thad@cup.portal.com (Thad P Floryan) (12/13/90)
You're NOT gonna believe this, but ... I've been "out" the past 8 days with a cold/flu/whatever. I'll be responding shortly to all those interested in the UNIXPC Device Driver Guide. Besides having had a chance to catch up on much-needed sleep, I had the time and opportunity to study the problem with WD2010 chip usage in the 3B1/UNIXPC. C0WABUNGA, D00DS AND D00DETTES!!! I have *FINALLY* come up with the fix for those 3B1/UNIXPC systems that would NOT work with the WD2010 disk controller chip. I just (this evening) modified a Rev.B and a Rev.C system that would not "take" a WD2010 before, and now they work perfectly. With a LARGE HD. I'll post the details tomorrow; I'm really quite fatigued. But I tell you, being able to install the Foundation Set on them thar systems with a WD2010 *REALLY* made me happy! The alterations should cost less than US$1.00 and comprise: - 74123 TTL IC chip (reason for this tomorrow), - 4.75K 1% (that's ONE PERCENT TOLERANCE) precision resistor, and - about 6-8" of the "standard" wire-wrap type of wire for patches Just wanted to pass on the GOOD NEWS before I fall asleep at my keyboard. Stay tuned for more news tomorrow. In the meantime, you may wish to check the "Rev Level" of your system if you previously had a problem with a WD2010 chip. The "Rev. Level" sticker is on the motherboard near the volume control. Systems that will NEED the fix are (possibly) ``Rev. B'' and ``Rev. C'' and maybe others. And I'll also tell the story of 3B1/UNIXPC "Revision Levels". You're probably not gonna believe it; I didn't at first, either. Thad Floryan [ thad@cup.portal.com (OR) ..!sun!portal!cup.portal.com!thad ]
thad@cup.portal.com (Thad P Floryan) (12/18/90)
It appears everything in and out of PORTAL between Dec.14 and Dec.17 has been
lost in the Great Bit Bucket. I've checked several other Bay Area sites and
did not find this, so I'm reposting. Sigh. If the original did, somehow,
get out during that period, send your nastygrams to CS@cup.portal.com ("CS" is
PORTAL's "Customer Service").
==============================================================================
C O R R E C T 3 B 1 W D 2 0 1 0 `` D R U N '' P A T C H
by Thad Floryan
15-Dec-1990
As many have discovered, the WD2010 disk controller is not always a drop-in
replacement for the WD1010 chip in the 3B1/UNIXPC/PC7300. Those who've tried
a simple chip replacement in certain systems have encountered irrecoverable
recalibration errors, numerous disk errors, and often a full Bad Block Table.
Of the 180 chips purchased during the group buy I organized in 1989, 15 were
thought to be "bad" by the recipients, yet several chips returned for testing
operated fine in my systems. Recent postings to unix-pc.general suggest the
problem is even more widespread as others are attempting hard drive upgrades
using the WD2010 chip.
Why bother with the WD2010 if so many problems are reported? You'll need the
WD2010 to fully utilize hard drives such as the Maxtor XT2190 or XT2140, both
having 1224 cylinders, or the Miniscribe 3085 with 1170 cylinders. The WD1010
chip is hardware-limited to 1024 cylinders whereas the WD2010 is specified to
2048 cylinders. Note all known versions of the 3B1 kernel up to and including
version 3.51m are software-limited to 1400 cylinders. Note also the 3.51m
kernel is able to identify which disk controller chip is installed and reports
that fact during its boot sequence.
Two identifiable failure modes have been reported with the WD2010:
1. inability to recalibrate and/or excessive kernel-reported HD errors
when simply substituted for a WD1010 in a system that was operating
correctly with a WD1010; restoring the WD1010 to the system effected
normal operation.
2. apparent correct formatting of a new hard disk, followed by failure
to recalibrate and/or excessive sector errors during a surface test,
often followed by a full Bad Block Table. Substituting the original
WD1010 permitted correct formatting (limited to 1024 cylinders) and
successful completion of the surface test.
The first "clue" to the solution was understanding the failure modes were ALL
caused by read errors (disk formatting is a high-speed write-only operation).
The second "clue" was an observable pattern of which motherboard "Rev. Level"
systems failed with a WD2010 and which succeeded with a WD2010, but ONLY up to
a point; there were still, say, some "Rev. C" systems that would and some that
wouldn't "take" a WD2010.
The final "clue" was the presence of three separate and distinct system circuit
schematics in the latest copies of the UNIXPC Reference Manual.
Confounding an earlier solution were the lack of any visible differences in
the vicinity of disk drive "read" circuitry between motherboards which did or
didn't function properly with a WD2010.
Further confusion arose due to unobvious schematic "Rev. level" assignments:
for example, is a "Rev. C" board more recent than a "Rev. B" board?
And the "easy" solution in the UNIXPC Service Manual was unacceptable: replace
the hard drive and/or replace the motherboard.
Well, after recently having another opportunity to examine the problem, the
facts and a SOLUTION follow:
The UNIXPC Reference Manual schematics document three DIFFERENT systems which
were all CONCURRENTLY manufactured, and even then with "same-board" variations
in the production component board-stuffing depending on other customer-order
changes. Thus, a "Rev. level" sticker must be referenced to the specific type
board and one must also take into account the actual production "order" (i.e.
whether to be stuffed for 512K, 1MB or 2MB RAM). Confusing, eh? Following is
what I've been able to decipher:
System Desc. Schematic Set Originally Revision Levels Dated
S4 CPU P5 1MB D-08-00225-00 20-May-1985 A: CO# 5197 20-May-85
B: CO# 5219 26-Jun-85
C: CO# 5318 1-Oct-85
D: CO# 5328 7-Oct-85
E: CO# 5393 8-Jan-86
F: CO# 5494 12-Jun-86
S4 CPU D-08-00230-00 9-Jan-1985 A: CO# 5189 1-May-85
B: CO# 5296 30-Sep-85
C: CO# 5331 7-Oct-85
D: CO# 5494 12-Jun-86
S4 CPU D-08-00222-00 9-Jan-1985 A: CO# 5095,5116 4-Jan-85
B: CO# 5118 21-Jan-85
C: CO# 5131 31-Jan-85
D: CO# 5153 28-Feb-85
E: CO# 5164,5165 8-Mar-85
F: CO# 5167 10-May-85
G: CO# 5166 28-May-85
H: CO# 5331 7-Oct-85
J: CO# 5494 12-Jun-86
The "CO# nnnn" are "Change Order number" revisions developed within CT's
engineering department. To date those have not been made public and there's
no (obvious) method of ascertaining them from notes on the schematics. The
point being: there are MANY different board variations that can be found in
the hands of 3B1 owners.
After some experimenting and taking some hints from "oblique" references to a
"DRUN patch", it became clear all the problems center on the ability of the
disk controller to reliably detect a sector "signature" arriving from the HD
and to perform the data-separation duties.
For those with the UNIXPC Reference Manual, you should read the description of
hard disk reading beginning on page 2-62 and pay attention to data separation
on page 2-65 and note "DRUN" on page 2-68. And you should grab sheet 12 from
ALL three schematic sets and do a "blink-comparison" (like astronomers do)
between all three sheets 12; you'll find that:
D-08-00225-00/Rev.F and D-08-00230-00/Rev.D are identical, and
D-08-00222-00/Rev.J has 4 substantial differences from the above.
The differences comprise:
1. source of input signal to [13N] 74123 pin 1
2. source of input signal to [13N] 74123 pin 2
3. value of R63, part of timing circuit input to [13N] 74123 pin 15
4. presence or absence of C252 in the vicinity of [17N] LF412
Now matters become interesting. Visual observation (again) in the vicinity of
the components listed above on boards that do function with a WD2010 revealed
NO obvious differences with boards that don't function with a WD2010. All
boards HAVE the C252 part, and the R63 part "appears" the same on all boards.
I found a person willing to sacrifice his system "for the cause" and I was
willing to "tinker" with one of mine. To keep a long story short, I was able
to get the "other" system to FINALLY work with a WD2010 in two-stages. The
first was to apply the alleged "DRUN patch" as previously posted to the net
over the years by others; this "almost" worked. The final stage was to replace
R63, and then everything worked properly with the WD2010 in a system that was
unable to function with one before. C252 was left in the circuit.
The "problem" with R63 was that it's a 1% precision resistor, and such a part
doesn't (usually) have color codes; its value is either written out (as in
"6.1K 1%") or encoded (as in "6811F"). If, during board stuffing, the part
is inserted with its code "down", it will not be possible to "read" the value.
The "problem" with the inputs to the [13N] 74123 was that any differences are
actually in the board and, thus, no tell-tale "funny little wires" are visible.
So, in overview, the complete and correct "DRUN patch" modification to a 3B1
motherboard which does function with a WD1010 but does not function with a
WD2010 is:
1. separate and lift [13N] 74123's pins 1 and 2 from the motherboard
2. run a wire from the lifted [13N] pin 1 to [13M] 74F10 pin 7 (ground)
3. run a wire from the lifted [13N] pin 2 to [13K] 26LS32 pin 3
4. replace R63 per:
original: 6.1K, 1%, 1/4W
new value: 4.75K, 1%, 1/4W
Parts list:
1. new 74123 (reason for this is described below)
2. 4.75K, 1%, 1/4 W precision resistor
3. less than one foot of 30ga "wire-wrap" wire for the two patches
In Silicon Valley, the parts' cost is approx. 40 cents for a 74123 and less
than 15 cents for the precision resistor.
In support of YOU making the changes on your system, I've attached to this
posting two shar'd ASCII picture datafiles produced using CDRAW 2.0 (available
free at osu-cis as pub/att7300/cdraw.cpio.Z [26,211 bytes]) per:
locator pictorial overview of 3B1 motherboard, with expanded
view of area containing the IC chips and R63
ic.pinnings depicts the IC pinouts of the 74123, 26LS32 and 74F10
chips, and depicts how the modified 74123 appears
To view the drawings, use cdraw's "preview" mode per: cdraw -p < filename
To print the drawings, simply enter "SHIFT PRINT" and a bit-mapped screen dump
will be queued to your (primary) printer.
Because of [13N] 74123's location, I strongly advise you to simply remove and
toss the original one, and replace it with a new one modified by having its
pins 1 and 2 exiting straight out from the IC body. The clearance in the area
around [13N] is very tight, and attempting to extract and lift two pins from
the board or to clip at the board and lift two pins risks damage both to the
chip and to the motherboard. Besides, the 74123 part is inexpensive and
replacing the chip takes but a few minutes and is safe and easy.
If you don't have a hand-pump-vacuum-solder-extractor or a "profesessional"
desoldering station available to you, the next easiest method is to clip each
lead at the IC (NOT at the board), then remove each pin separately from the
board, and clear out the holes with solder braid. For example:
____ clip leads at IC body
/
____________ /
__| |__
| |____________| |
____|__________________|_____
If you've any experience soldering, the modification should be easy and
straightforward. If you feel uncomfortable with this patch, contract a
service technician or seek the help of a capable friend.
If you've had no success with a WD2010 chip in your system before, you NEED to
make the changes as described above. I've already successfully modified two
systems (both were quite different) and you wouldn't believe the looks of
delight on their owners' faces!
Thad Floryan [ thad@cup.portal.com (OR) ..!sun!portal!cup.portal.com!thad ]
-------------------- begin enclosed material --------------------
---- Cut Here and unpack ----
#!/bin/sh
# This is a shell archive (shar 3.32)
# made 12/16/1990 10:46 UTC by thad@thadlabs
# Source directory /u/thad/wd2010
#
# existing files WILL be overwritten
#
# This shar contains:
# length mode name
# ------ ---------- ------------------------------------------
# 1959 -rw-r--r-- locator
# 4830 -rw-r--r-- ic.pinnings
#
if touch 2>&1 | fgrep 'amc' > /dev/null
then TOUCH=touch
else TOUCH=true
fi
# ============= locator ==============
echo "x - extracting locator (Text)"
sed 's/^X//' << 'SHAR_EOF' > locator &&
XCheap Draw
XRAM AREA
XVOL
XMotherboard
X::::::::::
X13K
X13M
X13N
X26LS32
X74F10
X74123
XR63
X^
XLOCATOR
X^
XThad Floryan, 15-Dec-1990
X
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SHAR_EOF
$TOUCH -am 1215061990 locator &&
chmod 0644 locator ||
echo "restore of locator failed"
set `wc -c locator`;Wc_c=$1
if test "$Wc_c" != "1959"; then
echo original size 1959, current size $Wc_c
fi
# ============= ic.pinnings ==============
echo "x - extracting ic.pinnings (Text)"
sed 's/^X//' << 'SHAR_EOF' > ic.pinnings &&
XCheap Draw
X1
X2
X3
X4
X5
X6
X7
X8
X9
X10
X11
X12
X13
X14
X15
X16
X26LS32
X74123
X74F10
XTOP VIEW
XMODIFIED 74123
XOther side's pins not shown
XIC PINNINGS
XThad Floryan, 15-Dec-1990
X
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SHAR_EOF
$TOUCH -am 1215213090 ic.pinnings &&
chmod 0644 ic.pinnings ||
echo "restore of ic.pinnings failed"
set `wc -c ic.pinnings`;Wc_c=$1
if test "$Wc_c" != "4830"; then
echo original size 4830, current size $Wc_c
fi
exit 0afc@shibaya.lonestar.org (Augustine Cano) (12/20/90)
In article <37026@cup.portal.com> thad@cup.portal.com (Thad P Floryan) writes: >... >In support of YOU making the changes on your system, I've attached to this >posting two shar'd ASCII picture datafiles produced using CDRAW 2.0 (available >free at osu-cis as pub/att7300/cdraw.cpio.Z [26,211 bytes]) per: Gread idea! I vote to make cdraw 2 the standard for unix pc pictorial information exchange. From now on, we won't have to settle for ascii pictures. >Thad Floryan [ thad@cup.portal.com (OR) ..!sun!portal!cup.portal.com!thad ] -- Augustine Cano INTERNET: afc@shibaya.lonestar.org UUCP: ...!{ernest,egsner}!shibaya!afc
res@cbnews.att.com (Robert E. Stampfli) (12/20/90)
Question: We bought two WD2010 chips in Thad's sale. On trying them in several intended machines, we discovered one consistently did not work at all, while the other performed perfectly. Is there a reasonable chance that applying this fix would allow us to use the "bad" 2010? Frankly, I don't want to delve into this unless there is a reasonable chance of success. -- Rob Stampfli 614-860-4268 (work) 614-864-9377 (home) kd8wk@n8jyv.oh (ham) stampfli@att.com osu-cis!kd8wk!res
thad@cup.portal.com (Thad P Floryan) (12/22/90)
One minor typo appears twice in the "report" I posted re: the fixes required
for using a WD2010 in a recalcitrant 3B1:
whereever you see "6.1K", replace that with "6.81K" (in reference to
the OLD resistor to be replaced)
Also, I just today saw, for the first time, a fairly "new" 3B1 motherboard at
Rev. level H which, from the factory, had the full and complete "DRUN Patch"
installed exactly as I described it. Two points:
1) the new 1% precision resistors on the motherboard DO have the
traditional color coding!
2) this motherboard did NOT have C252. It was omitted by the factory;
wouldn't worry about this, as those on which I left the C252 work
just fine.
Glad to hear my use of "CDraw 2.0" was a neat idea! One comment: it, like the
"Tetrix"-clone, leave the 3B1 console keyboard in a "weird" state regarding
the use of ESCape key ... this only affects those who use ksh in emacs mode
for either filename completion or for ESCape sequences to move back-and-forth
in the line. In other words, if you run either CDraw or Tetris, each ESCape
you type comes into the system as TWO escapes. Comparing the "before" and
"after" ``stty -a'' shows no obvious problem, but a minor problem it is;
solution is to log out and then log back in. Weird.
And, finally:
res@cbnews.att.com (Robert E. Stampfli)
in <1990Dec20.041624.3329@cbnews.att.com> writes:
Question: We bought two WD2010 chips in Thad's sale. On trying them
in several intended machines, we discovered one consistently did not
work at all, while the other performed perfectly. Is there a
reasonable chance that applying this fix would allow us to use the
"bad" 2010? Frankly, I don't want to delve into this unless there is
a reasonable chance of success.
I didn't mean to imply that NO chips (from the group buy) were bad, only that
the several returned for testing DID, in fact, work OK on a system that would
"take" a WD2010. From Bob's description it would appear that, in fact, he
does have a bad chip. Sigh. I'll see if I can round up some more, but no
promises.
Thad Floryan [ thad@cup.portal.com (OR) ..!sun!portal!cup.portal.com!thad ]dave@galaxia.Newport.RI.US (David H. Brierley) (12/27/90)
In article <37154@cup.portal.com> thad@cup.portal.com (Thad P Floryan) writes: >Glad to hear my use of "CDraw 2.0" was a neat idea! One comment: it, like the >"Tetrix"-clone, leave the 3B1 console keyboard in a "weird" state regarding >the use of ESCape key ... this only affects those who use ksh in emacs mode I have also had this problem (well, I would assume that *all* of us have had this problem) and since I could not easily figure out how to solve it I figured out an easy way around it. Whenever I want to run tetrix or cdraw or any other program that exhibits this behaviour, I use "windy -b" so that the program is running in its own window, unrelated to my main window. This also has the advantage of being able to switch back to the other window and do things. -- David H. Brierley Home: dave@galaxia.Newport.RI.US Work: dhb@quahog.ssd.ray.com Can I be excused, my brain is full.