| Property | Value |
|---|
| rdf:type | |
| rdfs:label | |
| rdfs:comment | - In-flight systems were governed by the ship's central artificial intelligence computer, MU/TH/UR 6000 (known by the crew as "Mother"). A backup 2.0 terabyte mainframe would come online should Mother fail, while a third tier of automation could sustain vital systems in the rare event of a failure in the backup CPU as well. Despite the extensive computer automation aboard the CM-88B, a human crew was still required for more complicated docking manoeuvres at each end of a transit.
|
| Era | |
| Length | |
| dcterms:subject | |
| max accel | |
| dbkwik:avp/property/wikiPageUsesTemplate | |
| Power | - Yutani T7A NLS tachyon shunt
|
| Affiliation | |
| Role | |
| Name | |
| Width | |
| Mass | |
| Height | |
| Manufacturer | |
| Class | |
| sensor | - Interstellar hyperstate antennas, short-range UHF/VHF/HF radio/video links
|
| Cost | |
| poweroutput | - Laratel WF-15 fusion reactor
|
| Navigation | - MU/TH/UR 6000 2.1 terabyte AI mainframe
|
| Engine | - Saturn J-3000
- Twin Rolls-Royce N66 Cyclone thrust tunnels
|
| Crew | |
| abstract | - In-flight systems were governed by the ship's central artificial intelligence computer, MU/TH/UR 6000 (known by the crew as "Mother"). A backup 2.0 terabyte mainframe would come online should Mother fail, while a third tier of automation could sustain vital systems in the rare event of a failure in the backup CPU as well. Despite the extensive computer automation aboard the CM-88B, a human crew was still required for more complicated docking manoeuvres at each end of a transit.
|
| is Model of | |
