User contributions
Jump to navigation
Jump to search
- 05:41, 26 April 2022 diff hist −1 Main Page →Topics current
- 05:40, 26 April 2022 diff hist −400 Consensus current
- 05:39, 26 April 2022 diff hist −824 Consensus
- 05:38, 26 April 2022 diff hist −77 Main Page →Topics
- 18:25, 13 August 2021 diff hist −91 Main Page
- 23:06, 11 April 2021 diff hist +15 m Avatars current
- 23:05, 11 April 2021 diff hist +14 m Avatars
- 20:59, 11 April 2021 diff hist +9 Avatars
- 20:58, 11 April 2021 diff hist +19 Avatars
- 20:48, 11 April 2021 diff hist +10 Avatars
- 20:47, 11 April 2021 diff hist +14 Main Page →Topics
- 20:45, 11 April 2021 diff hist +1 Avatars
- 20:43, 11 April 2021 diff hist +33 Avatars
- 20:42, 11 April 2021 diff hist +187 N Avatars Created page with "A Grassland avatar is a machine whose perception, proprioception, location or navigation systems have a decentralised frame-of-reference and the machine is operated by a subre..."
- 04:20, 9 January 2021 diff hist +373 Cure for Its Own Disease principle current
- 00:35, 20 December 2020 diff hist −358 Public vs Private Networks current
- 18:42, 19 December 2020 diff hist +11 The Stack and the Heap analogy current
- 18:40, 19 December 2020 diff hist +37 Main Page →Topics
- 18:40, 19 December 2020 diff hist +1,427 N The Stack and the Heap analogy Created page with "One can think of Grassland as a way of reducing the Shannon entropy of the natural environment using stack and heap based construct. Where Grassland is the stack and the real..."
- 17:08, 16 December 2020 diff hist +77 Main Page →Topics
- 17:08, 16 December 2020 diff hist +91 Cure for Its Own Disease principle
- 17:01, 16 December 2020 diff hist +2 Cure for Its Own Disease principle
- 17:01, 16 December 2020 diff hist +674 N Cure for Its Own Disease principle Created page with "The Cure for Its Own Disease principle is an argument which states that in many cases Grassland also solves many of the social or political problems it would seemingly cause i..."
- 16:47, 16 December 2020 diff hist +1,744 N Alien Jewellery Store analogy Created page with "The Alien Jewellery Store analogy is an argument used to explain Grassland's three postulates by way of a metaphor. It goes as follows. You have two "people". Bob and Alien...." current
- 14:30, 12 December 2020 diff hist +3 Attacks →The VOC current
- 14:28, 12 December 2020 diff hist +7 Attacks →The VOC
- 14:27, 12 December 2020 diff hist −3 Attacks →The VOC
- 14:27, 12 December 2020 diff hist −6 Attacks →The VOC
- 14:26, 12 December 2020 diff hist −24 Attacks →The VOC
- 14:24, 12 December 2020 diff hist +2 Attacks
- 14:24, 12 December 2020 diff hist +124 Attacks →The VOC
- 14:15, 12 December 2020 diff hist +5 Attacks →Asymmetry Attacks
- 14:13, 12 December 2020 diff hist +128 Attacks
- 14:08, 12 December 2020 diff hist +17 Attacks →The VOC
- 14:08, 12 December 2020 diff hist +227 Attacks →The VOC
- 14:02, 12 December 2020 diff hist −4 Attacks →The VOC
- 13:59, 12 December 2020 diff hist +119 Attacks
- 13:46, 12 December 2020 diff hist −55 Attacks
- 13:41, 12 December 2020 diff hist +14 Main Page
- 13:40, 12 December 2020 diff hist +571 N Attacks Created page with "==Asymmetry Attacks== ===The VOC=== Named after the Dutch East India Company. This attack uses a 400 year old financial technology invented in the early 17th century, called..."
- 20:12, 1 October 2020 diff hist −28 Main Page →Topics
- 12:32, 1 July 2020 diff hist +33 Main Page
- 12:07, 25 June 2020 diff hist +4 Public vs Private Networks →Proof As Embeddings In Topological Spaces:
- 12:05, 25 June 2020 diff hist +10 Public vs Private Networks →Proof As Embeddings In Topological Spaces:
- 12:04, 25 June 2020 diff hist −4 Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 11:59, 25 June 2020 diff hist +185 Public vs Private Networks
- 22:57, 22 June 2020 diff hist −33 Main Page →Topics
- 12:37, 12 June 2020 diff hist +8 Public vs Private Networks →Proof As Embeddings In Infinite Sets:
- 12:34, 12 June 2020 diff hist +2 m Public vs Private Networks →Caveat
- 12:34, 12 June 2020 diff hist +17 m Public vs Private Networks →Caveat
- 12:32, 12 June 2020 diff hist +15 m Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 12:31, 12 June 2020 diff hist +257 Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 14:09, 5 June 2020 diff hist +13 Public vs Private Networks →Proof As Embeddings In Topological Spaces:
- 14:07, 5 June 2020 diff hist +6 Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 14:06, 5 June 2020 diff hist +143 Public vs Private Networks →Proof As Embeddings In Topological Spaces:
- 13:55, 5 June 2020 diff hist +3 Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 13:54, 5 June 2020 diff hist −3 Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 13:52, 5 June 2020 diff hist +123 Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 13:50, 5 June 2020 diff hist +59 Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 13:34, 5 June 2020 diff hist +4 Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 13:21, 5 June 2020 diff hist +44 Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 13:19, 5 June 2020 diff hist +145 Public vs Private Networks →Public Networks Are Strictly Dominant Strategies in Infinitely Long Games
- 13:10, 5 June 2020 diff hist +16 Public vs Private Networks →Private Networks Become Strict Subsets Of Public Networks
- 13:07, 5 June 2020 diff hist −4 Public vs Private Networks →Conclusion:
- 12:56, 5 June 2020 diff hist −3 Public vs Private Networks →Private Networks Become Strict Subsets Of Public Networks
- 12:55, 5 June 2020 diff hist +163 Public vs Private Networks →Private Networks Become Strict Subsets Of Public Networks
- 12:26, 5 June 2020 diff hist +26 Public vs Private Networks →Private Networks Become Strict Subsets Of Public Networks
- 12:25, 5 June 2020 diff hist +335 Public vs Private Networks →Private Networks Become Strict Subsets Of Public Networks
- 12:06, 5 June 2020 diff hist +253 Public vs Private Networks →Private Networks Can Always Be Made Strict Subsets Of Public Networks
- 13:49, 3 June 2020 diff hist −1 Public vs Private Networks →Private Networks Can Always Be Made Strict Subsets Of Public Networks
- 13:49, 3 June 2020 diff hist +49 Public vs Private Networks
- 13:45, 3 June 2020 diff hist +43 Public vs Private Networks →Private Networks Can Always Be Made Strict Subsets Of Public Networks
- 13:43, 3 June 2020 diff hist +772 Public vs Private Networks →A Proof That There Are No Private (restricted) Grassland Networks That Can't Be "Dominated" by a Public One
- 01:17, 3 June 2020 diff hist −17 Public vs Private Networks →A Proof That It's Impossible for a Private (restricted) Grassland Network to Exist That Can't Be "Dominated" by a Public One
- 17:32, 2 June 2020 diff hist −16 Public vs Private Networks →As Infinite Sets:
- 17:28, 2 June 2020 diff hist +33 Main Page
- 17:26, 2 June 2020 diff hist +11 Public vs Private Networks →A Proof That It's Impossible for a Private (restricted) Grassland Network to Exist That Can't Be "Dominated" by a Public One
- 17:24, 2 June 2020 diff hist +8 Public vs Private Networks →A Proof That It's Impossible for a Private (restricted) Grassland Network to Exist That Can't Be "Dominated" by a Public One
- 17:23, 2 June 2020 diff hist +19 Public vs Private Networks
- 17:22, 2 June 2020 diff hist +5 Public vs Private Networks
- 17:20, 2 June 2020 diff hist +400 Public vs Private Networks →A Proof That It's Impossible for a Private (restricted) Grassland Network to Exist That Can't Be "Dominated" by a Public One
- 17:08, 2 June 2020 diff hist 0 Public vs Private Networks →A proof that it's impossible for a private (restricted) Grassland network to exist that can't be "dominated" by a public one
- 17:07, 2 June 2020 diff hist +3,976 N Public vs Private Networks Created page with "== A proof that it's impossible for a private (restricted) Grassland network to exist that can't be "dominated" by a public one == We can define Grassland networks as topolog..."
- 20:29, 21 February 2020 diff hist +42 TensorRT current
- 20:28, 21 February 2020 diff hist +18 Main Page →Topics
- 20:27, 21 February 2020 diff hist +291 N Determinism Created page with "Deterministic computation absolutely necessary when it comes to maintaining consensus between nodes on the network, therefore any non-deterministic processes must never be use..." current
- 20:25, 21 February 2020 diff hist +450 N TensorRT Created page with "TensorRT is a timing-based kernel schedule. It is non-deterministic so it cannot be used for Grassland nodes. "Each time an inference engine is generated, it could be slightly..."
- 16:00, 20 February 2020 diff hist +173 Inference Inside OpenCV or Dlib current
- 10:05, 27 October 2019 diff hist +26 Veridical Suppression →Abstract Interface Instead of Veridical Detail current
- 10:02, 27 October 2019 diff hist +98 Veridical Suppression
- 09:59, 27 October 2019 diff hist +35 Veridical Suppression
- 00:16, 27 October 2019 diff hist +16 Main Page →Topics
- 00:15, 27 October 2019 diff hist +2,417 N Consensus Created page with "(This page is a work in progress) Because of the hashing algorithms Grassland uses, like SHA256 and RIPEMD (the same hashing algorithms bitcoin uses), even if you had a compu..."
- 00:11, 27 October 2019 diff hist +2 Main Page →Topics
- 00:09, 27 October 2019 diff hist +26 Main Page →Topics
- 00:08, 27 October 2019 diff hist +81 Veridical Suppression
- 00:00, 27 October 2019 diff hist +4 Veridical Suppression →Context Supports Data Validity
- 23:59, 26 October 2019 diff hist +504 Veridical Suppression
- 23:44, 26 October 2019 diff hist +888 Veridical Suppression
- 23:22, 26 October 2019 diff hist +2,871 N Veridical Suppression Created page with "Instead of representing reality in precise detail, a Grassland node models an interface from its environment in manner similar to the way humans themselves model an interface..."