Username & Password

Traditional login

Username
Password
Or

Microsoft Account

Recommended

Sign in instantly using your Microsoft account.

Logo

Create Account

Microsoft Account

Recommended

Or

Auth Server

Alternative method

Connect to our authentication server:
Once connected, run this command with your desired password:
Replace <your_password> with your actual password

RGB 3x3 pixel

Apr 08, 2025 Public
By:
Minecraft
Width
Depth
Height
Version
Redstone
Logic
Computational
Bit width
data format
input orientation
throughput
latency
mchprs optimised
Peripheral
Display
Your browser does not support the HTML5 canvas tag.

Description

by J2ko

Related Schematics

Wueffi
Wueffi
Connect 4 by WildScaryFox

Connect 4 by WildScaryFox

Connect 4 by WildScaryFox. Upload by Waffle

minecraft redstone ore +1 more
Jul 31, 2024
View Connect 4 by WildScaryFox
Nano_
Nano_
Hex Ladner fisher adder

Hex Ladner fisher adder

32-Digit Hexadecimal Vertical Ladner-Fischer Adder in Minecraft Overview This Minecraft implementation is a 32-digit hexadecimal Ladner-Fischer Adder (LFA), a type of Parallel Prefix Adder (PPA) that balances the speed of carry-lookahead adders with the simplicity of ripple-carry adders. It's designed for high-performance addition operations within the constraints of Minecraft's redstone system. Key Features Vertical design utilizing Minecraft's signal propagation Processes 128 binary bits (32 hexadecimal digits) in parallel Torchless implementation for Minecraft efficiency Synchronized operation at 5Hz regardless of input Pure Ladner-Fischer architecture optimized for Minecraft Understanding the Ladner-Fischer Structure The LFA consists of four main stages, labeled S1 through S4: S1 (Stage 1): This is the preprocessing stage. Each S1 block takes two input bits and computes initial propagate (P) and generate (G) signals. S2 (Stage 2): Combines results from pairs of S1 blocks, calculating group P and G signals for 4-bit groups. S3 (Stage 3): Further combines results from S2, handling 8-bit groups. S4 (Stage 4): The final stage, which calculates the carry for the entire 16-bit section. How to interpret the structure: Signals flow from top (inputs) to bottom (outputs). Each stage combines information from the previous stage, allowing parallel computation of carries. Lower-order bits are resolved earlier, while higher-order bits utilize more stages. Performance The implementation leverages the logarithmic depth of LFA (O(log n)): Consistent 5Hz operation for all inputs, regardless of complexity Significantly outperforms Ripple Carry Adders (RCA) for large numbers This graph illustrates the time complexity of different adder types: RCA (Ripple Carry Adder): Shows linear growth O(n/2), becoming increasingly slower as bit count increases. PPA (Parallel Prefix Adder, including LFA): Demonstrates logarithmic growth O(log n), more efficient for larger bit counts. CCA (Carry Cancel Adder): Shown for comparison, exhibits stepwise linear growth, very efficient for smaller bit counts. The vertical dashed line at 32 bits (8 hex digits) shows where this implementation operates, demonstrating its efficiency compared to RCA and its practical performance in the Minecraft environment. Visual Representation These diagrams illustrate the Ladner-Fischer structure: Pink boxes at the top represent inputs (0-15 for a 16-bit section) Gray boxes (S1, S2, S3, S4) show the four computation stages Bottom gray boxes represent outputs, aligned with their corresponding inputs The structure demonstrates how carry information propagates efficiently through the adder, allowing for fast, parallel computation even with large numbers.

redstone logic computational +2 more
Jul 31, 2024
View Hex Ladner fisher adder
Vivi3_0
Vivi3_0
Liquid filter

Liquid filter

Module to filter liquids from others items. Need to filter others items that interacts with dispensers and bucket

redstone
Feb 14, 2025
View Liquid filter
dfgch
dfgch
A  Keyboard

A Keyboard

Key addresses are not ASCII, keyboard output is serial

redstone logic keyboard
Apr 08, 2025
View A Keyboard

Details

ID:
gUlmbM
Created:
2 months ago
Format:

Share

Download Options
Choose how you'd like to download or use this schematic.
In-game command
Direct link