This repository is a fork from the official logisim-evolution repository (see official repository for more information) and hosts an early version of logisim with experimental support for editing/analyzing and simulating Finite State Machines plus several other minor features including :
- (incomplete) Support for DE0-CV board from Terasic
- Keypad IO device (currently only for simulation)
- Dual ported register file component for easing the design of MIPS like CPUs
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The tool menu contains an entry named FSM Tools, with the Finite State Machine component available as a building block.
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By default, the menu instantiates a 4-state example FSM which demonstrates most of the features available in the tool. The FSM transition diagram can be viewed and modified within a graphical editor which is opened by clicking on the Content attribute.
The editor is in advanced beta stage, it supports adding/editing/moving/copying/deleting elements through a context menu (use right click to make it appear). Elements can be selected (left click) and moved to make the diagram more readable.
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Commands (outputs) value are specified using boolean expressions involving bitvector constants ("0101","1"), inputs (with range selection aka A[2:0]), boolean operators (+=OR,.=AND,/=NOT,"1"= true,"0=false ), comparison (==,/=) and concatenation ({A,"0"}). The expression is analyzed for correctness by the editor.
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Transition predicates are also specified using boolean expressions, which must evaluate as a single bit vector. In addition, it is also possible to use a "default" predicate which is evaluated to true when all other transition predicates for a given state are evaluated to false.
In addition to syntactic analysis, the editor also checks that transitions from a given state have all their predicates mutually exclusive to guarantee the the fSM is deterministic. This is achieved using the jdd library, which we use to perform a simple boolean SAT check.
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[FIXED]
The current version also support VHDL generation although the correctness of generated VHDL was not fully tested yet. -
[MOSTLY FIXED]
The editor does not fully supports input/outputs with wordlength greater than one, especially for SAT checks -
[FIXED]
Checker does not verify that all states have different binary codes, not that code size (in # bits) is consistent with the number of state on the FSM.
You can find the latest version of the tool here. [updated on October 10th, 2018]
To execute it, click on the downloaded file or type in a console
java -jar logisim-evolution.jarYou can also compile it by yourself by cloning the repository on your local machine. Once this is done, enter the directory and execute
ant runThis also creates locally a .jar file, which needs to be fixed due to some library issue. To do so you must run the following command in the project folder containing the jar file.
zip -d logisim-evolution.jar 'META-INF/*.SF' 'META-INF/*.RSA' 'META-INF/*SF'
This jar can be distributed and used on other machines.
To import directly logisim-evolution in Eclipse, you can use Eclipse's import wizard:
Import -> git project -> [put the connection details] -> New project -> Java project from Ant
You will, however, encounter a problem when you will try to execute the code. In particular, an exception ExceptionInInitializerError will be thrown. To solve this, execute the eclipse_fix.sh script in the program's directory, or go in the bin/ subdirectory and create links to the following directories available in the program's directory
- boards_model
- javax
- libs
- resources
- doc