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diff --git a/doc/supplements/sparc/preface.texi b/doc/supplements/sparc/preface.texi deleted file mode 100644 index 6b209f0c90..0000000000 --- a/doc/supplements/sparc/preface.texi +++ /dev/null @@ -1,91 +0,0 @@ -@c -@c COPYRIGHT (c) 1988-1999. -@c On-Line Applications Research Corporation (OAR). -@c All rights reserved. -@c -@c $Id$ -@c - -@ifinfo -@node Preface, CPU Model Dependent Features, Top, Top -@end ifinfo -@unnumbered Preface - -The Real Time Executive for Multiprocessor Systems -(RTEMS) is designed to be portable across multiple processor -architectures. However, the nature of real-time systems makes -it essential that the application designer understand certain -processor dependent implementation details. These processor -dependencies include calling convention, board support package -issues, interrupt processing, exact RTEMS memory requirements, -performance data, header files, and the assembly language -interface to the executive. - -This document discusses the SPARC architecture -dependencies in this port of RTEMS. Currently, only -implementations of SPARC Version 7 are supported by RTEMS. - -It is highly recommended that the SPARC RTEMS -application developer obtain and become familiar with the -documentation for the processor being used as well as the -specification for the revision of the SPARC architecture which -corresponds to that processor. - -@subheading SPARC Architecture Documents - -For information on the SPARC architecture, refer to -the following documents available from SPARC International, Inc. -(http://www.sparc.com): - -@itemize @bullet -@item SPARC Standard Version 7. - -@item SPARC Standard Version 8. - -@item SPARC Standard Version 9. -@end itemize - -@subheading ERC32 Specific Information - -The European Space Agency's ERC32 is a three chip -computing core implementing a SPARC V7 processor and associated -support circuitry for embedded space applications. The integer -and floating-point units (90C601E & 90C602E) are based on the -Cypress 7C601 and 7C602, with additional error-detection and -recovery functions. The memory controller (MEC) implements -system support functions such as address decoding, memory -interface, DMA interface, UARTs, timers, interrupt control, -write-protection, memory reconfiguration and error-detection. -The core is designed to work at 25MHz, but using space qualified -memories limits the system frequency to around 15 MHz, resulting -in a performance of 10 MIPS and 2 MFLOPS. - -Information on the ERC32 and a number of development -support tools, such as the SPARC Instruction Simulator (SIS), -are freely available on the Internet. The following documents -and SIS are available via anonymous ftp or pointing your web -browser at ftp://ftp.estec.esa.nl/pub/ws/wsd/erc32. - -@itemize @bullet -@item ERC32 System Design Document - -@item MEC Device Specification -@end itemize - -Additionally, the SPARC RISC User's Guide from Matra -MHS documents the functionality of the integer and floating -point units including the instruction set information. To -obtain this document as well as ERC32 components and VHDL models -contact: - -@example -Matra MHS SA -3 Avenue du Centre, BP 309, -78054 St-Quentin-en-Yvelines, -Cedex, France -VOICE: +31-1-30607087 -FAX: +31-1-30640693 -@end example - -Amar Guennon (amar.guennon@@matramhs.fr) is familiar with the ERC32. - |