source: rtems/c/ACKNOWLEDGEMENTS @ 0465d128

4.104.114.84.95
Last change on this file since 0465d128 was 0465d128, checked in by Joel Sherrill <joel.sherrill@…>, on Sep 18, 1996 at 2:23:44 PM

added mvme147s from Dominique le Campion

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5RTEMS was developed by On-Line Applications Research (OAR) under
6contract to the U.S. Army Missile Command.  Other than the
7contributions listed in this document, all code and documentation
8was developed by OAR for the Army.
9
10The RTEMS project would like to thank those who have made
11contributions to the project.  Together we make RTEMS a
12much better product.
13
14The following persons/organizations have made contributions:
15
16+ Dr. Mikhail (Misha) Savitski (mms@eiscathq.irf.se) of the EISCAT Scientific
17  Association submitted the BSP and other miscellaneous support for the
18  Motorola MVME162 (M68040LC CPU) VMEbus single board computer.
19
20+ Division Inc. of Chapel Hill, NC for sponsoring On-Line Applications
21  Research to port RTEMS to the Hewlett-Packard PA-RISC architecture (V1.1)
22  and the addition of HP-UX as a development host. Tony Bennett
23  (tbennett@divnc.com) was assisted in this effort by Joel Sherrill
24  (joel@OARcorp.com).  Tony also deserves a big pat on the back for
25  contributing significantly to the overall organization of the development
26  environment and directory structure.  RTEMS is much easier to build
27  because of Tony.
28
29+ Greg Allen of Division Inc. of Chapel Hill, NC for
30  porting RTEMS to HP-UX.  This port treats a UNIX computer as simply
31  another RTEMS target processor.  This port can be used to develop
32  and test code which will ultimately run on the embedded platform.
33
34+ Doug McBride (mcbride@rodin.colorado.edu) of the Colorado Space Grant
35  College at the University of Colorado at Boulder submitted the BSP
36  for the Motorola IDP board (M68EC040 CPU) single board computer.  The
37  BSP leverages heavily off of the existing RTEMS BSP framework, the
38  examples in the back of the IDP user's manual, and the libgloss example
39  support for the IDP board from the newlib/libgloss distribution.
40
41+ David Glessner (dwg@glenqcy.glenayre.com) of Glenayre Electronics
42  submitted the support for the Motorola MC68302 CPU.  This included
43  the "gen68302" BSP which uses the on-chip peripherals on the MC68302
44  as well as the modifications to the m68k dependent executive code to
45  support m68k family members based on the mc68000 core.
46
47+ Bryce Cogswell (cogswell@cs.uoregon.edu) submitted the support for MS-DOS
48  as a development environment as well as djgpp/go32 as a target environment.
49
50+ Andy Bray (andy@i-cubed.demon.co.uk) of I-CUBED Ltd. in Cambridge U.K.
51  for porting RTEMS to the PowerPC.  This effort included support for the
52  IBM 403 as well as the Motorola 601, 603, and 604 variants.  A special
53  thanks to Dom Latter (dom@i-cubed.demon.co.uk) for being an RTEMS
54  evangelist and promoting the use of RTEMS both at I-CUBED Ltd. as well 
55  as within the Internet community as a whole.
56
57+ John S. Gwynne (jsg@coulomb.eng.ohio-state.edu) of Ohio State University
58  submitted the support for the Motorola MC68332 CPU as well as completing
59  the support for CPUs based on the MC68000 core.  This included the "efi68k"
60  and "efi332" BSPs as well as completing the modifications to the m68k
61  dependent executive code to support m68k family members based on the
62  MC68000 core.  "efi68k" and "efi332" are single board computers designed
63  primarily for automotive electronic fuel injection (EFI) control, but can
64  be considered general purpose controllers when used without the EFI
65  companion board(s). See the README in each BSP for more information.
66
67+ The European Space Agency for sponsoring On-Line Applications Research
68  to port RTEMS to the SPARC V7 architecture for use with their ERC32
69  radiation-hardened CPU.  Jiri Gaisler (jgais@wd.estec.esa.nl) deserves
70  special thanks for championing this port within the ESA was well as
71  for developing and supporting the SPARC Instruction Simulator used to
72  develop and test this port.
73
74+ Eric Norum (eric@skatter.usask.ca) of the Saskatchewan Accelerator
75  Laboratory submitted the support for the Motorola MC68360 CPU
76  including the `gen68360' BSP.
77
78+ Dominique le Campion (Dominique.LECAMPION@enst-bretagne.fr), for
79  Telecom Bretagne and T.N.I. (Brest, France) submitted the BSP for
80  the Motorola MVME147 board (68030 CPU + 68881 FPU) and the MVME147s
81  variant of this board.
82
83+ Craig Lebakken (lebakken@minn.net) and Derrick Ostertag
84  (ostertag@transition.com) of Transition Networks of Eden Prairie, MN
85  for porting RTEMS to the MIPS architecture.  This submission
86  includes complete for the R4650 as well as partial support for the R4600.
87
88Finally, the RTEMS project would like to thank those who have contributed
89to the other free software efforts which RTEMS utilizes.  The primary RTEMS
90development environment is from the Free Software Foundation (the GNU
91project).  The "newlib" C library was put together by Cygnus and is
92a collaboration of the efforts of numerous individuals and organizations.
93
94We would like to see your name here.  BSPs and ports are always welcome.
95Useful libraries which support RTEMS applications are also an important
96part of providing a strong foundation for the development of real-time
97embedded applications and are welcome as submission.
98
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