Fortran 95 (Win32) language systemSpeed. Dependability. Great Tech Support. Lahey/Fujitsu Fortran 95.
The standard for Fortran programming from the leader in Fortran
language systems.
We've combined our 37 years of producing award-winning Fortran
language systems with Fujitsu's compiler expertise and
high-performance code generator to deliver the most-productive,
best-supported Fortran 95 language system for the PC. Whether
you write new Fortran programs or downsize existing
applications, you need speed, dependability, and great tech
support. You need LF Fortran v7.1!
LF Fortran v7.1 Delivers!
Important features include ...
LF Fortran 95 Performance.
LF Fortran 95 7.1 offers improved execution performance on most
Fortran 77 and 90 codes. The new optimizations help performance
on Pentium(R) 4 and Xeon(TM) chips. "We tested v7.1 Win32
optimizations on a 2.4GHz P4 with 512 MB of PC2100 RAM, running
Windows XP, using Polyhedron?s (www.polyhedron.com) Fortran
benchmarks. Specifying the new switches -tp4, -sse2, -zfm, -o2,
and -inline the 90 benchmarks ran an average of 15.4% faster and
the 77 benchmarks 4.4% faster than they did when built with LF
Fortran v7.0."
LF Fortran 95 Optimizations.
Basic Optimization
- Constant folding
- Common subexpression elimination
- Copy propagation
- Strength Reduction
- Algebraic simplifications
- Dead code elimination
- Peephole optimization
- Loop invariant code motion
- Transform array element to simple variable
- Local Instruction scheduling
- Address calculation optimization
- Array optimization
Program Reconstruction Optimizations
- Loop unrolling
- Loop interchange
Procedure Optimization
- Inlining mathematical functions
- Stack optimization
- Inline user-defined
Others
- Pentium/Pentium PRO/Pentium 4 instruction
- Using fast input/output libraries
- Prefetch Pentium III / Athlon
- SSE2 instruction optimizations
- Enable flush-to-zero mode for SSE2
Statically Link Fujitsu C and VC++ Object Files.
LF Fortran 95 supports static linking with Fujitsu C and Microsoft
Visual C++ version 2.0 and greater. Combine your Fortran and
C/C++ code into one executable. For the routines you don't want
to develop yourself, you can also link with C/C++ routines from
commercially available libraries.
DLL Interfaces to Visual Basic, VC++, Borland C++, Delphi, Microsoft
.NET languages.
Create 32-bit Windows DLLs from your Fortran routines and call the
Fortran routines from 32-bit Windows programs created with
Microsoft Visual Basic, Microsoft Visual C++, Borland C++,
Borland Delphi, and Microsoft .NET languages.
Win32 API Access.
LF Fortran 95 supports direct calls from Fortran to functions in
the Win32 API. For a narrow range of applications, this might be
the last little bit of glue you need to pull off your project.
Note that this is not for the faint-hearted! You'll need to be a
Windows programmer to get all but the most basic functionality.
That's because the API was written to be called from C. And
consequently, arguments need to be passed as C expects them.
Structures and callback routines pose additional problems.
Clearly, this would be a difficult way to build a Windows
application from scratch.
Legacy Fortran Support.
LF Fortran 95 extends its language support in other directions
adding many legacy Fortran features, including VAX structures
and the various UNIX service routines. These features further
facilitate your move to cost/performance efficiency on the PC
platform:
- Unlimited number of continuation lines in free or fixed source form
- DO UNTIL statement
- FIND statement
- STRUCTURE and END STRUCTURE statements
- UNION and END UNION statements
- MAP and END MAP statements
- RECORD statement
- Non-standard POINTER statement
- AUTOMATIC statement
- STATIC statement
- VALUE statement
- BYTE statement
- Hollerith constants
- Alternative forms of binary, octal, and hexadecimal constants
- Binary, octal, or hexadecimal constants in a DATA, declaration
statement
- Period structure component separator
- IMPLICIT UNDEFINED statement
- Namelist input/output on internal file
- FORM = 'BINARY'
- TOTALREC specifier
- STATUS = 'SHR'
- Gw, $, \, and R edit descriptors
- LOC intrinsic function
- The following service subroutines: ABORT, BEEP, BIC, BIS, CLOCK,
CLOCKM, DATE, EXIT, ERRSAV, ERRSTR, ERRSET, ERRTRA, FDATE,
FREE,GETARG, GETDAT, GETLOG, GETPARM, GETTIM, GMTIME, IBTOD,
IDATE, IETOM, ITIME, IVALUE, LTIME, MTOIE, PERROR, PRNSET,
QSORT, SETRCD, SETBIT, SIGNAL, SLEEP
- The following service functions: ACCESS, ALARM, BIT, CHDIR,
CHMOD, CTIME, DRAND, DTIME, ETIME, FGETC, FPUTC, FSEEK,
FSTAT, FTELL, GETC, GETCWD, GETFD, GETPID, HOSTNM, IARGC,
IERRNO, INMAX, IOINIT, IRAND, JDATE, KILL, LNBLNK, LONG,
LSTAT, MALLOC, NARGS, PUTC, RAN, RAND, RENAME, RINDEX, RTC,
SECOND, SECNDS, SETDAT, SETTIM, SHORT, STAT, TIME, TIMEF,
UNLINK
ANSI/ISO-Compliant Fortran 95.
LF Fortran 95 is a complete implementation of the ANSI/ISO Fortran
95 standard. Fortran 95 offers some small but important
improvements over Fortran 90, including the ability to create
your own elemental procedures, default initialization for
structure components, the NULL intrinsic for initializing
pointers, the FORALL construct, and a standard CPU_TIME
intrinsic procedure.
IEEE Standard 754 support
IEEE Standard 754 defines the representation and behavior of 32- and
64-bit floating point numbers. IEEE 754 support provides for
consistency of basic computational results among platforms that
use IEEE 754. An excellent overview of the standard is presented
online by Steve Hollasch at http://research.microsoft.com/~hollasch/cgindex/coding/ieeefloat.html.
A heavy-duty online discussion of floating point numbers and the
standard is provided by David Goldberg at http://docs.sun.com/source/806-3568/index.html.
MATLAB compatibility.
Integration files are provided to support using the LF Fortran 95 compiler
within MATLAB. These files provide seamless integration with
MATLAB and external API procedures. MATLAB example code should
not require any modification when LF Fortran 95 support is
enabled.
Visual Studio .NET 2003 Development Environment.
Visual Studio .NET 2003
Visual Studio .NET 2003 is the industry standard in development
environments. The Win32 Visual Studio integration includes
project management facilities, project/code templates, on-line
integrated help, and Fortran-smart editing.
Win32 Project Types
- Empty Project (Win32) provides a solution
and project without any source files. The user can add items
to this project by using the "Project/Add New
Item" menu selection.
- Static Library (Win32) consists of a
library project, example subroutine, and function
procedures. The user should change the procedure name,
function result type, and argument list to suit. If either
the function or subroutine is not required, it may be
removed. When compiled, this project type creates a library
file with the .lib extension, which
may be called by other native Fortran 95 applications.
- Dynamic-Link Library (Win32) consists of
a DLL project and example subroutine and function
procedures, which are marked for export. The user should
change the procedure name and export list, function result
type, and argument list to suit. If either the function or
subroutine is not required, it may be removed. When
compiled, this project type creates a dynamic link library
with the .dll extension, which may be
called by any application (including .NET managed
applications) that can import the procedures.
- Console Application (Win32) consists of a
console project and a skeletal main program. The user should
change the program name to suit. When compiled, this project
type creates a console application. If this application is
invoked from a console, it executes within the console. If
the application is invoked from an icon, the Run menu, or
Windows Explorer, it creates a console to run in, and
destroys the console when the program completes execution.
- WiSK Simple Application (Win32) this is a
project that opens a window, handles a close request, and
contains an empty resource file. This project type compiles
into a Windows GUI application.
- WiSK Skeleton Application (Win32) this is
a project that opens a window containing a menu, and
captures a number of events, such as keydown, mouse button
and mouse move events, menu selection, pushbutton, expose
and resize events. It contains a resource file which defines
menu items. This project type compiles into a Windows GUI
application.
Additional Project Types Supplied with Visual Studio
- Setup and Deployment Project allows the
programmer to create installation programs that can ease the
task of distributing .NET applications. A setup project
packages the files that comprise an application and
facilitates the creation of directory structures.
- Database Project provides a means of
manipulating databases and designing and executing SQL
scripts and queries without having to create an application.
On-line Integrated Help
The on-line integrated help provides Fortran for .NET
installation and getting started instructions, a Fortran for
.NET Users Guide, and a Fortran for .NET language reference. It
also includes the MSDN Library and Visual Studio SDK help.
Fortran-Smart Editing
The Fortran for .NET language system provides the Visual Studio
editor with the smarts to recognize and color-code Fortran
language syntax.
Fortran-Smart Windows Debugger
The WinFDB debugger provides a Windows graphical
interface for debugging your Fortran code.
Incrementally execute
your program - Single step through your program. Step
into or over calls to other routines.
Stop on Break Points - Click
in the margin of your source code to set break points.
Examine Registers - Open
the registers window to examine processor registers and flags.
Visual Step - Visual
Step mode allows the user to automatically step through the
program at a comprehensible pace.
Watch Variables - Open
a watch window to show selected variable values in any active
program unit.
Mixed-Language Programs
- Debug programs created from LF Fortran 95 and
Fujitsu C objects.
Other Development Tools
Complementing the Windows Development
Environment, LF Fortran 95 includes the Microsoft's make utility
(nmake), Automake make utility; Microsoft's library manager
(lib) and Lahey's Library Manager (LM) for building and working
with library files; and Microsoft's linker (link).
Winteracter Starter Kit.
Use the Winteracter Starter Kit - WiSK
- for creating true Windows programs with Fortran. WiSK
is a subset of the Winteracter Library created by
Interactive Software Services, Ltd. (Winteracter is
available from Lahey.) Winteracter is a Fortran
95-callable, 32-bit, Windows, user-interface and graphics
development kit. Derived from Winteracter, WiSK
provides a library of subroutines for window management, input
handling, dialog management, and high resolution graphics, plus
custom versions of the visual menu and dialog designers.
Fujitsu Visual Analyzer.
Visually analyze the call structure and logic flow of your Fortran and C
source code. Display a detailed cross reference of all the
variables in the program and where modules and commons are
defined and referenced. Show C global variable definitions and
references as well. VA can help you understand someone else's
code, detect subtle programming errors across multiple files,
and verify compliance with the Fortran 95 standard.
LF Fortran 95 beta tester Barry Santana says, "Fujitsu Visual
Analyzer has been a great help in avoiding conflicts in the
modifications. The help that Lahey Technical Support has
provided quickly and without hassle has provided this project
with a much needed shot in the arm! It has confirmed that my
decision to switch to the Lahey compiler was correct. Thanks for
all the help."
Fujitsu Scientific Subroutine Library 2.
The Fujitsu Scientific Subroutine Library 2 (SSL2) has been in use
for years in Japan on Fujitsu mainframe and workstation
hardware. SSL2 offers over 250 optimized routines in the
following areas:
Linear Algebra
Matrix Storage Mode Conversion
Matrix Manipulation
Linear Equations and Matrix Inversion (Direct Method)
Least Squares Solution
Eigenvalues and Eigenvectors
Eigenvalues and Eigenvectors of a Real Matrix
Eigenvalues and Eigenvectors of a Complex Matrix
Eigenvalues and Eigenvectors of a Real Symmetric Matrix
Eigenvalues and Eigenvectors of a Hermitian Matrix
Eigenvalues and Eigenvectors of a Real Symmetric Band Matrix
Eigenvalues and Eigenvectors of a Real Symmetric Generalized Eigenproblem
Eigenvalues and Eigenvectors of a Real Symmetric Band Generalized
Eigenproblem
Nonlinear Equations
Polynomial Equations
Transcendental Equations
Nonlinear Simultaneous Equations
Extrema
Minimization of Function with a Variable
Unconstrained Minimization of Multivariable Function
Unconstrained Minimization of Sum of Squares of Functions (Nonlinear Least
Squares Solution)
Linear Programming
Nonlinear Programming (Constrained Minimization of Multivariable Function)
Interpolation and Approximation
Interpolation
Approximation
Smoothing
Series
Transforms
Discrete Real Fourier Transforms
Discrete Cosine Transforms
Discrete Sine Transforms
Discrete Complex Fourier Transforms
Laplace Transform
Numerical Differentiation and Quadrature
Differential Equations
Special Functions
Elliptic Integrals
Exponential Integral
Sine and Cosine Integrals
Fresnel Integrals
Gamma Functions
Error Functions
Bessel Functions
Normal Distribution Functions
Pseudo Random Numbers
Pseudo Random Generation
Pseudo Random Testing
LF Fortran 95 Specifications
Compiler Switches
| -[n]ap |
Guarantee
consistency of REAL and COMPLEX calculations |
| -[n]blas |
Link
with optimized BLAS library |
| -block
|
Set
default block size for OPEN statements |
| -[n]c |
Create
object and/or module files without an executable |
| -[n]chk
[] |
Check
substrings and array subscripts, non-common variables
accessed before initialization, and mismatched procedure
arguments |
| -[n]chkglobal |
Generate
compiler error messages, and perform full compile and
runtime checking |
| -[n]co |
Display
compiler options |
| -[n]concc |
Support
carriage control characters in console I/O |
| -[n]cover |
Generate
information for use by the coverage tool |
| -[n]dal |
Deallocate
allocatable arrays |
| -[n]dbl |
Extend
REAL and COMPLEX variables, arrays, constants, and
functions to KIND=8 |
| -[n]dll |
Generate
a dynamic link library |
| -[n]f95 |
Generate
warnings for non-standard Fortran 95 |
| -file
|
Ensure
driver interprets file name as name of file and not a
switch argument |
| -[n]fix |
Interpret
source files as Fortran 95 fixed source form |
| -[n]g |
Generate
debugger information |
| -i
|
Specify
search path for Fortran INCLUDE files |
| -[n]in |
Equivalent
to including an IMPLICIT NONE statement in each program
unit |
| -[n]info |
Display
informational messages at compile time |
| -[n]inline
[] |
Inline
user-defined procedures |
| -[n]lapack |
Link
with optimized LAPACK library |
| -[n]li |
Avoid
recognizing non-standard Lahey intrinsic procedures |
| -[n]long |
Extend
all default INTEGER variables, arrays, constants, and
functions to KIND=8 |
| -[n]lst
[] |
Create
source listings |
| -[n]maxfatals
|
Specify
maximum number of fatal errors allowed before stopping
compilation |
| -ml
|
Generate
code compatible with other languages |
| -mldefault
|
Specify
default mixed language target |
| -mod
|
Specify
search path for module files |
| -o
|
Override
default object file name |
| -o0 |
Optimization
level 0 - perform no optimization |
| -o1 |
Optimization
level 1 - perform full optimization |
| -o2 |
-o1
plus loop and array optimizations |
| -out |
Specify
output file name |
| -[n]pause |
Create
pause after program completion |
| -[n]pca |
Prevent
invoked subprograms from storing into constants |
| -[n]prefetch
|
Generate
prefetch optimizations |
| -[n]private |
Set
default block size for OPEN statements |
| -[n]quad |
Extend
all double-precision REAL and COMPLEX variables, arrays,
rays, constants, and functions to KIND=16 |
| -[n]sav |
Allocate
local variables in a compiler-generated SAVE area |
| -[n]ssl2 |
Link
with optimized SSL II library |
| -[n]sse2 |
Optimize
using SSE2 instructions |
| -[n]staticlib |
Static
or dynamic linkinf of Fortran runtime libraries |
| -[n]staticlink |
Statically
link with code produced by another supported language
system |
| -[n]stchk |
Check
for stack overflows |
| -[n]swm
|
Suppress
warning messages |
| -t4 |
Generate
code optimized for Intel 80386 or 80486 processor |
| -tpp |
Generate
code optimized for Intel Pentium Pro, Pentium II,
Pentium III, or Celeron processors, or generic
counterparts |
| -tp4 |
Generate
code optimized for Intel Pentium 4, Xeon, or generic
counterparts |
| -[n]trace |
Include
procedure traceback and line numbers in runtime error
messages |
| -[n]trap
|
Trap
numeric data processor (NDP) exceptions at runtime |
| -[n]unroll
[] |
Control
loop unrolling |
| -[n]varheap
[] |
Allocate
local variables on heap |
| -version |
Display
version and owner information only |
| -[n]vsw |
Create
a simple console-like Windows GUI application |
| -[n]w |
Generate
warning messages |
| -wide |
Wide
fixed form line length |
| -win |
Create
Windows application |
| -winconsole |
Create
Windows Console application |
| -[n]wisk |
Create
application that uses the Winteracter Starter Kit
(WiSK) |
| -[n]wo |
Generate
warning messages for obsolescent Fortran 90 code |
| -[n]xref
[] |
Create
cross-reference listings |
| -[n]zero |
Include
variables initialized to zero |
| -[n]zfm |
Enable
flush-to-zero mode for SSE2 instructions |
LF Fortran 95 System Requirements
With Visual Studio
- Processor
450-megahertz (MHz) Pentium II-class processor,
600-MHz Pentium III-class processor recommended
- Operating System
Visual Studio .NET 2003 can be installed onto any of the
following systems:
- Microsoft Windows© Server 2003
- Windows XP Professional
- Windows XP Home Edition
- Windows 2000 Professional
- Windows 2000 Server
- Memory
- Windows Server 2003:
160 megabytes (MB) of RAM
- Windows XP Professional:
160 MB of RAM
- Windows XP Home Edition:
96 MB of RAM
- Windows 2000 Professional:
96 MB of RAM
- Windows 2000 Server:
192 MB of RAM
- Hard Disk
- 900 MB of available space required on system drive,
3.3 gigabytes (GB) of available space required on
installation drive
- Additional 1.9 GB of available space required for
optional MSDN Library documentation
- Drive
CD-ROM or DVD-ROM drive
- Display
Super VGA (1024 x 768) or higher-resolution display with 256
colors
- Mouse
Microsoft Mouse or compatible pointing device
Command-line Only
To use LF Fortran 95 without the Visual Studio .NET Fortran
Integration:
- An 80486DX, Pentium series or compatible processor
- Microsoft Windows XP, 2000, NT 4.0, Me, 98, or 95
- 32 MB of RAM
- 35 to 65 MB of available hard disk space on the
installation drive, depending on the sub-features selected
Target Operating System
LF Fortran 95 applications are compatible with Microsoft Windows
XP, 2000, NT 4.0, Me, 98, and 95. |
