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 # 🎲 Dice One-Time Pads:
 A technique to make uncrackable encrypted messages using two six-sided die. 
-### 📄 [Main Instructions](https://code.lexza.ch/Lexzach/dice-one-time-pad/raw/branch/main/Instructions/dice-one-time-pad.pdf)
-### 🔢 [Alternate Chart](https://code.lexza.ch/Lexzach/dice-one-time-pad/raw/branch/main/Instructions/alternate-chart.pdf)
-If you have a less security critical use of this One-Time Pad technique, you can use the [program written in Go](https://code.lexza.ch/Lexzach/dice-one-time-pad/src/branch/main/Go) within this repository to greatly speed up the key generation, encryption, and decryption process. This program is 100% compatible with the manual method, but is less secure because of the [CSPRNG](https://en.wikipedia.org/wiki/Cryptographically_secure_pseudorandom_number_generator) utilized as opposed to the (effectively) true random numbers of a dice.
+### 📄 [Main Instructions](https://git.lexza.ch/Lexzach/dice-one-time-pad/raw/branch/main/Instructions/dice-one-time-pad.pdf)
+### 🔢 [Alternate Chart](https://git.lexza.ch/Lexzach/dice-one-time-pad/raw/branch/main/Instructions/alternate-chart.pdf)
+If you have a less security critical use of this One-Time Pad technique, you can use the [program written in Go](https://git.lexza.ch/Lexzach/dice-one-time-pad/src/branch/main/Go) within this repository to greatly speed up the key generation, encryption, and decryption process. This program is 100% compatible with the manual method, but is less secure because of the [CSPRNG](https://en.wikipedia.org/wiki/Cryptographically_secure_pseudorandom_number_generator) utilized as opposed to the (effectively) true random numbers of a dice.
 
 ### How does this all work?
 ([Wikipedia](https://en.wikipedia.org/wiki/One-time_pad))<br>