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Octopus-ReEL

(0ct0pu5) Octopus Realtime EEG Laboratory

Directory Hierarchy

Online Applications:

$OCTOPUS_BASE/online/: Main include files common to almost all online applications residing in the project. The files are:

$OCTOPUS_BASE/online/fbcommand.h: Commands and other constants related with ACQ/STIM frontend<->backend communication, all kinds of low-level control.

$OCTOPUS_BASE/online/cscommand.h: Commands and other constants related with client-server communication mainly focused on setting stim-related parameters. The reboot and shutdown commands are for both acquisition and stimulation servers.

$OCTOPUS_BASE/online/acq_common.h: The constants related to acquisition servers backend and frontend application. This file is included both from kernel space backend C and the frontend C++ codes. So the common coding styles between C & C++ has been adhered.

$OCTOPUS_BASE/online/stim_common.h/: Constants related to stimulation server backend and frontend.. This file is included both from kernel space backend C and the frontend C++ codes. So the common coding styles between C & C++ has been adhered.

$OCTOPUS_BASE/online/pattdatagram.h/: The structure for segmented transfer of the stimulus application pattern to the stimulus server over network.

$OCTOPUS_BASE/online/channelnames.h: These are the electrode names arhering to the Neuroscan 128-channel cap pinout list..

$OCTOPUS_BASE/online/eventcodes.h/: In this file are the standard event & response codes. Lots of reserved slots exists for future paradigm definitions.

$OCTOPUS_BASE/online/eventnames.h/: These are the names of the events defined in eventcodes.h for displaying on screen.

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octopus-acq (128-channel Acquisition+event channel SYNChronized over parallel-port interrupt):

This is the Acquisition Server/Daemon and its associated realtime kernel-space backend. It is supposed/tested to run over a computer with Debian/GNU Linux-4.0, RTAI-3.5 and comedi-0.6.67/comedilib-0.6.70, with compatible A/D conversion hardware, one parallel port and a serial (RS-232) port, and a compatible 100Mbit Ethernet device. No console needed.

octopus-stim (Stereo auditory event stimulator+calibration/diagnostic of individual amplifiers):

This is Stimulation/Amplifier Calibration/Normalization server and its associated realtime kernel-space backend. It is supposed/tested to run over a computer with Debian/GNU Linux-4.0, RTAI-3.5 and comedi-0.6.67/comedilib-0.6.70, with compatible D/A conversion hardware, one parallel port, and a compatible 10/100MBit Ethernet device. No console needed.

octopus-recorder (Recording and -Online- Averaging GUI Frontend/Client):

Supposed to run over a fast (preferably multi-core/64-bit) computer with a compatible 100Mbit ethernet device and a compatible 2D/3D/OpenGL/DRI accelerated X11 Graphics Adapter. Supposed/tested computer has an Athlon X2-4200 CPU over an ASUS M200 Mainboard. The on-board nVidia Graphics Adapter is compatible and fast enough so no add-on Graphics Adapter has been used. The system has 2GBs of 800Mhz DDR2 Memory. A 21" CRT monitor (1600x1200@85Hz) have been used to fully utilize/view the 128-channel range. The operating system is Debian/GNU-Linux-4.0-amd64 distribution.

octopus-analyzer (Offline GUI Data/viewer and averaging tool):

octopus-patt (Random pattern generator tool for IIDITD binaural auditory paradigm):