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authorJoel Sherrill <joel.sherrill@OARcorp.com>2004-09-29 17:30:27 +0000
committerJoel Sherrill <joel.sherrill@OARcorp.com>2004-09-29 17:30:27 +0000
commita93c17494c915e755417ca2fcc02fb928144aec0 (patch)
tree61371a3e82e3adde2e20a490a03664de1821db78 /doc
parente4e9d602334b44503204dab7d6ba18750394363a (diff)
downloadrtems-a93c17494c915e755417ca2fcc02fb928144aec0.tar.bz2
2004-09-29 Joel Sherrill <joel@OARcorp.com>
* supplements/Makefile.am: i960 obsoleted. * supplements/i960/.cvsignore, supplements/i960/CVME961_TIMES, supplements/i960/ChangeLog, supplements/i960/Makefile.am, supplements/i960/bsp.t, supplements/i960/callconv.t, supplements/i960/cpumodel.t, supplements/i960/cputable.t, supplements/i960/fatalerr.t, supplements/i960/i960.texi, supplements/i960/intr_NOTIMES.t, supplements/i960/memmodel.t, supplements/i960/preface.texi, supplements/i960/timeCVME961.t: Removed.
Diffstat (limited to 'doc')
-rw-r--r--doc/ChangeLog11
-rw-r--r--doc/supplements/Makefile.am1
-rw-r--r--doc/supplements/i960/.cvsignore36
-rw-r--r--doc/supplements/i960/CVME961_TIMES247
-rw-r--r--doc/supplements/i960/ChangeLog76
-rw-r--r--doc/supplements/i960/Makefile.am110
-rw-r--r--doc/supplements/i960/bsp.t54
-rw-r--r--doc/supplements/i960/callconv.t97
-rw-r--r--doc/supplements/i960/cpumodel.t62
-rw-r--r--doc/supplements/i960/cputable.t121
-rw-r--r--doc/supplements/i960/fatalerr.t30
-rw-r--r--doc/supplements/i960/i960.texi114
-rw-r--r--doc/supplements/i960/intr_NOTIMES.t193
-rw-r--r--doc/supplements/i960/memmodel.t40
-rw-r--r--doc/supplements/i960/preface.texi40
-rw-r--r--doc/supplements/i960/timeCVME961.t88
16 files changed, 11 insertions, 1309 deletions
diff --git a/doc/ChangeLog b/doc/ChangeLog
index 97e97cbf10..d22c388e3c 100644
--- a/doc/ChangeLog
+++ b/doc/ChangeLog
@@ -1,3 +1,14 @@
+2004-09-29 Joel Sherrill <joel@OARcorp.com>
+
+ * supplements/Makefile.am: i960 obsoleted.
+ * supplements/i960/.cvsignore, supplements/i960/CVME961_TIMES,
+ supplements/i960/ChangeLog, supplements/i960/Makefile.am,
+ supplements/i960/bsp.t, supplements/i960/callconv.t,
+ supplements/i960/cpumodel.t, supplements/i960/cputable.t,
+ supplements/i960/fatalerr.t, supplements/i960/i960.texi,
+ supplements/i960/intr_NOTIMES.t, supplements/i960/memmodel.t,
+ supplements/i960/preface.texi, supplements/i960/timeCVME961.t: Removed.
+
2004-09-27 Joel Sherrill <joel@OARcorp.com>
PR 682/doc
diff --git a/doc/supplements/Makefile.am b/doc/supplements/Makefile.am
index c2f88d2318..94fcb0e6a4 100644
--- a/doc/supplements/Makefile.am
+++ b/doc/supplements/Makefile.am
@@ -3,7 +3,6 @@
SUBDIRS = arm
SUBDIRS += c4x
SUBDIRS += i386
-SUBDIRS += i960
SUBDIRS += m68k
SUBDIRS += mips
SUBDIRS += powerpc
diff --git a/doc/supplements/i960/.cvsignore b/doc/supplements/i960/.cvsignore
deleted file mode 100644
index 4cc6285a98..0000000000
--- a/doc/supplements/i960/.cvsignore
+++ /dev/null
@@ -1,36 +0,0 @@
-bsp.texi
-callconv.texi
-cpumodel.texi
-cputable.texi
-fatalerr.texi
-i960
-i960.aux
-i960.cp
-i960.dvi
-i960.fn
-i960*.html
-i960.ky
-i960.log
-i960.pdf
-i960.pg
-i960.ps
-i960.toc
-i960.tp
-i960.vr
-index.html
-intr.t
-intr.texi
-Makefile
-Makefile.in
-mdate-sh
-memmodel.texi
-rtems_footer.html
-rtems_header.html
-stamp-vti
-timeCVME961_.t
-timeCVME961.texi
-timing.t
-timing.texi
-version.texi
-wksheets.t
-wksheets.texi
diff --git a/doc/supplements/i960/CVME961_TIMES b/doc/supplements/i960/CVME961_TIMES
deleted file mode 100644
index 17e022c0f5..0000000000
--- a/doc/supplements/i960/CVME961_TIMES
+++ /dev/null
@@ -1,247 +0,0 @@
-#
-# Intel i960/Cyclone CVME961 (i960CA) Timing and Size Information
-#
-# $Id$
-#
-
-#
-# CPU Model Information
-#
-RTEMS_BSP CVME961
-RTEMS_CPU_MODEL i960CA
-#
-# Interrupt Latency
-#
-# NOTE: In general, the text says it is hand-calculated to be
-# RTEMS_MAXIMUM_DISABLE_PERIOD at RTEMS_MAXIMUM_DISABLE_PERIOD_MHZ
-# Mhz and this was last calculated for Release
-# RTEMS_VERSION_FOR_MAXIMUM_DISABLE_PERIOD.
-#
-RTEMS_MAXIMUM_DISABLE_PERIOD 2.5
-RTEMS_MAXIMUM_DISABLE_PERIOD_MHZ 33
-RTEMS_RELEASE_FOR_MAXIMUM_DISABLE_PERIOD 3.2.1
-#
-# Context Switch Times
-#
-RTEMS_NO_FP_CONTEXTS 1
-RTEMS_RESTORE_1ST_FP_TASK 2
-RTEMS_SAVE_INIT_RESTORE_INIT 3
-RTEMS_SAVE_IDLE_RESTORE_INIT 4
-RTEMS_SAVE_IDLE_RESTORE_IDLE 5
-#
-# Task Manager Times
-#
-RTEMS_TASK_CREATE_ONLY 6
-RTEMS_TASK_IDENT_ONLY 7
-RTEMS_TASK_START_ONLY 8
-RTEMS_TASK_RESTART_CALLING_TASK 9
-RTEMS_TASK_RESTART_SUSPENDED_RETURNS_TO_CALLER 9
-RTEMS_TASK_RESTART_BLOCKED_RETURNS_TO_CALLER 10
-RTEMS_TASK_RESTART_READY_RETURNS_TO_CALLER 11
-RTEMS_TASK_RESTART_SUSPENDED_PREEMPTS_CALLER 12
-RTEMS_TASK_RESTART_BLOCKED_PREEMPTS_CALLER 13
-RTEMS_TASK_RESTART_READY_PREEMPTS_CALLER 14
-RTEMS_TASK_DELETE_CALLING_TASK 15
-RTEMS_TASK_DELETE_SUSPENDED_TASK 16
-RTEMS_TASK_DELETE_BLOCKED_TASK 17
-RTEMS_TASK_DELETE_READY_TASK 18
-RTEMS_TASK_SUSPEND_CALLING_TASK 19
-RTEMS_TASK_SUSPEND_RETURNS_TO_CALLER 20
-RTEMS_TASK_RESUME_TASK_READIED_RETURNS_TO_CALLER 21
-RTEMS_TASK_RESUME_TASK_READIED_PREEMPTS_CALLER 22
-RTEMS_TASK_SET_PRIORITY_OBTAIN_CURRENT_PRIORITY 23
-RTEMS_TASK_SET_PRIORITY_RETURNS_TO_CALLER 24
-RTEMS_TASK_SET_PRIORITY_PREEMPTS_CALLER 25
-RTEMS_TASK_MODE_OBTAIN_CURRENT_MODE 26
-RTEMS_TASK_MODE_NO_RESCHEDULE 27
-RTEMS_TASK_MODE_RESCHEDULE_RETURNS_TO_CALLER 28
-RTEMS_TASK_MODE_RESCHEDULE_PREEMPTS_CALLER 29
-RTEMS_TASK_GET_NOTE_ONLY 30
-RTEMS_TASK_SET_NOTE_ONLY 31
-RTEMS_TASK_WAKE_AFTER_YIELD_RETURNS_TO_CALLER 32
-RTEMS_TASK_WAKE_AFTER_YIELD_PREEMPTS_CALLER 33
-RTEMS_TASK_WAKE_WHEN_ONLY 34
-#
-# Interrupt Manager
-#
-RTEMS_INTR_ENTRY_RETURNS_TO_NESTED 35
-RTEMS_INTR_ENTRY_RETURNS_TO_INTERRUPTED_TASK 36
-RTEMS_INTR_ENTRY_RETURNS_TO_PREEMPTING_TASK 37
-RTEMS_INTR_EXIT_RETURNS_TO_NESTED 38
-RTEMS_INTR_EXIT_RETURNS_TO_INTERRUPTED_TASK 39
-RTEMS_INTR_EXIT_RETURNS_TO_PREEMPTING_TASK 40
-#
-# Clock Manager
-#
-RTEMS_CLOCK_SET_ONLY 41
-RTEMS_CLOCK_GET_ONLY 42
-RTEMS_CLOCK_TICK_ONLY 43
-#
-# Timer Manager
-#
-RTEMS_TIMER_CREATE_ONLY 44
-RTEMS_TIMER_IDENT_ONLY 45
-RTEMS_TIMER_DELETE_INACTIVE 46
-RTEMS_TIMER_DELETE_ACTIVE 47
-RTEMS_TIMER_FIRE_AFTER_INACTIVE 48
-RTEMS_TIMER_FIRE_AFTER_ACTIVE 49
-RTEMS_TIMER_FIRE_WHEN_INACTIVE 50
-RTEMS_TIMER_FIRE_WHEN_ACTIVE 51
-RTEMS_TIMER_RESET_INACTIVE 52
-RTEMS_TIMER_RESET_ACTIVE 53
-RTEMS_TIMER_CANCEL_INACTIVE 54
-RTEMS_TIMER_CANCEL_ACTIVE 55
-#
-# Semaphore Manager
-#
-RTEMS_SEMAPHORE_CREATE_ONLY 56
-RTEMS_SEMAPHORE_IDENT_ONLY 57
-RTEMS_SEMAPHORE_DELETE_ONLY 58
-RTEMS_SEMAPHORE_OBTAIN_AVAILABLE 59
-RTEMS_SEMAPHORE_OBTAIN_NOT_AVAILABLE_NO_WAIT 60
-RTEMS_SEMAPHORE_OBTAIN_NOT_AVAILABLE_CALLER_BLOCKS 61
-RTEMS_SEMAPHORE_RELEASE_NO_WAITING_TASKS 62
-RTEMS_SEMAPHORE_RELEASE_TASK_READIED_RETURNS_TO_CALLER 63
-RTEMS_SEMAPHORE_RELEASE_TASK_READIED_PREEMPTS_CALLER 64
-#
-# Message Manager
-#
-RTEMS_MESSAGE_QUEUE_CREATE_ONLY 65
-RTEMS_MESSAGE_QUEUE_IDENT_ONLY 66
-RTEMS_MESSAGE_QUEUE_DELETE_ONLY 67
-RTEMS_MESSAGE_QUEUE_SEND_NO_WAITING_TASKS 68
-RTEMS_MESSAGE_QUEUE_SEND_TASK_READIED_RETURNS_TO_CALLER 69
-RTEMS_MESSAGE_QUEUE_SEND_TASK_READIED_PREEMPTS_CALLER 70
-RTEMS_MESSAGE_QUEUE_URGENT_NO_WAITING_TASKS 71
-RTEMS_MESSAGE_QUEUE_URGENT_TASK_READIED_RETURNS_TO_CALLER 72
-RTEMS_MESSAGE_QUEUE_URGENT_TASK_READIED_PREEMPTS_CALLER 73
-RTEMS_MESSAGE_QUEUE_BROADCAST_NO_WAITING_TASKS 74
-RTEMS_MESSAGE_QUEUE_BROADCAST_TASK_READIED_RETURNS_TO_CALLER 75
-RTEMS_MESSAGE_QUEUE_BROADCAST_TASK_READIED_PREEMPTS_CALLER 76
-RTEMS_MESSAGE_QUEUE_RECEIVE_AVAILABLE 77
-RTEMS_MESSAGE_QUEUE_RECEIVE_NOT_AVAILABLE_NO_WAIT 78
-RTEMS_MESSAGE_QUEUE_RECEIVE_NOT_AVAILABLE_CALLER_BLOCKS 79
-RTEMS_MESSAGE_QUEUE_FLUSH_NO_MESSAGES_FLUSHED 80
-RTEMS_MESSAGE_QUEUE_FLUSH_MESSAGES_FLUSHED 81
-#
-# Event Manager
-#
-RTEMS_EVENT_SEND_NO_TASK_READIED 82
-RTEMS_EVENT_SEND_TASK_READIED_RETURNS_TO_CALLER 83
-RTEMS_EVENT_SEND_TASK_READIED_PREEMPTS_CALLER 84
-RTEMS_EVENT_RECEIVE_OBTAIN_CURRENT_EVENTS 85
-RTEMS_EVENT_RECEIVE_AVAILABLE 86
-RTEMS_EVENT_RECEIVE_NOT_AVAILABLE_NO_WAIT 87
-RTEMS_EVENT_RECEIVE_NOT_AVAILABLE_CALLER_BLOCKS 88
-#
-# Signal Manager
-#
-RTEMS_SIGNAL_CATCH_ONLY 89
-RTEMS_SIGNAL_SEND_RETURNS_TO_CALLER 90
-RTEMS_SIGNAL_SEND_SIGNAL_TO_SELF 91
-RTEMS_SIGNAL_EXIT_ASR_OVERHEAD_RETURNS_TO_CALLING_TASK 92
-RTEMS_SIGNAL_EXIT_ASR_OVERHEAD_RETURNS_TO_PREEMPTING_TASK 93
-#
-# Partition Manager
-#
-RTEMS_PARTITION_CREATE_ONLY 94
-RTEMS_PARTITION_IDENT_ONLY 95
-RTEMS_PARTITION_DELETE_ONLY 96
-RTEMS_PARTITION_GET_BUFFER_AVAILABLE 97
-RTEMS_PARTITION_GET_BUFFER_NOT_AVAILABLE 98
-RTEMS_PARTITION_RETURN_BUFFER_ONLY 99
-#
-# Region Manager
-#
-RTEMS_REGION_CREATE_ONLY 100
-RTEMS_REGION_IDENT_ONLY 101
-RTEMS_REGION_DELETE_ONLY 102
-RTEMS_REGION_GET_SEGMENT_AVAILABLE 103
-RTEMS_REGION_GET_SEGMENT_NOT_AVAILABLE_NO_WAIT 104
-RTEMS_REGION_GET_SEGMENT_NOT_AVAILABLE_CALLER_BLOCKS 105
-RTEMS_REGION_RETURN_SEGMENT_NO_WAITING_TASKS 106
-RTEMS_REGION_RETURN_SEGMENT_TASK_READIED_RETURNS_TO_CALLER 107
-RTEMS_REGION_RETURN_SEGMENT_TASK_READIED_PREEMPTS_CALLER 108
-#
-# Dual-Ported Memory Manager
-#
-RTEMS_PORT_CREATE_ONLY 109
-RTEMS_PORT_IDENT_ONLY 110
-RTEMS_PORT_DELETE_ONLY 111
-RTEMS_PORT_INTERNAL_TO_EXTERNAL_ONLY 112
-RTEMS_PORT_EXTERNAL_TO_INTERNAL_ONLY 113
-#
-# IO Manager
-#
-RTEMS_IO_INITIALIZE_ONLY 114
-RTEMS_IO_OPEN_ONLY 115
-RTEMS_IO_CLOSE_ONLY 116
-RTEMS_IO_READ_ONLY 117
-RTEMS_IO_WRITE_ONLY 118
-RTEMS_IO_CONTROL_ONLY 119
-#
-# Rate Monotonic Manager
-#
-RTEMS_RATE_MONOTONIC_CREATE_ONLY 120
-RTEMS_RATE_MONOTONIC_IDENT_ONLY 121
-RTEMS_RATE_MONOTONIC_CANCEL_ONLY 122
-RTEMS_RATE_MONOTONIC_DELETE_ACTIVE 123
-RTEMS_RATE_MONOTONIC_DELETE_INACTIVE 124
-RTEMS_RATE_MONOTONIC_PERIOD_INITIATE_PERIOD_RETURNS_TO_CALLER 125
-RTEMS_RATE_MONOTONIC_PERIOD_CONCLUDE_PERIOD_CALLER_BLOCKS 126
-RTEMS_RATE_MONOTONIC_PERIOD_OBTAIN_STATUS 127
-#
-# Size Information
-#
-#
-# xxx alloted for numbers
-#
-RTEMS_DATA_SPACE 128
-RTEMS_MINIMUM_CONFIGURATION xx,129
-RTEMS_MAXIMUM_CONFIGURATION xx,130
-# x,xxx alloted for numbers
-RTEMS_CORE_CODE_SIZE x,131
-RTEMS_INITIALIZATION_CODE_SIZE x,132
-RTEMS_TASK_CODE_SIZE x,133
-RTEMS_INTERRUPT_CODE_SIZE x,134
-RTEMS_CLOCK_CODE_SIZE x,135
-RTEMS_TIMER_CODE_SIZE x,136
-RTEMS_SEMAPHORE_CODE_SIZE x,137
-RTEMS_MESSAGE_CODE_SIZE x,138
-RTEMS_EVENT_CODE_SIZE x,139
-RTEMS_SIGNAL_CODE_SIZE x,140
-RTEMS_PARTITION_CODE_SIZE x,141
-RTEMS_REGION_CODE_SIZE x,142
-RTEMS_DPMEM_CODE_SIZE x,143
-RTEMS_IO_CODE_SIZE x,144
-RTEMS_FATAL_ERROR_CODE_SIZE x,145
-RTEMS_RATE_MONOTONIC_CODE_SIZE x,146
-RTEMS_MULTIPROCESSING_CODE_SIZE x,147
-# xxx alloted for numbers
-RTEMS_TIMER_CODE_OPTSIZE 148
-RTEMS_SEMAPHORE_CODE_OPTSIZE 149
-RTEMS_MESSAGE_CODE_OPTSIZE 150
-RTEMS_EVENT_CODE_OPTSIZE 151
-RTEMS_SIGNAL_CODE_OPTSIZE 152
-RTEMS_PARTITION_CODE_OPTSIZE 153
-RTEMS_REGION_CODE_OPTSIZE 154
-RTEMS_DPMEM_CODE_OPTSIZE 155
-RTEMS_IO_CODE_OPTSIZE 156
-RTEMS_RATE_MONOTONIC_CODE_OPTSIZE 157
-RTEMS_MULTIPROCESSING_CODE_OPTSIZE 158
-# xxx alloted for numbers
-RTEMS_BYTES_PER_TASK 159
-RTEMS_BYTES_PER_TIMER 160
-RTEMS_BYTES_PER_SEMAPHORE 161
-RTEMS_BYTES_PER_MESSAGE_QUEUE 162
-RTEMS_BYTES_PER_REGION 163
-RTEMS_BYTES_PER_PARTITION 164
-RTEMS_BYTES_PER_PORT 165
-RTEMS_BYTES_PER_PERIOD 166
-RTEMS_BYTES_PER_EXTENSION 167
-RTEMS_BYTES_PER_FP_TASK 168
-RTEMS_BYTES_PER_NODE 169
-RTEMS_BYTES_PER_GLOBAL_OBJECT 170
-RTEMS_BYTES_PER_PROXY 171
-# x,xxx alloted for numbers
-RTEMS_BYTES_OF_FIXED_SYSTEM_REQUIREMENTS x,172
diff --git a/doc/supplements/i960/ChangeLog b/doc/supplements/i960/ChangeLog
deleted file mode 100644
index 2d39131a19..0000000000
--- a/doc/supplements/i960/ChangeLog
+++ /dev/null
@@ -1,76 +0,0 @@
-2003-12-12 Ralf Corsepius <corsepiu@faw.uni-ulm.de>
-
- * Makefile.am: Cosmetics.
-
-2003-12-11 Ralf Corsepius <corsepiu@faw.uni-ulm.de>
-
- * Makefile.am: Cosmetics.
-
-2003-11-26 Ralf Corsepius <corsepiu@faw.uni-ulm.de>
-
- * Makefile.am: Add *.info to CLEANFILES to accomodate
- automake-1.7f/1.8 breaking building infos.
-
-2003-09-26 Joel Sherrill <joel@OARcorp.com>
-
- * cpumodel.t: Obsoleting HP PA-RISC port and removing all references.
-
-2003-09-22 Ralf Corsepius <corsepiu@faw.uni-ulm.de>
-
- * Makefile.am: Merger from rtems-4-6-branch.
-
-2003-09-19 Joel Sherrill <joel@OARcorp.com>
-
- * i960.texi: Merge from branch.
-
-2003-05-22 Ralf Corsepius <corsepiu@faw.uni-ulm.de>
-
- * cpumodel.t: Reflect c/src/exec having moved to cpukit.
-
-2003-01-25 Ralf Corsepius <corsepiu@faw.uni-ulm.de>
-
- * i960.texi: Set @setfilename i960.info.
-
-2003-01-24 Ralf Corsepius <corsepiu@faw.uni-ulm.de>
-
- * Makefile.am: Put GENERATED_FILES into $builddir.
-
-2003-01-22 Ralf Corsepius <corsepiu@faw.uni-ulm.de>
-
- * version.texi: Remove from CVS.
- * stamp-vti: Remove from CVS.
- * .cvsignore: Add version.texi.
- Add stamp-vti.
- Re-sort.
-
-2003-01-21 Joel Sherrill <joel@OARcorp.com>
-
- * stamp-vti, version.texi: Regenerated.
-
-2002-11-13 Joel Sherrill <joel@OARcorp.com>
-
- * stamp-vti, version.texi: Regenerated.
-
-2002-10-24 Joel Sherrill <joel@OARcorp.com>
-
- * stamp-vti, version.texi: Regenerated.
-
-2002-07-30 Joel Sherrill <joel@OARcorp.com>
-
- * callconf.t: Added some markups for fonts and clarified
- some places.
-2002-03-27 Ralf Corsepius <corsepiu@faw.uni-ulm.de>
-
- * Makefile.am: Remove AUTOMAKE_OPTIONS.
-
-2002-01-18 Ralf Corsepius <corsepiu@faw.uni-ulm.de>
-
- * Makefile.am: Require automake-1.5.
-
-2001-01-17 Joel Sherrill <joel@OARcorp.com>
-
- * .cvsignore: Added rtems_header.html and rtems_footer.html.
-
-2000-08-10 Joel Sherrill <joel@OARcorp.com>
-
- * ChangeLog: New file.
diff --git a/doc/supplements/i960/Makefile.am b/doc/supplements/i960/Makefile.am
deleted file mode 100644
index 40d41cd9f2..0000000000
--- a/doc/supplements/i960/Makefile.am
+++ /dev/null
@@ -1,110 +0,0 @@
-#
-# COPYRIGHT (c) 1988-2002.
-# On-Line Applications Research Corporation (OAR).
-# All rights reserved.
-#
-# $Id$
-#
-
-PROJECT = i960
-EDITION = 1
-
-include $(top_srcdir)/project.am
-include $(top_srcdir)/supplements/supplement.am
-
-GENERATED_FILES = cpumodel.texi callconv.texi memmodel.texi intr.texi \
- fatalerr.texi bsp.texi cputable.texi timing.texi wksheets.texi \
- timeCVME961.texi
-COMMON_FILES += $(top_srcdir)/common/cpright.texi \
- $(top_srcdir)/common/timemac.texi
-
-FILES = preface.texi
-
-info_TEXINFOS = i960.texi
-i960_TEXINFOS = $(FILES) $(COMMON_FILES) $(GENERATED_FILES)
-
-#
-# Chapters which get automatic processing
-#
-
-cpumodel.texi: cpumodel.t
- $(BMENU2) -p "Preface" \
- -u "Top" \
- -n "Calling Conventions" < $< > $@
-
-callconv.texi: callconv.t
- $(BMENU2) -p "CPU Model Dependent Features Floating Point Unit" \
- -u "Top" \
- -n "Memory Model" < $< > $@
-
-memmodel.texi: memmodel.t
- $(BMENU2) -p "Calling Conventions Leaf Procedures" \
- -u "Top" \
- -n "Interrupt Processing" < $< > $@
-
-# Interrupt Chapter:
-# 1. Replace Times and Sizes
-# 2. Build Node Structure
-intr.texi: intr_NOTIMES.t CVME961_TIMES
- ${REPLACE2} -p $(srcdir)/CVME961_TIMES $(srcdir)/intr_NOTIMES.t | \
- $(BMENU2) -p "Memory Model Flat Memory Model" \
- -u "Top" \
- -n "Default Fatal Error Processing" > $@
-
-fatalerr.texi: fatalerr.t
- $(BMENU2) -p "Interrupt Processing Interrupt Stack" \
- -u "Top" \
- -n "Board Support Packages" < $< > $@
-
-bsp.texi: bsp.t
- $(BMENU2) -p "Default Fatal Error Processing Default Fatal Error Handler Operations" \
- -u "Top" \
- -n "Processor Dependent Information Table" < $< > $@
-
-cputable.texi: cputable.t
- $(BMENU2) -p "Board Support Packages Processor Initialization" \
- -u "Top" \
- -n "Memory Requirements" < $< > $@
-
-# Worksheets Chapter:
-# 1. Obtain the Shared File
-# 2. Replace Times and Sizes
-# 3. Build Node Structure
-
-wksheets.texi: $(top_srcdir)/common/wksheets.t CVME961_TIMES
- ${REPLACE2} -p $(srcdir)/CVME961_TIMES \
- $(top_srcdir)/common/wksheets.t | \
- $(BMENU2) -p "Processor Dependent Information Table CPU Dependent Information Table" \
- -u "Top" \
- -n "Timing Specification" > $@
-
-# Timing Specification Chapter:
-# 1. Copy the Shared File
-# 3. Build Node Structure
-
-timing.texi: $(top_srcdir)/common/timing.t
- $(BMENU2) -p "Memory Requirements RTEMS RAM Workspace Worksheet" \
- -u "Top" \
- -n "CVME961 Timing Data" < $< > $@
-
-# Timing Data for BSP Chapter:
-# 1. Copy the Shared File
-# 2. Replace Times and Sizes
-# 3. Build Node Structure
-
-timeCVME961.texi: $(top_srcdir)/common/timetbl.t timeCVME961.t
- cat $(srcdir)/timeCVME961.t $(top_srcdir)/common/timetbl.t >timeCVME961_.t
- @echo >>timeCVME961_.t
- @echo "@tex" >>timeCVME961_.t
- @echo "\\global\\advance \\smallskipamount by 4pt" >>timeCVME961_.t
- @echo "@end tex" >>timeCVME961_.t
- ${REPLACE2} -p $(srcdir)/CVME961_TIMES timeCVME961_.t | \
- $(BMENU2) -p "Timing Specification Terminology" \
- -u "Top" \
- -n "Command and Variable Index" > $@
-CLEANFILES += timeCVME961_.t
-
-EXTRA_DIST = CVME961_TIMES bsp.t callconv.t cpumodel.t cputable.t fatalerr.t \
- intr_NOTIMES.t memmodel.t timeCVME961.t
-
-CLEANFILES += i960.info i960.info-?
diff --git a/doc/supplements/i960/bsp.t b/doc/supplements/i960/bsp.t
deleted file mode 100644
index cbfb05e340..0000000000
--- a/doc/supplements/i960/bsp.t
+++ /dev/null
@@ -1,54 +0,0 @@
-@c
-@c COPYRIGHT (c) 1988-2002.
-@c On-Line Applications Research Corporation (OAR).
-@c All rights reserved.
-@c
-@c $Id$
-@c
-
-@chapter Board Support Packages
-
-@section Introduction
-
-An RTEMS Board Support Package (BSP) must be designed
-to support a particular processor and target board combination.
-This chapter presents a discussion of i960CA specific BSP
-issues. For more information on developing a BSP, refer to the
-chapter titled Board Support Packages in the RTEMS
-Applications User's Guide.
-
-@section System Reset
-
-An RTEMS based application is initiated when the
-i960CA processor is reset. When the i960CA is reset, the
-processor reads an Initial Memory Image (IMI) to establish its
-state. The IMI consists of the Initialization Boot Record (IBR)
-and the Process Control Block (PRCB) from an Initial Memory
-Image (IMI) at location 0xFFFFFF00. The IBR contains the
-initial bus configuration data, the address of the first
-instruction to execute after reset, the address of the PRCB, and
-the checksum used by the processor's self-test.
-
-@section Processor Initialization
-
-The PRCB contains the base addresses for system data
-structures, and initial configuration information for the core
-and integrated peripherals. In particular, the PRCB contains
-the initial contents of the Arithmetic Control (AC) Register as
-well as the base addresses of the Interrupt Vector Table, System
-Procedure Entry Table, Fault Entry Table, and the Control Table.
-In addition, the PRCB is used to configure the depth of the
-instruction and register caches and the actions when certain
-types of faults are encountered.
-
-The Process Controls (PC) Register is initialized to
-0xC01F2002 which sets the i960CA's interrupt level to 0x1F (31
-decimal). In addition, the Interrupt Mask (IMSK) Register
-(alternately referred to as Special Function Register 1 or sf1)
-is set to 0x00000000 to mask all external and DMA interrupt
-sources. Thus, all interrupts are disabled when the first
-instruction is executed.
-
-For more information regarding the i960CA's data
-structures and their contents, refer to Intel's i960CA User's
-Manual.
diff --git a/doc/supplements/i960/callconv.t b/doc/supplements/i960/callconv.t
deleted file mode 100644
index d112e67123..0000000000
--- a/doc/supplements/i960/callconv.t
+++ /dev/null
@@ -1,97 +0,0 @@
-@c
-@c COPYRIGHT (c) 1988-2002.
-@c On-Line Applications Research Corporation (OAR).
-@c All rights reserved.
-@c
-@c $Id$
-@c
-
-@chapter Calling Conventions
-
-@section Introduction
-
-Each high-level language compiler generates
-subroutine entry and exit code based upon a set of rules known
-as the compiler's calling convention. These rules address the
-following issues:
-
-@itemize @bullet
-@item register preservation and usage
-
-@item parameter passing
-
-@item call and return mechanism
-@end itemize
-
-A compiler's calling convention is of importance when
-interfacing to subroutines written in another language either
-assembly or high-level. Even when the high-level language and
-target processor are the same, different compilers may use
-different calling conventions. As a result, calling conventions
-are both processor and compiler dependent.
-
-@section Processor Background
-
-All members of the i960 architecture family support
-two methods for performing procedure calls: a RISC-style
-branch-and-link and an integrated call and return mechanism.
-
-On a branch-and-link, the processor branches to the
-invoked procedure and saves the return address in a register,
-@code{G14}. Typically, the invoked procedure will not invoke another
-procedure and is referred to as a leaf procedure. Many
-high-level language compilers for the i960 family recognize leaf
-procedures and automatically optimize them to utilize the
-branch-and-link mechanism. Branch-and-link procedures are
-invoked using the @code{bal} and @code{balx} instructions and return control
-via the @code{bx} instruction. By convention, @code{G14} is zero when not in
-a leaf procedure. It is the responsibility of the leaf
-procedure to clear @code{G14} before returning.
-
-The integrated call and return mechanism also
-branches to the invoked procedure and saves the return address
-as did the branch and link mechanism. However, the important
-difference is that the @code{call}, @code{callx}, and @code{calls} instructions save
-the local register set (@code{R0} through @code{R15}) before transferring
-control to the invoked procedure. The @code{ret} instruction
-automatically restores the previous local register set. The
-i960CA provides a register cache which can be configured to
-retain the last five to sixteen recent register caches. When
-the register cache is full, the oldest cached register set is
-written to the stack.
-
-@section Calling Mechanism
-
-All RTEMS directives are invoked using either a @code{call}
-or @code{callx} instruction and return to the user via the @code{ret}
-instruction.
-
-@section Register Usage
-
-As discussed above, the @code{call} and @code{callx} instructions
-automatically save the current contents of the local register
-set (@code{R0} through @code{R15}). The contents of the local registers will
-be restored as part of returning to the application. The
-contents of global registers @code{G0} through @code{G7} are not preserved by
-RTEMS directives.
-
-@section Parameter Passing
-
-RTEMS uses the standard i960 family C parameter
-passing mechanism in which @code{G0} contains the first parameter, @code{G1}
-the second, and so on for the remaining parameters. No RTEMS
-directive requires more than six parameters.
-
-@section User-Provided Routines
-
-All user-provided routines invoked by RTEMS, such as
-user extensions, device drivers, and MPCI routines, must also
-adhere to these calling conventions.
-
-@section Leaf Procedures
-
-RTEMS utilizes leaf procedures internally to improve
-performance. This improves execution speed as well as reducing
-stack usage and the number of register sets which must be cached.
-
-
diff --git a/doc/supplements/i960/cpumodel.t b/doc/supplements/i960/cpumodel.t
deleted file mode 100644
index 3e5676d61b..0000000000
--- a/doc/supplements/i960/cpumodel.t
+++ /dev/null
@@ -1,62 +0,0 @@
-@c
-@c COPYRIGHT (c) 1988-2002.
-@c On-Line Applications Research Corporation (OAR).
-@c All rights reserved.
-@c
-@c $Id$
-@c
-
-@chapter CPU Model Dependent Features
-
-@section Introduction
-
-Microprocessors are generally classified into
-families with a variety of CPU models or implementations within
-that family. Within a processor family, there is a high level
-of binary compatibility. This family may be based on either an
-architectural specification or on maintaining compatibility with
-a popular processor. Recent microprocessor families such as the
-SPARC or PowerPC are based on an architectural specification
-which is independent or any particular CPU model or
-implementation. Older families such as the M68xxx and the iX86
-evolved as the manufacturer strived to produce higher
-performance processor models which maintained binary
-compatibility with older models.
-
-RTEMS takes advantage of the similarity of the
-various models within a CPU family. Although the models do vary
-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. Each processor family supported by
-RTEMS has a list of features which vary between CPU models
-within a family. For example, the most common model dependent
-feature regardless of CPU family is the presence or absence of a
-floating point unit or coprocessor. When defining the list of
-features present on a particular CPU model, one simply notes
-that floating point hardware is or is not present and defines a
-single constant appropriately. Conditional compilation is
-utilized to include the appropriate source code for this CPU
-model's feature set. It is important to note that this means
-that RTEMS is thus compiled using the appropriate feature set
-and compilation flags optimal for this CPU model used. The
-alternative would be to generate a binary which would execute on
-all family members using only the features which were always
-present.
-
-This chapter presents the set of features which vary
-across i960 implementations and are of importance to RTEMS.
-The set of CPU model feature macros are defined in the file
-cpukit/score/cpu/i960/i960.h based upon the particular CPU
-model defined on the compilation command line.
-
-@section CPU Model Name
-
-The macro CPU_MODEL_NAME is a string which designates
-the name of this CPU model. For example, for the Intel i960CA,
-this macro is set to the string "i960ca".
-
-@section Floating Point Unit
-
-The macro I960_HAS_FPU is set to 1 to indicate that
-this CPU model has a hardware floating point unit and 0
-otherwise.
diff --git a/doc/supplements/i960/cputable.t b/doc/supplements/i960/cputable.t
deleted file mode 100644
index 65f98f5516..0000000000
--- a/doc/supplements/i960/cputable.t
+++ /dev/null
@@ -1,121 +0,0 @@
-@c
-@c COPYRIGHT (c) 1988-2002.
-@c On-Line Applications Research Corporation (OAR).
-@c All rights reserved.
-@c
-@c $Id$
-@c
-
-@chapter Processor Dependent Information Table
-
-@section Introduction
-
-Any highly processor dependent information required
-to describe a processor to RTEMS is provided in the CPU
-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.
-
-@section CPU Dependent Information Table
-
-The i960CA version of the RTEMS CPU Dependent
-Information Table contains the information required to interface
-a Board Support Package and RTEMS on the i960CA. This
-information is provided to allow RTEMS to interoperate
-effectively with the BSP. The C structure definition is given
-here:
-
-@example
-@group
-typedef struct @{
- void (*pretasking_hook)( void );
- void (*predriver_hook)( void );
- void (*postdriver_hook)( void );
- void (*idle_task)( void );
- boolean do_zero_of_workspace;
- unsigned32 idle_task_stack_size;
- unsigned32 interrupt_stack_size;
- unsigned32 extra_mpci_receive_server_stack;
- void (*stack_free_hook)( void* );
- /* end of fields required on all CPUs */
-
- i960_PRCB *Prcb;
-
-@} rtems_cpu_table;
-@end group
-@end example
-
-The contents of the i960 Processor Control Block
-are discussed in the User's Manual for the particular
-i960 model being used. Structure definitions for the
-i960CA and i960HA PRCB and Control Table are provided
-by including the file @code{rtems.h}.
-
-@table @code
-@item pretasking_hook
-is the address of the user provided routine which is invoked
-once RTEMS APIs are initialized. This routine will be invoked
-before any system tasks are created. Interrupts are disabled.
-This field may be NULL to indicate that the hook is not utilized.
-
-@item predriver_hook
-is the address of the user provided
-routine that is invoked immediately before the
-the device drivers and MPCI are initialized. RTEMS
-initialization is complete but interrupts and tasking are disabled.
-This field may be NULL to indicate that the hook is not utilized.
-
-@item postdriver_hook
-is the address of the user provided
-routine that is invoked immediately after the
-the device drivers and MPCI are initialized. RTEMS
-initialization is complete but interrupts and tasking are disabled.
-This field may be NULL to indicate that the hook is not utilized.
-
-@item idle_task
-is the address of the optional user
-provided routine which is used as the system's IDLE task. If
-this field is not NULL, then the RTEMS default IDLE task is not
-used. This field may be NULL to indicate that the default IDLE
-is to be used.
-
-@item do_zero_of_workspace
-indicates whether RTEMS should
-zero the Workspace as part of its initialization. If set to
-TRUE, the Workspace is zeroed. Otherwise, it is not.
-
-@item idle_task_stack_size
-is the size of the RTEMS idle task stack in bytes.
-If this number is less than MINIMUM_STACK_SIZE, then the
-idle task's stack will be MINIMUM_STACK_SIZE in byte.
-
-@item interrupt_stack_size
-is the size of the RTEMS
-allocated interrupt stack in bytes. This value must be at least
-as large as MINIMUM_STACK_SIZE.
-
-@item extra_mpci_receive_server_stack
-is the extra stack space allocated for the RTEMS MPCI receive server task
-in bytes. The MPCI receive server may invoke nearly all directives and
-may require extra stack space on some targets.
-
-@item stack_allocate_hook
-is the address of the optional user provided routine which allocates
-memory for task stacks. If this hook is not NULL, then a stack_free_hook
-must be provided as well.
-
-@item stack_free_hook
-is the address of the optional user provided routine which frees
-memory for task stacks. If this hook is not NULL, then a stack_allocate_hook
-must be provided as well.
-
-@item Prcb
-is the base address of the Processor Control Block. It
-is primarily used by RTEMS to install interrupt handlers.
-@end table
-
-
-
-
-
-
diff --git a/doc/supplements/i960/fatalerr.t b/doc/supplements/i960/fatalerr.t
deleted file mode 100644
index 7f67b40fe8..0000000000
--- a/doc/supplements/i960/fatalerr.t
+++ /dev/null
@@ -1,30 +0,0 @@
-@c
-@c COPYRIGHT (c) 1988-2002.
-@c On-Line Applications Research Corporation (OAR).
-@c All rights reserved.
-@c
-@c $Id$
-@c
-
-@chapter Default Fatal Error Processing
-
-@section Introduction
-
-Upon detection of a fatal error by either the
-application or RTEMS the fatal error manager is invoked. The
-fatal error manager will invoke the user-supplied fatal error
-handlers. If no user-supplied handlers is configured, the
-RTEMS provided default fatal error handler is invoked. If the
-user-supplied fatal error handlers return to the executive the
-default fatal error handler is then invoked. This chapter
-describes the precise operations of the default fatal error
-handler.
-
-@section Default Fatal Error Handler Operations
-
-The default fatal error handler which is invoked by
-the fatal_error_occurred directive when there is no user handler
-configured or the user handler returns control to RTEMS. The
-default fatal error handler disables processor interrupts to
-level 31, places the error code in G0, and executes a branch to
-self instruction to simulate a halt processor instruction.
diff --git a/doc/supplements/i960/i960.texi b/doc/supplements/i960/i960.texi
deleted file mode 100644
index 573964e02a..0000000000
--- a/doc/supplements/i960/i960.texi
+++ /dev/null
@@ -1,114 +0,0 @@
-\input texinfo @c -*-texinfo-*-
-@c %**start of header
-@setfilename i960.info
-@setcontentsaftertitlepage
-@syncodeindex vr fn
-@synindex ky cp
-@paragraphindent 0
-@c %**end of header
-
-@c
-@c COPYRIGHT (c) 1988-2002.
-@c On-Line Applications Research Corporation (OAR).
-@c All rights reserved.
-@c
-@c $Id$
-@c
-
-@c
-@c Master file for the Intel i960 Applications Supplement
-@c
-
-@include version.texi
-@include common/setup.texi
-@include common/rtems.texi
-
-@ifset use-ascii
-@dircategory RTEMS Target Supplements
-@direntry
-* RTEMS Intel i960 Applications Supplement: (i960).
-@end direntry
-@end ifset
-
-@c
-@c Title Page Stuff
-@c
-
-@c
-@c I don't really like having a short title page. --joel
-@c
-@c @shorttitlepage RTEMS Intel i960 Applications Supplement
-
-@setchapternewpage odd
-@settitle RTEMS Intel i960 Applications Supplement
-@titlepage
-@finalout
-
-@title RTEMS Intel i960 Applications Supplement
-@subtitle Edition @value{EDITION}, for RTEMS @value{VERSION}
-@sp 1
-@subtitle @value{UPDATED}
-@author On-Line Applications Research Corporation
-@page
-@include common/cpright.texi
-@end titlepage
-
-@c This prevents a black box from being printed on "overflow" lines.
-@c The alternative is to rework a sentence to avoid this problem.
-
-@include preface.texi
-@include cpumodel.texi
-@include callconv.texi
-@include memmodel.texi
-@include intr.texi
-@include fatalerr.texi
-@include bsp.texi
-@include cputable.texi
-@include wksheets.texi
-@include timing.texi
-@include timeCVME961.texi
-@ifinfo
-@node Top, Preface, (dir), (dir)
-@top i960
-
-This is the online version of the RTEMS Intel i960
-Applications Supplement.
-
-@menu
-* Preface::
-* CPU Model Dependent Features::
-* Calling Conventions::
-* Memory Model::
-* Interrupt Processing::
-* Default Fatal Error Processing::
-* Board Support Packages::
-* Processor Dependent Information Table::
-* Memory Requirements::
-* Timing Specification::
-* CVME961 Timing Data::
-* Command and Variable Index::
-* Concept Index::
-@end menu
-
-@end ifinfo
-@c
-@c
-@c Need to copy the emacs stuff and "trailer stuff" (index, toc) into here
-@c
-
-@node Command and Variable Index, Concept Index, CVME961 Timing Data Rate Monotonic Manager, Top
-@unnumbered Command and Variable Index
-
-There are currently no Command and Variable Index entries.
-
-@c @printindex fn
-
-@node Concept Index, , Command and Variable Index, Top
-@unnumbered Concept Index
-
-There are currently no Concept Index entries.
-@c @printindex cp
-
-@contents
-@bye
-
diff --git a/doc/supplements/i960/intr_NOTIMES.t b/doc/supplements/i960/intr_NOTIMES.t
deleted file mode 100644
index 47b003bf6e..0000000000
--- a/doc/supplements/i960/intr_NOTIMES.t
+++ /dev/null
@@ -1,193 +0,0 @@
-@c
-@c COPYRIGHT (c) 1988-2002.
-@c On-Line Applications Research Corporation (OAR).
-@c All rights reserved.
-@c
-@c $Id$
-@c
-
-@chapter Interrupt Processing
-
-@section Introduction
-
-Different types of processors respond to the
-occurrence of an interrupt in its own unique fashion. In
-addition, each processor type provides a control mechanism to
-allow the proper handling of an interrupt. The processor
-dependent response to the interrupt which modifies the execution
-state and results in the modification of the execution stream.
-This modification usually requires that an interrupt handler
-utilize the provided control mechanisms to return to the normal
-processing stream. Although RTEMS hides many of the processor
-dependent details of interrupt processing, it is important to
-understand how the RTEMS interrupt manager is mapped onto the
-processor's unique architecture. Discussed in this chapter are
-the the processor's response and control mechanisms as they
-pertain to RTEMS.
-
-@section Vectoring of Interrupt Handler
-
-Upon receipt of an interrupt the i960CA
-automatically performs the following actions:
-
-@itemize @bullet
-@item saves the local register set,
-
-@item sets the Frame Pointer (FP) to point to the interrupt
-stack,
-
-@item increments the FP by sixteen (16) to make room for the
-Interrupt Record,
-
-@item saves the current values of the arithmetic-controls (AC)
-register, the process-controls (PC) register, and the interrupt
-vector number are saved in the Interrupt Record,
-
-@item the CPU sets the Instruction Pointer (IP) to the address
-of the first instruction in the interrupt handler,
-
-@item the return-status field of the Previous Frame Pointer
-(PFP or R0) register is set to interrupt return,
-
-@item sets the PC state bit to interrupted,
-
-@item sets the current interrupt disable level in the PC to
-the level of the current interrupt, and
-
-@item disables tracing.
-@end itemize
-
-A nested interrupt is processed similarly by the
-i960CA with the exception that the Frame Pointer (FP) already
-points to the interrupt stack. This means that the FP is NOT
-overwritten before space for the Interrupt Record is allocated.
-
-The state flag bit of the saved PC register in the
-Interrupt Record is examined by RTEMS to determine when an outer
-most interrupt is being exited. Therefore, the user application
-code MUST NOT modify this bit.
-
-@section Interrupt Record
-
-The structure of the Interrupt Record for the i960CA
-which is placed on the interrupt stack by the processor in
-response to an interrupt is as follows:
-
-@ifset use-ascii
-@example
-@group
- +---------------------------+
- | Saved Process Controls | NFP-16
- +---------------------------+
- | Saved Arithmetic Controls | NFP-12
- +---------------------------+
- | UNUSED | NFP-8
- +---------------------------+
- | UNUSED | NFP-4
- +---------------------------+
-@end group
-@end example
-@end ifset
-
-@ifset use-tex
-@sp 1
-@tex
-\centerline{\vbox{\offinterlineskip\halign{
-\strut\vrule#&
-\hbox to 2.00in{\enskip\hfil#\hfil}&
-\vrule#&
-\hbox to 1.00in{\enskip\hfil#\hfil}
-\cr
-\multispan{3}\hrulefill\cr
-& Saved Process Controls && NFP-16\cr
-\multispan{3}\hrulefill\cr
-& Saved Arithmetic Controls && NFP-12\cr
-\multispan{3}\hrulefill\cr
-& UNUSED && NFP-8\cr
-\multispan{3}\hrulefill\cr
-& UNUSED && NFP-4\cr
-\multispan{3}\hrulefill\cr
-}}\hfil}
-@end tex
-@end ifset
-
-@ifset use-html
-@html
-<CENTER>
- <TABLE COLS=2 WIDTH="40%" BORDER=2>
-<TR><TD ALIGN=center><STRONG>Saved Process Controls</STRONG></TD>
- <TD ALIGN=center>NFP-16</TD></TR>
-<TR><TD ALIGN=center><STRONG>Saved Arithmetic Controls</STRONG></TD>
- <TD ALIGN=center>NFP-12</TD></TR>
-<TR><TD ALIGN=center><STRONG>UNUSED</STRONG></TD>
- <TD ALIGN=center>NFP-8</TD></TR>
-<TR><TD ALIGN=center><STRONG>UNUSED</STRONG></TD>
- <TD ALIGN=center>NFP-4</TD></TR>
- </TABLE>
-</CENTER>
-@end html
-@end ifset
-
-@section Interrupt Levels
-
-Thirty-two levels (0-31) of interrupt priorities are
-supported by the i960CA microprocessor with level thirty-one
-(31) being the highest priority. Level zero (0) indicates that
-interrupts are fully enabled. Interrupt requests for interrupts
-with priorities less than or equal to the current interrupt mask
-level are ignored.
-
-Although RTEMS supports 256 interrupt levels, the
-i960CA only supports thirty-two. RTEMS interrupt levels 0
-through 31 directly correspond to i960CA interrupt levels. All
-other RTEMS interrupt levels are undefined and their behavior is
-unpredictable.
-
-@section Disabling of Interrupts by RTEMS
-
-During the execution of directive calls, critical
-sections of code may be executed. When these sections are
-encountered, RTEMS disables interrupts to level thirty-one (31)
-before the execution of this section and restores them to the
-previous level upon completion of the section. RTEMS has been
-optimized to insure that interrupts are disabled for less than
-RTEMS_MAXIMUM_DISABLE_PERIOD microseconds on a
-RTEMS_MAXIMUM_DISABLE_PERIOD_MHZ Mhz i960CA with zero wait states.
-These numbers will vary based the number of wait states and
-processor speed present on the target board. [NOTE: This
-calculation was most recently performed for Release
-RTEMS_RELEASE_FOR_MAXIMUM_DISABLE_PERIOD.]
-
-Non-maskable interrupts (NMI) cannot be disabled, and
-ISRs which execute at this level MUST NEVER issue RTEMS system
-calls. If a directive is invoked, unpredictable results may
-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.
-
-@section Register Cache Flushing
-
-The i960CA version of the RTEMS interrupt manager is
-optimized to insure that the flushreg instruction is only
-executed when a context switch is necessary. The flushreg
-instruction flushes the i960CA register set cache and takes (14
-+ 23 * number of sets flushed) cycles to execute. As the i960CA
-supports caching of from five to sixteen register sets, this
-instruction takes from 129 to 382 cycles (3.90 to 11.57
-microseconds at 33 Mhz) to execute given no wait state memory.
-RTEMS flushes the register set cache only at the conclusion of
-the outermost ISR when a context switch is necessary. The
-register set cache will not be flushed as part of processing a
-nested interrupt or when a context switch is not necessary.
-This optimization is essential to providing high-performance
-interrupt management on the i960CA.
-
-@section Interrupt Stack
-
-On the i960CA, RTEMS allocates the interrupt stack
-from the Workspace Area. The amount of memory allocated for the
-interrupt stack is determined by the interrupt_stack_size field
-in the CPU Configuration Table. During the initialization
-process, RTEMS will install its interrupt stack.
-
-
diff --git a/doc/supplements/i960/memmodel.t b/doc/supplements/i960/memmodel.t
deleted file mode 100644
index 80636c0da9..0000000000
--- a/doc/supplements/i960/memmodel.t
+++ /dev/null
@@ -1,40 +0,0 @@
-@c
-@c COPYRIGHT (c) 1988-2002.
-@c On-Line Applications Research Corporation (OAR).
-@c All rights reserved.
-@c
-@c $Id$
-@c
-
-@chapter Memory Model
-
-@section Introduction
-
-A processor may support any combination of memory
-models ranging from pure physical addressing to complex demand
-paged virtual memory systems. RTEMS supports a flat memory
-model which ranges contiguously over the processor's allowable
-address space. RTEMS does not support segmentation or virtual
-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.
-
-@section Flat Memory Model
-
-The i960CA supports a flat 32-bit address space with
-addresses ranging from 0x00000000 to 0xFFFFFFFF (4 gigabytes).
-Although the i960CA reserves portions of this address space,
-application code and data may be placed in any non-reserved
-areas. Each address is represented by a 32-bit value and is
-byte addressable. The address may be used to reference a single
-byte, half-word (2-bytes), word (4 bytes), double-word (8
-bytes), triple-word (12 bytes) or quad-word (16 bytes). The
-i960CA does not support virtual memory or segmentation.
-
-The i960CA allows the memory space to be partitioned
-into sixteen regions which may be configured individually as big
-or little endian. RTEMS assumes that the memory regions in
-which its code, data, and the RTEMS Workspace reside are
-configured as little endian.
-
-
diff --git a/doc/supplements/i960/preface.texi b/doc/supplements/i960/preface.texi
deleted file mode 100644
index 6c4d9fd34b..0000000000
--- a/doc/supplements/i960/preface.texi
+++ /dev/null
@@ -1,40 +0,0 @@
-@c
-@c COPYRIGHT (c) 1988-2002.
-@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.
-
-For information on the i960CA and the i960 processor
-family in general, refer to the following documents:
-
-@itemize @bullet
-@item @cite{80960CA User's Manual, Intel, Order No. 270710}.
-
-@item @cite{32-Bit Embedded Controller Handbook, Intel, Order No. 270647}.
-
-@item @cite{Glenford J. Meyers and David L. Budde. The 80960
-Microprocessor Architecture. Wiley. New York. 1988}.
-@end itemize
-
-It is highly recommended that the i960CA RTEMS
-application developer obtain and become familiar with Intel's
-i960CA User's Manual.
-
-
diff --git a/doc/supplements/i960/timeCVME961.t b/doc/supplements/i960/timeCVME961.t
deleted file mode 100644
index a312aecad8..0000000000
--- a/doc/supplements/i960/timeCVME961.t
+++ /dev/null
@@ -1,88 +0,0 @@
-@c
-@c COPYRIGHT (c) 1988-2002.
-@c On-Line Applications Research Corporation (OAR).
-@c All rights reserved.
-@c
-@c $Id$
-@c
-
-@include common/timemac.texi
-@tex
-\global\advance \smallskipamount by -4pt
-@end tex
-
-@chapter CVME961 Timing Data
-
-NOTE: The CVME961 board used by the RTEMS Project to
-obtain i960CA times is currently broken. The information in
-this chapter was obtained using Release 3.2.1.
-
-@section Introduction
-
-The timing data for the i960CA version of RTEMS is
-provided along with the target dependent aspects concerning the
-gathering of the timing data. The hardware platform used to
-gather the times is described to give the reader a better
-understanding of each directive time provided. Also, provided
-is a description of the interrupt latency and the context
-switch times as they pertain to the i960CA version of RTEMS.
-
-@section Hardware Platform
-
-All times reported except for the maximum period
-interrupts are disabled by RTEMS were measured using a Cyclone
-Microsystems CVME961 board. The CVME961 is a 33 Mhz board with
-dynamic RAM which has two wait state dynamic memory (four CPU
-cycles) for read accesses and one wait state (two CPU cycles)
-for write accesses. The Z8536 on a SQUALL SQSIO4 mezzanine
-board was used to measure elapsed time with one-half microsecond
-resolution. All sources of hardware interrupts are disabled,
-although the interrupt level of the i960CA allows all interrupts.
-
-The maximum interrupt disable period was measured by
-summing the number of CPU cycles required by each assembly
-language instruction executed while interrupts were disabled.
-Zero wait state memory was assumed. The total CPU cycles
-executed with interrupts disabled, including the instructions to
-disable and enable interrupts, was divided by 33 to simulate a
-i960CA executing at 33 Mhz with zero wait states.
-
-@section Interrupt Latency
-
-The maximum period with interrupts disabled within
-RTEMS is less than
-RTEMS_MAXIMUM_DISABLE_PERIOD microseconds including the instructions
-which disable and re-enable interrupts. The time required for
-the i960CA to generate an interrupt using the sysctl
-instruction, vectoring to an interrupt handler, and for the
-RTEMS entry overhead before invoking the user's interrupt
-handler are a total of RTEMS_INTR_ENTRY_RETURNS_TO_PREEMPTING_TASK
-microseconds. These combine to yield
-a worst case interrupt latency of less than
-RTEMS_MAXIMUM_DISABLE_PERIOD + RTEMS_INTR_ENTRY_RETURNS_TO_PREEMPTING_TASK
-microseconds. [NOTE: The maximum period with interrupts
-disabled within RTEMS was last calculated for Release
-RTEMS_RELEASE_FOR_MAXIMUM_DISABLE_PERIOD.]
-
-It should be noted again that the maximum period with
-interrupts disabled within RTEMS is hand-timed. The interrupt
-vector and entry overhead time was generated on the Cyclone
-CVME961 benchmark platform using the sysctl instruction as the
-interrupt source.
-
-@section Context Switch
-
-The RTEMS processor context switch time is RTEMS_NO_FP_CONTEXTS
-microseconds on the Cyclone CVME961 benchmark platform. This
-time represents the raw context switch time with no user
-extensions configured. Additional execution time is required
-when a TSWITCH user extension is configured. The use of the
-TSWITCH extension is application dependent. Thus, its execution
-time is not considered part of the base context switch time.
-
-The CVME961 has no hardware floating point capability
-and floating point tasks are not supported.
-
-The following table summarizes the context switch
-times for the CVME961 benchmark platform:
-