OpenCores
URL https://opencores.org/ocsvn/openrisc_me/openrisc_me/trunk

Subversion Repositories openrisc_me

[/] [openrisc/] [trunk/] [gnu-src/] [gdb-7.2/] [sim/] [ppc/] [README] - Blame information for rev 481

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 330 jeremybenn
 
2
 
3
                PSIM 1.0.1 - Model of the PowerPC Environments
4
 
5
 
6
    Copyright (C) 1994-1996, Andrew Cagney .
7
 
8
    This program is free software; you can redistribute it and/or modify
9
    it under the terms of the GNU General Public License as published by
10
    the Free Software Foundation; either version 2 of the License, or
11
    (at your option) any later version.
12
 
13
    This program is distributed in the hope that it will be useful,
14
    but WITHOUT ANY WARRANTY; without even the implied warranty of
15
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
16
    GNU General Public License for more details.
17
 
18
    You should have received a copy of the GNU General Public License
19
    along with this program; if not, write to the Free Software
20
    Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
21
 
22
 
23
    ----------------------------------------------------------------------
24
 
25
 
26
PSIM is a program written in extended ANSI-C that implements an
27
instruction level simulation of the PowerPC environment.  It is freely
28
available in source code form under the terms of the GNU General
29
Public License (version 2 or later).
30
 
31
The PowerPC Architecture is described as having three levels of
32
compliance:
33
 
34
        UEA - User Environment Architecture
35
        VEA - Virtual Environment Architecture
36
        OEA - Operating Environment Architecture
37
 
38
PSIM both implements all three levels of the PowerPC and includes (for
39
each level) a corresponding simulated run-time environment.
40
 
41
In addition, PSIM, to the execution unit level, models the performance
42
of most of the current PowerPC implementations (contributed by Michael
43
Meissner).  This detailed performance monitoring (unlike many other
44
simulators) resulting in only a relatively marginal reduction in the
45
simulators performance.
46
 
47
 
48
A description of how to build PSIM is contained in the file:
49
 
50
                ftp://ftp.ci.com.au/pub/psim/INSTALL
51
        or      ftp://cambridge.cygnus.com/pub/psim/INSTALL
52
 
53
while an overview of how to use PSIM is in:
54
 
55
        ftp://ftp.ci.com.au/pub/psim/RUN
56
or      ftp://cambridge.cygnus.com/pub/psim/RUN
57
 
58
This file is found in:
59
 
60
        ftp://ftp.ci.com.au/pub/psim/README
61
or      ftp://cambridge.cygnus.com/pub/psim/README
62
 
63
 
64
Thanks goes firstly to:
65
 
66
        Corinthian Engineering Pty Ltd
67
        Cygnus Support
68
        Highland Logic Pty Ltd
69
 
70
who provided the resources needed for making this software available
71
on the Internet.
72
 
73
More importantly I'd like to thank the following individuals who each
74
contributed in their own unique way:
75
 
76
        Allen Briggs, Bett Koch, David Edelsohn, Gordon Irlam,
77
        Michael Meissner, Bob Mercier, Richard Perini, Dale Rahn,
78
        Richard Stallman, Mitchele Walker
79
 
80
 
81
                                Andrew Cagney
82
                                Feb, 1995
83
 
84
 
85
    ----------------------------------------------------------------------
86
 
87
 
88
    What features does PSIM include?
89
 
90
        Monitoring and modeling
91
 
92
                PSIM includes (thanks to Michael Meissner)
93
                a detailed model of most of the PowerPC
94
                implementations to the functional unit level.
95
 
96
 
97
        SMP
98
 
99
                The PowerPC ISA defines SMP synchronizing instructions.
100
                This simulator implements a limited, but functional,
101
                subset of the PowerPC synchronization instructions
102
                behaviour.  Programs that restrict their synchronization
103
                primitives to those that work with this functional
104
                sub-set (eg P() and V()) are able to run on the SMP
105
                version of PSIM.
106
 
107
                People intending to use this system should study
108
                the code implementing the lwarx instruction.
109
 
110
        ENDIAN SUPPORT
111
 
112
                PSIM implements the PowerPC's big and little (xor
113
                endian) modes and correctly simulates code that
114
                switches between these two modes.
115
 
116
                In addition, psim can model a true little-endian
117
                machine.
118
 
119
        ISA (Instruction Set Architecture) models
120
 
121
                PSIM includes a model of the UEA, VEA and OEA.  This
122
                includes the time base registers (VEA) and HTAB
123
                and BATS (OEA).
124
 
125
                In addition, a preliminary model of the 64 bit
126
                PowerPC architecture is implemented.
127
 
128
        IO Hardware
129
 
130
                PSIM's internals are based around the concept
131
                of a Device Tree.  This tree intentionally
132
                resembles that of the Device Tree found in
133
                OpenBoot firmware.  PSIM is flexible enough
134
                to allow the user to fully configure this device
135
                tree (and consequently the hardware model) at
136
                run time.
137
 
138
        Run-time environments:
139
 
140
                PSIM's UEA model includes emulation for BSD
141
                based UNIX system calls.
142
 
143
                PSIM's OEA model includes emulation of either:
144
 
145
                        o       OpenBoot client interface
146
 
147
                        o       MOTO's BUG interface.
148
 
149
 
150
        Floating point
151
 
152
                Preliminary support for floating point is included.
153
 
154
 
155
    Who would be interested in PSIM?
156
 
157
        o       the curious
158
 
159
                Using psim, gdb, gcc and binutils the curious
160
                user can construct an environment that allows
161
                them to play with PowerPC Environment without
162
                the need for real hardware.
163
 
164
 
165
        o       the analyst
166
 
167
                PSIM includes many (contributed) monitoring
168
                features which (unlike many other simulators)
169
                do not come with a great penalty in performance.
170
 
171
                Thus the performance analyst is able to use
172
                this simulator to analyse the performance of
173
                the system under test.
174
 
175
                If PSIM doesn't monitor a components of interest,
176
                the source code is freely available, and hence
177
                there is no hinderance to changing things
178
                to meet a specific analysts needs.
179
 
180
 
181
        o       the serious SW developer
182
 
183
                PSIM models all three levels of the PowerPC
184
                Architecture: UEA, VEA and OEA.  Further,
185
                the internal design is such that PSIM can
186
                be extended to support additional requirements.
187
 
188
 
189
    What performance analysis measurements can PSIM perform?
190
 
191
        Below is the output from a recent analysis run
192
        (contributed by Michael Meissner):
193
 
194
        For the following program:
195
 
196
        long
197
        simple_rand ()
198
        {
199
          static unsigned long seed = 47114711;
200
          unsigned long this = seed * 1103515245 + 12345;
201
          seed = this;
202
        /* cut-cut-cut - see the file RUN.psim */
203
        }
204
 
205
        Here is the current output generated with the -I switch on a P90
206
        (the compiler used is the development version of GCC with a new
207
        scheduler replacing the old one):
208
 
209
        CPU #1 executed     41,994 AND instructions.
210
        CPU #1 executed    519,785 AND Immediate instructions.
211
        .
212
        .
213
        .
214
        CPU #1 executed          1 System Call instruction.
215
        CPU #1 executed    207,746 XOR instructions.
216
 
217
        CPU #1 executed 23,740,856 cycles.
218
        CPU #1 executed 10,242,780 stalls waiting for data.
219
        CPU #1 executed          1 stall waiting for a function unit.
220
        .
221
        .
222
        .
223
        CPU #1 executed  3,136,229 branch functional unit instructions.
224
        CPU #1 executed 16,949,396 instructions that were accounted for in timing info.
225
        CPU #1 executed    871,920 data reads.
226
        CPU #1 executed    971,926 data writes.
227
        CPU #1 executed        221 icache misses.
228
        CPU #1 executed 16,949,396 instructions in total.
229
 
230
        Simulator speed was 250,731 instructions/second
231
 
232
 
233
    What motivated PSIM?
234
 
235
        As an idea, psim was first discussed seriously during mid
236
        1994.  At that time its main objectives were:
237
 
238
 
239
                o       good performance
240
 
241
                        Many simulators loose out by only providing
242
                        a binary interface to the internals.  This
243
                        interface eventually becomes a bottle neck
244
                        in the simulators performance.
245
 
246
                        It was intended that PSIM would avoid this
247
                        problem by giving the user access to the
248
                        full source code.
249
 
250
                        Further, by exploiting the power of modern
251
                        compilers it was hoped that PSIM would achieve
252
                        good performance with out having to compromise
253
                        its internal design.
254
 
255
 
256
                o       practical portability
257
 
258
                        Rather than try to be portable to every
259
                        C compiler on every platform, it was decided
260
                        that PSIM would restrict its self to supporting
261
                        ANSI compilers that included the extension
262
                        of a long long type.
263
 
264
                        GCC is one such compiler, consequently PSIM
265
                        should be portable to any machine running GCC.
266
 
267
 
268
                o       flexibility in its design
269
 
270
                        PSIM should allow the user to select the
271
                        features required and customise the build
272
                        accordingly.  By having the source code,
273
                        the compiler is able to eliminate any un
274
                        used features of the simulator.
275
 
276
                        After all, let the compiler do the work.
277
 
278
 
279
                o       SMP
280
 
281
                        A model that allowed the simulation of
282
                        SMP platforms with out the large overhead
283
                        often encountered with such models.
284
 
285
 
286
        PSIM achieves each of these objectives.
287
 
288
 
289
    Is PSIM PowerPC Platform (PPCP) (nee CHRP) Compliant?
290
 
291
        No.
292
 
293
        Among other things it does not have an Apple ROM socket.
294
 
295
 
296
    Could PSIM be extended so that it models a CHRP machine?
297
 
298
        Yes.
299
 
300
        PSIM has been designed with the CHRP spec in mind. To model
301
        a CHRP desktop the following would need to be added:
302
 
303
                o       An apple ROM socket :-)
304
 
305
                o       Model of each of the desktop IO devices
306
 
307
                o       An OpenPIC device.
308
 
309
                o       RTAS (Run Time Abstraction Services).
310
 
311
                o       A fully populated device tree.
312
 
313
 
314
    Is the source code available?
315
 
316
        Yes.
317
 
318
        The source code to PSIM is available under the terms of
319
        the GNU Public Licence.  This allows you to distribute
320
        the source code for free but with certain conditions.
321
 
322
        See the file:
323
 
324
                ftp://archie.au/gnu/COPYING
325
 
326
        For details of the terms and conditions.
327
 
328
 
329
    Where do I send bugs or report problems?
330
 
331
        There is a mailing list (subscribe through majordomo@ci.com.au) at:
332
 
333
        powerpc-psim@ci.com.au
334
 
335
        If I get the ftp archive updated I post a note to that mailing list.
336
        In addition your welcome to send bugs or problems either to me or to
337
        that e-mail list.
338
 
339
        This list currently averages zero articles a day.
340
 
341
 
342
     Does PSIM have any limitations or problems?
343
 
344
        PSIM can't run rs6000/AIX binaries - At present PSIM can only
345
        simulate static executables.  Since an AIX executable is
346
        never static, PSIM is unable to simulate its execution.
347
 
348
        PSIM is still under development - consequently there are going
349
        to be bugs.
350
 
351
        See the file BUGS (included in the distribution) for any
352
        other outstanding issues.
353
 

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.