jbm@uncle.UUCP (John B. Milton) (10/19/88)
I see you're all still out there. First thing's first. If you have ANY ideas for hardware enhancements, e-mail them off to me. Let me know about any special deals for hardware that give you the idea and all possible uses you can think of. You will get credit for your idea in the form of recognition, but that's all! If I sell it and make $1M, tough luck. No flames, please. I doubt if anyone would send me any earth shaking ideas. What I'm looking for are things like "Why don't you make a board using the new XYZ graphics/hard-disk/tape/floppy/short-wave chip" Well, I figured out how to get the newer generation UNIXpc mother board working with a second hard drive. The problem is this discrepancy in the schematics. The reference manual has two copies of the schematics, with assorted changes between the two. The older of the two is not as old as the board I first did the upgrade on. The problem is the DRUN pin going to the WD1010-05. This pin needs to have a signal from an external one-shot which is triggered whenever a pair of one or zero bits (the same in MFM) comes in from the drive. The one shot does this by triggering on the data signal from the 26LS32 being low for 250ns. This separate detector is needed because the PLL (Phase Locked Loop) data separator is not turned on yet. Once the HDC detects 8 cycles on the DRUN pin, it thinks it has found an address mark and drives the RG (Read Gate) pin to activate the external PLL. Once it does that, it can start interpreting the data from the drive and start looking for sector headers. Apparently on the old board the data signal sent to the one-shot came from after the PAL, so it got there no matter which drive is active. The newer board I just upgraded DOES match the schematics. The data signal goes straight from the 26LS32 to the one-shot. They must have had some kind of delay or stability problem going through the PAL and switched over to the raw data. To fix the problem I had to find some way to switch which drive data is being sent to the one-shot. It turns out there is a spare 3 input NAND gate at 13M (pins 3,4,5,6). That must be it, 'cause it works! The important question is whether or not there are any more incompatibilties waiting out there. I guess the next thing is to put together a prototype daughter board so I can get all the details nailed down. I am still considering putting the watchdog circuit on the daughter board. On the 1.2M floppy. Convergent cheaped out here and went with the 2797 rather than the 2793. The reason being that they got a Side Select Output pin. What they traded was an internal clock divide pin. This means that the clock to the 2797 has to be externally changed from 1MHz to 2MHz when going to high density. The VCO filter circuit (on the PUMP pin) also needs to be affected. There are several little triangle notes around the FD about not using the 2797, but that would present another bunch of problems, ending in software. Fortunately there is a 2MHz clock available. I think a flip flop, an open collector buffer, a resistor and a latch should do it. The latch is already in my current design for the second hard drive upgrade... An interesting note: I just looked at the schematics for the floppy tape board. They run the WD2797 in high density mode. The analog stuff on RPW, WPW, VCO and PUMP is different. They do have a 2 MHz clock. Hmm. I suppose what one could do would be to permanently modify the FDC to do high density by just copying the stuff from the floppy tape. As long as you still have access to a system with a low density setup you could access low density disks. With a 1.2M disk you could mount the floppy on /usr/spool/news and expire once an hour :) Next time: 4M machine with a 1.5M Combo card (maybe) John -- John Bly Milton IV, jbm@uncle.UUCP, n8emr!uncle!jbm@osu-cis.cis.ohio-state.edu home (614) 294-4823, work (614) 764-4272; Send vi tricks, I'm making a manual
jan@bagend.UUCP (Jan Isley) (10/20/88)
On "All right! and 1.2M floppies; HwNote05", jbm@uncle.UUCP (John B. Milton) writes: >On the 1.2M floppy. Convergent cheaped out here and went with the 2797 rather >than the 2793. The reason being that they got a Side Select Output pin. What >they traded was an internal clock divide pin. >... >I suppose what one could do would be to permanently modify the FDC to do high >density by just copying the stuff from the floppy tape. As long as you still >have access to a system with a low density setup you could access low density >disks. With a 1.2M disk you could mount the floppy on /usr/spool/news and >expire once an hour :) Yup, John, it didn't work. Just tying the !5/8 pin to +5V hung the drive up. I was trying the simple fix about the time you were posting this. Having tried the simple stuff, I'll go for the soldering iron again in a few days. This can work, it may or may not be easy (read: may or may not require use of a scope to fiddle with to frequency to drive the floppy etc...) BUT...it will work. The question is, is it worth it? I can buy new name brand 1.2M drives all day long for $80 or so, the disks cost about $0.75 each in bulk, more if you love to waste money. So, you have to buy a drive and the disks cost around 3 times as much as DSDD, but they hold 3 times the data. AND, they may not take 3 times longer to read and write! Want proof? Next paragraph please. I have had a Mac since 84 so I am used to the slightly higher price for those cute little 3.5 inch disks. Currently, I'm paying $11 to $12 for a box of 10. If you are paying more, ask the sales person if it was good for them too. What does this have to do with unix-pc.general? I have had a 3.5 inch floppy drive in my system for over two months now and it is working great. Watch this: iv -vt /dev/rfp020 Floppy disk Volume Name: Floppy 80 Cylinders. 2 Heads per Cylinder. There are 10 Physical Sectors (of 512 bytes) per Track. 20 Physical Sectors per Cylinder, 1600 Physical Sectors per Disk. There are 5 Logical Blocks (of 1024 bytes) per Track. 10 Logical Blocks per Cylinder, 800 Logical Blocks per Disk. The Floppy is Single density The Step Rate supplied to the Controller is 0. Partition 0: start Track=0, size (in Blocks)=5 Partition 1: start Track=1, size (in Blocks)=795 ---------------------------------------------^^^ = 395 for an fdfmt10.nl disk! Yea, 795k on a floppy that I can put in my pocket. No, I have not timed it with a stopwatch but it really does not seem to take any longer to format or cpio to than a 5.25 inch disk. 1.2M drives are also lots faster than 360k drives. No, a 1.44M drive does not work for the same reasons as the 1.2M, I tried. More to come on both drives. Right now, the 3.5" drive is in the machine with a cable running out the back to the stock 5.25" drive. I have a switch rigged on the floppy cable so I can manually select which drive to talk to...not pretty, but effective. This could be done up for a whole variety of floppy drives. Now if someone wants to write a new gdisk for this thing, maybe we could have more than 1 floppy working at a time. Read in /usr/include/sys/gdisk.h: #define DISKS 3 /* the number of disks on s4 */ Ouch! We already know that 2 of those 3 are hard disks (thanks John!) There seems to be no mechanism for drive select in the software or hardware, but then I am not a unix person (yet) anyway, it may be there and I missed it. It sure isn't in the hardware. Anyone seen a drive select? To use the 3.5" drives, just take the 5.25 drive out and replace it, simple. Then you can add these files to help with formatting: #-------------------- # /usr/bin/fdfmt35.nl iv -i /dev/rfp020 /usr/lib/iv/FD35nl mkfs /dev/fp021 dismount -f > /dev/null 2>&1 or for adding a loader, replace the first 2 lines with either of these: #-------------------- # /usr/bin/fdfmt35.sl <---silent loader iv -i /dev/rfp020 /usr/lib/iv/FD35sl #-------------------- # /usr/bin/fdfmt35.vl <---verbose loader iv -i /dev/rfp020 /usr/lib/iv/FD35vl You may notice that these are just modified copies of /usr/bin/fdfmt??.?? And while you are copying files, add these in /usr/lib/iv/FD???? #------------------- # /usr/lib/iv/FD35nl # iv description for 3.5 inch 96 TPI Floppy file system disk w/o loader type FD name Floppy cylinders 80 <--- we changed this to 80! heads 2 sectors 10 <--- why can't this be more than 10??? steprate 0 <--- we cannot change this anyway singledensity <--- changing this is no help, to bad! $ $ $ 0 1 $ $ for the sl and vl stuff add these lines to the above: #------------------- # /usr/lib/iv/FD35sl # iv description for 3.5 inch 96 TPI Floppy file system disk w/silent loader # #...same as above but change the last 7 lines to read: # loader /usr/lib/iv/s4load.silent $ $ 0 7 <--- got to make more room for the loader here $ $ #------------------- # /usr/lib/iv/FD35vl # iv description for 3.5 inch 96 TPI Floppy file system disk w/verbose loader # #... same as example #2 above but instead of s4load.silent, we add: # loader /usr/lib/iv/s4load.verbose If you use the user agent you could add the 3.5" selections to the menu if you really want to take more time to format disks :-) >Next time: 4M machine with a 1.5M Combo card (maybe) Going to change the address select on a .5M expansion card??? Should make mine worth a few dollars more now |-) maybe I'll sell it. Jan Isley, follower of Zen, picker of nit h(404) 434-1335 jan@bagend.UUCP, [...gatech...]!bagend!jan w(404) 263-9200 ext4282 -------------------------------------------------------------------------- Opinions are like ---holes, everybody has at least one and they all stink, except mine. The ones expressed on my computer ARE mine. --------------------------------------------------------------------------
tkacik@rphroy.UUCP (Tom Tkacik) (10/21/88)
In article <368@uncle.UUCP> jbm@uncle.UUCP (John B. Milton) writes: >First thing's first. If you have ANY ideas for hardware enhancements, e-mail >them off to me. Let me know about any special deals for hardware that give you >the idea and all possible uses you can think of. You will get credit for your >idea in the form of recognition, but that's all! >-- >John Bly Milton IV, jbm@uncle.UUCP, n8emr!uncle!jbm@osu-cis.cis.ohio-state.edu >home (614) 294-4823, work (614) 764-4272; Send vi tricks, I'm making a manual Fair enough. I would like to put a floating point chip in my machine. It is just too slow without it. It's embarassing to get beaten by XT's and turbo-amigas, etc. I think the hardware should be fairly easy. Either an internal daughter board, or an expansion board, along with all of the disk drive circuits. The software will be the tricky part. First the math libraries will need to be re-written, and made compatible with the existing ones. Should not be to bad, as the unixpc seems to use the IEEE floating point format. But, then the kernal would have to be modified to save the state of the math chip (68882, or maybe Wietek chipset), with each process swap. Can that be done by us mear mortals who do not have the source code? Or maybe, a process can lock the math chip, like it does with the floppy. Only one process at a time can use it. But what a waste. Any further ideas, folks.
tkacik@rphroy.UUCP (Tom Tkacik) (10/21/88)
In article <368@uncle.UUCP> jbm@uncle.UUCP (John B. Milton) writes: >I see you're all still out there. > >-- >John Bly Milton IV, jbm@uncle.UUCP, n8emr!uncle!jbm@osu-cis.cis.ohio-state.edu >home (614) 294-4823, work (614) 764-4272; Send vi tricks, I'm making a manual Sorry about that. I left my signature off the last message. Here's who I am. --- Tom Tkacik GM Research Labs Warren MI {umix!, uunet!edsews}!rphroy!megatron!tkacik {umix!, uunet!edsews}!rphroy!tetnix!tet
dave@dms3b1.UUCP (Dave Hanna) (10/21/88)
In article <281@bagend.UUCP> jan@bagend.UUCP (Jan Isley) writes: [ discussion of substituting 3.5 inch drive for 5.25 , and how to format for 800 sectors ] >You may notice that these are just modified copies of /usr/bin/fdfmt??.?? >And while you are copying files, add these in /usr/lib/iv/FD???? >#------------------- ># /usr/lib/iv/FD35nl ># iv description for 3.5 inch 96 TPI Floppy file system disk w/o loader >type FD >name Floppy >cylinders 80 <--- we changed this to 80! >heads 2 >sectors 10 <--- why can't this be more than 10??? ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ >steprate 0 <--- we cannot change this anyway >singledensity <--- changing this is no help, to bad! You can't have more than 10 sectors because that's all that will fit on the drive, given data transfer rates (250K bits/second) and rotational speeds (5 rps ), and the requirement for inter - sector gaps to allow for instantaneous speed variations. (Note: Amiga gets 11 sectors per track, but they do it by writing entire tracks at a time, eliminating the requirement for intersector gaps. I think they also use gcr instead of MFM.) >Jan Isley, follower of Zen, picker of nit h(404) 434-1335 Dave Hanna -- Dave Hanna, Daltech MicroSystems | "Do or do not -- There is no try" P.O. Box 584, Bedford, TX 76095 | - Yoda (214) 358-4534 (817) 540-1524 | UUCP: ...!killer!gtmvax!dave |
gbh@juniper.uucp (Geoffrey B Hoese) (10/22/88)
In article <281@bagend.UUCP> jan@bagend.UUCP (Jan Isley) writes: >[ discussion of substituting 3.5 inch drive for 5.25 , >and how to format for 800 sectors ] I've tried this, thinking it would work, but no luck. iv reports an i/o error, and a message stating that "...Drive door open or no disk in drive..." is sent to /dev/error. The drive select light does come on, though, and the motor spins, also the head retracts to trk. 0 when iv starts. This doesn't work when the drive select jumper is set to 1, so I assume the machine is looking for d0. I'm using a teac drive, model FD-135FN-75-U. Is there something about this drive (a jumper, perhaps?) that needs to be set? (I have tried various jumper settings, but, alas, no docs) Alternately, is there a difference between motherboards that could be responsible? I don't know specifically what motherboards are out there, but if it helps, mine's a 7300 with 512K from DDS. I'm waiting for a good way to upgrade memory without desoldering all those chips, and quickly pulled the 10mb drive and put in a 30mb cdc in an external case. Excellent speed improvement there, how much does memory help the speed here? (give it a 10-scale). Thanks in advance, Geoff Hoese -- Geoffrey Hoese gbh@juniper.UUCP 2105 Arpdale {allegra,ctvax,im4u}!ut-sally!ut-emx!juniper!gbh Austin, TX 78704 (512) 445-4786 (sometimes voice, sometimes data)
gbh@juniper.uucp (Geoffrey B Hoese) (10/22/88)
a couple more comments regarding 3.5" disk not working - I'm running 3.0 - is iv or /dev/rfp020 different as compared to 3.51? Motherboard I.D. - I don't know if this matters, but the following info is from the m.b. - (at rear corner under FD) (items in parens are on stickers, the rest is masked) S4 CPU PCA D(60-00222)6-00 REV (PCT 3125) (at front corner, near p.s. cable) (REV B) REV 00030676 <- this is bar coded also, another question - has anybody ran a faster clock in the 7300/3b1? I've been tempted to try; I have a device made for an AT that synthesises (sp?) a clock signal switchable from 8 to 12 mHz. Although two mHz increase may not be much, I'd like to know if anyone has tried that or higher speeds, and where the thing seemed to fall apart. I'd think that the logic shouldn't be running at its upper limit as is, so something more should be able to be squeezed out of it. Thanks again, Geoff Hoese -- Geoffrey Hoese gbh@juniper.UUCP 2105 Arpdale {allegra,ctvax,im4u}!ut-sally!ut-emx!juniper!gbh Austin, TX 78704 (512) 445-4786 (sometimes voice, sometimes data)
darren@bacchus.UUCP (Darren Friedlein) (10/22/88)
In article <5748@juniper.uucp> gbh@juniper.UUCP (Geoffrey B Hoese) writes: >In article <281@bagend.UUCP> jan@bagend.UUCP (Jan Isley) writes: >>[ discussion of substituting 3.5 inch drive for 5.25 , >>and how to format for 800 sectors ] > > I've tried this, thinking it would work, but >no luck. iv reports an i/o error, and a message stating >that "...Drive door open or no disk in drive..." is sent >to /dev/error. The drive select light does come on, though, >and the motor spins, also the head retracts to trk. 0 when >iv starts. This doesn't work when the drive select jumper >is set to 1, so I assume the machine is looking for d0. ... >-- > >Geoffrey Hoese gbh@juniper.UUCP >2105 Arpdale {allegra,ctvax,im4u}!ut-sally!ut-emx!juniper!gbh >Austin, TX 78704 (512) 445-4786 (sometimes voice, sometimes data) It sounds like pin 34 on that drive has been disconnected. There's a jumper on some drives (I think TEAC labels it XT) that must be connected for the drives to work on the UNIXpc (or a PC/XT). If you can't find the appropriate jumper and you have a multimeter, set it for resistance, place one lead on pin 34 (this is on the card-edge connector - back of the drive), and test the jumper pins until you find one with no resistance. Jumper this one. If there are three pins, move the jumper to connect the middle pin to the one connected to pin 34. If you're still having problems after this, let me know. -darren ____ / \ | Rt 4, Box 416, Durham, NC 27703 _____|_____ Darren G. Friedlein data (bacchus) : 919/596-7746 / | \ voice : 919/596-9492 ( | ) \____/ __/ {mcnc|icus|ditka|ethos|gladys|bakerst}!bacchus!darren
pdb@sei.cmu.edu (Patrick Barron) (10/23/88)
In article <3462@rphroy.UUCP> tkacik@rphroy.UUCP (Tom Tkacik) writes: >Fair enough. I would like to put a floating point chip in my machine. It is >just too slow without it. It's embarassing to get beaten by XT's and >turbo-amigas, etc. Unix 3.51 seems to have some support for an FPA (at least, there's an fpa.o loadable device driver in /etc/lddrv). Does anyone know any details about this (like, what FPA it supports, and stuff like that)? --Pat.