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#
#  $Id: README,v 1.2 2001-09-27 12:00:35 chris Exp $
#
 
#
# This package requires a version of GCC that supports the `-mcpu32' option.
#
 
#
# Please send any comments, improvements, or bug reports to:
#       W. Eric Norum
#       Saskatchewan Accelerator Laboratory
#       107 North Road
#       University of Saskatchewan
#       Saskatoon, Saskatchewan, CANADA
#       S7N 5C6
# eric@skatter.usask.ca
#
 
#
# This board support package works with several different versions of
# MC68360 systems.  The choice of hardware is made at the final link-edit
# phase by setting the Makefile CLAGS_LD definition appropriately.
#
# Decisions made at compile time include:
#       - If the CPU is a member of the 68040 family, the BSP is
#         compiled for a generic 68040/68360 system as described
#         in Chapter 9 of the MC68360 User's Manual.
#       - If the preprocessor symbol M68360_ATLAS_HSB is defined,
#         the BSP is compiled for an Atlas HSB card.
#       - Otherwise, the BSP is compiled for a generic 68360 system
#         as described in Chapter 9 of the MC68360 User's Manual.
#
# Decisions to be made a link-edit time are:
#     - The size of the memory allocator heap.  The default value is
#       64 kbytes.  If the network package is used the heap
#       should be at least 256 kbytes.  If your network is large, or
#       busy, the heap should be even larger.
#       To choose a heap size of 256 kbytes,
#       CFLAGS_LD += -Wl,--defsym -Wl,HeapSize=0x40000
 
BSP NAME:           gen68360 or gen68360_040
BOARD:              Generic 68360 as described in Motorola MC68360 User's Manual
BOARD:              Atlas Computer Equipment Inc. High Speed Bridge (HSB)
BOARD:              Atlas Computer Equipment Inc. Advanced Communication Engine (ACE)
BOARD:              Arnewsh SBC360 68040/68360 card
BUS:                none
CPU FAMILY:         Motorola CPU32+, Motorola 68040
COPROCESSORS:       none
MODE:               not applicable
 
DEBUG MONITOR:      none (Hardware provides BDM)
 
PERIPHERALS
===========
TIMERS:             PIT, Watchdog, 4 general purpose, 16 RISC
  RESOLUTION:       one microsecond
SERIAL PORTS:       4 SCC, 2 SMC, 1 SPI
REAL-TIME CLOCK:
DMA:                Each serial port, 2 general purpose
VIDEO:              none
SCSI:               none
NETWORKING:         Ethernet on SCC1.
 
DRIVER INFORMATION
==================
CLOCK DRIVER:       Programmable Interval Timer
IOSUPP DRIVER:      Serial Management Controller 1
SHMSUPP:            none
TIMER DRIVER:       Timer 1
 
STDIO
=====
PORT:               SMC1
ELECTRICAL:         EIA-232 (if board supplies level shifter)
BAUD:               9600
BITS PER CHARACTER: 8
PARITY:             None
STOP BITS:          1
 
NOTES
=====
 
Board description
-----------------
clock rate:     25 MHz
bus width:      8-bit PROM, 32-bit DRAM
ROM:            To 1 MByte, 180 nsec (3 wait states), chip select 0
RAM:            1 to 16 MByte DRAM SIMM, 60 nsec (0 wait states), parity or nonparity
 
Host System
-----------
OPENSTEP 4.2 (Intel and Motorola), Solaris 2.5, Linux 2.0.29
 
Verification (Standalone 68360)
-------------------------------
Single processor tests:  Passed
Multi-processort tests:  not applicable
Timing tests:
        Context Switch
 
        context switch: self 10
        context switch: to another task 11
        context switch: no floating point contexts 40
        fp context switch: restore 1st FP task 41
        fp context switch: save initialized, restore initialized 14
        fp context switch: save idle, restore initialized 14
        fp context switch: save idle, restore idle 43
 
        Task Manager
 
        rtems_task_create 133
        rtems_task_ident 351
        rtems_task_start 77
        rtems_task_restart: calling task 93
        rtems_task_restart: suspended task -- returns to caller 90
        rtems_task_restart: blocked task -- returns to caller 120
        rtems_task_restart: ready task -- returns to caller 92
        rtems_task_restart: suspended task -- preempts caller 121
        rtems_task_restart: blocked task -- preempts caller 143
        rtems_task_restart: ready task -- preempts caller 138
        rtems_task_delete: calling task 158
        rtems_task_delete: suspended task 129
        rtems_task_delete: blocked task 134
        rtems_task_delete: ready task 136
        rtems_task_suspend: calling task 71
        rtems_task_suspend: returns to caller 47
        rtems_task_resume: task readied -- returns to caller 48
        rtems_task_resume: task readied -- preempts caller 67
        rtems_task_set_priority: obtain current priority 36
        rtems_task_set_priority: returns to caller 65
        rtems_task_set_priority: preempts caller 102
        rtems_task_mode: obtain current mode 13
        rtems_task_mode: no reschedule 15
        rtems_task_mode: reschedule -- returns to caller 22
        rtems_task_mode: reschedule -- preempts caller 61
        rtems_task_get_note 38
        rtems_task_set_note 37
        rtems_task_wake_after: yield -- returns to caller 22
        rtems_task_wake_after: yields -- preempts caller 56
        rtems_task_wake_when 110
 
        Interrupt Manager
 
        interrupt entry overhead: returns to nested interrupt 8
        interrupt entry overhead: returns to interrupted task 8
        interrupt entry overhead: returns to preempting task 8
        interrupt exit overhead: returns to nested interrupt 7
        interrupt exit overhead: returns to interrupted task 8
        interrupt exit overhead: returns to preempting task 52
 
        Clock Manager
 
        rtems_clock_set 82
        rtems_clock_get 2
        rtems_clock_tick 15
 
        Timer Manager
 
        rtems_timer_create 33
        rtems_timer_ident 343
        rtems_timer_delete: inactive 47
        rtems_timer_delete: active 50
        rtems_timer_fire_after: inactive 59
        rtems_timer_fire_after: active 63
        rtems_timer_fire_when: inactive 83
        rtems_timer_fire_when: active 83
        rtems_timer_reset: inactive 55
        rtems_timer_reset: active 58
        rtems_timer_cancel: inactive 35
        rtems_timer_cancel: active 38
 
        Semaphore Manager
 
        rtems_semaphore_create 62
        rtems_semaphore_ident 368
        rtems_semaphore_delete 61
        rtems_semaphore_obtain: available 42
        rtems_semaphore_obtain: not available -- NO_WAIT 42
        rtems_semaphore_obtain: not available -- caller blocks 105
        rtems_semaphore_release: no waiting tasks 46
        rtems_semaphore_release: task readied -- returns to caller 64
        rtems_semaphore_release: task readied -- preempts caller 84
 
        Message Queue Manager
 
        rtems_message_queue_create 240
        rtems_message_queue_ident 342
        rtems_message_queue_delete 79
        rtems_message_queue_send: no waiting tasks 93
        rtems_message_queue_send: task readied -- returns to caller 96
        rtems_message_queue_send: task readied -- preempts caller 116
        rtems_message_queue_urgent: no waiting tasks 93
        rtems_message_queue_urgent: task readied -- returns to caller 97
        rtems_message_queue_urgent: task readied -- preempts caller 117
        rtems_message_queue_broadcast: no waiting tasks 54
        rtems_message_queue_broadcast: task readied -- returns to caller 106
        rtems_message_queue_broadcast: task readied -- preempts caller 126
        rtems_message_queue_receive: available 79
        rtems_message_queue_receive: not available -- NO_WAIT 48
        rtems_message_queue_receive: not available -- caller blocks 111
        rtems_message_queue_flush: no messages flushed 35
        rtems_message_queue_flush: messages flushed 44
 
        Event Manager
 
        rtems_event_send: no task readied 30
        rtems_event_send: task readied -- returns to caller 59
        rtems_event_send: task readied -- preempts caller 81
        rtems_event_receive: obtain current events 1
        rtems_event_receive: available 34
        rtems_event_receive: not available -- NO_WAIT 31
        rtems_event_receive: not available -- caller blocks 84
 
        Signal Manager
 
        rtems_signal_catch 24
        rtems_signal_send: returns to caller 42
        rtems_signal_send: signal to self 47
        exit ASR overhead: returns to calling task 33
        exit ASR overhead: returns to preempting task 58
 
        Partition Manager
 
        rtems_partition_create 78
        rtems_partition_ident 342
        rtems_partition_delete 46
        rtems_partition_get_buffer: available 40
        rtems_partition_get_buffer: not available 39
        rtems_partition_return_buffer 47
 
        Region Manager
 
        rtems_region_create 65
        rtems_region_ident 349
        rtems_region_delete 45
        rtems_region_get_segment: available 55
        rtems_region_get_segment: not available -- NO_WAIT 52
        rtems_region_get_segment: not available -- caller blocks 119
        rtems_region_return_segment: no waiting tasks 57
        rtems_region_return_segment: task readied -- returns to caller 106
        rtems_region_return_segment: task readied -- preempts caller 127
 
        Dual-Ported Memory Manager
 
        rtems_port_create 40
        rtems_port_ident 342
        rtems_port_delete 44
        rtems_port_internal_to_external 32
        rtems_port_external_to_internal 32
 
        IO Manager
 
        rtems_io_initialize 4
        rtems_io_open 1
        rtems_io_close 1
        rtems_io_read 1
        rtems_io_write 1
        rtems_io_control 1
 
        Rate Monotonic Manager
 
        rtems_rate_monotonic_create 39
        rtems_rate_monotonic_ident 343
        rtems_rate_monotonic_cancel 43
        rtems_rate_monotonic_delete: active 54
        rtems_rate_monotonic_delete: inactive 52
        rtems_rate_monotonic_period: obtain status 37
        rtems_rate_monotonic_period: initiate period -- returns to caller 58
        rtems_rate_monotonic_period: conclude periods -- caller blocks 75
 
Porting
-------
This board support package is written for a 68360 system similar to that
described in chapter 9 of the Motorola MC68360 Quad Integrated Communication
Processor Users' Manual.  The salient features of this hardware are:
 
        25 MHz external clock
        DRAM address multiplexing provided by 68360
        8-bit 180nsec PROM to CS0*
        4 MBytes of 60 nsec parity DRAM (1Mx36) to RAS1*/CAS1*
        Console serial port on SMC1
        Ethernet interface on SCC1
 
The board support package has been tested with:
        A home-built 68360 board
        An ACE360A and an HSB board produced by:
                Atlas Computer Equipment
                703 Colina Lane
                Santa Barbara, CA 93103
        A 68040/68360 board (SBC360) produced by:
                Arnewsh Inc.
                P.O. Box 270352
                Fort Collins, CO 80527-0352

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Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [powerpc/] [eth_comm/] [network/] [README] - Blame information for rev 173

Line No.	Rev	Author	Line
1	30	unneback	`#`
2			`# $Id: README,v 1.2 2001-09-27 12:00:35 chris Exp $`
3			`#`
4
5			`#`
6			# This package requires a version of GCC that supports the `-mcpu32' option.
7			`#`
8
9			`#`
10			`# Please send any comments, improvements, or bug reports to:`
11			`# W. Eric Norum`
12			`# Saskatchewan Accelerator Laboratory`
13			`# 107 North Road`
14			`# University of Saskatchewan`
15			`# Saskatoon, Saskatchewan, CANADA`
16			`# S7N 5C6`
17			`# eric@skatter.usask.ca`
18			`#`
19
20			`#`
21			`# This board support package works with several different versions of`
22			`# MC68360 systems. The choice of hardware is made at the final link-edit`
23			`# phase by setting the Makefile CLAGS_LD definition appropriately.`
24			`#`
25			`# Decisions made at compile time include:`
26			`# - If the CPU is a member of the 68040 family, the BSP is`
27			`# compiled for a generic 68040/68360 system as described`
28			`# in Chapter 9 of the MC68360 User's Manual.`
29			`# - If the preprocessor symbol M68360_ATLAS_HSB is defined,`
30			`# the BSP is compiled for an Atlas HSB card.`
31			`# - Otherwise, the BSP is compiled for a generic 68360 system`
32			`# as described in Chapter 9 of the MC68360 User's Manual.`
33			`#`
34			`# Decisions to be made a link-edit time are:`
35			`# - The size of the memory allocator heap. The default value is`
36			`# 64 kbytes. If the network package is used the heap`
37			`# should be at least 256 kbytes. If your network is large, or`
38			`# busy, the heap should be even larger.`
39			`# To choose a heap size of 256 kbytes,`
40			`# CFLAGS_LD += -Wl,--defsym -Wl,HeapSize=0x40000`
41
42			`BSP NAME: gen68360 or gen68360_040`
43			`BOARD: Generic 68360 as described in Motorola MC68360 User's Manual`
44			`BOARD: Atlas Computer Equipment Inc. High Speed Bridge (HSB)`
45			`BOARD: Atlas Computer Equipment Inc. Advanced Communication Engine (ACE)`
46			`BOARD: Arnewsh SBC360 68040/68360 card`
47			`BUS: none`
48			`CPU FAMILY: Motorola CPU32+, Motorola 68040`
49			`COPROCESSORS: none`
50			`MODE: not applicable`
51
52			`DEBUG MONITOR: none (Hardware provides BDM)`
53
54			`PERIPHERALS`
55			`===========`
56			`TIMERS: PIT, Watchdog, 4 general purpose, 16 RISC`
57			`RESOLUTION: one microsecond`
58			`SERIAL PORTS: 4 SCC, 2 SMC, 1 SPI`
59			`REAL-TIME CLOCK:`
60			`DMA: Each serial port, 2 general purpose`
61			`VIDEO: none`
62			`SCSI: none`
63			`NETWORKING: Ethernet on SCC1.`
64
65			`DRIVER INFORMATION`
66			`==================`
67			`CLOCK DRIVER: Programmable Interval Timer`
68			`IOSUPP DRIVER: Serial Management Controller 1`
69			`SHMSUPP: none`
70			`TIMER DRIVER: Timer 1`
71
72			`STDIO`
73			`=====`
74			`PORT: SMC1`
75			`ELECTRICAL: EIA-232 (if board supplies level shifter)`
76			`BAUD: 9600`
77			`BITS PER CHARACTER: 8`
78			`PARITY: None`
79			`STOP BITS: 1`
80
81			`NOTES`
82			`=====`
83
84			`Board description`
85			`-----------------`
86			`clock rate: 25 MHz`
87			`bus width: 8-bit PROM, 32-bit DRAM`
88			`ROM: To 1 MByte, 180 nsec (3 wait states), chip select 0`
89			`RAM: 1 to 16 MByte DRAM SIMM, 60 nsec (0 wait states), parity or nonparity`
90
91			`Host System`
92			`-----------`
93			`OPENSTEP 4.2 (Intel and Motorola), Solaris 2.5, Linux 2.0.29`
94
95			`Verification (Standalone 68360)`
96			`-------------------------------`
97			`Single processor tests: Passed`
98			`Multi-processort tests: not applicable`
99			`Timing tests:`
100			`Context Switch`
101
102			`context switch: self 10`
103			`context switch: to another task 11`
104			`context switch: no floating point contexts 40`
105			`fp context switch: restore 1st FP task 41`
106			`fp context switch: save initialized, restore initialized 14`
107			`fp context switch: save idle, restore initialized 14`
108			`fp context switch: save idle, restore idle 43`
109
110			`Task Manager`
111
112			`rtems_task_create 133`
113			`rtems_task_ident 351`
114			`rtems_task_start 77`
115			`rtems_task_restart: calling task 93`
116			`rtems_task_restart: suspended task -- returns to caller 90`
117			`rtems_task_restart: blocked task -- returns to caller 120`
118			`rtems_task_restart: ready task -- returns to caller 92`
119			`rtems_task_restart: suspended task -- preempts caller 121`
120			`rtems_task_restart: blocked task -- preempts caller 143`
121			`rtems_task_restart: ready task -- preempts caller 138`
122			`rtems_task_delete: calling task 158`
123			`rtems_task_delete: suspended task 129`
124			`rtems_task_delete: blocked task 134`
125			`rtems_task_delete: ready task 136`
126			`rtems_task_suspend: calling task 71`
127			`rtems_task_suspend: returns to caller 47`
128			`rtems_task_resume: task readied -- returns to caller 48`
129			`rtems_task_resume: task readied -- preempts caller 67`
130			`rtems_task_set_priority: obtain current priority 36`
131			`rtems_task_set_priority: returns to caller 65`
132			`rtems_task_set_priority: preempts caller 102`
133			`rtems_task_mode: obtain current mode 13`
134			`rtems_task_mode: no reschedule 15`
135			`rtems_task_mode: reschedule -- returns to caller 22`
136			`rtems_task_mode: reschedule -- preempts caller 61`
137			`rtems_task_get_note 38`
138			`rtems_task_set_note 37`
139			`rtems_task_wake_after: yield -- returns to caller 22`
140			`rtems_task_wake_after: yields -- preempts caller 56`
141			`rtems_task_wake_when 110`
142
143			`Interrupt Manager`
144
145			`interrupt entry overhead: returns to nested interrupt 8`
146			`interrupt entry overhead: returns to interrupted task 8`
147			`interrupt entry overhead: returns to preempting task 8`
148			`interrupt exit overhead: returns to nested interrupt 7`
149			`interrupt exit overhead: returns to interrupted task 8`
150			`interrupt exit overhead: returns to preempting task 52`
151
152			`Clock Manager`
153
154			`rtems_clock_set 82`
155			`rtems_clock_get 2`
156			`rtems_clock_tick 15`
157
158			`Timer Manager`
159
160			`rtems_timer_create 33`
161			`rtems_timer_ident 343`
162			`rtems_timer_delete: inactive 47`
163			`rtems_timer_delete: active 50`
164			`rtems_timer_fire_after: inactive 59`
165			`rtems_timer_fire_after: active 63`
166			`rtems_timer_fire_when: inactive 83`
167			`rtems_timer_fire_when: active 83`
168			`rtems_timer_reset: inactive 55`
169			`rtems_timer_reset: active 58`
170			`rtems_timer_cancel: inactive 35`
171			`rtems_timer_cancel: active 38`
172
173			`Semaphore Manager`
174
175			`rtems_semaphore_create 62`
176			`rtems_semaphore_ident 368`
177			`rtems_semaphore_delete 61`
178			`rtems_semaphore_obtain: available 42`
179			`rtems_semaphore_obtain: not available -- NO_WAIT 42`
180			`rtems_semaphore_obtain: not available -- caller blocks 105`
181			`rtems_semaphore_release: no waiting tasks 46`
182			`rtems_semaphore_release: task readied -- returns to caller 64`
183			`rtems_semaphore_release: task readied -- preempts caller 84`
184
185			`Message Queue Manager`
186
187			`rtems_message_queue_create 240`
188			`rtems_message_queue_ident 342`
189			`rtems_message_queue_delete 79`
190			`rtems_message_queue_send: no waiting tasks 93`
191			`rtems_message_queue_send: task readied -- returns to caller 96`
192			`rtems_message_queue_send: task readied -- preempts caller 116`
193			`rtems_message_queue_urgent: no waiting tasks 93`
194			`rtems_message_queue_urgent: task readied -- returns to caller 97`
195			`rtems_message_queue_urgent: task readied -- preempts caller 117`
196			`rtems_message_queue_broadcast: no waiting tasks 54`
197			`rtems_message_queue_broadcast: task readied -- returns to caller 106`
198			`rtems_message_queue_broadcast: task readied -- preempts caller 126`
199			`rtems_message_queue_receive: available 79`
200			`rtems_message_queue_receive: not available -- NO_WAIT 48`
201			`rtems_message_queue_receive: not available -- caller blocks 111`
202			`rtems_message_queue_flush: no messages flushed 35`
203			`rtems_message_queue_flush: messages flushed 44`
204
205			`Event Manager`
206
207			`rtems_event_send: no task readied 30`
208			`rtems_event_send: task readied -- returns to caller 59`
209			`rtems_event_send: task readied -- preempts caller 81`
210			`rtems_event_receive: obtain current events 1`
211			`rtems_event_receive: available 34`
212			`rtems_event_receive: not available -- NO_WAIT 31`
213			`rtems_event_receive: not available -- caller blocks 84`
214
215			`Signal Manager`
216
217			`rtems_signal_catch 24`
218			`rtems_signal_send: returns to caller 42`
219			`rtems_signal_send: signal to self 47`
220			`exit ASR overhead: returns to calling task 33`
221			`exit ASR overhead: returns to preempting task 58`
222
223			`Partition Manager`
224
225			`rtems_partition_create 78`
226			`rtems_partition_ident 342`
227			`rtems_partition_delete 46`
228			`rtems_partition_get_buffer: available 40`
229			`rtems_partition_get_buffer: not available 39`
230			`rtems_partition_return_buffer 47`
231
232			`Region Manager`
233
234			`rtems_region_create 65`
235			`rtems_region_ident 349`
236			`rtems_region_delete 45`
237			`rtems_region_get_segment: available 55`
238			`rtems_region_get_segment: not available -- NO_WAIT 52`
239			`rtems_region_get_segment: not available -- caller blocks 119`
240			`rtems_region_return_segment: no waiting tasks 57`
241			`rtems_region_return_segment: task readied -- returns to caller 106`
242			`rtems_region_return_segment: task readied -- preempts caller 127`
243
244			`Dual-Ported Memory Manager`
245
246			`rtems_port_create 40`
247			`rtems_port_ident 342`
248			`rtems_port_delete 44`
249			`rtems_port_internal_to_external 32`
250			`rtems_port_external_to_internal 32`
251
252			`IO Manager`
253
254			`rtems_io_initialize 4`
255			`rtems_io_open 1`
256			`rtems_io_close 1`
257			`rtems_io_read 1`
258			`rtems_io_write 1`
259			`rtems_io_control 1`
260
261			`Rate Monotonic Manager`
262
263			`rtems_rate_monotonic_create 39`
264			`rtems_rate_monotonic_ident 343`
265			`rtems_rate_monotonic_cancel 43`
266			`rtems_rate_monotonic_delete: active 54`
267			`rtems_rate_monotonic_delete: inactive 52`
268			`rtems_rate_monotonic_period: obtain status 37`
269			`rtems_rate_monotonic_period: initiate period -- returns to caller 58`
270			`rtems_rate_monotonic_period: conclude periods -- caller blocks 75`
271
272			`Porting`
273			`-------`
274			`This board support package is written for a 68360 system similar to that`
275			`described in chapter 9 of the Motorola MC68360 Quad Integrated Communication`
276			`Processor Users' Manual. The salient features of this hardware are:`
277
278			`25 MHz external clock`
279			`DRAM address multiplexing provided by 68360`
280			`8-bit 180nsec PROM to CS0*`
281			`4 MBytes of 60 nsec parity DRAM (1Mx36) to RAS1/CAS1`
282			`Console serial port on SMC1`
283			`Ethernet interface on SCC1`
284
285			`The board support package has been tested with:`
286			`A home-built 68360 board`
287			`An ACE360A and an HSB board produced by:`
288			`Atlas Computer Equipment`
289			`703 Colina Lane`
290			`Santa Barbara, CA 93103`
291			`A 68040/68360 board (SBC360) produced by:`
292			`Arnewsh Inc.`
293			`P.O. Box 270352`
294			`Fort Collins, CO 80527-0352`