ER-301 Sound Computer
Table of Contents
- Introduction
- Emulator
- Creating your own mods
- USB Functions
- Build profiles and target architectures
- Glossary
Introduction
This project contains the source code for:
- primary boot loader (MLO)
- secondary boot loader (SBL)
- firmware (kernel.bin)
- emulator (Linux and macOS only)
- factory mods (core, teletype)
- SDK for building your own mods
Emulator
The purpose of this emulator is to make writing code for the ER-301 just a little bit easier and fun. Although you could, the emulator is not designed for making music. I can see also see the emulator being useful to someone who just wants to know more about the ER-301 before buying one.
Compiling the emulator
To compile and run the emulator you will need the following dependencies installed:
# ubuntu
sudo apt update
sudo apt install build-essential libsdl2-dev libsdl2-ttf-dev libfftw3-dev swig zip fonts-freefont-ttf
# macOS
brew install gcc sdl2 sdl2_ttf fftw swig zip
To compile, execute this in the top directory:
make emu
Running the emulator
Executing the emulator from the root of the project tree without arguments will start it up with default settings:
testing/linux/emu/emu.elf
This will typically be enough to get started. If you want to dive in deeper execute with '-h' or --help' to get help on the commandline configuration options:
> testing/linux/emu/emu.elf --help
ER-301 Emulator (v0.6.02)
Usage: emu.elf [OPTIONS]
Examples:
emu.elf # Start emulator with default configuration file.
emu.elf -c foo.cfg # Start emulator with 'foo.cfg'.
-h, --help Show this help.
-c, --config FILE Use the given configuration file.
(Default: ~/.od/emu.config)
Configuring the emulator
If you run the emulator and it cannot find a valid configuration file then the program will create a default one in ~/.od/emu.config
that is similar to this:
## ER-301 Emulator Configuration
## Root for the Lua interpreter
XROOT ./xroot
## Use this root for the rear SD card.
REAR_ROOT ~/.od/rear
REAR_PRESENT true
## Use this root for the front SD card.
FRONT_ROOT ~/.od/front
FRONT_PRESENT true
## Key mapping
BUTTON_MAIN1_KEY Q
BUTTON_MAIN2_KEY W
BUTTON_MAIN3_KEY E
BUTTON_MAIN4_KEY R
BUTTON_MAIN5_KEY T
BUTTON_MAIN6_KEY Y
BUTTON_DIAL1_KEY A
BUTTON_DIAL2_KEY S
BUTTON_DIAL3_KEY D
BUTTON_SUB1_KEY F
BUTTON_SUB2_KEY G
BUTTON_SUB3_KEY H
BUTTON_ENTER_KEY V
BUTTON_UP_KEY B
BUTTON_SHIFT_KEY N
BUTTON_SELECT1_KEY 1
BUTTON_SELECT2_KEY 2
BUTTON_SELECT3_KEY 3
BUTTON_SELECT4_KEY 4
STORAGE_FOCUS_KEY Z
MODE_FOCUS_KEY X
ZOOM_IN_KEY =
ZOOM_OUT_KEY -
QUIT_KEY Q
## Knob mapping
## Scale factor for mouse wheel. Negate to invert.
MOUSE_WHEEL_FACTOR 0.5
## Scale factor for LEFT/RIGHT arrow keys. Negate to invert.
LEFT_RIGHT_ARROWS_FACTOR 1
## Scale factor for UP/DOWN arrow keys. Negate to invert.
UP_DOWN_ARROWS_FACTOR 0.25
Edit this file with your own values to configure various items like key mappings, knob speed, and paths for lua scripts and file trees.
Installing packages
Packages encapsulate unit presets (.unit), unit definitions (.lua), and shared libraries (*.so) into one shareable bundle along with any necessary assets (e.g. sound files and so on). The core units are also distributed as a package, so let's use the core package as an example. First, to compile and create the core package, execute:
make core
Next, let's go over the two main methods for installing packages.
Manual Package Install
This method mirrors exactly what an end-user would do to install a package. Copy the resulting package file to front/ER-301/packages
. You will need to change the command below to match the correct version.
cp testing/linux/mods/core-<version>.pkg ~/.od/front/ER-301/packages
Finally, run the emulator again using the same command-line as before and install the core mod package from the Package Manager screen. Now you will have access to all of the core units in the emulator.
Auto Package Install
This method is used by the firmware installer and can be useful for development also. You simply copy the *.pkg file to the rear root:
cp testing/linux/mods/core-<version>.pkg ~/.od/rear
Then the next time you boot up the emulator, it will move over packages found in rear
to front/ER-301/packages
. This makes the package show up in the Package Manager. Finally, depending on the following conditions the package may or may not be automatically installed:
Condition | Action |
---|---|
There is no previous version of the package. | Install the package. |
There is a previous version of the package but it is not installed. | Do not install the package. |
There is a previous version of the package and it is installed. | Uninstall the previous version and install the newer version. |
Limitations
The emulator can load and execute any mod that the real ER-301 can load and execute. No porting of source code is necessary (even those written using NEON instrinsics), just recompilation for the target host on which you will run the emulator. However, there are a few differences when it comes to the inputs and outputs.
Outputs are mixed down to stereo
Currently, the 4 output channels are mixed down to stereo for maximal compatibility with different setups.
- Left channel: OUT1+OUT3
- Right channel: OUT2+OUT4
No external inputs
There are no external input channels implemented yet. However, when it comes to the main purpose of this emulator, it hasn't been much of an obstacle since you can generate just about any testing signals that you need within the ER-301 emulation. In fact, when it comes to testing, it is usually much easier to deal with canned signals for their repeatibility and ease of setup.
No I2C control
The teletype mod will compile and install. You can even instantiate its units. However, there is no emulation of the I2C bus.
Creating your own mods
Install the TI Processor SDK for AM335x
First, you will need to install the TI-RTOS development tools for the AM335x.
- It is important that you use this specific version: 04.01.00.06.
- Navigate to this page and download the file called ti-processor-sdk-rtos-am335x-evm-04.01.00.06-Linux-x86-Install.bin.
- Executing this file will run an installer program.
- When asked, please set the destination folder to
~/ti
. This is the path assumed by the project makefiles. If instead you install to a different folder then before executing any cross-compilation commands, you will need to set the TI_INSTALL_DIR shell environment variable to the actual path that you used. If you don't want to change your shell environment then you can also pass the path on the commandline like this:
make core TI_INSTALL_DIR=~/your-path-to-ti-sdk ARCH=am335x
This documentation will assume that you used the default location.
Note: If you get a warning message from the installer about a "Problem running post-install step. Installation may not complete correctly.", you can ignore it.
Other required dependencies
sudo apt install swig python3 zip gcc-multilib
Test your build environment
A good test of your build environment is to see if you can successfully build the factory mods:
make core teletype ARCH=am335x
Work through the tutorials
The tutorial directory contains 3 example projects that progressively increase in complexity and sophistication. These projects also show how you can work completely outside of this source tree.
USB Functions
There is a USB port on the back of the ER-301. As of v0.6.00 of the firmware, the ER-301 can enumerate as a mass storage device (which provides access to the front SD card) or a virtual serial port device (the ER-301 will output console messages here when connected). The settings for USB are located in admin > General Settings. However, I would think of the USB functionality as more developer-targeted for because...
Build profiles and target architectures
All build outputs are placed in a sub folder composed of the build profile and the target architecture. There are 3 build profiles:
- testing: All optimizations and logging enabled.
- debug: No optimizations. Logging enabled.
- release: All optimizations enabled. Logging disabled.
And here are the 3 supported target architectures:
- am335x
- linux
- darwin (macOS)
So for example, if I execute the following make command:
make core PROFILE=debug ARCH=linux
Then the build outputs will appear in the debug/linux
directory of the project root. Generally, the default profile is testing and the default architecture is determined by your OS (uname -s
). See the top-level Makefile for more details.
Glossary
Package
A package is an archive of files along with meta data that allows it to be recognized and manipulated (i.e. installed, uninstalled, loaded, unloaded) by the package manager.
Mod
A mod is any collection of code that is to be executed by the base firmware and is not part of of the base firmware. So a package containing scripts (.lua) and/or shared libraries (.so) is a packaged mod. A package containing only presets is not a packaged mod, it is just a package of presets.