head 1.3; access; symbols pkgsrc-2013Q2:1.3.0.54 pkgsrc-2013Q2-base:1.3 pkgsrc-2012Q4:1.3.0.52 pkgsrc-2012Q4-base:1.3 pkgsrc-2011Q4:1.3.0.50 pkgsrc-2011Q4-base:1.3 pkgsrc-2011Q2:1.3.0.48 pkgsrc-2011Q2-base:1.3 pkgsrc-2009Q4:1.3.0.46 pkgsrc-2009Q4-base:1.3 pkgsrc-2008Q4:1.3.0.44 pkgsrc-2008Q4-base:1.3 pkgsrc-2008Q3:1.3.0.42 pkgsrc-2008Q3-base:1.3 cube-native-xorg:1.3.0.40 cube-native-xorg-base:1.3 pkgsrc-2008Q2:1.3.0.38 pkgsrc-2008Q2-base:1.3 pkgsrc-2008Q1:1.3.0.36 pkgsrc-2008Q1-base:1.3 pkgsrc-2007Q4:1.3.0.34 pkgsrc-2007Q4-base:1.3 pkgsrc-2007Q3:1.3.0.32 pkgsrc-2007Q3-base:1.3 pkgsrc-2007Q2:1.3.0.30 pkgsrc-2007Q2-base:1.3 pkgsrc-2007Q1:1.3.0.28 pkgsrc-2007Q1-base:1.3 pkgsrc-2006Q4:1.3.0.26 pkgsrc-2006Q4-base:1.3 pkgsrc-2006Q3:1.3.0.24 pkgsrc-2006Q3-base:1.3 pkgsrc-2006Q2:1.3.0.22 pkgsrc-2006Q2-base:1.3 pkgsrc-2006Q1:1.3.0.20 pkgsrc-2006Q1-base:1.3 pkgsrc-2005Q4:1.3.0.18 pkgsrc-2005Q4-base:1.3 pkgsrc-2005Q3:1.3.0.16 pkgsrc-2005Q3-base:1.3 pkgsrc-2005Q2:1.3.0.14 pkgsrc-2005Q2-base:1.3 pkgsrc-2005Q1:1.3.0.12 pkgsrc-2005Q1-base:1.3 pkgsrc-2004Q4:1.3.0.10 pkgsrc-2004Q4-base:1.3 pkgsrc-2004Q3:1.3.0.8 pkgsrc-2004Q3-base:1.3 pkgsrc-2004Q2:1.3.0.6 pkgsrc-2004Q2-base:1.3 pkgsrc-2004Q1:1.3.0.4 pkgsrc-2004Q1-base:1.3 pkgsrc-2003Q4:1.3.0.2 pkgsrc-2003Q4-base:1.3 buildlink2-base:1.3 netbsd-1-5-PATCH001:1.2 pkgsrc-base:1.1.1.1 TNF:1.1.1; locks; strict; comment @# @; 1.3 date 2001.11.01.00.34.23; author zuntum; state dead; branches; next 1.2; 1.2 date 2001.02.28.22.47.28; author jtb; state Exp; branches; next 1.1; 1.1 date 2001.02.28.22.34.07; author jtb; state Exp; branches 1.1.1.1; next ; 1.1.1.1 date 2001.02.28.22.34.07; author jtb; state Exp; branches; next ; desc @@ 1.3 log @Move pkg/ files into package's toplevel directory @ text @Tela (TEnsor LAnguage) is a scientific computing language and environment. It is mainly targeted for prototyping large-scale numerical simulations and doing pre- and postprocessing for them, and it replaces a compiled language like C++ or Fortran in this respect. The feature set is therefore biased to operations needed in partial differential equation solvers. A relatively complete graphics is included via a separate program (PlotMTV). Tela uses HDF format as native save/load format. It can also read/write Matlab binary files and some ASCII files. Tela is generally 2-4 times faster than Matlab, the extremeties encountered so far are 0.9-11. Even though Tela is mainly a prototyping and development environment, modest-size 2D simulations can be run in modern desktop workstations while preserving "interactive" response times. Only large 2D or 3D simulations must usually be coded in C or Fortran and run on supercomputers. @ 1.2 log @"modern (1994) workstations" -> "modern workstations". @ text @@ 1.1 log @Initial revision @ text @d14 1 a14 1 can be run in modern (1994) desktop workstations while preserving @ 1.1.1.1 log @Initial import of tela: Tela (TEnsor LAnguage) is a scientific computing language and environment. It is mainly targeted for prototyping large-scale numerical simulations and doing pre- and postprocessing for them, and it replaces a compiled language like C++ or Fortran in this respect. The feature set is therefore biased to operations needed in partial differential equation solvers. A relatively complete graphics is included via a separate program (PlotMTV). Tela uses HDF format as native save/load format. It can also read/write Matlab binary files and some ASCII files. Tela is generally 2-4 times faster than Matlab, the extremeties encountered so far are 0.9-11. Even though Tela is mainly a prototyping and development environment, modest-size 2D simulations can be run in modern (1994) desktop workstations while preserving "interactive" response times. Only large 2D or 3D simulations must usually be coded in C or Fortran and run on supercomputers. @ text @@