UNIX SHELL PROMPT # FULLCMD=/opt/ASPLv1.00/bin/aspl -wsname SIGNALS -groupingclass OSCILLATORSGROUP
ASPL:1 > S12 = ggoscillators(fonames,fosc1 fosc2,cycles,1,points,1000)
ABOUT THIS COMMAND:
S12 assigned to the oscillators data that is streamed from Udev
11:17:42 root@vienna /public/teeaspl/SIGNALS aspl:1 > S12 = ggoscillators(fonames,fosc1 fosc2,cycles,1,points,1000)
DATA FILE CREATED: /root/.aspl/tmp/foo~fosc1_fosc2~1~1000
To plot it: npdata /root/.aspl/tmp/foo~fosc1_fosc2~1~1000
To plot it: gpdata /root/.aspl/tmp/foo~fosc1_fosc2~1~1000,1:2,1:3
There are 2 sets representing: fosc2 fosc1
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f0)
g_ f~) f0 fosc1=0.00 fosc2= fx=0.00 chksum=0 ppdd=fosc1 ffl=./d/f0 aelm=n(0)fx(0.00)mtime(1729869477)chksum(0)entropy(0)
g_ f~) f0 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f0 aelm=n(0)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f1)
g_ f~) f1 fosc1=0.01 fosc2= fx=0.01 chksum=21474836480 ppdd=fosc1 ffl=./d/f1 aelm=n(1)fx(0.01)mtime(1729869477)chksum(21474836480)entropy(0)
g_ f~) f1 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f1 aelm=n(1)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f10)
g_ f~) f10 fosc1=0.06 fosc2= fx=0.06 chksum=128849018880 ppdd=fosc1 ffl=./d/f10 aelm=n(10)fx(0.06)mtime(1729869477)chksum(128849018880)entropy(0)
g_ f~) f10 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f10 aelm=n(10)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f100)
g_ f~) f100 fosc1=0.59 fosc2= fx=0.59 chksum=1267015352320 ppdd=fosc1 ffl=./d/f100 aelm=n(100)fx(0.59)mtime(1729869477)chksum(1267015352320)entropy(0)
g_ f~) f100 fosc1= fosc2=0.81 fx=0.81 chksum=1739461754880 ppdd=fosc2 ffl=./d/f100 aelm=n(100)fx(0.81)mtime(1729869477)chksum(1739461754880)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f101)
g_ f~) f101 fosc1=0.59 fosc2= fx=0.59 chksum=1267015352320 ppdd=fosc1 ffl=./d/f101 aelm=n(101)fx(0.59)mtime(1729869477)chksum(1267015352320)entropy(0)
g_ f~) f101 fosc1= fosc2=0.81 fx=0.81 chksum=1739461754880 ppdd=fosc2 ffl=./d/f101 aelm=n(101)fx(0.81)mtime(1729869477)chksum(1739461754880)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f102)
g_ f~) f102 fosc1=0.60 fosc2= fx=0.60 chksum=1288490188800 ppdd=fosc1 ffl=./d/f102 aelm=n(102)fx(0.60)mtime(1729869477)chksum(1288490188800)entropy(0)
g_ f~) f102 fosc1= fosc2=0.80 fx=0.80 chksum=1717986918400 ppdd=fosc2 ffl=./d/f102 aelm=n(102)fx(0.80)mtime(1729869477)chksum(1717986918400)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f103)
g_ f~) f103 fosc1=0.60 fosc2= fx=0.60 chksum=1288490188800 ppdd=fosc1 ffl=./d/f103 aelm=n(103)fx(0.60)mtime(1729869477)chksum(1288490188800)entropy(0)
g_ f~) f103 fosc1= fosc2=0.80 fx=0.80 chksum=1717986918400 ppdd=fosc2 ffl=./d/f103 aelm=n(103)fx(0.80)mtime(1729869477)chksum(1717986918400)entropy(0)
[TRUNCATED]
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f98)
g_ f~) f98 fosc1=0.58 fosc2= fx=0.58 chksum=1245540515840 ppdd=fosc1 ffl=./d/f98 aelm=n(98)fx(0.58)mtime(1729869477)chksum(1245540515840)entropy(0)
g_ f~) f98 fosc1= fosc2=0.82 fx=0.82 chksum=1760936591360 ppdd=fosc2 ffl=./d/f98 aelm=n(98)fx(0.82)mtime(1729869477)chksum(1760936591360)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f980)
g_ f~) f980 fosc1=-0.13 fosc2= fx=-0.13 chksum=-279172874240 ppdd=fosc1 ffl=./d/f980 aelm=n(980)fx(-0.13)mtime(1729869477)chksum(-279172874240)entropy(0)
g_ f~) f980 fosc1= fosc2=0.99 fx=0.99 chksum=2126008811520 ppdd=fosc2 ffl=./d/f980 aelm=n(980)fx(0.99)mtime(1729869477)chksum(2126008811520)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f981)
g_ f~) f981 fosc1=-0.12 fosc2= fx=-0.12 chksum=-257698037760 ppdd=fosc1 ffl=./d/f981 aelm=n(981)fx(-0.12)mtime(1729869477)chksum(-257698037760)entropy(0)
g_ f~) f981 fosc1= fosc2=0.99 fx=0.99 chksum=2126008811520 ppdd=fosc2 ffl=./d/f981 aelm=n(981)fx(0.99)mtime(1729869477)chksum(2126008811520)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f982)
g_ f~) f982 fosc1=-0.12 fosc2= fx=-0.12 chksum=-257698037760 ppdd=fosc1 ffl=./d/f982 aelm=n(982)fx(-0.12)mtime(1729869477)chksum(-257698037760)entropy(0)
g_ f~) f982 fosc1= fosc2=0.99 fx=0.99 chksum=2126008811520 ppdd=fosc2 ffl=./d/f982 aelm=n(982)fx(0.99)mtime(1729869477)chksum(2126008811520)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f983)
g_ f~) f983 fosc1=-0.11 fosc2= fx=-0.11 chksum=-236223201280 ppdd=fosc1 ffl=./d/f983 aelm=n(983)fx(-0.11)mtime(1729869477)chksum(-236223201280)entropy(0)
g_ f~) f983 fosc1= fosc2=0.99 fx=0.99 chksum=2126008811520 ppdd=fosc2 ffl=./d/f983 aelm=n(983)fx(0.99)mtime(1729869477)chksum(2126008811520)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f984)
g_ f~) f984 fosc1=-0.10 fosc2= fx=-0.10 chksum=-214748364800 ppdd=fosc1 ffl=./d/f984 aelm=n(984)fx(-0.10)mtime(1729869477)chksum(-214748364800)entropy(0)
g_ f~) f984 fosc1= fosc2=0.99 fx=0.99 chksum=2126008811520 ppdd=fosc2 ffl=./d/f984 aelm=n(984)fx(0.99)mtime(1729869477)chksum(2126008811520)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f985)
g_ f~) f985 fosc1=-0.10 fosc2= fx=-0.10 chksum=-214748364800 ppdd=fosc1 ffl=./d/f985 aelm=n(985)fx(-0.10)mtime(1729869477)chksum(-214748364800)entropy(0)
g_ f~) f985 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f985 aelm=n(985)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f986)
g_ f~) f986 fosc1=-0.09 fosc2= fx=-0.09 chksum=-193273528320 ppdd=fosc1 ffl=./d/f986 aelm=n(986)fx(-0.09)mtime(1729869477)chksum(-193273528320)entropy(0)
g_ f~) f986 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f986 aelm=n(986)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f987)
g_ f~) f987 fosc1=-0.08 fosc2= fx=-0.08 chksum=-171798691840 ppdd=fosc1 ffl=./d/f987 aelm=n(987)fx(-0.08)mtime(1729869477)chksum(-171798691840)entropy(0)
g_ f~) f987 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f987 aelm=n(987)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f988)
g_ f~) f988 fosc1=-0.08 fosc2= fx=-0.08 chksum=-171798691840 ppdd=fosc1 ffl=./d/f988 aelm=n(988)fx(-0.08)mtime(1729869477)chksum(-171798691840)entropy(0)
g_ f~) f988 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f988 aelm=n(988)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f989)
g_ f~) f989 fosc1=-0.07 fosc2= fx=-0.07 chksum=-150323855360 ppdd=fosc1 ffl=./d/f989 aelm=n(989)fx(-0.07)mtime(1729869477)chksum(-150323855360)entropy(0)
g_ f~) f989 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f989 aelm=n(989)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f99)
g_ f~) f99 fosc1=0.58 fosc2= fx=0.58 chksum=1245540515840 ppdd=fosc1 ffl=./d/f99 aelm=n(99)fx(0.58)mtime(1729869477)chksum(1245540515840)entropy(0)
g_ f~) f99 fosc1= fosc2=0.81 fx=0.81 chksum=1739461754880 ppdd=fosc2 ffl=./d/f99 aelm=n(99)fx(0.81)mtime(1729869477)chksum(1739461754880)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f990)
g_ f~) f990 fosc1=-0.07 fosc2= fx=-0.07 chksum=-150323855360 ppdd=fosc1 ffl=./d/f990 aelm=n(990)fx(-0.07)mtime(1729869477)chksum(-150323855360)entropy(0)
g_ f~) f990 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f990 aelm=n(990)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f991)
g_ f~) f991 fosc1=-0.06 fosc2= fx=-0.06 chksum=-128849018880 ppdd=fosc1 ffl=./d/f991 aelm=n(991)fx(-0.06)mtime(1729869477)chksum(-128849018880)entropy(0)
g_ f~) f991 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f991 aelm=n(991)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f992)
g_ f~) f992 fosc1=-0.05 fosc2= fx=-0.05 chksum=-107374182400 ppdd=fosc1 ffl=./d/f992 aelm=n(992)fx(-0.05)mtime(1729869477)chksum(-107374182400)entropy(0)
g_ f~) f992 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f992 aelm=n(992)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f993)
g_ f~) f993 fosc1=-0.05 fosc2= fx=-0.05 chksum=-107374182400 ppdd=fosc1 ffl=./d/f993 aelm=n(993)fx(-0.05)mtime(1729869477)chksum(-107374182400)entropy(0)
g_ f~) f993 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f993 aelm=n(993)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f994)
g_ f~) f994 fosc1=-0.04 fosc2= fx=-0.04 chksum=-85899345920 ppdd=fosc1 ffl=./d/f994 aelm=n(994)fx(-0.04)mtime(1729869477)chksum(-85899345920)entropy(0)
g_ f~) f994 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f994 aelm=n(994)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f995)
g_ f~) f995 fosc1=-0.03 fosc2= fx=-0.03 chksum=-64424509440 ppdd=fosc1 ffl=./d/f995 aelm=n(995)fx(-0.03)mtime(1729869477)chksum(-64424509440)entropy(0)
g_ f~) f995 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f995 aelm=n(995)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f996)
g_ f~) f996 fosc1=-0.03 fosc2= fx=-0.03 chksum=-64424509440 ppdd=fosc1 ffl=./d/f996 aelm=n(996)fx(-0.03)mtime(1729869477)chksum(-64424509440)entropy(0)
g_ f~) f996 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f996 aelm=n(996)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f997)
g_ f~) f997 fosc1=-0.02 fosc2= fx=-0.02 chksum=-42949672960 ppdd=fosc1 ffl=./d/f997 aelm=n(997)fx(-0.02)mtime(1729869477)chksum(-42949672960)entropy(0)
g_ f~) f997 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f997 aelm=n(997)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f998)
g_ f~) f998 fosc1=-0.02 fosc2= fx=-0.02 chksum=-42949672960 ppdd=fosc1 ffl=./d/f998 aelm=n(998)fx(-0.02)mtime(1729869477)chksum(-42949672960)entropy(0)
g_ f~) f998 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f998 aelm=n(998)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
** g_:f!=) ** CHANGED F) fl changed pL fosc1 fosc2 (<./d/> / f999)
g_ f~) f999 fosc1=-0.01 fosc2= fx=-0.01 chksum=-21474836480 ppdd=fosc1 ffl=./d/f999 aelm=n(999)fx(-0.01)mtime(1729869477)chksum(-21474836480)entropy(0)
g_ f~) f999 fosc1= fosc2=1.00 fx=1.00 chksum=2147483648000 ppdd=fosc2 ffl=./d/f999 aelm=n(999)fx(1.00)mtime(1729869477)chksum(2147483648000)entropy(0)
fosc2 1000 entries
fosc1 1000 entries
DONE PROCESSING S12 = ggoscillators(fonames,fosc1 fosc2,cycles,1,points,1000)
ASPL:2 > split S12 into S1 S2
ABOUT THIS COMMAND:
split S12 into S1 and S2 representing the two signals
11:17:57 root@vienna /public/teeaspl/SIGNALS aspl:2 > split S12 into S1 S2
S12 HAVING 2 GROUPS: fosc1 fosc2
WILL BE SPLIT INTO 2 VARIABLES (S1 S2) AND ASSIGNED TO THESE GROUPS FROM LEFT TO RIGHT INTO (S1 S2).
S12 SPLIT INTO VARIABLES S1 S2
fosc1 SPLIT AND ASSIGNED TO VARIABLE S1
fosc2 SPLIT AND ASSIGNED TO VARIABLE S2
DONE PROCESSING split S12 into S1 S2
ASPL:3 > ks fx
ABOUT THIS COMMAND:
set ks vector to attribute fx
11:18:4 root@vienna /public/teeaspl/SIGNALS aspl:3 > ks fx
aStat = fx
bStat = fx
ASPL:4 > f&`ks= S1 S2
ABOUT THIS COMMAND:
display the intersection between both signals
11:18:7 root@vienna /public/teeaspl/SIGNALS aspl:4 > f&`ks= S1 S2
There are 2 sets representing: fosc1 fosc2
** f&:f==) -- EQUAL F) fl'equal pL fosc1 fosc2 (<./d/> / f125)
f&=) f125 fx=0.71
f&=) f125 fx=0.71
** f&:f==) -- EQUAL F) fl'equal pL fosc1 fosc2 (<./d/> / f625)
f&=) f625 fx=-0.71
f&=) f625 fx=-0.71
fosc1 2 entries
fosc2 2 entries
DONE PROCESSING f&`ks= S1 S2
ASPL:5 > quit
ABOUT THIS COMMAND:
quit
11:18:11 root@vienna /public/teeaspl/SIGNALS aspl:5 > quit
quit ASPL