HP ACC2 Aurora manual Copying Images to a Network Disk

Page 17

17

CHAPTER 8 COPYING IMAGES TO A NETWORK DISK:

The ACC2 program can save the image on a network disk. Here it can be read by «another program» which can process and display the on-line image data at e.g. the World Wide Web. The «another program» is not a part of the ACC2 program and can not be run on the camera PC. (The Geomapper program written by Dagfinn Opsvik can be used as the «another program».)

The settings in the configuration file (see below) must then be:

ACC_NET_IMAGE_ALLOW 1

ACC_NET_IMAGE_DIR y:\directory1\directory2 ..

The y:\directory1\directory2.. must be a network disk mounted as y: on the camera PC. Y: can be any character. (As an example in Oslo the ACC_NET_IMAGE_DIR g:\tmp\pmis\images was used). The network disk can also be the main harddisk C:, e.g. C:\tmp

.

The line in the sequence file is .. s1 u1 .. when the images should be stored at a network disk.

In the ACC_NET_IMAGE_DIR directory the sub directories 427.8nm

,557.7nm and 630.0nm must exit. (The ACC2 program will not create any directories at the network disk.) The ACC2 program will then save the images «from» the respective filters on these sub directories.

On the network disk the image names are:

pmis.0

pmis.1

pmis.2

pmis.3

pmis.4

pmis.5

pmis.6

pmis.7

pmis.8

pmis.9

The pmis.0 is the first image saved. When the pmis.9 is saved the next image is pmis.0, pmis.1,, … in an endless cycle.

It is the «another program» responsibility not to read the image at the network disk before the ACC2 program has finished saving it. The possible solution is then to check the file size which is 525492 bytes for each image.

When ACC_NET_IMAGE_DUMMY is 1 in the configuration file a small file dummy.dat is copied to the network disk after the pmis image is copied. This file can be used to synchronise the reading. The dummy.dat file can be deleted by the «another program».

Image 17
Contents ACC2 Jan 15 UpdatesTable of Content Precautions ACC window Press OpenCom Now if the run file, the timer file and the sequence fileStarting the Camera This settings Is useful settingsTo disk. Image.ACC window Press the Stop button and the Exit button Stopping the CameraVia Overview of the ACC ProgramGarmin VisualBasicACC2-- PMISmacros-- SMARTMTRNorway.prg ACC2 Control Files Timer fileRun file RUN filename$$ f$ e$$$ g$ s$ u$ c$ Yyyy-mm-dd hhmmssSequence file Intensifier gain Exposure timeRun file Or the GarminAs this example S0 u1Sequence file will not work Image File Names Page D1997-12-07145129W557.7nmF2G0E230 Image FormatUpper case letters a Z are used as identifiers Denotes date Denotes Wavelength W557.7nmCopying Images to a Network Disk Settings in the configuration file see below must then bePage # #### ##### # ## # # # # # # Configuration FileAccnetimageallow Imagenorth This is for the Unis/UiO camera no 1 Longyearbyen This backup last for approximate 1 hour / GBSaving Data AT DAT Storage Media Afdisk Saving Data AT Pinnacle Apex 2 X 2GB Optical DiskUse ν Verify backup Colorado Backup window press on the C in the leftThis is for the Unis/UiO camera no 2 Ny Ålesund Tools-Format Tape ,…Page TxD, RxD GND connector Automatic Update of PC ClockConnector for 12VC from the AC White GPS 12XL Camera SetupPage Focusing Acquire-expose-1000 acquire-focus Possible Errors

ACC2 Aurora specifications

The HP ACC2 Aurora represents a significant advancement in high-performance computing, catering to professionals and enthusiasts who demand exemplary performance and efficiency. This cutting-edge system integrates innovative technologies and robust specifications aimed at delivering exceptional productivity and reliability.

At the heart of the HP ACC2 Aurora is its potent processing power. It is equipped with the latest generation of multi-core processors, which provide ample power for data-intensive tasks, including simulations, 3D modeling, and complex calculations. With options for both AMD and Intel processors, users can select configurations that best meet their needs, ensuring optimal performance and scalability.

The system's memory capabilities are impressive, supporting large RAM capacities that facilitate multitasking and the execution of tight timelines on large data sets. The HP ACC2 Aurora can be configured with high-speed DDR4 memory, enhancing data access speeds and system responsiveness. This makes it an ideal choice for industries relying on real-time data analysis, such as finance, healthcare, and engineering.

Storage options on the HP ACC2 Aurora are designed to accommodate varying user needs, featuring a combination of high-speed SSDs and traditional HDDs. The M.2 NVMe SSD technology significantly reduces loading times and improves data transfer rates. Users can also benefit from RAID configurations for redundancy and data security, ensuring that critical information is well-protected.

The HP ACC2 Aurora's graphics capabilities are equally impressive, with options for high-performance dedicated GPUs. These graphics processors bring advanced rendering capabilities, making the system suitable for graphic-intensive applications such as video editing, gaming, and virtual reality experiences. The robust GPU options ensure that visual output is not only stunning but also fluid and uninterrupted.

In terms of connectivity, the HP ACC2 Aurora features a variety of ports, including USB-C, USB-A, and HDMI, enabling quick and flexible connections to peripherals and additional displays. Its sophisticated thermal management system regulates internal temperatures to maintain peak performance without overheating, ensuring longevity.

Built with high-quality materials, the design of the HP ACC2 Aurora emphasizes durability alongside aesthetics, appealing to both corporate environments and home setups. The compact form factor allows for efficient use of physical space, making it easy to integrate into existing workflows.

In summary, the HP ACC2 Aurora sets a new standard in high-performance computing. Its advanced features, ranging from powerful processors and expansive memory options to high-end graphics and versatile connectivity, make it suitable for a diverse array of applications that require performance, reliability, and efficiency. This system is undoubtedly a robust choice for any professional seeking to enhance their computational capabilities.