tag:crantastic.org,2005:/authors/8012Latest activity for Ralf Stubner2019-08-28T14:23:32Zcrantastic.orgtag:crantastic.org,2005:TimelineEvent/921102019-08-28T14:23:32Z2019-08-28T14:23:32ZswephR was upgraded to version 0.3.0<a href="/packages/swephR">swephR</a> was <span class="action">upgraded</span> to version <a href="/packages/swephR/versions/87598">0.3.0</a><br /><h3>Package description:</h3><p>The Swiss Ephemeris (version 2.08) is a high precision ephemeris based upon the DE431 ephemerides from NASA's JPL. It covers the time range 13201 BCE to 17191 CE. This package uses the semi-analytic theory by Steve Moshier. For faster and more accurate calculations, the compressed Swiss Ephemeris data is available in the 'swephRdata' package. To access this data package, run 'install.packages("swephRdata", repos = "https://rstub.github.io/drat/", type = "source")'. The size of the 'swephRdata' package is approximately 115 MB. The user can also use the original JPL DE431 data.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/915112019-08-07T12:03:30Z2019-08-07T12:03:30ZtikzDevice was upgraded to version 0.12.3<a href="/packages/tikzDevice">tikzDevice</a> was <span class="action">upgraded</span> to version <a href="/packages/tikzDevice/versions/87003">0.12.3</a><br /><h3>Package description:</h3><p>Provides a graphics output device for R that records plots in a LaTeX-friendly format. The device transforms plotting commands issued by R functions into LaTeX code blocks. When included in a LaTeX document, these blocks are interpreted with the help of 'TikZ'---a graphics package for TeX and friends written by Till Tantau. Using the 'tikzDevice', the text of R plots can contain LaTeX commands such as mathematical formula. The device also allows arbitrary LaTeX code to be inserted into the output stream.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/904302019-07-08T10:43:38Z2019-07-08T10:43:38ZswephR was upgraded to version 0.2.1<a href="/packages/swephR">swephR</a> was <span class="action">upgraded</span> to version <a href="/packages/swephR/versions/85964">0.2.1</a><br /><h3>Package description:</h3><p>The Swiss Ephemeris (version 2.08) is a high precision ephemeris based upon the DE431 ephemerides from NASA's JPL. It covers the time range 13201 BCE to 17191 CE. This package uses the semi-analytic theory by Steve Moshier. For faster and more accurate calculations, the compressed Swiss Ephemeris data is available in the 'swephRdata' package. To access this data package, run 'install.packages("swephRdata", repos = "https://rstub.github.io/drat/", type = "source")'. The size of the 'swephRdata' package is approximately 115 MB. The user can also use the original JPL DE431 data.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/903562019-07-05T07:43:41Z2019-07-05T07:43:41ZswephR was upgraded to version 0.2.0<a href="/packages/swephR">swephR</a> was <span class="action">upgraded</span> to version <a href="/packages/swephR/versions/85890">0.2.0</a><br /><h3>Package description:</h3><p>The Swiss Ephemeris (version 2.08) is a high precision ephemeris based upon the DE431 ephemerides from NASA's JPL. It covers the time range 13201 BCE to 17191 CE. This package uses the semi-analytic theory by Steve Moshier. For faster and more accurate calculations, the compressed Swiss Ephemeris data is available in the 'swephRdata' package. To access this data package, run 'install.packages("swephRdata", repos = "https://rstub.github.io/drat/", type = "source")'. The size of the 'swephRdata' package is approximately 115 MB. The user can also use the original JPL DE431 data.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/885902019-05-17T16:00:57Z2019-05-17T16:00:57Zdqrng was upgraded to version 0.2.1<a href="/packages/dqrng">dqrng</a> was <span class="action">upgraded</span> to version <a href="/packages/dqrng/versions/84223">0.2.1</a><br /><h3>Package description:</h3><p>Several fast random number generators are provided as C++ header only libraries: The PCG family by O'Neill (2014 <https://www.cs.hmc.edu/tr/hmc-cs-2014-0905.pdf>) as well as Xoroshiro128+ and Xoshiro256+ by Blackman and Vigna (2018 <arXiv:1805.01407>). In addition fast functions for generating random numbers according to a uniform, normal and exponential distribution are included. The latter two use the Ziggurat algorithm originally proposed by Marsaglia and Tsang (2000, <doi:10.18637/jss.v005.i08>). These functions are exported to R and as a C++ interface and are enabled for use with the default 64 bit generator from the PCG family, Xoroshiro128+ and Xoshiro256+ as well as the 64 bit version of the 20 rounds Threefry engine (Salmon et al., 2011 <doi:10.1145/2063384.2063405>) as provided by the package 'sitmo'.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/882442019-05-10T23:15:12Z2019-05-10T23:15:12Zcrantastic_production tagged dqrng with Distributions<a href="/users/146">crantastic_production</a> <span class="action">tagged</span> <a href="/packages/dqrng">dqrng</a> with <a href="/task_views/Distributions">Distributions</a>crantastic_productiontag:crantastic.org,2005:TimelineEvent/875072019-04-22T16:20:59Z2019-04-22T16:20:59Zdqrng was upgraded to version 0.2.0<a href="/packages/dqrng">dqrng</a> was <span class="action">upgraded</span> to version <a href="/packages/dqrng/versions/83192">0.2.0</a><br /><h3>Package description:</h3><p>Several fast random number generators are provided as C++ header only libraries: The PCG family by O'Neill (2014 <https://www.cs.hmc.edu/tr/hmc-cs-2014-0905.pdf>) as well as Xoroshiro128+ and Xoshiro256+ by Blackman and Vigna (2018 <arXiv:1805.01407>). In addition fast functions for generating random numbers according to a uniform, normal and exponential distribution are included. The latter two use the Ziggurat algorithm originally proposed by Marsaglia and Tsang (2000, <doi:10.18637/jss.v005.i08>). These functions are exported to R and as a C++ interface and are enabled for use with the default 64 bit generator from the PCG family, Xoroshiro128+ and Xoshiro256+ as well as the 64 bit version of the 20 rounds Threefry engine (Salmon et al., 2011 <doi:10.1145/2063384.2063405>) as provided by the package 'sitmo'.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/857962019-03-11T16:01:00Z2019-03-11T16:01:00Zdqrng was upgraded to version 0.1.1<a href="/packages/dqrng">dqrng</a> was <span class="action">upgraded</span> to version <a href="/packages/dqrng/versions/81581">0.1.1</a><br /><h3>Package description:</h3><p>Several fast random number generators are provided as C++ header only libraries: The PCG family by O'Neill (2014 <https://www.cs.hmc.edu/tr/hmc-cs-2014-0905.pdf>) as well as Xoroshiro128+ and Xoshiro256+ by Blackman and Vigna (2018 <arXiv:1805.01407>). In addition fast functions for generating random numbers according to a uniform, normal and exponential distribution are included. The latter two use the Ziggurat algorithm originally proposed by Marsaglia and Tsang (2000, <doi:10.18637/jss.v005.i08>). These functions are exported to R and as a C++ interface and are enabled for use with the default 64 bit generator from the PCG family, Xoroshiro128+ and Xoshiro256+ as well as the 64 bit version of the 20 rounds Threefry engine (Salmon et al., 2011 <doi:10.1145/2063384.2063405>) as provided by the package 'sitmo'.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/854142019-03-04T14:21:01Z2019-03-04T14:21:01Zdqrng was upgraded to version 0.1.0<a href="/packages/dqrng">dqrng</a> was <span class="action">upgraded</span> to version <a href="/packages/dqrng/versions/81204">0.1.0</a><br /><h3>Package description:</h3><p>Several fast random number generators are provided as C++ header only libraries: The PCG family by O'Neill (2014 <https://www.cs.hmc.edu/tr/hmc-cs-2014-0905.pdf>) as well as Xoroshiro128+ and Xoshiro256+ by Blackman and Vigna (2018 <arXiv:1805.01407>). In addition fast functions for generating random numbers according to a uniform, normal and exponential distribution are included. The latter two use the Ziggurat algorithm originally proposed by Marsaglia and Tsang (2000, <doi:10.18637/jss.v005.i08>). These functions are exported to R and as a C++ interface and are enabled for use with the default 64 bit generator from the PCG family, Xoroshiro128+ and Xoshiro256+ as well as the 64 bit version of the 20 rounds Threefry engine (Salmon et al., 2011 <doi:10.1145/2063384.2063405>) as provided by the package 'sitmo'.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/849112019-02-18T15:23:13Z2019-02-18T15:23:13ZswephR was upgraded to version 0.1.5<a href="/packages/swephR">swephR</a> was <span class="action">upgraded</span> to version <a href="/packages/swephR/versions/80722">0.1.5</a><br /><h3>Package description:</h3><p>The Swiss Ephemeris is a high precision ephemeris based upon the DE431 ephemerides from NASA's JPL. It covers the time range 13201 BC to AD 17191. This package uses the semi-analytic theory by Steve Moshier. For faster and more accurate calculations, the compressed Swiss Ephemeris data is available in the 'swephRdata' package. To access this data package, run 'install.packages("swephRdata", repos = "https://rstub.github.io/drat/", type = "source")'. The size of the 'swephRdata' package is approximately 115 MB. The user can also use the original JPL DE431 data.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/843092019-02-01T15:23:18Z2019-02-01T15:23:18ZswephR was upgraded to version 0.1.4<a href="/packages/swephR">swephR</a> was <span class="action">upgraded</span> to version <a href="/packages/swephR/versions/80143">0.1.4</a><br /><h3>Package description:</h3><p>The Swiss Ephemeris is a high precision ephemeris based upon the DE431 ephemerides from NASA's JPL. It covers the time range 13201 BC to AD 17191. This package uses the semi-analytic theory by Steve Moshier. For faster and more accurate calculations, the compressed Swiss Ephemeris data is available in the 'swephRdata' package. To access this data package, run 'install.packages("swephRdata", repos = "https://rstub.github.io/drat/", type = "source")'. The size of the 'swephRdata' package is approximately 115 MB. The user can also use the original JPL DE431 data.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/842852019-01-31T22:40:56Z2019-01-31T22:40:56Zdqrng was upgraded to version 0.0.5<a href="/packages/dqrng">dqrng</a> was <span class="action">upgraded</span> to version <a href="/packages/dqrng/versions/80122">0.0.5</a><br /><h3>Package description:</h3><p>Several fast random number generators are provided as C++ header only libraries: The PCG family by O'Neill (2014 <https://www.cs.hmc.edu/tr/hmc-cs-2014-0905.pdf>) as well as Xoroshiro128+ and Xoshiro256+ by Blackman and Vigna (2018 <arXiv:1805.01407>). In addition fast functions for generating random numbers according to a uniform, normal and exponential distribution are included. The latter two use the Ziggurat algorithm originally proposed by Marsaglia and Tsang (2000, <doi:10.18637/jss.v005.i08>). These functions are exported to R and as a C++ interface and are enabled for use with the 64 bit version of the Mersenne-Twister by Matsumoto and Nishimura (1998 <doi:10.1145/272991.272995>), the default 64 bit generator from the PCG family, Xoroshiro128+ and Xoshiro256+ as well as the 64 bit version of the 20 rounds Threefry engine (Salmon et al., 2011 <doi:10.1145/2063384.2063405>) as provided by the package 'sitmo'.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/842332019-01-30T18:43:11Z2019-01-30T18:43:11ZswephR was released<a href="/packages/swephR">swephR</a> was <span class="action">released</span><br /><h3>Package description:</h3><p>The Swiss Ephemeris (version 2.08) is a high precision ephemeris based upon the DE431 ephemerides from NASA's JPL. It covers the time range 13201 BCE to 17191 CE. This package uses the semi-analytic theory by Steve Moshier. For faster and more accurate calculations, the compressed Swiss Ephemeris data is available in the 'swephRdata' package. To access this data package, run 'install.packages("swephRdata", repos = "https://rstub.github.io/drat/", type = "source")'. The size of the 'swephRdata' package is approximately 115 MB. The user can also use the original JPL DE431 data.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/770502018-07-02T15:23:01Z2018-07-02T15:23:01ZtikzDevice was upgraded to version 0.12<a href="/packages/tikzDevice">tikzDevice</a> was <span class="action">upgraded</span> to version <a href="/packages/tikzDevice/versions/73532">0.12</a><br /><h3>Package description:</h3><p>Provides a graphics output device for R that records plots in a LaTeX-friendly format. The device transforms plotting commands issued by R functions into LaTeX code blocks. When included in a LaTeX document, these blocks are interpreted with the help of 'TikZ'---a graphics package for TeX and friends written by Till Tantau. Using the 'tikzDevice', the text of R plots can contain LaTeX commands such as mathematical formula. The device also allows arbitrary LaTeX code to be inserted into the output stream.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/764142018-06-15T11:15:18Z2018-06-15T11:15:18Zcrantastic_production tagged dqrng with HighPerformanceComputing<a href="/users/146">crantastic_production</a> <span class="action">tagged</span> <a href="/packages/dqrng">dqrng</a> with <a href="/task_views/HighPerformanceComputing">HighPerformanceComputing</a>crantastic_productiontag:crantastic.org,2005:TimelineEvent/761202018-06-08T19:00:56Z2018-06-08T19:00:56Zdqrng was upgraded to version 0.0.4<a href="/packages/dqrng">dqrng</a> was <span class="action">upgraded</span> to version <a href="/packages/dqrng/versions/72645">0.0.4</a><br /><h3>Package description:</h3><p>Several fast random number generators are provided as C++ header only libraries: The PCG family by O'Neill (2014 <https://www.cs.hmc.edu/tr/hmc-cs-2014-0905.pdf>) as well as Xoroshiro128+ and Xoshiro256+ by Blackman and Vigna (2018 <arXiv:1805.01407>). In addition fast functions for generating random numbers according to a uniform, normal and exponential distribution are included. The latter two use the Ziggurat algorithm originally proposed by Marsaglia and Tsang (2000, <doi:10.18637/jss.v005.i08>). These functions are exported to R and as a C++ interface and are enabled for use with the 64 bit version of the Mersenne-Twister by Matsumoto and Nishimura (1998 <doi:10.1145/272991.272995>), the default 64 bit generator from the PCG family as well as Xoroshiro128+ and Xoshiro256+.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/749562018-05-14T11:20:52Z2018-05-14T11:20:52Zdqrng was upgraded to version 0.0.3<a href="/packages/dqrng">dqrng</a> was <span class="action">upgraded</span> to version <a href="/packages/dqrng/versions/71558">0.0.3</a><br /><h3>Package description:</h3><p>Several fast random number generators are provided as C++ header only libraries: The PCG family by O'Neill (2014 <https://www.cs.hmc.edu/tr/hmc-cs-2014-0905.pdf>) as well as Xoroshiro128+ and Xoshiro256+ by Blackman and Vigna (2018 <arXiv:1805.01407>). In addition fast functions for generating random numbers according to a uniform, normal and exponential distribution are included. The latter two use the Ziggurat algorithm originally proposed by Marsaglia and Tsang (2000, <doi:10.18637/jss.v005.i08>). These functions are exported to R and as a C++ interface and are enabled for use with the 64 bit version of the Mersenne-Twister by Matsumoto and Nishimura (1998 <doi:10.1145/272991.272995>), the default 64 bit generator from the PCG family as well as Xoroshiro128+ and Xoshiro256+.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/748532018-05-11T09:00:56Z2018-05-11T09:00:56Zdqrng was released<a href="/packages/dqrng">dqrng</a> was <span class="action">released</span><br /><h3>Package description:</h3><p>Several fast random number generators are provided as C++ header only libraries: The PCG family by O'Neill (2014 <https://www.cs.hmc.edu/tr/hmc-cs-2014-0905.pdf>) as well as Xoroshiro128+ and Xoshiro256+ by Blackman and Vigna (2018 <arXiv:1805.01407>). In addition fast functions for generating random numbers according to a uniform, normal and exponential distribution are included. The latter two use the Ziggurat algorithm originally proposed by Marsaglia and Tsang (2000, <doi:10.18637/jss.v005.i08>). These functions are exported to R and as a C++ interface and are enabled for use with the default 64 bit generator from the PCG family, Xoroshiro128+ and Xoshiro256+ as well as the 64 bit version of the 20 rounds Threefry engine (Salmon et al., 2011 <doi:10.1145/2063384.2063405>) as provided by the package 'sitmo'.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/727522018-03-19T09:03:00Z2018-03-19T09:03:00ZtikzDevice was upgraded to version 0.11<a href="/packages/tikzDevice">tikzDevice</a> was <span class="action">upgraded</span> to version <a href="/packages/tikzDevice/versions/69443">0.11</a><br /><h3>Package description:</h3><p>Provides a graphics output device for R that records plots in a LaTeX-friendly format. The device transforms plotting commands issued by R functions into LaTeX code blocks. When included in a LaTeX document, these blocks are interpreted with the help of 'TikZ'---a graphics package for TeX and friends written by Till Tantau. Using the 'tikzDevice', the text of R plots can contain LaTeX commands such as mathematical formula. The device also allows arbitrary LaTeX code to be inserted into the output stream.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/715912018-02-14T13:42:36Z2018-02-14T13:42:36ZtikzDevice was upgraded to version 0.10-1.2<a href="/packages/tikzDevice">tikzDevice</a> was <span class="action">upgraded</span> to version <a href="/packages/tikzDevice/versions/68372">0.10-1.2</a><br /><h3>Package description:</h3><p>Provides a graphics output device for R that records plots in a LaTeX-friendly format. The device transforms plotting commands issued by R functions into LaTeX code blocks. When included in a LaTeX document, these blocks are interpreted with the help of 'TikZ'---a graphics package for TeX and friends written by Till Tantau. Using the 'tikzDevice', the text of R plots can contain LaTeX commands such as mathematical formula. The device also allows arbitrary LaTeX code to be inserted into the output stream.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/715892018-02-14T12:02:40Z2018-02-14T12:02:40ZtikzDevice was upgraded to version 0.10-1.1<a href="/packages/tikzDevice">tikzDevice</a> was <span class="action">upgraded</span> to version <a href="/packages/tikzDevice/versions/68370">0.10-1.1</a><br /><h3>Package description:</h3><p>Provides a graphics output device for R that records plots in a LaTeX-friendly format. The device transforms plotting commands issued by R functions into LaTeX code blocks. When included in a LaTeX document, these blocks are interpreted with the help of 'TikZ'---a graphics package for TeX and friends written by Till Tantau. Using the 'tikzDevice', the text of R plots can contain LaTeX commands such as mathematical formula. The device also allows arbitrary LaTeX code to be inserted into the output stream.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/471982016-02-10T08:33:04Z2016-02-10T08:33:04ZtikzDevice was upgraded to version 0.10-1<a href="/packages/tikzDevice">tikzDevice</a> was <span class="action">upgraded</span> to version <a href="/packages/tikzDevice/versions/46955">0.10-1</a><br /><h3>Package description:</h3><p>Provides a graphics output device for R that records plots in a LaTeX-friendly format. The device transforms plotting commands issued by R functions into LaTeX code blocks. When included in a LaTeX document, these blocks are interpreted with the help of 'TikZ'---a graphics package for TeX and friends written by Till Tantau. Using the 'tikzDevice', the text of R plots can contain LaTeX commands such as mathematical formula. The device also allows arbitrary LaTeX code to be inserted into the output stream.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/471062016-02-06T10:33:05Z2016-02-06T10:33:05ZtikzDevice was upgraded to version 0.10<a href="/packages/tikzDevice">tikzDevice</a> was <span class="action">upgraded</span> to version <a href="/packages/tikzDevice/versions/46865">0.10</a><br /><h3>Package description:</h3><p>Provides a graphics output device for R that records plots in a LaTeX-friendly format. The device transforms plotting commands issued by R functions into LaTeX code blocks. When included in a LaTeX document, these blocks are interpreted with the help of 'TikZ'---a graphics package for TeX and friends written by Till Tantau. Using the 'tikzDevice', the text of R plots can contain LaTeX commands such as mathematical formula. The device also allows arbitrary LaTeX code to be inserted into the output stream.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/452032015-11-17T13:52:42Z2015-11-17T13:52:42ZtikzDevice was upgraded to version 0.9<a href="/packages/tikzDevice">tikzDevice</a> was <span class="action">upgraded</span> to version <a href="/packages/tikzDevice/versions/44980">0.9</a><br /><h3>Package description:</h3><p>Provides a graphics output device for R that records plots in a LaTeX-friendly format. The device transforms plotting commands issued by R functions into LaTeX code blocks. When included in a LaTeX document, these blocks are interpreted with the help of 'TikZ'---a graphics package for TeX and friends written by Till Tantau. Using the 'tikzDevice', the text of R plots can contain LaTeX commands such as mathematical formula. The device also allows arbitrary LaTeX code to be inserted into the output stream.</p>crantastic.orgtag:crantastic.org,2005:TimelineEvent/382022015-01-07T15:33:05Z2015-01-07T15:33:05ZtikzDevice was upgraded to version 0.8.1<a href="/packages/tikzDevice">tikzDevice</a> was <span class="action">upgraded</span> to version <a href="/packages/tikzDevice/versions/36504">0.8.1</a><br /><h3>Package description:</h3><p>The tikzDevice package provides a graphics output device for R that records plots in a LaTeX-friendly format. The device transforms plotting commands issued by R functions into LaTeX code blocks. When included in a paper typeset by LaTeX, these blocks are interpreted with the help of TikZ---a graphics package for TeX and friends written by Till Tantau. Using the tikzDevice, the text of R plots can contain LaTeX commands such as mathematical formula. The device also allows arbitrary LaTeX code to be inserted into the output stream.</p>crantastic.org