instruction stringclasses 1
value | input stringlengths 760 11.8k | output stringlengths 18 24 |
|---|---|---|
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="2.751279">s</user_input>
<system_output timestamp="2.751784">s': asciinema rec `date +%[7ms[27m`.rec</system_output>
<user_input timestamp="3.036819">c</user_input>
<system_output timestamp="3.037461">
[C[C[C[C[C[C[C[C[C[C[C[C[C[C[C[C[C[C[C[Cc': a[7msc[27miinema rec... | 8.45968, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="16.943171">]0;[H[2J]2;screenii libfreetype6:i386[16C2.6.3-3.2+deb9u1[18Ci386[9CFreeType 2 font engine, shared library files
ii libfuse2:i386[20C2.9.7-1+deb9u2[20Ci386[9CFilesystem in Userspace (library)
ii libgail-common:i386[14C2.24.31-2[25Ci386[9CGNOME Acces... | 39.014894, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="20.860453"/>
<user_input timestamp="21.470383">2</user_input>
<system_output timestamp="21.473925">]0;screen[H[2J]2;screenii libfreetype6:i386[16C2.6.3-3.2+deb9u1[18Ci386[9CFreeType 2 font engine, shared library files
ii libfuse2:i386[20C2.9.7-1+deb9u2[20Ci386[9CF... | 39.950857, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="58.822372">(Reading database ...
</system_output>
<system_output timestamp="58.825343">(Reading database ... 5%
(Reading database ... 10%
(Reading database ... 15%
(Reading database ... 20%
(Reading database ... 25%
... [TRUNCATED 6 LINES] ...
(Reading databas... | 60.285293, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="61.95702">r</user_input>
<system_output timestamp="61.968812">r</system_output>
<user_input timestamp="62.153177">p</user_input>
<system_output timestamp="62.15777">p</system_output>
<user_input timestamp="62.565278">h</user_input>
<system_output timestamp="62.57729... | 64.43915, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="75.428972">PAM - helper binaries
ii libpam-runtime 1.1.8-3.6 all Runtime support for the PAM library
ii libpam0g:i386 1.1.8-3.6 i386 Pluggable Authentication M... | 78.698613, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="76.255564">]0;[H[2J]2;screenii libldap-2.4-2:i386[15C2.4.44+dfsg-5+deb9u4[14Ci386[9COpenLDAP libraries
ii libldap-common[19C2.4.44+dfsg-5+deb9u4[14Call[10COpenLDAP common files for libraries
ii liblinear3:i386[18C2.1.0+dfsg-2[22Ci386[9CLibrary for Large Linear... | 99.621215, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="76.770165"/>
<user_input timestamp="77.063765"/>
<system_output timestamp="77.067383">]0;screen[H[2J]2;screenii libldap-2.4-2:i386[15C2.4.44+dfsg-5+deb9u4[14Ci386[9COpenLDAP libraries
ii libldap-common[19C2.4.44+dfsg-5+deb9u4[14Call[10COpenLDAP common files for li... | 100.472349, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="118.446227">(Reading database ... 80%
</system_output>
<system_output timestamp="118.449481">(Reading database ... 85%
</system_output>
<system_output timestamp="118.456765">(Reading database ... 90%
</system_output>
<system_output timestamp="118.459697">(Reading... | 266.973476, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="26.262155">[1@o</system_output>
<user_input timestamp="26.388667"> </user_input>
<system_output timestamp="26.397211">[1@ </system_output>
<user_input timestamp="26.50764">
</user_input>
<system_output timestamp="26.514049">
</system_output>
<system_output timest... | 30.693452, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="36.637542"> </user_input>
<system_output timestamp="36.645085">[K</system_output>
<system_output timestamp="36.646455"> gnuplot-nox
[31m-liblink-grammar4-dev[39m
link-grammar
magit
ncftp
... [TRUNCATED 18 LINES] ...
subversion
[32m+[39m
[32m+[39m[32m# FIXME: ... | 1325.822228, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="36.647404">
[41m+[49m
[1mdiff --git a/package_config/SERVERCREATEVM b/package_config/SERVERCREATEVM[0m
[1mindex e8664e6..464507b 100644[0m
[1m--- a/package_config/SERVERCREATEVM[0m
... [TRUNCATED 22 LINES] ...
debmirror
apt-cacher-ng
apt-move
genisoimage
... | 1326.244128, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="37.66143">[32m+[39m
[32m+[39m[32m# FIXME: nagios3 does not exist in Debian 9.[39m
[32m+[39m[32m# PACKAGES aptitude[39m
[32m+[39m[32m# nagios3[39m
[1mdiff --git a/package_config/SERVERNTOP b/package_config/SERVERNTOP[0m
... [TRUNCATED 6 LINES] ...
[31m-ntop[39m
... | 1327.070719, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="1334.698">o</user_input>
<system_output timestamp="1334.713548">[1@o</system_output>
<user_input timestamp="1334.818775"> </user_input>
<system_output timestamp="1334.831339">[1@ </system_output>
<user_input timestamp="1334.959839">
</user_input>
<system_output time... | 1337.664634, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="1353.413453">n.'</system_output>
<user_input timestamp="1353.853708">g</user_input>
<system_output timestamp="1353.871565">g.'</system_output>
<user_input timestamp="1354.804961">OC</user_input>
<system_output timestamp="1354.823037">.</system_output>
<user_input... | 1359.030432, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="1.049728">
[C[C[C[C[C[C[C[C[C[C[C[C[C[C[C[C[Cscreen -dr[K</system_output>
<user_input timestamp="2.246302">
</user_input>
<system_output timestamp="2.246765">
[?2004l
</system_output>
<system_output timestamp="2.301475">[r[m[2J[H[?7h[?1;4;6l[?1049h[22;0;0t[4l[?1h... | 4.220101, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="4.220101">OB</user_input>
<system_output timestamp="4.22255">
demo@faiserver:/home/fai$ [K</system_output>
<user_input timestamp="5.925051">h</user_input>
<system_output timestamp="5.944603">h</system_output>
<user_input timestamp="7.210862"></user_input>
<system_o... | 20.099916, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="4.22255">
demo@faiserver:/home/fai$ [K</system_output>
<user_input timestamp="5.925051">h</user_input>
<system_output timestamp="5.944603">h</system_output>
<user_input timestamp="7.210862"></user_input>
<system_output timestamp="7.231524">[K</system_output>
<us... | 20.102209, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="22.013972">n</system_output>
<user_input timestamp="22.264625">
</user_input>
<system_output timestamp="22.277127">
[?2004l</system_output>
<system_output timestamp="22.313078">libbpf0
</system_output>
<system_output timestamp="22.314355">libcbor0
libclamav9
</sy... | 23.547939, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="33.112912">Building dependency tree... 0%
Building dependency tree... 0%
</system_output>
<system_output timestamp="33.171622">Building dependency tree... 50%
Building dependency tree... 50%
</system_output>
<system_output timestamp="33.379576">Building dependenc... | 36.847007, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="48.022135">[196;1H[42m[30mProgress: [ 81%][49m[39m [################################################################################################################################################################################...................................... | 53.985281, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="54.105988">Building dependency tree... 0%
Building dependency tree... 0%
</system_output>
<system_output timestamp="54.166238">Building dependency tree... 50%
Building dependency tree... 50%
</system_output>
<system_output timestamp="54.356291">Building dependenc... | 59.966576, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="63.357442">Building dependency tree... 0%
Building dependency tree... 0%
</system_output>
<system_output timestamp="63.4272">Building dependency tree... 50%
Building dependency tree... 50%
</system_output>
<system_output timestamp="63.640749">Building dependency ... | 66.543898, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="76.795455">Processing triggers for ccache (4.8+really4.7.5-1) ...
</system_output>
<system_output timestamp="76.878554">Updating symlinks in /usr/lib/ccache ...
</system_output>
<system_output timestamp="76.9132">Processing triggers for man-db (2.11.2-2) ...
</sy... | 83.973203, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="89.181477">s
ii isc-dhcp-common 4.4.3-P1-2 i386 common manpages relevant to all of the isc-dhcp packages
ii kbd 2.5.1-1+b1 i386 Linux console... | 104.100491, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="112.454451">(Reading database ... 100%
(Reading database ... 45982 files and directories currently installed.)
[1;195r[195;1H
</system_output>
<system_output timestamp="112.458531">Removing gcc-9-base:i386 (9.3.0-22) ...
[196;1H[42m[30mProgress: [ 0%][49m[39m [.... | 116.81242, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="125.523908">Processing triggers for ccache (4.8+really4.7.5-1) ...
</system_output>
<system_output timestamp="125.539261">Updating symlinks in /usr/lib/ccache ...
</system_output>
<system_output timestamp="125.821139">
[H[194B[A[J</system_output>
<system_output t... | 127.380764, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="127.62073">t</system_output>
<user_input timestamp="127.709305"> </user_input>
<system_output timestamp="127.721147"> </system_output>
<user_input timestamp="127.978565">a</user_input>
<system_output timestamp="127.993749">a</system_output>
<user_input timestamp=... | 129.135841, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="175.769761">Filesystem 1K-blocks Used Available Use% Mounted on
[196;1Hudev 1017128 0 1017128 0% /dev
[1;196r[196;1H
tmpfs 205932 480 205452 1% /run
/dev/sda2 5672824 3949368 1411664 74% /
tmpfs ... | 178.701726, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="176.982778">p</user_input>
<system_output timestamp="176.986705">p</system_output>
<user_input timestamp="177.348791">k</user_input>
<system_output timestamp="177.356556">k</system_output>
<user_input timestamp="177.454519">g</user_input>
<system_output timestamp="1... | 179.906957, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="188.340197">ibuted revision control system
ii git-man 1:2.39.2-1.1 all fast, scalable, distributed revision control system (manual pages)
ii gnupg 2.2.40-1.1 ... | 211.464369, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="188.341756"> GRand Unified Bootloader (common files)
ii grub-pc 2.06-13+deb12u1 i386 GRand Unified Bootloader, version 2 (PC/BIOS version)
ii grub-pc-bin 2.06-13+deb12u1 ... | 213.169039, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="211.459969">q</user_input>
<system_output timestamp="211.463215">[K</system_output>
<system_output timestamp="211.464369">[?2004hdemo@faiserver:/home/fai$ </system_output>
<user_input timestamp="213.012605">s</user_input>
<system_output timestamp="213.014924">s</sys... | 214.100859, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="289.175833">s</user_input>
<system_output timestamp="289.195342">s</system_output>
<user_input timestamp="289.310658">u</user_input>
<system_output timestamp="289.329805">u</system_output>
<user_input timestamp="289.50652">d</user_input>
<system_output timestamp="28... | 290.208385, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="290.208385">t</user_input>
<system_output timestamp="290.225417">t</system_output>
<user_input timestamp="290.324922"> </user_input>
<system_output timestamp="290.341666"> </system_output>
<user_input timestamp="290.543445">r</user_input>
<system_output timestamp="2... | 291.243234, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="297.473245">[?2004hdemo@faiserver:/home/fai$ </system_output>
<user_input timestamp="304.094858">n</user_input>
<system_output timestamp="304.096735">n</system_output>
<user_input timestamp="304.543705">t</user_input>
<system_output timestamp="304.551643">t</syst... | 312.657451, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="360.216367">[?2004hdemo@faiserver:/home/fai$ </system_output>
<user_input timestamp="364.049051"/>
<user_input timestamp="364.484022">[</user_input>
<system_output timestamp="364.484536">[?2004l
[7mCopy mode - Column 27 Line 196(+1024) (239,196)[27m </system_out... | 365.383451, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="374.098107">
demo@faiserver:/hom[7C</system_output>
<system_output timestamp="374.100224">l</system_output>
<user_input timestamp="374.415877">s</user_input>
<system_output timestamp="374.43619">s</system_output>
<user_input timestamp="374.621723">
</user_input>
... | 381.940386, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="381.353792">d</user_input>
<system_output timestamp="381.3698">d</system_output>
<user_input timestamp="381.490701"> </user_input>
<system_output timestamp="381.505608"> </system_output>
<user_input timestamp="381.940386">~</user_input>
<system_output timestamp="381... | 382.825689, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="390.822157"> </user_input>
<system_output timestamp="390.838525"> </system_output>
<user_input timestamp="391.295574">*</user_input>
<system_output timestamp="391.304737">*</system_output>
<user_input timestamp="391.784527">
</user_input>
<system_output timestamp="3... | 391.909065, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="396.011068"> </user_input>
<system_output timestamp="396.023536"> </system_output>
<user_input timestamp="396.228517">a</user_input>
<system_output timestamp="396.237474">a</system_output>
<user_input timestamp="396.369781">p</user_input>
<system_output timestamp="3... | 397.448319, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="403.285048">lock [1m[34mpartial[0m
</system_output>
<system_output timestamp="403.285775">[?2004hdemo@faiserver:/var/cache/apt/archives$ </system_output>
<user_input timestamp="405.596141">s</user_input>
<system_output timestamp="405.598547">s</system_output>
<u... | 406.59423, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="409.546553">.</system_output>
<user_input timestamp="409.739879">.</user_input>
<system_output timestamp="409.7473">.</system_output>
<user_input timestamp="409.858369">
</user_input>
<system_output timestamp="409.870597">
[?2004l[?2004hdemo@faiserver:/var/cache/... | 411.099004, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="423.972349">-</user_input>
<system_output timestamp="423.976393">-</system_output>
<user_input timestamp="424.774704">c</user_input>
<system_output timestamp="424.783006">c</system_output>
<user_input timestamp="424.895233">a</user_input>
<system_output timestamp="4... | 427.870097, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="429.454427">u</user_input>
<system_output timestamp="429.466076">[1@u</system_output>
<user_input timestamp="429.631035">d</user_input>
<system_output timestamp="429.653303">[1@d</system_output>
<user_input timestamp="429.709662">o</user_input>
<system_output timest... | 431.298415, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="449.181553">[K</system_output>
<user_input timestamp="449.363273"></user_input>
<system_output timestamp="449.379321">[K</system_output>
<user_input timestamp="449.549073"></user_input>
<system_output timestamp="449.553021">[K</system_output>
<user_input timest... | 451.027019, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="468.736865">l</user_input>
<system_output timestamp="468.749334">l</system_output>
<user_input timestamp="468.94352">s</user_input>
<system_output timestamp="468.956285">s</system_output>
<user_input timestamp="469.150787">
</user_input>
<system_output timestamp="46... | 470.975696, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="486.690642"> </user_input>
<system_output timestamp="486.707625">amav/</system_output>
<user_input timestamp="487.164246">
</user_input>
<system_output timestamp="487.172147">
[?2004l</system_output>
<system_output timestamp="487.172495">[?2004hdemo@faiserver:/var/l... | 492.2568, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="504.554039"> </user_input>
<system_output timestamp="504.580256">amav-7963b03bd56db689a01f8f69ac998c31.tmp/</system_output>
<user_input timestamp="506.433466"> </user_input>
<system_output timestamp="506.461637">clamav-68b3db7b0fb3dda2789a9bd53ba2cb40.tmp/</system_o... | 507.641025, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="537.427065">e</system_output>
<user_input timestamp="537.67253">/</user_input>
<system_output timestamp="537.683">/</system_output>
<user_input timestamp="538.048478">f</user_input>
<system_output timestamp="538.060622">f</system_output>
<user_input timestamp="53... | 539.123578, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<user_input timestamp="537.67253">/</user_input>
<system_output timestamp="537.683">/</system_output>
<user_input timestamp="538.048478">f</user_input>
<system_output timestamp="538.060622">f</system_output>
<user_input timestamp="538.15241">a</user_input>
<system_output timestamp="538.15... | 539.140369, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="545.199301">sudo: unable to resolve host faiserver: Name or service not known
</system_output>
<system_output timestamp="545.221604">umount: /home/fai/nfsroot/proc: not mounted.
</system_output>
<system_output timestamp="545.226254">umount: /home/fai/nfsroot/sys:... | 566.621465, new event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="570.418958">I: Validating dash 0.5.12-2
</system_output>
<system_output timestamp="570.432862">I: Retrieving debconf 1.5.82
</system_output>
<system_output timestamp="570.439897">I: Validating debconf 1.5.82
</system_output>
<system_output timestamp="570.453373">... | 570.57479, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="572.17214">I: Retrieving libkmod2 30+20221128-1
</system_output>
<system_output timestamp="572.185915">I: Validating libkmod2 30+20221128-1
</system_output>
<system_output timestamp="572.201039">I: Retrieving libkrb5-3 1.20.1-2+deb12u1
</system_output>
<system_ou... | 572.333766, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="573.401664">I: Retrieving libzstd1 1.5.4+dfsg2-5
</system_output>
<system_output timestamp="573.410113">I: Validating libzstd1 1.5.4+dfsg2-5
</system_output>
<system_output timestamp="573.426269">I: Retrieving login 1:4.13+dfsg1-1+b1
</system_output>
<system_outp... | 573.566901, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="576.142735">I: Extracting libattr1...
</system_output>
<system_output timestamp="576.152736">I: Extracting libaudit-common...
</system_output>
<system_output timestamp="576.161458">I: Extracting libaudit1...
</system_output>
<system_output timestamp="576.175595">... | 577.687427, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="620.38955">I: Configuring hostname...
</system_output>
<system_output timestamp="620.450665">I: Configuring libcap-ng0:i386...
</system_output>
<system_output timestamp="620.487417">I: Configuring libext2fs2:i386...
</system_output>
<system_output timestamp="620.... | 621.298334, old event |
Your task is to analyze terminal XML logs and determine whether the timestamp in the TARGET LINE belongs to a "new event" or an "old event".
### DEFINITION OF A NEW EVENT:
1. **Explicit Prompts:** The very first `<user_input>` that immediately follows a shell prompt (e.g., `demo@faiserver:~$`).
2. **Phase Transitions:... | ### CONTEXT (Previous Events):
<system_output timestamp="623.239488">I: Configuring dpkg...
</system_output>
<system_output timestamp="623.455649">I: Configuring mount...
</system_output>
<system_output timestamp="623.516382">I: Configuring dash...
</system_output>
<system_output timestamp="623.746674">I: Configuring l... | 667.116961, old event |
End of preview. Expand in Data Studio
## Dataset Card: Terminal Log Boundary Prediction (Streaming)
π Dataset Purpose & Model 0 Overview
This dataset is designed to train "Model 0" for the Winter 2026 iteration of the AutoDocs project.
You can access the official repository here:
AutoDocs (Winter 2026) Repository
Objective
The primary objective of the model is the binary classification of sequential data. It is engineered to process continuous, timestamped terminal logs formatted in XML to determine if a specific line represents a "Boundary" between logical events.
Methodology: Sliding-Window Approach
Instead of ingesting a massive log file in its entirety, the dataset employs a sliding-window approach. The model analyzes a short historical context to evaluate the Target Line (the most recent entry):
- Pattern Recognition: The model looks at the previous 14 timesteps (e.g., "The terminal has been downloading packages").
- Boundary Prediction: It predicts if the Target Line breaks that pattern (e.g., "The download finished and the shell prompt returned")
- or represents the continuation of the ongoing process.
ποΈ Dataset Structure
The dataset is in JSONL format, each row contains three primary fields:
instruction: The system prompt defining "new" vs. "old" events.input: The sliding-window data, split into:### CONTEXT: Up to 14 historical XML chunks. (Or 14 timestamps)### TARGET LINE: The 15th chunk to be classified. (Or the 15-th timestamp)
label / output: Formatted as{timestamp}, {class} event.
βοΈ Rules of Truncation
Raw terminal logs (like apt-get installations) can easily overflow an LLM's
context window. To prevent this, the data engineering pipeline applies a
strict Two-Phase Truncation rule:
Phase 1: Intra-Chunk Truncation (Line Limit)
If a single <system_output> block contains more than 15 lines of text, it
is sliced. The first 5 lines and the last 5 lines are preserved, and the
middle is replaced with a marker: ... [TRUNCATED X LINES] .... Note
that <user_input> tags are never truncated to preserve
human-interaction signals.
Phase 2: Window-Level Compression (Context Limit)
If the entire 14-chunk context window exceeds 25 total lines, the window is compressed:
- The 5 oldest chunks and the 5 most recent chunks are kept fully intact.
- For the chunks in the middle, the text is completely stripped out,
leaving only the XML tags (e.g.,
<system_output timestamp="X">... [TRUNCATED TO SAVE SPACE] ...</system_output>). - This preserves the chronological timeline and sequence of events without bloating the token count.
βοΈ Data Sampling & Balancing
In a typical terminal log, over 95% of the lines are "Old Events," which would lead the model to simply guess the majority class. To force actual learning, this dataset uses Negative Downsampling:
- New Events (Positives): 100% of detected boundaries are kept.
- Old Events (Negatives): Downsampled so that there is exactly a 2:1 ratio (Two old events for every one new event).
Hard Negative Mining
When selecting which "Old Events" to keep for the 2:1 ratio, the algorithm
prioritizes Hard Negatives. Specifically, it targets <user_input>
tags that contain a newline character (\n). This teaches the model the
difficult lesson that a user pressing "Enter" is often just a completion
of an input phase, not necessarily a new logical event.
Example Data Row
{
"instruction": "Your task is to analyze terminal XML logs...",
"input": "### CONTEXT (Previous Events):\n<system_output timestamp=\"10.01\">demo@server:~$ apt update</system_output>\n<system_output timestamp=\"10.05\">Reading lists...</system_output>\n\n### TARGET LINE:\n<user_input timestamp=\"12.40\">s</user_input>",
"output": "12.40, old event"
}
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