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(Created page with '=Fluid logic= ''Disclaimer: This is my personal work on the topic, and felt inclined to share it after reading about the same topic on DF Wiki. Use this information for your own…')
 
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         P    O.1  PR.PL. 0/5             
 
         P    O.1  PR.PL. 0/5             
 
</pre>
 
</pre>
====XAND====
+
====XAND====                                
<pre>                                      
+
<pre>    
-2  -1  0  
+
-2  -1  0  
     ~  ~                        
+
     ~  ~    
 
  .  X  [    I.2  FLOOD      I.1  CH.BR.   
 
  .  X  [    I.2  FLOOD      I.1  CH.BR.   
 
  [  .  ]    I.2  BRIDGE                 
 
  [  .  ]    I.2  BRIDGE                 
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         P    O.1  PR.PL. 6/7             
 
         P    O.1  PR.PL. 6/7             
 
</pre>
 
</pre>
 +
[[File:Fig4XAND0.png]][[File:Fig4XAND1.png]][[File:Fig4XAND2.png]]
  
  
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Fig.1 Reservoir
+
====Reservoir====
  
A pump can be seen supplying water to the reservoir from a brook. Two doors, seen as XX, determine whether the reservoir may fill. The series X~X~X~X~X~X indicates hatches over the computer components, determining whether the computer is on or off.
+
A pump can be seen supplying water to the reservoir from a brook. The door above determines whether the reservoir may fill. Underneath the water are a series of hatches over the computer components, determining whether the computer is on or off. To the left is a protected access shaft. The pump at the topmost is the highest in a series of pumps, reaching below to remove waste water.
  
EDIT LATER
+
[[File:Fig1Reservoir.png]]
  
  
Fig.2 Computer Components
+
====Computer Components====
  
 
Here can be seen an S/R Latch: where two NOR gates have their outputs crossed to the others second input. This allows 1 bit to be stored.
 
Here can be seen an S/R Latch: where two NOR gates have their outputs crossed to the others second input. This allows 1 bit to be stored.
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Fig.3 Drainage
+
====Drainage====
  
 
Here a pump, %, can be seen removing water from a pit below the S/R Latch. There is ample conduit to bring the water to the brook and pump into it. A waterwheel, gear assembly, and two axles bring power to the pumps.
 
Here a pump, %, can be seen removing water from a pit below the S/R Latch. There is ample conduit to bring the water to the brook and pump into it. A waterwheel, gear assembly, and two axles bring power to the pumps.
  
 
EDIT LATER
 
EDIT LATER

Revision as of 18:11, 1 December 2009

Fluid logic

Disclaimer: This is my personal work on the topic, and felt inclined to share it after reading about the same topic on DF Wiki. Use this information for your own works on the matter.

Fluid logic is a form of computing which uses a fluid (generally water) controlled by various means, to trigger pressure plates and hopefully accomplish some desirable result.


Key

Floodgate

X             FLOOD    ALLOW FLOW WHEN ON

Large Raising Bridge

[  Start      CH.BR.   ALLOW DRAIN WHEN ON, ALLOW FLOW WHEN OFF
]  End

Note: Channel below the end piece.

Small Raising Bridge

[             BRIDGE   ALLOW DRAIN WHEN OFF

Note: Channel above piece.

Pressure Plate

P             PR.PL.   X/X ON
P<                     ON UNDER MAXIMUM
>P                     ON OVER MINIMUM

Channel

.                      DRAIN.

Note: Also used as a drain bypass to route around objects.

Source

~                      WATER SOURCE.

Note: Only depicted in XAND and XOR.

Notes

  • Water source is above first input piece.
  • -2, -1, 0 Refers to level.
  • I is INPUT, O is OUTPUT. Numbered.


Gates

AND

                        
    -1   0
     .   X    I.1  FLOOD       
     [   .    I.1  BRIDGE      
     .   X    I.2  FLOOD       
     [   .    I.2  BRIDGE
         P    O.1  PR.PL. 6/7  

OR

                            
         0
         [    I.1  BRIDGE      
         ]         CH.BR.
         [    I.2  BRIDGE      
         ]         CH.BR.
         P    O.1  PR.PL. 0/5  

NOT, INVERTER

                             
         0
         [    I.1  BRIDGE      
         ]         CH.BR.
         P    O.1  PR.PL. 6/7  

NAND

                             
    -1   0 
     .   X    I.1  FLOOD       
     [   .    I.1  BRIDGE      
     .   X    I.2  FLOOD       
     [   .    I.2  BRIDGE
         P    O.1  PR.PL. 0/5  

NOR

                             
         0
         [    I.1  BRIDGE      
         ]         CH.BR
         [    I.2  BRIDGE      
         ]         CH.BR
         P    O.1  PR.PL. 6/7  

XOR

                                      
-2  -1   0
     ~   ~                           
 .   X   [    I.2  FLOOD      I.1  CH.BR.  
 [   .   ]    I.2  BRIDGE                 
 .   X   [    I.1  FLOOD      I.2  CH.BR.  
 [   .   ]    I.1  BRIDGE                 
         P    O.1  PR.PL. 0/5             

XAND

      
-2  -1   0    
     ~   ~     
 .   X   [    I.2  FLOOD      I.1  CH.BR.  
 [   .   ]    I.2  BRIDGE                 
 .   X   [    I.1  FLOOD      I.2  CH.BR.  
 [   .   ]    I.1  BRIDGE                 
         P    O.1  PR.PL. 6/7             

Fig4XAND0.pngFig4XAND1.pngFig4XAND2.png


Computing

Latch

In Dwarf Fortress, a latch is a circuit which has two stable states and thereby can store one bit of information.

A circuit incorporating latches has state; its output may depend not only on its current input, but also on its previous inputs.


S/R Latch

     0   0    
     [   [    I.S   I.R
     ]   ]
     [   [    I.Q   I.Q
     ]   ]       
    <P  <P    O.Q   O.Q

Note: Use a Signal Trap when attempting to capture creature plate signals. Hold RESET while system boots.


Signal Trap

    -1   0   1
     X   .   X   I.R     I.S 
        <P           O.Q

Notes

  • INPUT S to SET, INPUT R to RESET
  • Uses a door and hatch. Useful for capturing creature plate OUTPUT.


Clock Signal

         0
         [   IC  CH.BR.
         ]
        <P   OC  PR.PL.

Note: ACCURACY UNTESTED.


Methods Of Implementation

The computational "house" is a collection of gates and purpose-made components for the computation of inputs and harvesting of results.

A source of water is pumped into a reservoir with the computational devices arranged below it to accept the water. Below these devices is a system for carrying away the used water.

The system must be able to carry the water at an adequate rate. Pumps are one way to assure this: they take the water to a river or map edge. Untested is the method of "atom-smashing" the water; it would greatly minimize the work needed, and indeed this already occurs inside the devices.

Of concern is what is known as "sloshing": where water can cause effect upon a pressure plate more then once per operation. This can cause chaos in the computer and completely ruin it. Pressure must be kept as high as possible; and drainage faster then the rate which pressure introduces water into the computer.


Reservoir

A pump can be seen supplying water to the reservoir from a brook. The door above determines whether the reservoir may fill. Underneath the water are a series of hatches over the computer components, determining whether the computer is on or off. To the left is a protected access shaft. The pump at the topmost is the highest in a series of pumps, reaching below to remove waste water.

Fig1Reservoir.png


Computer Components

Here can be seen an S/R Latch: where two NOR gates have their outputs crossed to the others second input. This allows 1 bit to be stored.

An access shaft, I, and a door, X, allow workers to reach the site.

EDIT LATER


Drainage

Here a pump, %, can be seen removing water from a pit below the S/R Latch. There is ample conduit to bring the water to the brook and pump into it. A waterwheel, gear assembly, and two axles bring power to the pumps.

EDIT LATER