Running JMRI on a decTOP small form factor computerThe decTOP is a "small form factor computer" (SFF) that provides a complete system in a small, low-cost, rugged box.
The goal of our project is to see if it would make a good JMRI layout controller, suitable for e.g. driving a couple modules or a medium size layout.
As an example, imagine a large modular layout at a show. A number of clubs bring their modules together to create the overall layout. A common LocoNet backbone can be shared by all, but the addresses of devices on individual modules have to be carefully managed. It doesn't work if both the Northville and Southville clubs bring modules that are configured to use address 120.
If sufficiently low cost & reliable hardware was available, JMRI could resolve this, without having to manage huge numbers of addresses or reconfigure lots of hardware. Each club could put a small computer running a JMRI application as the gateway between the common LocoNet (LayoutNet) and a LocoNet that only runs to their modules (LocalNet). JMRI would then translate addresses as LocoNet messages move back and forth, so that address 120 on each of the LocalNet modular sections becomes 220 and 430 on the global LayoutNet. At the same time, JMRI could continue to provide local control panes, signaling and automation, and all the other thimgs.
All we need to make something like this work is sufficently cheap and robust hardware, that can make two layout connections.
The decTop small form-factor computer seems to meet the cheap and rugged criteria, and seems to have enough horsepower:
- Processor subsystem -- AMD Geode GX processor, with CS5535 companion device
- Memory -- 128 MB DDR SDRAM, upgradable
- Hard drive -- internal 10 GB 2.5-inch drive
- Display interface -- VGA 1600 x 1200 resolution, at 85 Hz
- Four USB 1.1 ports (2 front, 2 rear)
- LAN interface -- 10/100 Mbps Ethernet (via Ethernet-USB adapter that uses one port)
- Modem -- internal 56 Kbps ITU v.92 Fax/Modem
- Sound -- AC'97 audio with stereo in/out jacks
- Size -- 8.5 x 5.5 x 2.5 inches
- Weight -- approx. 3 pounds
- Power -- about 8 watts, separate power adapter
- Software -- none, but can run several forms of Linux and Java
You'll also need USB adapter(s) to connect to your layout. There are four USB ports available for use with a LocoBuffer USB, LI-USB or USB - serial adapter. Note that normally three of those ports are used for the keybooard, mouse and Ethernet adapter, leaving one available for a layout connection.
The decTOP was previously known as the "AMD PIC". More information is available under that name.
Set UpThis section describes how we got our test machine up and running with Linux Xubuntu 7.10, Java 1.6 and JMRI 2.1.3.
PreparationsWe followed this page of instructions, which is written for installation via Xubuntu. (See Links section below for other approaches) It's really helpful to print the instructions out so you can make notes as you go along.
Those instructions describe using Linux to create the bootable USB stick that's used to load the decTOP. There are similar instructions for Windows. We're actually using a MacBook Pro and VMWare, which in turn provided a Xubuntu 7.10 machine for creating the USB stick. There are some more details on that at the end of this page.
You'll also need an Ethernet connection with DHCP to connect the initialized machine to the Internet to download updates. Make sure it's plugged in and active!
Installing LinuxFollow the directions to install Xubuntu 7.10.
When asked if you want to "detect keyboard", say "No", because the selection process takes forever. After saying no, select "US" twice (with one the included keyboard), and you'll be all set.
When asked for a network name, give it something simple and unique. We used "decTOP".
When asked to partition disks, select the second option, all files in one partition, then select "yes" for the next options
When asked to create a user account, we used:
User long name: JMRI User
Short name: jmri
Do the kernel install as described in the instructions. This requires network access via the Ethernet adapter, which you connected above.
There was a LONG delay at "Configuring language-pack-en-base 1%". Just wait for it to complete.
When asked what to install, just select Xubuntu desktop.
At this point, you should be able to just reboot into single user mode to continue the install. In our case, our LCD display came up full of pretty colors. The decTOP video setup is a little fussy, and doesn't always come up exactly right with LCD panels. See our page on video problems for more info. In our case, we just attached a borrowed CRT monitor and it came right up, though slowly.
Once Linux was up and running, we logged on with the account created earlier. Everything seemed to work.
To get the LCD monitor working, we created a setting with the right resolution and frame rate in the "Screens and Graphics" settings, then selected it in the "Display Settings" (both in the "Applications" - "Settings" menu). Once that was done, we could plug the LCD monitor back in and it worked fine.
Installing UpdatesNext, we allowed Linux to update itself to current levels. To do this, pull down "Applications" at the top left of the screen, then "System", then "Update Manager". It took a few minutes to check for updates. We told it to install everything, which took about an hour to download and install.
Installing Java 1.6Lore has it that it's better to install Sun's Software Development Kit (SDK) version of Java rather than just the Java Runtime Environment (JRE).
Pull down "Applications" at the top left of the screen, then "System", then "Synaptic Package Manager".
Click "Search", enter "sun-java" into the search box to find the SDK package, and then install it. It will bring along a couple other packages too.
Installing JMRIWe did this first to make sure it will actually come up at all, before spending time on RXTX.
Downloading and installing JMRI 2.1.3 went OK. We did some simple tests with the "LocoNet Simulator" preference setting at this point. Startup was very slow, about 35 seconds from click to display of the main window, but the program seemed fast enough once it was running.
Installing RXTX communication libraryThe instructions for installing RXTX on the JMRI Ubuntu page worked well.
The install location was "/usr/lib/jvm/java-6-sun-1.6.0.03".
Installing drivers for USB-serial adaptersOriginally, we'd thought that we'd have to spend some time installing drivers for our USB-serial adapter and LocoBuffer-USB. That wasn't needed, however. They just plugged in and worked.
We did have to make a minor edit to the DecoderPro startup scripts, but that change will be available by default in JMRI 2.1.4.
The decTOP system works, and runs JMRI quite well.
As a general purpose computer, however, it's very slow. More memory would likely help.
More informationThe rest of this page contains various info that might be useful.
Data EvolutionVendor page
Hardware InfoPhotos of PIC internals
Other Software Install InstructionsUbuntu 6.06 (no audio?)
Another Ubuntu 6.06
These recommend sticking with Ubuntu 6.06 unless the memory has been updated. Our test used Xubuntu 7.10, a varient with a smaller memory footprint.
install Xubuntu 7.10,
recommends 256MB RAM for Ubuntu or Kubuntu.
(Earlier 7.04 install guide)
Using Mac OS X
The bootable USB stick for this project was actually created using
an Apple MacBook Pro running Mac OS X. In turn, that was running
VMWare, which hosted a copy of Ubuntu Linux.
The Linux version used was the Ubuntu appliance from http://bagside.com/bagvapp/ (Alternately, download and install the "Xubuntu 7.10 Tribe 2" VMWare appliance from that same location; it's a little smaller and faster)
USB devices connect to the VMware machine if it has focus when the flash drive is plugged in. Make sure VMware is at the front on your screen before plugging it in. In our case, it mounted as /media/KINGSTON, specifically:
/etc/mtab:/dev/sdb1 /media/KINGSTON vfat rw,nosuid,nodev,shortname=mixed,uid=1000,utf8,umask=077,usefree 0 0
After that, the process just went through as described in the Linux instructions.