M-Labs

M-Labs (formerly known as the Milkymist project) is a company and community who develop, manufacture and sell advanced open hardware devices and solutions. It is best known for the Milkymist system-on-chip (SoC) which is among the first commercialized system-on-chip designs with free HDL source code.[1]

M-Labs technologies have been reused in diverse applications. For example, NASA's Communication Navigation and Networking Reconfigurable Testbed (CoNNeCT) experiment uses the memory controller that was originally developed for the Milkymist One[2][3][4] and published under the terms of the GNU General Public License (GPL).

The project was presented at several open source and hacker conferences such as the Chaos Communication Congress,[5] FOSDEM,[6] Libre Software Meeting,[7] and Libre Graphics Meeting 2011.[8][9] It was also featured on the Make magazine blog[10] and the Milkymist One board was included in their "ultimate open source hardware gift guide 2010".[11]

Milkymist SoC

The Milkymist system-on-chip uses the LatticeMico32 (LM32) core as a general purpose processor. It is a RISC 32-bit big endian CPU with a memory management unit (MMU) developed later by M-Labs contributors. It is supported by the GCC compiler and can run RTEMS and μClinux. There is also an experimental back-end for LLVM targeting this microprocessor.

The LM32 microprocessor is assisted by a texture mapping unit and a programmable floating point VLIW coprocessor which are used by the Flickernoise video synthesis software. It is also surrounded by various peripheral cores to support every I/O device of the Milkymist One. The system-on-chip interconnect uses three bridged buses and mixes the Wishbone protocol with two custom protocols used for configuration registers and high performance DMA with the SDRAM.

The architecture of the Milkymist system-on-chip is largely documented in the project founder's Master thesis report.[4] Most components of the system-on-chip, except the LatticeMico32 core, were custom developed and placed under the GNU GPL license.

The QEMU emulator can be used to run and debug Milkymist SoC binaries[12] on another computer.

Milkymist One and Flickernoise

Milkymist One
Manufacturer Qi Hardware
Type Video synthesizer
Release date December 27, 2010 (2010-12-27) (early developer kit), September 28, 2011 (2011-09-28) (final version)
Introductory price 380 EUR (early developer kit), 499 USD (final version)
Operating system RTEMS, Linux
CPU LatticeMico32 in a Xilinx Spartan-6 FPGA
Memory 128 MB DDR SDRAM
Storage 32 MB built-in NOR flash, memory card
Display SVGA up to 140 MHz pixel clock (1280x1024)
Input USB keyboard and mouse
Camera External (CVBS digitizer)
Connectivity DMX512, MIDI, OpenSoundControl, AC97 audio, Ethernet, RC-5 infrared, USB, GPIO
Power 5 W
Dimensions 172 × 145 × 45 mm
Weight 465 g

The Milkymist One video synthesizer and reconfigurable computer is the main product released by the project. It was manufactured by Qi Hardware, a start-up founded by former Openmoko employees.[13] It was first sold at the Chaos Communication Congress in 2010,[14] as an "early developer kit" for interested hackers, open source activists and pioneers who could tolerate the remaining software and FPGA design shortcomings. A more refined version, including case and accessories, was later offered for sale.

The technical specifications of the Milkymist One[15] are as follows:

The design files of the printed circuit board and the CAD files of the case were released under the Creative Commons Attribution-Share Alike license.

Screenshot of Flickernoise, showing the control panel, the patch editor etc.
Example video frame produced by Flickernoise.

Flickernoise is the video synthesis software that runs on the Milkymist One. It is heavily inspired by MilkDrop and uses a similar, and largely compatible, scripting language to define and program the visual effects. However, while MilkDrop is designed to run automatically in a music player, Flickernoise is focused on the interactivity of the visuals for use in live performances. The software supports the programming of visual effects that transform a live video stream coming from a camera connected to the Milkymist One, as well as input from OpenSoundControl, DMX512 and MIDI controllers.

Flickernoise runs on the RTEMS real-time operating system, and uses many POSIX software libraries that were ported to this operating system such as libpng, libjpeg, jbig2dec, OpenJPEG, FreeType, MuPDF and liblo for OpenSoundControl support. The streamlined hardware platform along with the use of a real-time operating system allows the system to have a lower response time than an equivalent PC-based setup. The user interface is based on a variant of the Genode FX toolkit.

Flickernoise is also free software, released under the terms of the GNU General Public License.

ARTIQ

ARTIQ system overview

In May 2014, M-Labs entered a partnership with NIST to develop a next-generation open source control system for quantum information experiments.[16][17] The system, called ARTIQ (Advanced Real-Time Infrastructure for Quantum physics), is a combination of software and gateware that enables synchronized control of many devices with nanosecond-level timing resolution and sub-microsecond latency, while retaining features of high level programming languages.

Some of the ideas and code from Milkymist SoC have been reused in ARTIQ.

References

This article is issued from Wikipedia - version of the 10/11/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.