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Hope you like it! To check and repair the media file system, do the following:. The media disk volume is the V: drive, which is striped across both SATA drives for performance reasons. This is the only volume that might occasionally need defragmenting. If you are using the Turbo iDDR within recommended usage patterns, the C: drive and the D: drive should not need to be defragmented.
When the V: drive becomes fragmented to the point at which performance could be affected, a prompt appears during Power On Self Test POST which informs you that you should defragment. When you see this message, use the following procedure to defragment the V: drive.
The procedures in this section describe how to export log files from the Turbo iDDR. The log files can include the following:. The exported log files are combined in a ZIP file. This procedure allows you to export log files even if AppCenter does not start properly.
It uses the Windows command prompt. The system installer process allows you to return your iDDR to a default state. At a minimum the process replaces the entire system drive, including the Windows operating system. The Turbo iDDR is a multi-channel video disk recorder with one record channel and two playback channels.
Record and playback can occur simultaneously. Media is stored on internal disk drives. Storage capacity depends on the video compression settings selected. The front panel includes an LCD display with touch screen and transport controls to allow easy operation with minimal external connections. Refer to the Turbo User Manual for other high-level descriptions of features, controls, and applications.
This section explains the major architectural blocks. The Application system architecture is similar to that of standard PC-type computers. It uses an ATX form factor motherboard. In addition, the following board has an internal USB connection:. The front panel application runs on Windows CE operating system. There are three partitions, mapped to the Windows operating system using the C:, D:, and V: drive letters.
The C: drive contains the operating system and application software. The D: drive contains the media database and configuration files. The Real Time system uses Grass Valley boards to provide the core video disk recorder functionality.
Primary components are as follows:. The Real Time system uses a dedicated operating system. This operating system runs on the Real Time Processor and manages all the hardware involved in controlling the flow of video, audio, timecode, genlock, and GPI in and out of the iDDR. The following section explains how the Application system and the Real Time system work together to provide iDDR functionality. The iDDR avoids this problem by providing dedicated systems that isolate processing needs.
The components that work together to provide this functionality are as follows:. The Application system is, at its core, a conventional desktop PC-type system. In the iDDR it is dedicated to control, configuration, and networking functions that do not require real-time accuracy.
The Application system has the following components:. The Storage System includes the V: partition on the SATA drives, controllers, drivers, and adapters necessary for access and movement of the data.
The primary data flow is within the overall control of the Real Time System. The Real Time system has a dedicated processor and time-sensitive mechanisms to serve media processing needs while maintaining real-time accuracy. When you control iDDR play and record operations from within the Application System you trigger a chain of events that eventually crosses over into the Real Time System and results in media access.
The following sequence is an example of this type of chain of events:. This service controls AppCenter startup, checks hardware, checks the health of the Real Time System, reports status via startup messages and Status Pane messages, controls the startup of drivers, and routes Real Time System log messages to the database.
This service acts as the server for remote file streaming transfers. This is a standard Windows service that has been adapted for the iDDR. It is required only for remote monitoring via a SNMP manager. These services support the database component of the Media File System. This section describes the major hardware pieces that make up the iDDR.
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