@Article{berger95motion, author = "Berger, T. and Schrijver, C. and Shine, R. and Tarbell, T. and Title, A. and Scharmer, G. B.", title = "Motion and Evolution of Solar Magnetic Elements", journal = baas, year = 1995, volume = 187, pages = 104 } @InProceedings{hirzberger95area, author = "J. Hirzberger and A. Hanslmeier and J. A. Bonet and M. V{\'a}zquez", title = "Area and Intensity Distribution in Solar Granulation", editor = iau176_editor, series = iau176_series, year = 1995, note = "Poster proceedings", booktitle = iau176_booktitle, pages = "114-116" } @InProceedings{keller95properties, author = "Christoph U. Keller", title = "Properties of Solar Magnetic Fields from Speckle Polarimetry", booktitle = "Reviews in Modern Astronomy 8", year = 1995, editor = "Gerhard Klare", note = xerox } @InProceedings{kiselman95impact, author = "Dan Kiselman", title = "Impact of granulation on line formation", editor = iau176_editor, series = iau176_series, booktitle = iau176_booktitle, year = 1995, note = "Poster proceedings" } @Article{limaye95height, author = "S. S. Limaye and M. Lindgren and D. Parker", title = "Height of {S}hoemaker--{L}evy~9 impact features on {J}upiter from parallax measurements", year = 1995, journal = baas, volume = 27, pages = 1127 } @InProceedings{limaye95temporal, author = "S. S. Limaye and M. Lindgren", title = "Temporal evolution of the {SL}-9 impact features on {J}upiter from {CCD} imaging: A video animation", OPTeditor = "", series = "Proc. IAU Colloquium 156", OPTpages = "", booktitle = "The Collision of Comet {P}/{S}hoemaker--{L}evy~9 and {J}upiter", year = "1995", note = no_hardcopy } @PhdThesis{lindgren95jupiter, author = "Mats Lindgren", title = "Jupiter as the Arbiter of Comets", school = "Uppsala University", year = 1995, note = hardcopy } @Article{seldin95solar, author = "J.~H.~Seldin and R.~G.~Paxman and G.~H.~Elste", title = "Solar granulation restoration using phase-diverse speckle imaging: verification via simulation and measurements", journal = baas, volume = "27", pages = "950", year = "1995" } @InProceedings{shand95flexible, author = "Mark Shand", title = "Flexible Image Acquisition using Reconfigurable Hardware", editor = "Kenneth L. Pocek and Peter M. Athanas", OPTvolume = "", OPTnumber = "", OPTseries = "Proc. the Third Annual {IEEE} Symposium on ", OPTpages = "", booktitle = "Proc. the Third Annual {IEEE} Symposium on {FPGA}s for Custom Computing Machines", year = 1995 } @InProceedings{shand95latency, author = "Shand, Mark and Wang Wei and Scharmer, G{\"o}ran", title = "3.8~ms Latency Correlation Tracker for Active Mirror Control Based on a Reconfigurable Interface to a Standard Workstation", editor = "J. Schewel", volume = "2607", series = spie, pages = "145-154", booktitle = "Field Programmable Gate Arrays ({FPGA}s) for Fast Board Development and Reconfigurable Computing", year = 1995, abstract = "We describe the use of a reconfigurable interface board based on FPGAs and a UNIX workstation to implement a correlation tracker with 3.8ms latency. The correlation tracker is part of an active mirror system in use at the Swedish Vacuum Solar Telescope, La Palma, Canary Islands. The reconfigurable interface is used to leverage the workstation CPU, relieving it of tasks that it performs poorly such as rapid context switching and low-level bit manipulation. The reconfigurable interface handles control of external devices, high-performance input (16 MB/s) and data preformatting. The workstation CPU, a 64-bit microprocessor, performs the bulk of the computation. For the key computations of the correlation tracker we are able to treat 8 pixels in parallel in the CPU's 64-bit integer datapath. We present the structure of the CCD interface configuration and the implementations of the key algorithms on the workstation CPU. We describe the design trade-offs that arose during the development of the system, and demonstrate the symbiosis between components implemented in software and configurable hardware." }