Provided by: atlc_4.6.1-1_amd64 bug

NAME

       sysdata - find basic hardware system data

SYNOPSIS

       sysdata

DESCRIPTION

       After  the  atlc  package  is  built,  a  small  benchmark  is  run as part of the testing
       procedure. This benchmark tries to get some information about the  hardware.  The  program
       sysdata  displays  the same hardware information that the benchmark will display, but runs
       in a fraction of a second, whereas the benchmark can take from 19 s (quad 1.4 GHz Itainium
       2  machine)  to  14,906  s  (for  a  very old 33.3 MHz Cray Y-MP). There are no options or
       arguments to sysdata

       The information gathered on hardware and software both developed by the same company (i.e.
       Solaris  on  Suns,  AIX  on  IBM  RS/6000,  IRIX  on  SGI,  ... etc etc) is generally more
       informative than the free systems (Linux, NetBSD, OpenBSD, FreeBSD) where  it  is  usually
       impossible to get much hardware information.

EXAMPLES

       Here  are  some examples of the use of sysdata on a number of systems. The large number of
       examples is for my own use as much as anything, so I can keep track of the development  of
       sysdata and see easily where it needs extending. Examples are presented for:

       1) Sun Ultra 80 running Solaris 9
       2) HP C3000 running HP-UX 11
       3) SGI Octane running IRIX 6.5.16
       4) IBM RS/6000 running AIX 5.2
       5) Dec Alpha 600a Personal Workstation running Tru64 5.1B
       6) Cray Y-MP running UNICOS 9
       7) Sun SPARCstation 20 running NetBSD 1.6
       8) Sun SPARCstation 20 running OpenBSD 3.2
       9) Sun SPARCstation 20 running Debian Linux
       10) Sun SPARCstation 20 running Solaris 2.5
       11) Generic PC with 350 MHz Pentium II running Redhat Linux 7.2

       Here's the output from sysdata on these 11 systems.

       e.g. 1 (Sun Ultra 80 running Solaris 9)
       Hardware provider:    Sun_Microsystems
       Hardware platform:    SUNW,Ultra-80
       Machine:              sun4u
       Sysname:              SunOS
       Release:              5.9
       Version:              Generic_112233-06
       Nodename:             sparrow
       #CPUs supported:      4
       #CPUs online:         4
       CPU type:             sparcv9
       FPU type:             sparcv9
       Speed:                450 MHz
       RAM:                  4096 Mb
       L1 data cache         unknown kB
       L1 instruction cache: unknown kB
       L2 cache:             unknown kB

       Here's an example on a HP 9000 series Visualize C3000 workstation, fitted with one 400 MHz
       PA-RISC 8500 CPU and 1.5 Gb of RAM

       e.g. 2 (HP 9000 series Visualize C3000)
       Hardware provider:    HP
       Hardware platform:    unknown
       Machine:              9000/785
       Sysname:              HP-UX
       Release:              B.11.00
       Version:              A
       Nodename:             robin
       #CPUs supported:      1
       #CPUs online:         1
       CPU type:             532
       FPU type:             1048577
       Speed:                400.0 MHz
       RAM:                  1536 Mb
       L1 data cache         unknown kb
       L1 instruction cache: unknown kb
       L2 cache:             unknown kb

       Here's another example this time on an SGI Octane R10000 with 2 x 195 MHz processors. Note
       the  CPU  and  FPU  types reported at not the R10000 and R10010 that are reported by SGI's
       hinv. sysdata is not meant to replace other more sophisticated ways  of  obtaining  system
       information  (such  as  hinv  on  IRIX), but its data is useful to record for benchmarking
       purposes.

       e.g. 3 (SGI Octane R1000)
       Hardware provider:    SGI
       Hardware platform:    unknown
       Machine:              IP30
       Sysname:              IRIX64
       Release:              6.5
       Version:              04101931
       Nodename:             owl
       #CPUs supported:      unknown
       #CPUs online:         2
       CPU type:             2343
       FPU type:             2304
       Speed:                195 MHz
       RAM:                  1024 Mb
       L1 data cache         32 kB
       L1 instruction cache: 32 kB
       L2 cache:             1024 kB

       Here's an example using an IBM RS/6000 F50 with 4 x 332 MHz CPUs and 1 GB of RAM.

       e.g. 4 (IBM RS/6000 F50)
       Hardware provider:    IBM
       Hardware platform:    unknown
       Machine:              000245984C00
       Sysname:              AIX
       Release:              2
       Version:              5
       Nodename:             starling
       #CPUs supported:      unknown
       #CPUs online:         4
       CPU type:             unknown
       FPU type:             unknown
       Speed:                unknown MHz
       RAM:                  1024 Mb
       L1 data cache         unknown kB
       L1 instruction cache: unknown kB
       L2 cache:             unknown kB

       And here's an example from a single 599 MHz processor Dec Alpha 600a Personal  Workstation
       running Tru64 5.1B

       e.g. 5 (Dec Alpha 600a Personal Workstation)
       Hardware provider:    unknown
       Hardware platform:    Digital_Personal_WorkStation_600au
       Machine:              alpha
       Sysname:              OSF1
       Release:              V5.1
       Version:              2650
       Nodename:             dobermann.localhost.ntlworld.co
       #CPUs supported:      1
       #CPUs online:         1
       CPU type:             EV5.6_(21164A)
       FPU type:             unknown
       Speed:                599 MHz
       RAM:                  1024 Mb
       L1 data cache         unknown kb
       L1 instruction cache: unknown kb
       L2 cache:             unknown kb

       Here's some data collected on a very old Cray Y-MP, which was introduced in 1991.

       e.g 6 (Cray Y-MP running UNICOS)

       Hardware provider:    Cray
       Hardware platform:    Y-MP
       Machine:              CRAY_Y-MP
       Sysname:              sn5176
       Release:              9.0.2.2
       Version:              sin.0
       Nodename:             sn5176
       #CPUs supported:      unknown
       #CPUs online:         4
       CPU type:             unknown
       FPU type:             unknown
       Speed:                33.3 MHz
       RAM:                  unknown Mb
       L1 data cache         unknown kb
       L1 instruction cache: unknown kb
       L2 cache:             unknown kb

       That  is all the examples of commercial hardware running the operating systems made by the
       manufacturers of the hardware. The following are free UNIX versions. In  these  cases  the
       data  gathered  is never as complete. In particular the amoumt of memory reported if often
       less than the real amount due to memory taken by the operating system  (kernel  etc).  The
       number of processors the system can support is never available.

       Here's  the  first  such  non-commercial  UNIX from a single processor Sun SPARCstation 20
       running NetBSD 1.6.

       e.g. 7 (Sun SPARCstation 20 running NetBSD 1.6)
       Hardware provider:    unknown
       Hardware platform:    unknown
       Machine:              sparc
       Sysname:              NetBSD
       Release:              1.6
       Version:              NetBSD_1.6_(GENERIC)_#0:_Mon_Sep__9_08:2sparc
       Nodename:             blackbird
       #CPUs supported:      unknown
       #CPUs online:         1
       CPU type:             rg:/autobuild/sparc/OBJ/autobuild/src/sys/arch/sparc/compile/GENERIC
       FPU type:             unknown
       Speed:                unknown MHz
       RAM:                  255 Mb
       L1 data cache         unknown kb
       L1 instruction cache: unknown kb
       L2 cache:             unknown kb

       Here's data from a Sun SPARCstation 20 running OpenBSD 3.2. The machine has 320 Mb of RAM,
       not  318  Mb  as  indicated.  The  number of processors the system supports is reported as
       unknown, but should the system have been running Solaris 9, as in the example 1 (sparrow),
       then  this information would have been determined, but it is not available under OpenBSD -
       or Solaris 2.5 for that matter.

       e.g. 8 (Sun SPARCstation 20 running OpenBSD 3.2)
       Hardware provider:    unknown
       Hardware platform:    unknown
       Machine:              sparc
       Sysname:              OpenBSD
       Release:              3.2
       Version:              GENERIC#36
       Nodename:             crow.crow.localdomain
       #CPUs supported:      unknown
       #CPUs online:         1
       CPU type:             unknown
       FPU type:             unknown
       Speed:                unknown MHz
       RAM:                  319 Mb
       L1 data cache         unknown kb
       L1 instruction cache: unknown kb
       L2 cache:             unknown kb
       The next machine is a Sun SPARCstation 20 running Debian Linux. The version of  Debian  is
       unknown, but clearly sysdata is unable to determine this.

       e.g. 9 (Sun SPARCstation 20 running Debian Linux)

       Hardware provider:    unknown
       Hardware platform:    unknown
       Machine:              sparc
       Sysname:              Linux
       Release:              2.2.20
       Version:              #1_Fri_Nov_16_15:48:02_EST_2001
       Nodename:             dove
       #CPUs supported:      unknown
       #CPUs online:         1
       CPU type:             unknown
       FPU type:             unknown
       Speed:                unknown MHz
       RAM:                  281 Mb
       L1 data cache         unknown kb
       L1 instruction cache: unknown kb
       L2 cache:             unknown kb

       Here's  data  from  a  Sun  SPARCstation  20  running Solaris 2.5 (SunOS 5.5). The machine
       probably does have 352 Mb of RAM as reported. The number of processors the system supports
       is  reported  as  unknown,  but  should  the system have been running Solaris 9, as in the
       example 1 (sparrow), then this information would have  been  determined,  but  it  is  not
       available under Solaris 2.5.

       e.g. 10 (Sun SPARCstation 20 Solaris 2.5)
       Hardware provider:    Sun_Microsystems
       Hardware platform:    SUNW,SPARCstation-20
       Machine:              sun4m
       Sysname:              SunOS
       Release:              5.5
       Version:              Generic
       Nodename:             bluetit
       #CPUs supported:      unknown
       #CPUs online:         2
       CPU type:             sparc
       FPU type:             sparc
       Speed:                125 MHz
       RAM:                  352 Mb
       L1 data cache         unknown kb
       L1 instruction cache: unknown kb
       L2 cache:             unknown kb

       Here's a standard PC, fitted with one processor

       e.g. 11 (350 MHz Pentium II PC running Redhat Linux)
       Hardware provider:    unknown
       Hardware platform:    unknown
       Machine:              i686
       Sysname:              Linux
       Release:              2.4.18-5
       Version:              #1_Mon_Jun_10_15:31:48_EDT_2002
       Nodename:             tiger
       #CPUs supported:      unknown
       #CPUs online:         1
       CPU type:             unknown
       FPU type:             unknown
       Speed:                unknown MHz
       RAM:                  123 Mb
       L1 data cache         unknown kb
       L1 instruction cache: unknown kb
       L2 cache:             unknown kb

FILES

       sysdata does not read/write any files.

SEE ALSO

       atlc(1)
       create_bmp_for_circ_in_circ(1)
       create_bmp_for_circ_in_rect(1)
       create_bmp_for_microstrip_coupler(1)
       create_bmp_for_rect_cen_in_rect(1)
       create_bmp_for_rect_cen_in_rect_coupler(1)
       create_bmp_for_rect_in_circ(1)
       create_bmp_for_rect_in_rect(1)
       create_bmp_for_stripline_coupler(1)
       create_bmp_for_symmetrical_stripline(1)
       design_coupler(1)
       find_optimal_dimensions_for_microstrip_coupler(1)
       hinv - SGI's IRIX only.
       readbin(1)

       http://atlc.sourceforge.net                - Home page
       http://sourceforge.net/projects/atlc       - Download area
       atlc-X.Y.Z/docs/html-docs/index.html       - HTML docs
       atlc-X.Y.Z/docs/qex-december-1996/atlc.pdf - theory paper
       atlc-X.Y.Z/examples                        - examples