Difference between revisions of "Talk:Seaside"

From Organic Design wiki
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Notes 19.01.11
 
Notes 19.01.11
  
1. Standardising
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'''1. Standardising'''
  
 
Separate functionality of viewer from the viewed data structure.
 
Separate functionality of viewer from the viewed data structure.
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The viewer (3D) which is separated out, should also have an API which allows 3D snapshots/video of views to be requested.
 
The viewer (3D) which is separated out, should also have an API which allows 3D snapshots/video of views to be requested.
  
2. Class / INstance
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'''2. Classes and instances'''
  
 
Class/instance relationship - for re-use and templating, inheritance in the normal OO way
 
Class/instance relationship - for re-use and templating, inheritance in the normal OO way
 
We use an instance based paradigm whereby any node can be treated as a class.
 
We use an instance based paradigm whereby any node can be treated as a class.
 
dot files - data thats specific to a particular viewer such as the seaside application cobalt viewer, maybe a mobile viewer goes in/has a context specific (it's own) nodes available to store it's data in without clogging .. exactly equivalent to how applications store data in .dot folder extension, for example /home/fred/.thunderbird
 
dot files - data thats specific to a particular viewer such as the seaside application cobalt viewer, maybe a mobile viewer goes in/has a context specific (it's own) nodes available to store it's data in without clogging .. exactly equivalent to how applications store data in .dot folder extension, for example /home/fred/.thunderbird
Workflow and execution (nodal model) -
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Workflow and execution (nodal model) -  
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'''3. The Workflow Interface'''
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The application for how workflows are enable
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This application is a viewer therefore same functionality made in cobalt
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'''4. Unified Ontology'''
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DHT
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Eventual consistency
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'''5. Our take on time'''
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Shared spectrum and queries

Revision as of 22:44, 18 January 2011

Integration of Seaside with OpenCobalt

Some questions/thoughts that came to mind that I would like to clarify:

3D

3D comment moved to Talk:OpenCobalt

seaside<-->browser bridge

As I understand it, seaside, in its current implementation, is the browser and repository. In other words it is a peer in the peer to peer network and contributes to the dht storage as well as the virtual routing system. I can see how it can also become an http server, acting as a bridge between the peer to peer network and traditional browser clients. However browser users, since they are not using the seaside client, will only be able to consume and contribute content, but will not be contributing storage or routing. What sort of incentives will there be to run the peer to peer client? Perhaps the capabilities offered by the bridge will be limited?

Notes 19.01.11

1. Standardising

Separate functionality of viewer from the viewed data structure. Spilt into a standard ontology for the data, with 3d specific aspects being in a cobalt sub-layer (explain). All manipulation of data is done via an API, so that any user can do all things (non) cobalt user can do. The viewer (3D) which is separated out, should also have an API which allows 3D snapshots/video of views to be requested.

2. Classes and instances

Class/instance relationship - for re-use and templating, inheritance in the normal OO way We use an instance based paradigm whereby any node can be treated as a class. dot files - data thats specific to a particular viewer such as the seaside application cobalt viewer, maybe a mobile viewer goes in/has a context specific (it's own) nodes available to store it's data in without clogging .. exactly equivalent to how applications store data in .dot folder extension, for example /home/fred/.thunderbird Workflow and execution (nodal model) -

3. The Workflow Interface

The application for how workflows are enable This application is a viewer therefore same functionality made in cobalt

4. Unified Ontology

DHT Eventual consistency

5. Our take on time

Shared spectrum and queries