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-rw-r--r--doc/supplements/sparc/Makefile95
-rw-r--r--doc/supplements/sparc/bsp.t21
-rw-r--r--doc/supplements/sparc/callconv.t57
-rw-r--r--doc/supplements/sparc/cpumodel.t45
-rw-r--r--doc/supplements/sparc/cputable.t17
-rw-r--r--doc/supplements/sparc/fatalerr.t15
-rw-r--r--doc/supplements/sparc/intr_NOTIMES.t37
-rw-r--r--doc/supplements/sparc/memmodel.t15
-rw-r--r--doc/supplements/sparc/sparc.texi2
9 files changed, 70 insertions, 234 deletions
diff --git a/doc/supplements/sparc/Makefile b/doc/supplements/sparc/Makefile
index 76bccc4e8a..b7c5a9f55c 100644
--- a/doc/supplements/sparc/Makefile
+++ b/doc/supplements/sparc/Makefile
@@ -20,12 +20,12 @@ dirs:
COMMON_FILES=../../common/cpright.texi ../../common/setup.texi
-GENERATED_FILES= \
- timing.texi wksheets.texi
+GENERATED_FILES=\
+ cpumodel.texi callconv.texi memmodel.texi intr.texi fatalerr.texi \
+ bsp.texi cputable.texi timing.texi wksheets.texi timeERC32.texi
FILES= $(PROJECT).texi \
- bsp.texi callconv.texi cpumodel.texi cputable.texi fatalerr.texi \
- intr.texi memmodel.texi preface.texi timetbl.texi timedata.texi \
+ preface.texi \
$(GENERATED_FILES)
INFOFILES=$(wildcard $(PROJECT) $(PROJECT)-*)
@@ -46,27 +46,52 @@ $(PROJECT).ps: dirs $(PROJECT).dvi
$(PROJECT).dvi: $(FILES)
$(TEXI2DVI) $(PROJECT).texi
-replace: timedata.texi
-
#
# Chapters which get automatic processing
#
-# CPU Model
-# Calling Conventions
-# Memory Model
+cpumodel.texi: cpumodel.t Makefile
+ $(BMENU) -p "Preface" \
+ -u "Top" \
+ -n "Calling Conventions" ${*}.t
+
+callconv.texi: callconv.t Makefile
+ $(BMENU) -p "CPU Model Dependent Features CPU Model Implementation Notes" \
+ -u "Top" \
+ -n "Memory Model" ${*}.t
+
+memmodel.texi: memmodel.t Makefile
+ $(BMENU) -p "Calling Conventions User-Provided Routines" \
+ -u "Top" \
+ -n "Interrupt Processing" ${*}.t
# Interrupt Chapter:
# 1. Replace Times and Sizes
# 2. Build Node Structure
+intr.t: intr_NOTIMES.t ERC32_TIMES
+ ${REPLACE} -p ERC32_TIMES intr_NOTIMES.t
+ mv intr_NOTIMES.t.fixed intr.t
+
+intr.texi: intr.t Makefile
+ $(BMENU) -p "Memory Model Flat Memory Model" \
+ -u "Top" \
+ -n "Default Fatal Error Processing" ${*}.t
+
+fatalerr.texi: fatalerr.t Makefile
+ $(BMENU) -p "Interrupt Processing Interrupt Stack" \
+ -u "Top" \
+ -n "Board Support Packages" ${*}.t
-intr.texi: intr.t SIS_TIMES
- ${REPLACE} -p SIS_TIMES intr.t
- mv intr.t.fixed intr.texi
+bsp.texi: bsp.t Makefile
+ $(BMENU) -p "Default Fatal Error Processing Default Fatal Error Handler Operations" \
+ -u "Top" \
+ -n "Processor Dependent Information Table" ${*}.t
+
+cputable.texi: cputable.t Makefile
+ $(BMENU) -p "Board Support Packages Processor Initialization" \
+ -u "Top" \
+ -n "Memory Requirements" ${*}.t
-# Fatal Error
-# BSP
-# CPU Table
# Worksheets Chapter:
# 1. Obtain the Shared File
@@ -76,8 +101,8 @@ intr.texi: intr.t SIS_TIMES
wksheets_NOTIMES.t: ../../common/wksheets.t
cp ../../common/wksheets.t wksheets_NOTIMES.t
-wksheets.t: wksheets_NOTIMES.t SIS_TIMES
- ${REPLACE} -p SIS_TIMES wksheets_NOTIMES.t
+wksheets.t: wksheets_NOTIMES.t ERC32_TIMES
+ ${REPLACE} -p ERC32_TIMES wksheets_NOTIMES.t
mv wksheets_NOTIMES.t.fixed wksheets.t
wksheets.texi: wksheets.t Makefile
@@ -97,19 +122,26 @@ timing.texi: timing.t Makefile
-u "Top" \
-n "ERC32 Timing Data" ${*}.t
-# Timing Chapter
-
-timetbl.t: ../../common/timetbl.t
- sed -e 's/TIMETABLE_NEXT_LINK/Command and Variable Index/' \
- <../../common/timetbl.t >timetbl.t
+# Timing Data for ERC32 BSP Chapter:
+# 1. Copy the Shared File
+# 2. Replace Times and Sizes
+# 3. Build Node Structure
-timetbl.texi: timetbl.t SIS_TIMES
- ${REPLACE} -p SIS_TIMES timetbl.t
- mv timetbl.t.fixed timetbl.texi
+timeERC32_.t: ../../common/timetbl.t timeERC32.t
+ cat timeERC32.t ../../common/timetbl.t >timeERC32_.t
+ @echo >>timeERC32_.t
+ @echo "@tex" >>timeERC32_.t
+ @echo "\\global\\advance \\smallskipamount by 4pt" >>timeERC32_.t
+ @echo "@end tex" >>timeERC32_.t
+ ${REPLACE} -p ERC32_TIMES timeERC32_.t
+ mv timeERC32_.t.fixed timeERC32_.t
+
+timeERC32.texi: timeERC32_.t Makefile
+ $(BMENU) -p "Timing Specification Terminology" \
+ -u "Top" \
+ -n "Command and Variable Index" timeERC32_.t
+ mv timeERC32_.texi timeERC32.texi
-timedata.texi: timedata.t SIS_TIMES
- ${REPLACE} -p SIS_TIMES timedata.t
- mv timedata.t.fixed timedata.texi
html: dirs $(FILES)
-mkdir -p $(WWW_INSTALL)/c_$(PROJECT)
@@ -120,8 +152,9 @@ clean:
rm -f *.o $(PROG) *.txt core
rm -f *.dvi *.ps *.log *.aux *.cp *.fn *.ky *.pg *.toc *.tp *.vr $(BASE)
rm -f $(PROJECT) $(PROJECT)-*
- rm -f c_sparc c_sparc-*
- rm -f timedata.texi timetbl.texi intr.texi $(GENERATED_FILES)
- rm -f timetbl.t wksheets.t wksheets_NOTIMES.t timing.t
+ rm -f c_$(PROJECT) c_$(PROJECT)-*
+ rm -f intr.t $(GENERATED_FILES)
+ rm -f wksheets.t wksheets_NOTIMES.t timing.t
+ rm -f timeERC32_.t timeERC32_.texi
rm -f *.fixed _*
diff --git a/doc/supplements/sparc/bsp.t b/doc/supplements/sparc/bsp.t
index 6930065cab..2ba100edbd 100644
--- a/doc/supplements/sparc/bsp.t
+++ b/doc/supplements/sparc/bsp.t
@@ -6,21 +6,8 @@
@c $Id$
@c
-@ifinfo
-@node Board Support Packages, Board Support Packages Introduction, Default Fatal Error Processing Default Fatal Error Handler Operations, Top
-@end ifinfo
@chapter Board Support Packages
-@ifinfo
-@menu
-* Board Support Packages Introduction::
-* Board Support Packages System Reset::
-* Board Support Packages Processor Initialization::
-@end menu
-@end ifinfo
-
-@ifinfo
-@node Board Support Packages Introduction, Board Support Packages System Reset, Board Support Packages, Board Support Packages
-@end ifinfo
+
@section Introduction
An RTEMS Board Support Package (BSP) must be designed
@@ -30,9 +17,6 @@ For more information on developing a BSP, refer to the chapter
titled Board Support Packages in the RTEMS
Applications User's Guide.
-@ifinfo
-@node Board Support Packages System Reset, Board Support Packages Processor Initialization, Board Support Packages Introduction, Board Support Packages
-@end ifinfo
@section System Reset
An RTEMS based application is initiated or
@@ -56,9 +40,6 @@ registers retain their value from the previous execution mode.
This is true even of the Trap Base Register (TBR) whose contents
reflect the last trap which occurred before the reset.
-@ifinfo
-@node Board Support Packages Processor Initialization, Processor Dependent Information Table, Board Support Packages System Reset, Board Support Packages
-@end ifinfo
@section Processor Initialization
It is the responsibility of the application's
diff --git a/doc/supplements/sparc/callconv.t b/doc/supplements/sparc/callconv.t
index 3ec25bbee1..030f9f9b5a 100644
--- a/doc/supplements/sparc/callconv.t
+++ b/doc/supplements/sparc/callconv.t
@@ -6,26 +6,8 @@
@c $Id$
@c
-@ifinfo
-@node Calling Conventions, Calling Conventions Introduction, CPU Model Dependent Features CPU Model Implementation Notes, Top
-@end ifinfo
@chapter Calling Conventions
-@ifinfo
-@menu
-* Calling Conventions Introduction::
-* Calling Conventions Programming Model::
-* Calling Conventions Register Windows::
-* Calling Conventions Call and Return Mechanism::
-* Calling Conventions Calling Mechanism::
-* Calling Conventions Register Usage::
-* Calling Conventions Parameter Passing::
-* Calling Conventions User-Provided Routines::
-@end menu
-@end ifinfo
-
-@ifinfo
-@node Calling Conventions Introduction, Calling Conventions Programming Model, Calling Conventions, Calling Conventions
-@end ifinfo
+
@section Introduction
Each high-level language compiler generates
@@ -48,24 +30,11 @@ target processor are the same, different compilers may use
different calling conventions. As a result, calling conventions
are both processor and compiler dependent.
-@ifinfo
-@node Calling Conventions Programming Model, Non-Floating Point Registers, Calling Conventions Introduction, Calling Conventions
-@end ifinfo
@section Programming Model
-@ifinfo
-@menu
-* Non-Floating Point Registers::
-* Floating Point Registers::
-* Special Registers::
-@end menu
-@end ifinfo
This section discusses the programming model for the
SPARC architecture.
-@ifinfo
-@node Non-Floating Point Registers, Floating Point Registers, Calling Conventions Programming Model, Calling Conventions Programming Model
-@end ifinfo
@subsection Non-Floating Point Registers
The SPARC architecture defines thirty-two
@@ -224,9 +193,6 @@ describes the role of each of these registers:
@end ifset
-@ifinfo
-@node Floating Point Registers, Special Registers, Non-Floating Point Registers, Calling Conventions Programming Model
-@end ifinfo
@subsection Floating Point Registers
The SPARC V7 architecture includes thirty-two,
@@ -260,9 +226,6 @@ outstanding instructions and by floating point exception
handlers with the store double floating point queue (stdfq)
instruction.
-@ifinfo
-@node Special Registers, Calling Conventions Register Windows, Floating Point Registers, Calling Conventions Programming Model
-@end ifinfo
@subsection Special Registers
The SPARC architecture includes two special registers
@@ -276,9 +239,6 @@ the psr and wim register are used to manage the register windows
in the SPARC architecture. The register windows are discussed
in more detail below.
-@ifinfo
-@node Calling Conventions Register Windows, Calling Conventions Call and Return Mechanism, Special Registers, Calling Conventions
-@end ifinfo
@section Register Windows
The SPARC architecture includes the concept of
@@ -370,9 +330,6 @@ those parameters are available in its input registers. This is
a very efficient way to pass parameters as no data is actually
moved by the save or restore instructions.
-@ifinfo
-@node Calling Conventions Call and Return Mechanism, Calling Conventions Calling Mechanism, Calling Conventions Register Windows, Calling Conventions
-@end ifinfo
@section Call and Return Mechanism
The SPARC architecture supports a simple yet
@@ -394,17 +351,11 @@ call and return mechanism does not automatically save and
restore any registers. This is accomplished via the save and
restore instructions which manage the set of registers windows.
-@ifinfo
-@node Calling Conventions Calling Mechanism, Calling Conventions Register Usage, Calling Conventions Call and Return Mechanism, Calling Conventions
-@end ifinfo
@section Calling Mechanism
All RTEMS directives are invoked using the regular
SPARC calling convention via the call instruction.
-@ifinfo
-@node Calling Conventions Register Usage, Calling Conventions Parameter Passing, Calling Conventions Calling Mechanism, Calling Conventions
-@end ifinfo
@section Register Usage
As discussed above, the call instruction does not
@@ -414,9 +365,6 @@ windows. When a register window is allocated, the new set of
local registers are available for the exclusive use of the
subroutine which allocated this register set.
-@ifinfo
-@node Calling Conventions Parameter Passing, Calling Conventions User-Provided Routines, Calling Conventions Register Usage, Calling Conventions
-@end ifinfo
@section Parameter Passing
RTEMS assumes that arguments are placed in the
@@ -436,9 +384,6 @@ load first argument into o0
invoke directive
@end example
-@ifinfo
-@node Calling Conventions User-Provided Routines, Memory Model, Calling Conventions Parameter Passing, Calling Conventions
-@end ifinfo
@section User-Provided Routines
All user-provided routines invoked by RTEMS, such as
diff --git a/doc/supplements/sparc/cpumodel.t b/doc/supplements/sparc/cpumodel.t
index f128f0f706..2871b08e7e 100644
--- a/doc/supplements/sparc/cpumodel.t
+++ b/doc/supplements/sparc/cpumodel.t
@@ -6,21 +6,8 @@
@c $Id$
@c
-@ifinfo
-@node CPU Model Dependent Features, CPU Model Dependent Features Introduction, Preface, Top
-@end ifinfo
@chapter CPU Model Dependent Features
-@ifinfo
-@menu
-* CPU Model Dependent Features Introduction::
-* CPU Model Dependent Features CPU Model Feature Flags::
-* CPU Model Dependent Features CPU Model Implementation Notes::
-@end menu
-@end ifinfo
-
-@ifinfo
-@node CPU Model Dependent Features Introduction, CPU Model Dependent Features CPU Model Feature Flags, CPU Model Dependent Features, CPU Model Dependent Features
-@end ifinfo
+
@section Introduction
Microprocessors are generally classified into
@@ -42,19 +29,7 @@ in significant ways, the high level of compatibility makes it
possible to share the bulk of the CPU dependent executive code
across the entire family.
-@ifinfo
-@node CPU Model Dependent Features CPU Model Feature Flags, CPU Model Dependent Features CPU Model Name, CPU Model Dependent Features Introduction, CPU Model Dependent Features
-@end ifinfo
@section CPU Model Feature Flags
-@ifinfo
-@menu
-* CPU Model Dependent Features CPU Model Name::
-* CPU Model Dependent Features Floating Point Unit::
-* CPU Model Dependent Features Bitscan Instruction::
-* CPU Model Dependent Features Number of Register Windows::
-* CPU Model Dependent Features Low Power Mode::
-@end menu
-@end ifinfo
Each processor family supported by RTEMS has a
list of features which vary between CPU models
@@ -78,9 +53,6 @@ The set of CPU model feature macros are defined in the file
c/src/exec/score/cpu/sparc/sparc.h based upon the particular CPU
model defined on the compilation command line.
-@ifinfo
-@node CPU Model Dependent Features CPU Model Name, CPU Model Dependent Features Floating Point Unit, CPU Model Dependent Features CPU Model Feature Flags, CPU Model Dependent Features CPU Model Feature Flags
-@end ifinfo
@subsection CPU Model Name
The macro CPU_MODEL_NAME is a string which designates
@@ -88,27 +60,18 @@ the name of this CPU model. For example, for the European Space
Agency's ERC32 SPARC model, this macro is set to the string
"erc32".
-@ifinfo
-@node CPU Model Dependent Features Floating Point Unit, CPU Model Dependent Features Bitscan Instruction, CPU Model Dependent Features CPU Model Name, CPU Model Dependent Features CPU Model Feature Flags
-@end ifinfo
@subsection Floating Point Unit
The macro SPARC_HAS_FPU is set to 1 to indicate that
this CPU model has a hardware floating point unit and 0
otherwise.
-@ifinfo
-@node CPU Model Dependent Features Bitscan Instruction, CPU Model Dependent Features Number of Register Windows, CPU Model Dependent Features Floating Point Unit, CPU Model Dependent Features CPU Model Feature Flags
-@end ifinfo
@subsection Bitscan Instruction
The macro SPARC_HAS_BITSCAN is set to 1 to indicate
that this CPU model has the bitscan instruction. For example,
this instruction is supported by the Fujitsu SPARClite family.
-@ifinfo
-@node CPU Model Dependent Features Number of Register Windows, CPU Model Dependent Features Low Power Mode, CPU Model Dependent Features Bitscan Instruction, CPU Model Dependent Features CPU Model Feature Flags
-@end ifinfo
@subsection Number of Register Windows
The macro SPARC_NUMBER_OF_REGISTER_WINDOWS is set to
@@ -117,9 +80,6 @@ CPU model. The SPARC architecture allows a for a maximum of
thirty-two register window sets although most implementations
only include eight.
-@ifinfo
-@node CPU Model Dependent Features Low Power Mode, CPU Model Dependent Features CPU Model Implementation Notes, CPU Model Dependent Features Number of Register Windows, CPU Model Dependent Features CPU Model Feature Flags
-@end ifinfo
@subsection Low Power Mode
The macro SPARC_HAS_LOW_POWER_MODE is set to one to
@@ -136,9 +96,6 @@ while ( TRUE ) @{
The code required to enter low power mode is CPU model specific.
-@ifinfo
-@node CPU Model Dependent Features CPU Model Implementation Notes, Calling Conventions, CPU Model Dependent Features Low Power Mode, CPU Model Dependent Features
-@end ifinfo
@section CPU Model Implementation Notes
The ERC32 is a custom SPARC V7 implementation based on the Cypress 601/602
diff --git a/doc/supplements/sparc/cputable.t b/doc/supplements/sparc/cputable.t
index c6fa926809..4e37375c9c 100644
--- a/doc/supplements/sparc/cputable.t
+++ b/doc/supplements/sparc/cputable.t
@@ -6,20 +6,8 @@
@c $Id$
@c
-@ifinfo
-@node Processor Dependent Information Table, Processor Dependent Information Table Introduction, Board Support Packages Processor Initialization, Top
-@end ifinfo
@chapter Processor Dependent Information Table
-@ifinfo
-@menu
-* Processor Dependent Information Table Introduction::
-* Processor Dependent Information Table CPU Dependent Information Table::
-@end menu
-@end ifinfo
-
-@ifinfo
-@node Processor Dependent Information Table Introduction, Processor Dependent Information Table CPU Dependent Information Table, Processor Dependent Information Table, Processor Dependent Information Table
-@end ifinfo
+
@section Introduction
Any highly processor dependent information required
@@ -28,9 +16,6 @@ Dependent Information Table. This table is not required for all
processors supported by RTEMS. This chapter describes the
contents, if any, for a particular processor type.
-@ifinfo
-@node Processor Dependent Information Table CPU Dependent Information Table, Memory Requirements, Processor Dependent Information Table Introduction, Processor Dependent Information Table
-@end ifinfo
@section CPU Dependent Information Table
The SPARC version of the RTEMS CPU Dependent
diff --git a/doc/supplements/sparc/fatalerr.t b/doc/supplements/sparc/fatalerr.t
index b6b76f96be..eb035b3596 100644
--- a/doc/supplements/sparc/fatalerr.t
+++ b/doc/supplements/sparc/fatalerr.t
@@ -6,20 +6,8 @@
@c $Id$
@c
-@ifinfo
-@node Default Fatal Error Processing, Default Fatal Error Processing Introduction, Interrupt Processing Interrupt Stack, Top
-@end ifinfo
@chapter Default Fatal Error Processing
-@ifinfo
-@menu
-* Default Fatal Error Processing Introduction::
-* Default Fatal Error Processing Default Fatal Error Handler Operations::
-@end menu
-@end ifinfo
-@ifinfo
-@node Default Fatal Error Processing Introduction, Default Fatal Error Processing Default Fatal Error Handler Operations, Default Fatal Error Processing, Default Fatal Error Processing
-@end ifinfo
@section Introduction
Upon detection of a fatal error by either the
@@ -32,9 +20,6 @@ default fatal error handler is then invoked. This chapter
describes the precise operations of the default fatal error
handler.
-@ifinfo
-@node Default Fatal Error Processing Default Fatal Error Handler Operations, Board Support Packages, Default Fatal Error Processing Introduction, Default Fatal Error Processing
-@end ifinfo
@section Default Fatal Error Handler Operations
The default fatal error handler which is invoked by
diff --git a/doc/supplements/sparc/intr_NOTIMES.t b/doc/supplements/sparc/intr_NOTIMES.t
index 2b816feb28..4a4b0086a2 100644
--- a/doc/supplements/sparc/intr_NOTIMES.t
+++ b/doc/supplements/sparc/intr_NOTIMES.t
@@ -6,25 +6,8 @@
@c $Id$
@c
-@ifinfo
-@node Interrupt Processing, Interrupt Processing Introduction, Memory Model Flat Memory Model, Top
-@end ifinfo
@chapter Interrupt Processing
-@ifinfo
-@menu
-* Interrupt Processing Introduction::
-* Interrupt Processing Synchronous Versus Asynchronous Traps::
-* Interrupt Processing Vectoring of Interrupt Handler::
-* Interrupt Processing Traps and Register Windows::
-* Interrupt Processing Interrupt Levels::
-* Interrupt Processing Disabling of Interrupts by RTEMS::
-* Interrupt Processing Interrupt Stack::
-@end menu
-@end ifinfo
-
-@ifinfo
-@node Interrupt Processing Introduction, Interrupt Processing Synchronous Versus Asynchronous Traps, Interrupt Processing, Interrupt Processing
-@end ifinfo
+
@section Introduction
Different types of processors respond to the
@@ -47,9 +30,6 @@ interrupt and vector. In the SPARC architecture, these terms
correspond to traps and trap type, respectively. The terms will
be used interchangeably in this manual.
-@ifinfo
-@node Interrupt Processing Synchronous Versus Asynchronous Traps, Interrupt Processing Vectoring of Interrupt Handler, Interrupt Processing Introduction, Interrupt Processing
-@end ifinfo
@section Synchronous Versus Asynchronous Traps
The SPARC architecture includes two classes of traps:
@@ -72,9 +52,6 @@ return address reported by the processor for synchronous traps
is the instruction which caused the trap and the following
instruction.
-@ifinfo
-@node Interrupt Processing Vectoring of Interrupt Handler, Interrupt Processing Traps and Register Windows, Interrupt Processing Synchronous Versus Asynchronous Traps, Interrupt Processing
-@end ifinfo
@section Vectoring of Interrupt Handler
Upon receipt of an interrupt the SPARC automatically
@@ -141,9 +118,6 @@ A nested interrupt is processed similarly with the
exception that the current stack need not be switched to the
interrupt stack.
-@ifinfo
-@node Interrupt Processing Traps and Register Windows, Interrupt Processing Interrupt Levels, Interrupt Processing Vectoring of Interrupt Handler, Interrupt Processing
-@end ifinfo
@section Traps and Register Windows
One of the register windows must be reserved at all
@@ -161,9 +135,6 @@ RTEMS interrupt handler insures that a register window is
available for subsequent traps before enabling traps and
invoking the user's interrupt handler.
-@ifinfo
-@node Interrupt Processing Interrupt Levels, Interrupt Processing Disabling of Interrupts by RTEMS, Interrupt Processing Traps and Register Windows, Interrupt Processing
-@end ifinfo
@section Interrupt Levels
Sixteen levels (0-15) of interrupt priorities are
@@ -179,9 +150,6 @@ SPARC only supports sixteen. RTEMS interrupt levels 0 through
other RTEMS interrupt levels are undefined and their behavior is
unpredictable.
-@ifinfo
-@node Interrupt Processing Disabling of Interrupts by RTEMS, Interrupt Processing Interrupt Stack, Interrupt Processing Interrupt Levels, Interrupt Processing
-@end ifinfo
@section Disabling of Interrupts by RTEMS
During the execution of directive calls, critical
@@ -210,9 +178,6 @@ occur due to the inability of RTEMS to protect its critical
sections. However, ISRs that make no system calls may safely
execute as non-maskable interrupts.
-@ifinfo
-@node Interrupt Processing Interrupt Stack, Default Fatal Error Processing, Interrupt Processing Disabling of Interrupts by RTEMS, Interrupt Processing
-@end ifinfo
@section Interrupt Stack
The SPARC architecture does not provide for a
diff --git a/doc/supplements/sparc/memmodel.t b/doc/supplements/sparc/memmodel.t
index 1b96bebccf..3c7ae7b4e9 100644
--- a/doc/supplements/sparc/memmodel.t
+++ b/doc/supplements/sparc/memmodel.t
@@ -6,20 +6,8 @@
@c $Id$
@c
-@ifinfo
-@node Memory Model, Memory Model Introduction, Calling Conventions User-Provided Routines, Top
-@end ifinfo
@chapter Memory Model
-@ifinfo
-@menu
-* Memory Model Introduction::
-* Memory Model Flat Memory Model::
-@end menu
-@end ifinfo
-@ifinfo
-@node Memory Model Introduction, Memory Model Flat Memory Model, Memory Model, Memory Model
-@end ifinfo
@section Introduction
A processor may support any combination of memory
@@ -31,9 +19,6 @@ memory of any kind. The appropriate memory model for RTEMS
provided by the targeted processor and related characteristics
of that model are described in this chapter.
-@ifinfo
-@node Memory Model Flat Memory Model, Interrupt Processing, Memory Model Introduction, Memory Model
-@end ifinfo
@section Flat Memory Model
The SPARC architecture supports a flat 32-bit address
diff --git a/doc/supplements/sparc/sparc.texi b/doc/supplements/sparc/sparc.texi
index e6f676d8a8..f00e2aa8b7 100644
--- a/doc/supplements/sparc/sparc.texi
+++ b/doc/supplements/sparc/sparc.texi
@@ -72,7 +72,7 @@ END-INFO-DIR-ENTRY
@include cputable.texi
@include wksheets.texi
@include timing.texi
-@include timedata.texi
+@include timeERC32.texi
@ifinfo
@node Top, Preface, (dir), (dir)
@top c_sparc