs TOT 1.02810 120.368m
Frequency = 501.187x Hz
NF (mag) = 1.0+42.5384
NF (dB) = 16.3887
Element Contribution to NF (mag) (dB)
m1 TOT 41.5103 16.1816
rs TOT 1.02810 120.368m
Frequency = 630.957x Hz
NF (mag) = 1.0+42.4756
NF (dB) = 16.3825
Element Contribution to NF (mag) (dB)
m1 TOT 41.4475 16.1750
rs TOT 1.02810 120.368m
Frequency = 794.328x Hz
NF (mag) = 1.0+42.3823
NF (dB) = 16.3731
Element Contribution to NF (mag) (dB)
m1 TOT 41.3542 16.1652
rs TOT 1.02810 120.368m
Frequency = 1.00000g Hz
NF (mag) = 1.0+42.2403
NF (dB) = 16.3589
Element Contribution to NF (mag) (dB)
m1 TOT 41.2122 16.1503
rs TOT 1.02810 120.368m
Frequency = 1.25893g Hz
NF (mag) = 1.0+42.0224
NF (dB) = 16.3369
Element Contribution to NF (mag) (dB)
m1 TOT 40.9943 16.1272
rs TOT 1.02810 120.368m
Frequency = 1.58489g Hz
NF (mag) = 1.0+41.6879
NF (dB) = 16.3030
Element Contribution to NF (mag) (dB)
m1 TOT 40.6598 16.0916
rs TOT 1.02810 120.368m
Frequency = 1.99526g Hz
NF (mag) = 1.0+41.1793
NF (dB) = 16.2510
Element Contribution to NF (mag) (dB)
m1 TOT 40.1512 16.0370
rs TOT 1.02810 120.368m
Frequency = 2.51189g Hz
NF (mag) = 1.0+40.4202
NF (dB) = 16.1721
Element Contribution to NF (mag) (dB)
m1 TOT 39.3921 15.9541
rs TOT 1.02810 120.368m
Frequency = 3.16228g Hz
NF (mag) = 1.0+39.3200
NF (dB) = 16.0552
Element Contribution to NF (mag) (dB)
m1 TOT 38.2919 15.8311
rs TOT 1.02810 120.368m
Frequency = 3.98107g Hz
NF (mag) = 1.0+37.7927
NF (dB) = 15.8875
Element Contribution to NF (mag) (dB)
m1 TOT 36.7646 15.6543
rs TOT 1.02810 120.368m
Frequency = 5.01187g Hz
NF (mag) = 1.0+35.7963
NF (dB) = 15.6580
Element Contribution to NF (mag) (dB)
m1 TOT 34.7682 15.4118
rs TOT 1.02810 120.368m
Frequency = 6.30957g Hz
NF (mag) = 1.0+33.3825
NF (dB) = 15.3634
Element Contribution to NF (mag) (dB)
m1 TOT 32.3544 15.0993
rs TOT 1.02810 120.368m
Frequency = 7.94328g Hz
NF (mag) = 1.0+30.7252
NF (dB) = 15.0140
Element Contribution to NF (mag) (dB)
m1 TOT 29.6971 14.7271
rs TOT 1.02810 120.368m
Frequency = 10.0000g Hz
NF (mag) = 1.0+28.0854
NF (dB) = 14.6367
Element Contribution to NF (mag) (dB)
m1 TOT 27.0573 14.3228
rs TOT 1.02810 120.368m
******
* a common source nmos amplifier
****** ac analysis tnom= 25.000 temp= 25.000 ******
x
freq voltage onoise
out mag
10.00000x 1.0279 0.
12.58925x 1.0278 0.
15.84893x 1.0277 0.
19.95262x 1.0276 0.
25.11886x 1.0273 0.
31.62278x 1.0270 0.
39.81072x 1.0264 0.
50.11872x 1.0255 0.
63.09573x 1.0240 0.
79.43282x 1.0217 0.
100.00000x 1.0181 0.
125.89254x 1.0125 0.
158.48932x 1.0038 0.
199.52623x 990.4704m 0.
251.18864x 970.3677m 0.
316.22777x 940.8906m 0.
398.10717x 899.2616m 0.
501.18723x 843.3774m 0.
630.95734x 773.0041m 0.
794.32823x 690.7289m 0.
1.00000g 601.8057m 0.
1.25893g 512.6748m 0.
1.58489g 429.0427m 0.
1.99526g 354.6641m 0.
2.51189g 291.1854m 0.
3.16228g 238.6483m 0.
3.98107g 196.1275m 0.
5.01187g 162.2186m 0.
6.30957g 135.3328m 0.
7.94328g 113.8665m 0.
10.00000g 96.3397m 0.
y
***** job concluded
******
* a common source nmos amplifier
****** job statistics summary tnom= 25.000 temp= 25.000 ******
****** Machine Information ******
CPU:
model name : 11th Gen Intel(R) Core(TM) i5-1135G7 @ 2.40GHz
cpu MHz : 2400.000
CPU(s) : 8
OS:
Linux version 4.18.0-553.16.1.el8_10.x86_64 (gcc version 8.5.0 20210514 (Red Hat 8.5.0-22) (GCC)) #1 SMP Thu Aug 8 17:47:08 UTC 2024
System loadavg : 0.74 1.01 0.91 5/629 562070
****** PrimeSim HSPICE Threads Information ******
Command Line Threads Count : 1
Available CPU Count : 8
Actual Threads Count : 1
****** Circuit Statistics ******
# nodes = 5 # elements = 5
# resistors = 1 # capacitors = 0 # inductors = 0
# mutual_inds = 0 # vccs = 0 # vcvs = 0
# cccs = 0 # ccvs = 0 # volt_srcs = 1
# curr_srcs = 0 # diodes = 0 # bjts = 0
# jfets = 0 # mosfets = 1 # U elements = 0
# T elements = 0 # W elements = 0 # B elements = 0
# S elements = 0 # P elements = 2 # va device = 0
# vector_srcs = 0 # N elements = 0
****** Runtime Statistics (seconds) ******
analysis time # points tot. iter conv.iter
op point 0.00 1 5
ac analysis 0.00 31 31
readin 0.00
errchk 0.00
setup 0.00
output 0.00
peak memory used 535.74 megabytes
total cpu time 0.00 seconds
total elapsed time 0.03 seconds
job started at 02:50:36 09/25/2024
job ended at 02:50:36 09/25/2024
>info: ***** hspice job concluded
job total runtime 0.03 seconds
lic: Release hspice token(s)
lic: total license checkout elapse time: 0.02(s)
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