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https://github.com/jacobwilliams/cmlib

NBS Core Math Library (CMLIB) Unofficial Mirror
https://github.com/jacobwilliams/cmlib

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NBS Core Math Library (CMLIB) Unofficial Mirror

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README 

        

## NIST Core Math Library (CMLIB)



### Summary



                    ( Version 3.0  ---  April 1988 )



    A  collection  of  non-proprietary,   easily   transportable   Fortran

    subprogram packages solving a variety of mathematical and  statistical

    problems.



              Compiled by   Ronald F. Boisvert ([email protected])

                            Sally E. Howe

                            David K. Kahaner



                            Computing and Applied Mathematics Laboratory

                            National Institute of Standards and Technology

                            Gaithersburg, MD 20899



    Although most applications will only  use  a  small  number  of  CMLIB

    modules, there are no name conflicts within the library and  thus  all

    of CMLIB can easily be installed. All  the  documentation  is  machine

    readable.



### Disclaimer



Inclusion of computer programs in the NIST Core Math Library (CMLIB)

does not imply certification, recommendation, or endorsement by the

National Institute of Standards and Technology, nor does it imply

that the programs are necessarily the best available for the purpose.



### Listing



 * [ADAPT](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/adapt) A subroutine for evaluation of the integral  of  a  user

  specified function on a hyper rectangle of  dimension  2

  through 20.

 * [AMOSLIB](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/amoslib) A  collection  of   special   function   routines   with

  particular  emphasis  on  the   special   functions   of

  statistics.

 * [BLAS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/blas) Basic  linear  algebra  subroutines.   Perform   various

  elementary matrix and vector opertaions.

 * [BOCLS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/bocls) Solves bounded and  linearly  constrained  linear  least

  squares problems.

 * [BSPLINE](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/bspline) Subroutines for computing with piecewise polynomials (B-

  splines). Includes  interpolation,  differentiation  and

  integration with B-splines.

 * [BVSUP](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/bvsup) Solves linear two-point boundary  value  problems  using

  superposition   voupled   with   an   orthonormalization

  procedure and a variable-step integration scheme.

 * [CDRIV](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/cdriv) Solves initial value problems for  systems  of  ordinary

  differential  equations   including   stiff   equations.

  Complex   differential   equations,   real   independent

  variable.

 * [CLUSTER](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/cluster) Subroutines  for  cluster  analysis  and   related  line

  printer  graphics.  Included are routines for clustering

  variables  and/or observations  using algorithms such as

  direct  joining  and splitting,  Fisher's  exact optimi-

  zation, single-link, K-means, and minimum mutations, and

  routines for estimating missing values.

 * [CPQR79](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/cpqr79) two subprograms for finding all (complex) zeros of  real

  or complex polynomials. (Based on EISPACK software.)

 * [CPZERO](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/cpzero) two subprograms for finding all (complex) zeros of  real

  or complex polynomials. (Based on Newton's method.)

 * [DBSPLIN](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/dbsplin) Subroutines for computing with piecewise polynomials (B-

  splines). Double precision version of BSPLINE package.

 * [DDASSL](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/ddassl) Solves the system of differential/algebraic equations of

  the form g(t,y,yprime) = 0. (Double precision version of

  SDASSL)

 * [DEPAC](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/depac) A suite of programs for solving initial  value  problems

  for ordinary differential equations.

 * [DDRIV](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/ddriv) Solves initial value problems for  systems  of  ordinary

  differential equations, including stiff systems. (Double

  precision version of SDRIV).

 * [DNL2SN](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/dnl2sn) A collection of  two  subprograms  for  nonlinear  least

  squares  problems  and  three  subprograms  for  general

  unconstrained minimization  problems.  Double  precision

  version of NL2SN.

 * [DQRLSS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/dqrlss) Solves linear least squares problem in the  matrix  form

  Ax=b.  Uses  LINPACK  routines.  Easy  to  use.   Double

  Precision version of SQRLSS.

 * [DTENSBS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/dtensbs) Interpolation of two and three dimensional gridded  data

  using tensor products of one dimensional B-spline  basis

  functions. Double precision version of TENSBS.

 * [EISPACK](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/eispack) Solves various linear algebraic eigenvalue problems.

 * [FC](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/fc) Solves constrained least squares problems.

 * [FCNPAK](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/fcnpak) A collection of special function routines, including the

  associated Legendre functions (Ferrers  functions),  the

  normalized Legendre polynomials, and elliptic  integrals

  of the first, second, and third kinds.

 * [FFTPKG](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/fftpkg) Subroutines for computing the fast Fourier transform  in

  various forms.

 * [FNLIB](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/fnlib) Portable  special   function   routines   (e.g.   Bessel

  functions, the error function, etc.)

 * [FISHPAK](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/fishpak) FISHPAK  solves  separable   elliptic   boundary   value

  problems in two and three dimensions using a variety  of

  coordinate systems.

 * [LICEPAK](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/licepak) Solves various  linear  algebraic  eigenvalue  problems.

  (Provides an interface to the EISPACK package).

 * [LINDRV](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/lindrv) Programs to solve linear systems of algebraic  equations

  in a number of forms. Provides an easy to use  interface

  to the LINPACK package.

 * [LINPAKC](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/linpakc) Analyse and solve various systems  of  linear  algebraic

  equations. (Complex precision version of LINPACK).

 * [LINPAKD](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/linpakd) Analyse and solve various systems  of  linear  algebraic

  equations. (Double precision version of LINPACK).

 * [LINPAKS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/linpaks) Analyse and solve various systems  of  linear  algebraic

  equations. (Single precision version of LINPACK).

 * [LOTPS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/lotps) A set of programs for smooth interpolation of  scattered

  data in two dimensions using thin-plate splines.

 * [MACHCON](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/machcon) Functions that return machine-dependent constants. These

  are used by many routines in CMLIB.

 * [MXENTRP](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/mxentrp) compute maximum entropy spectrum estimates  for  equally

  spaced time series.

 * [NL2SN](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/nl2sn) A collection of  two  subprograms  for  nonlinear  least

  squares  problems  and  three  subprograms  for  general

  unconstrained minimization problems.

 * [ODRPACK](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/odrpack) A  collection  of  subprograms for  computing a weighted

  orthogonal  distance  regression  or ordinary  linear or

  nonlinear least squares solution.  (Both single and dou-

  ble precision versions are available.)

 * [PCHIPD](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/pchipd) is a set of programs  for  interpolation  of  univariate

  data and which is specially adapted  to  producing  fits

  which are are aesthetically pleasing.  (Double precision

  version of PCHIP).

 * [PCHIPS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/pchips) is a set of programs  for  interpolation  of  univariate

  data and which is specially adapted  to  producing  fits

  which are are aesthetically pleasing.  (Single precision

  version of PCHIP).

 * [Q1DA](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/q1da) evaluates one dimensional integrals automatically,  easy

  to use but very powerful.

 * [QUADPKD](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/quadpkd) is a set of programs for evaluating  definite  integrals

  of functions  of  one  variable;  the  double  precision

  version of QUADPKS.

 * [QUADPKS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/quadpks) is a set of programs for evaluating  definite  integrals

  of  functions  of  one  variable;   including   singular

  integrands and infinite intervals .

 * [RV](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/rv) generates uniform random numbers or normal numbers  with

  zero  mean  and  standard   deviation   one.   Portable,

  reproducible, and with a long cycle

 * [SDASSL](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/sdassl) Solves the system of differential/algebraic equation  of

  the form g(t,y,yprime) = 0.

 * [SDRIV](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/sdriv) Solves initial value problems for  systems  of  ordinary

  differential equations, including stiff systems.

 * [SGLSS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/sglss) Solves over or underdetermined linear systems  in  least

  squares sense.

 * [SLRPACK](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/slrpack) A collection of subprograms for simple linear regression

 * [SLVBLK](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/slvblk) solves linear systems of algebraic equations  where  the

  coefficient matrix is in "almost block diagonal" form

 * [SNLS1E](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/snls1e) Solves non-linear least squares problems and  non-linear

  systems of equations.

 * [SPLP](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/splp) Solves linear programming problems  (minimize  a  linear

  function of  n  variables  subject  to  linear  equality

  constraints).

 * [SQRLSS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/sqrlss) Solves linear least squares problem in the  matrix  form

  Ax=b. Uses LINPACK routines. Easy to use.

 * [SSORT](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/ssort) Fast in-core sorting of arrays.

 * [TENSBS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/tensbs) Interpolation of two and three dimensional gridded  data

  using tensor products of one dimensional B-spline  basis

  functions.

 * [TWODQ](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/twodq) Automatic evaluation of two dimensional  integral  of  a

  function f(x,y) on one or more triangles in the plane.

 * [UNCMIN](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/uncmin) Solves the  unconstrained  minimization  problem  for  a

  real-valued  twice-continuously-differentiable  function

  of n variables.

 * [VFFT](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/vfft) A vectorized package of Fortran subprograms for the fast

  Fourier transform of multiple real sequences.

 * [VHS3](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/vhs3) A vectorized  package of  Fortran  subprograms  for  the

  solution of a three-dimensional  Helmholtz equation on a

  staggered grid.

 * [VSFFT](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/vsfft) A vectorized package of Fortran subprograms for the fast

  transform  of  multiple  real  sequences  defined  on  a

  staggered grid.

 * [XBLAS](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/xblas) Extended  basic  linear  algebra  subroutines.   Perform

  various matrix and vector operations not  found  in  the

  BLAS.

 * [XERROR](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/xerror) Error  handling  utilities.  These  are  used  by   most

  subprograms in CMLIB.

 * [ZEROIN](https://github.com/jacobwilliams/CMLIB/tree/master/src/src/zeroin) Finds zeros of a function of one variable.



### Revision history



 * Version 1.0  March 1986

 * Version 2.0  March 1987

 * Version 3.0  April 1988



#### Summary of changes



```

          Version 1.0 (March 1986)  to  Version 2.0 (March 1987)



 NEW SUBLIBRARIES



   CLUSTER  = cluster analysis

   VFFT     = multiple real FFTs (with Cyber 205 vector version)

   VSFFT    = multiple real staggered grid FFTs (with Cyber 205 vector

              version)

   VHS3     = solution of Poisson/Helmholtz equation on a staggered

              grid in three dimensions (with Cyber 205 vector version)



 MODIFIED SUBLIBRARIES (source, documentation, and tests changed)



   SDRIV    = new version (dimensions of WORK, IWORK changed)

   DDRIV    = new version (dimensions of WORK, IWORK changed)

   CDRIV    = new version (dimensions of WORK, IWORK changed)

   FCNPAK   = new version of all routines except RC, RD, RF

   AMOSLIB  = added four new subprograms: BESY, DBESJ, DPSIFN, PSIFN



 OTHER MODIFICATIONS



   ADAPT    = test program changed (changed MAXPTS and WORKSTR from

              2000 to 3000)

   BLAS     = test program changed (calls to DQDOTA and DQDOTI removed)

```



#### Summary of changes



```

          Version 2.0 (March 1987)  to  Version 3.0 (April 1988)



 NEW SUBLIBRARIES



   ODRPACK  = orthogonal distance regression

   PCHIPD   = piecewise cubic Hermite interpolation (double precision



 MODIFIED SUBLIBRARIES (source, documentation, and tests changed)



   VFFT     = added routines for multiple trigonometric transforms,

              e.g. sine, cosine (with Cyber 205 versions)

   QUADPKS  = added routine EA for accelerating convergence of

              sequences

   QUADPKD  = added routine DEA for accelerating convergence of

              sequences (double precision version of EA)

   PCHIPS   = new version

   FCNPAK   = new version Legendre function routines XDLEGF, XSLEGF,

              XDNRMP, XSNRMP



 OTHER MODIFICATIONS



   AMOSLIB  = added missing internal routines BESYNU, YAIRY, DBESY,

              DASYJY, DBSYNU, DYAIRY

   BOCLS    = added missing internal routine DMOUT

   FC       = minor change to test program

   LINDRV   = minor change to test programs LINDRV1 and LINDRV2

   MACHCON  = added machine constants for Cyber 180 NOS/VE, SUN 3,

              and CONVEX C-120

   SDRIV    = added assignment G=0.0 before RETURN in function G

   SLRPACK  = minor change to test program

   VFFT     = fixed reference to function PIMACH in VRADB3, VRADB5,

              VRADBG, VRADF3, VRADF5, VRADFG, VRFTI1

   VHS3     = fixed reference to function PIMACH in VSCOSI, VSCSQI

```