rip send [all<i/f>] [none<version>*]

10.42.2Description

Controls which version or versions of RIP (RIP version 1, RFC 1058, or RIP version 2, RFC 1723) ATMOS TCP/IP will use to broadcast routing information on each interface. If both versions are specified, routing information is broadcast in duplicate, once using each version.

Specifying all affects all interfaces except the loopback interface (if any). Configuration saving saves this information.

By default RIP version 2 only is used on all non-loopback interfaces (rip send all2).

10.42.3Example

mymachine> ip rip send all 2 mymachine> ip rip send ether 1

mymachine> ip rip allowed

rip

send

ether

1

 

rip

send

flane

2

 

rip

accept

ether

1

2

rip

accept

flane

1

2

10.43 rip trigger

10.43.1Syntax

rip trigger

10.43.2Description

Triggers broadcast of routing information. Normally the routing information is broadcast every 30 seconds; rip trigger causes it to be sent almost immediately rather than waiting for the next time it is due. This command is normally of little use.

10.43.3Example

mymachine> ip rip trigger

10.44 route

10.44.1Syntax

route

route add <name> <dest> <relay> [<mask> [<cost> [<timeout>]]]

route delete <name>

route flush

10.44.2Description

Lists routes; adds or deletes a static route; or deletes all routes.

Page 95
Image 95
Atlantis Land A02-RA(Atmos)_ME01 manual Rip trigger, Route

A02-RA(Atmos)_ME01 specifications

Atlantis Land A02-RA(Atmos)_ME01 represents a remarkable breakthrough in sustainable living and eco-friendly technology. Situated in a progressive ecological zone, this innovative habitat is designed to harmonize with its natural surroundings while providing modern amenities for its inhabitants.

One of the standout features of Atlantis Land A02-RA(Atmos)_ME01 is its integration of renewable energy sources. The habitat utilizes solar panels that are seamlessly incorporated into its structure, harnessing sunlight to power essential systems. Additionally, small wind turbines are strategically placed to capture wind energy, making the habitat largely self-sufficient and reducing reliance on non-renewable energy sources.

Another significant characteristic of this habitat is its advanced water management system. The A02-RA(Atmos)_ME01 employs rainwater harvesting technology, collecting and purifying rainwater for domestic use. This system not only conserves water but also helps reduce the overall ecological footprint of the habitat. Furthermore, graywater recycling ensures that water from sinks and showers is treated and repurposed for irrigation and other non-potable uses.

The architecture of Atlantis Land A02-RA(Atmos)_ME01 reflects its commitment to sustainability. Built with eco-friendly materials, the structure features large windows to optimize natural light and promote passive solar heating. The design also incorporates green roofs, which provide insulation, reduce stormwater runoff, and support local biodiversity by creating habitats for wildlife and plants.

For the comfort and convenience of its residents, the habitat is equipped with smart home technology. This system allows occupants to control lighting, heating, and water usage through a central device or mobile application, promoting energy efficiency and enhancing daily living. Additionally, the interior spaces are designed with versatility in mind, allowing for easy reconfiguration to accommodate various lifestyles and needs.

Lastly, community engagement is a central theme in the A02-RA(Atmos)_ME01 design. Shared spaces, such as gardens and recreation areas, encourage social interaction and foster a sense of belonging among residents. The emphasis on community promotes collaboration in sustainability initiatives, empowering individuals to take an active role in preserving their environment.

In summary, Atlantis Land A02-RA(Atmos)_ME01 stands as a model for future living, showcasing how innovative technology and thoughtful design can create a sustainable, comfortable, and community-oriented habitat. Its commitment to harnessing renewable resources, efficient water management, and smart home integration makes it an exemplary blueprint for eco-friendly living.