plan out the article

2022-07-06 15:40:15 -07:00 · 2022-07-06 15:40:15 -07:00 · 2de53d4b1d
parent 9f6d996fa6
commit 2de53d4b1d
1 changed files with 25 additions and 12 deletions
--- a/content/blog/DRAFT-2022-05-26-home-built-computation/index.md
+++ b/content/blog/DRAFT-2022-05-26-home-built-computation/index.md
@ -14,6 +14,8 @@ impenetrable wall. players like Sam Zeloof do some (small-scale, proof-of-concep
 IC manufacturing at home. and there's some defunct projects like HomeCMOS. but otherwise,
 the space is close to a vacuum. how do we make inroads?

+TODO: add links for the above
+
 ## We Don't Need Perfection

 we don't need 5 GHz clock speeds and mobile-level power-consumption out of the gate.
@ -47,7 +49,7 @@ Wikipedia has an entire page on [Unconventional Computing](https://en.wikipedia.
 and it's not even complete. there's also
 [Fluidics](https://en.wikipedia.org/wiki/Fluidics),
 [Optical Computing](https://en.wikipedia.org/wiki/Optical_computing),
-[Chemical Computing](https://en.wikipedia.org/wiki/Chemical_computer)
+[Chemical Computing](https://en.wikipedia.org/wiki/Chemical_computer),
 [Electrochemical Transistors](https://en.wikipedia.org/wiki/Organic_electrochemical_transistor),
 and of course, vacuum tubes!

@ -87,16 +89,27 @@ can we assemble these components into one of the primitive digital logic gates?

 ## TODO: review magnetic core theory

+## TODO: show illustrations of basic logic gates
+- include simulation results

-NOTES:
-  Pneumatic Logic: https://www.instructables.com/Pneumatic-Logic-Gates-Made-With-Simple-Tools/
-  # TODO: read 2020-09-25-technology.txt
-  TODO: read http://www.hpfriedrichs.com/radioroom/cu-diode/rr-cu-diode.htm
-  # TODO: read 2020-10-04-other-magnetic-logic.txt
-  TODO: magnetic amplifiers https://en.wikipedia.org/wiki/Elliott_803#Hardware_description  (it uses cores for computation, and transistors to amplify the output)
-  # TODO: read 2019-08-18-resources.txt
-  TODO: 2020-04-05-unconventional-computing.txt
-  Material Matters Basics Vol. 8: covers PDOT/PSS; conductive polymers
-  TODO: Acquire: Material Matters Basics Vol. 6: The Fundamentals of Organic Transistors
+## TODO: show illustrations of clocked logic, with output buffers

-  ion-beam lithography
+## TODO: show illustrations of clocked logic, buffered, with a gain stage
+- include simulation results of the gain stage
+
+## TODO: link to my coremem project
+- call for collaboration
+- links to related projects (civboot?)
+
+
+## NOTES:
+- Pneumatic Logic: https://www.instructables.com/Pneumatic-Logic-Gates-Made-With-Simple-Tools/
+  - TODO: read 2020-09-25-technology.txt
+- TODO: read http://www.hpfriedrichs.com/radioroom/cu-diode/rr-cu-diode.htm
+  - TODO: read 2020-10-04-other-magnetic-logic.txt
+- TODO: magnetic amplifiers https://en.wikipedia.org/wiki/Elliott_803#Hardware_description  (it uses cores for computation, and transistors to amplify the output)
+  - TODO: read 2019-08-18-resources.txt
+- TODO: 2020-04-05-unconventional-computing.txt
+- Material Matters Basics Vol. 8: covers PDOT/PSS; conductive polymers
+- TODO: Acquire: Material Matters Basics Vol. 6: The Fundamentals of Organic Transistors
+- ion-beam lithography