Building Circuits with Words: Difference between revisions

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m (In the Introduction's first paragraph, 2nd sentence, between "the gates" there were 2 spaces instead of just 1, so I got rid of the 2nd space.)
 
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{{guide|narrow=1}}
=== Introduction ===
=== Introduction ===
This small guide is for players who are completely new to binary logic. It shows how the names of the  gates correspond to words in a sentence and how they can be used to create circuits by simply describing what you see in a truth table.
This small guide is for players who are completely new to binary logic. It shows how the names of the gates correspond to words in a sentence and how they can be used to create circuits by simply describing what you see in a truth table.


This concept might be perceived as obvious for people with background knowledge, but is still something that each of us had to learn at some point.
This concept might be perceived as obvious for people with background knowledge, but is still something that each of us had to learn at some point.
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Let's start with the first and expand our descriptive sentence.
Let's start with the first and expand our descriptive sentence.


[previewicon=31168099;sizeOriginal;xor1.png][/previewicon]
[[File:XOR_Gate_TruthTable_Column1.png]]


[[File:Guide_words_description2.png]]
[[File:Guide_words_description2.png]]
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Nice! Okay that's the first column - now let's add the second.
Nice! Okay that's the first column - now let's add the second.


[previewicon=31168184;sizeOriginal;xor2.png][/previewicon]
[[File:XOR_Gate_TruthTable_Column2.png]]


[[File:Guide_words_description3.png]]
[[File:Guide_words_description3.png]]
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Now we can build a circuit that exactly matches our description, using the same gates that we highlighted in our sentence:
Now we can build a circuit that exactly matches our description, using the same gates that we highlighted in our sentence:


[previewimg=31169306;sizeOriginal;circuit.png][/previewimg]
[[File:XOR_Gate_Circuit1.png|650px]]


This technique works for every truth table.
This technique works for every truth table.
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==== NOR gate ====
==== NOR gate ====


[previewimg=31675797;sizeOriginal;NOR_circ.png][/previewimg]
[[File:NOR_Gate_TruthTable_Description_Circuit.png]]


==== XOR gate ====
==== XOR gate ====
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Phrases like ''"...different values"'' or ''"...not the same"'' translate into an '''XOR''' gate
Phrases like ''"...different values"'' or ''"...not the same"'' translate into an '''XOR''' gate


[previewimg=31675802;sizeOriginal;XOR_circ.png][/previewimg]
[[File:XOR_Gate_TruthTable_Description_Circuit.png]]


==== XNOR gate ====
==== XNOR gate ====
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Phrases like ''"...equal values"'' or ''"...the same"'' translate into an '''XNOR''' gate
Phrases like ''"...equal values"'' or ''"...the same"'' translate into an '''XNOR''' gate


[previewimg=31675808;sizeOriginal;XNOR_circ.png][/previewimg]
[[File:XNOR_Gate_TruthTable_Description_Circuit.png]]


==== Conditions ====
==== Conditions ====
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Phrases like ''"...under the condition that..."'' or ''"If...then"'' translate into an '''AND''' gate or a '''SWITCH'''
Phrases like ''"...under the condition that..."'' or ''"If...then"'' translate into an '''AND''' gate or a '''SWITCH'''


[previewimg=31675984;sizeOriginal;COND_circ.png][/previewimg]
[[File:COND_Description_Circuit.png]]

Latest revision as of 00:04, 21 August 2024

Introduction[edit | edit source]

This small guide is for players who are completely new to binary logic. It shows how the names of the gates correspond to words in a sentence and how they can be used to create circuits by simply describing what you see in a truth table.

This concept might be perceived as obvious for people with background knowledge, but is still something that each of us had to learn at some point.

Step 1: Describe the green outputs[edit | edit source]

Let's take a look at the XOR level and its truth table

We want to describe each combination, that turns the desired output

What's the idea? If we make sure that our circuit outputs in all relevant cases, then it automatically outputs in all other cases. So we only have to focus on the and get the s for free.

Start like this:

There are 2 columns, that turn the desired output to .

Let's start with the first and expand our descriptive sentence.

Nice! Okay that's the first column - now let's add the second.

We now have a complete description when our circuit outputs

Step 2: Replace 'Red' with 'Not Green'[edit | edit source]

We only focus on signals, that's why we try to avoid using the symbol in our description.

Here is the trick: When something is , we can also say it is 'not '.

So let's replace every symbol:

Step 3: Highlight the gate names[edit | edit source]

The connecting words in our sentence are also the name of gates!

Let's highlight all words, that are also names of gates and see what it looks like:

Notice, that i also added some brackets, since AND is a stronger connection than OR.

Step 4: Build the circuit[edit | edit source]

Now we can build a circuit that exactly matches our description, using the same gates that we highlighted in our sentence:

This technique works for every truth table.


The structure of the resulting circuit is called Canonical Disjunctive Normal Form (CDNF) which can usually be optimized to require fewer gates (there are several techniques to achieve this).

More phrases[edit | edit source]

By using phrases that contain only AND, OR, and NOT, you can build any circuit you want, by simply describing each combination for each output. But there is more...

You can use the following phrases and translate them into gates:

NOR gate[edit | edit source]

XOR gate[edit | edit source]

Phrases like "...different values" or "...not the same" translate into an XOR gate

XNOR gate[edit | edit source]

Phrases like "...equal values" or "...the same" translate into an XNOR gate

Conditions[edit | edit source]

Phrases like "...under the condition that..." or "If...then" translate into an AND gate or a SWITCH