Difference between revisions of "RK11 disk controller"
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− | The '''RK11''' series of controllers for the [[UNIBUS]] and [[QBUS]] are for the earlier RK moving-head magnetic disk | + | The '''RK11''' and '''RKV11''' series of controllers for the [[UNIBUS]] and [[QBUS]] are for the earlier RK moving-[[head]] [[magnetic storage|magnetic]] [[disk]] [[drive]]s ([[RK02/03 disk drive|RK02]]-[[RK05 disk drive|RK05]]), all based on the [[IBM 2315]] drive and pack. |
+ | |||
+ | (The later [[RK06/07 disk drive|RK06 and RK07]], and their controller, the [[RK611]], are a different and entirely incompatible drive and pack.) | ||
There are several models of the RK11, which are basically identical in their programming interface; differences between them are discussed in the sections on the individual models (below). | There are several models of the RK11, which are basically identical in their programming interface; differences between them are discussed in the sections on the individual models (below). | ||
− | The UNIBUS RK11's all connect to the RK drive through a [[BC11A]] cable, the standard UNIBUS cable. | + | The UNIBUS RK11's all connect to the RK drive(s) through a [[bus]] carried over a [[BC11A]] cable, the standard UNIBUS cable. |
+ | |||
+ | ==Early RK11 version== | ||
+ | |||
+ | Although the [[RK11-C disk controller|RK11-C]] (below) is the earliest documented version, there are a few clues which indicate that there was an earlier version (one for which no documentation remains). | ||
+ | |||
+ | First, there is an image of a [[DEC indicator panel]] (image [http://ana-3.lcs.mit.edu/~jnc/tech/pdp11/jpg/panels/RK11B.jpg here]) which seems to be from a pre-RK11-C; it clearly seems to be an RK11 panel of some sort, but the pinout of the RK11-C indicator panel connector (engineering drawing "RK11-C Indicator Connectors: RK11-C-23") has differences with this one. | ||
+ | |||
+ | In particular, on the panel in the image, the lower right line of lights on the panel shows 3 bits of Major State; on the RK11-C prints (on connector B32) there are 5 individual bits (Postamble, Checksum, Data, Header, Preamble). To explore this further, on the "Major States" RK11-C drawing (RK11-C-04), in the upper left corner, there is a row of 6 flops, each labeled with one of those states (plus one for 'Idle'), arranged in a chain - the output of each driving an individual light. However, the 3 bits for 'Major State' on the display panel imply it is binary coded - likely implemented with a counter. | ||
+ | |||
+ | Also, the signal "COUNT MSR" (likely 'Major State Register') is exactly what one would expect to see if the major state had previously been held in a counter, not a string of flops. It makes no sense to expend the effort synthesize that signal (on the next page, RK11-C-05, "MSR Control") when the individual signals which go into it could have been used, as is, to clock each flop in the chain. | ||
+ | |||
+ | A reasonable ''guess'', in light of these facts, is that in some previous version, a counter had been used, but had had a problem of some sort, and had therefore been replaced by the string of flops. (The reason is unknown, but perhaps it was a binary counter, not [[Gray code]], and the decoding into states was producing glitches.) | ||
+ | |||
+ | A plausible scenario is that such an earlier version was produced in very small numbers - perhaps as prototypes, only internal to DEC. (If there had been problems discovered with glitches in the major state counter, they would not have wanted to release it as a product.) Or if it was released as a product, perhaps they were all recalled and replaced with RK11-C's. | ||
+ | |||
+ | In this regard, it is interesting to note the DEC ''Spare Module Handbook'', lists only the RK11-C and -D, but '''does''' list the [[KT11-B]], a ''rara avis'' indeed. This argues that the predecessor did not exist 'in the wild'. | ||
==RK11-C== | ==RK11-C== | ||
− | Like many of the earlier large peripheral controllers for the [[PDP-11]], the RK11-C was a large custom [[wire-wrap]]ped [[backplane]] which bolts into the front of a 19 inch rack, such as an [[H960]]; into it plugged about 40 small M-Series [[FLIP CHIP]]s. | + | {{Main article | RK11-C disk controller}} |
+ | |||
+ | Like many of the earlier large peripheral controllers for the [[PDP-11]], the RK11-C was a large custom [[wire-wrap]]ped [[backplane]] which bolts into the front or back of a 19 inch rack, such as an [[H960 rack|H960]]; into it were plugged about 40 small M-Series [[FLIP CHIP]]s. | ||
− | The | + | The RK11-C supports up to 4 drives per device bus (it uses 4 different 'select' lines on the bus, one of which is asserted at a time), and has two device busses. |
==RK11-D== | ==RK11-D== | ||
− | The RK11-D was a | + | The RK11-D was a re-implementation of the RK11-C on four [[DEC card form factor|quad]] cards (M7254-7), which plugged into a custom-wired 4 slot hex-high [[system unit]] [[backplane]], for a [[BA11 mounting boxes|BA11]] slide-out mounting box. |
+ | |||
+ | It was [[program compatible]] with the RK11-C, except that the RK11-D did not contain the Maintenance Register of the earlier controller. In the RK11-D, the bus location of the MR responds, but according to the engineering drawings, it reads as zero, and written data is ignored. | ||
+ | |||
+ | The RK11-D supports up to 8 drives per device bus (it uses 3 'select' lines on the bus, with the drive number encoded in binary), and has only one device bus. | ||
− | + | The RK11-D also has a 6-word [[First-In First-Out buffer|FIFO buffer]] between the disk and the bus (see sheet 7 of the M7256 engineering drawings). The original RK11-C had only one word of buffering, which was probably not enough, and likely the reason for the [[RK11-C disk controller#Double Buffered RK11-C|double-buffered RK11-C version]]. | |
==RK11-E== | ==RK11-E== | ||
− | The RK11-E | + | The RK11-E (sometimes called the RK15) was a variant of the RK11-D which supported 18-bit data; it was used with the [[PDP-15]]. It used the same cards as the RK11-D, with a jumper selection for 18-bit operation, and a different clock crystal. |
+ | |||
+ | It was used with the [[UNICHANNEL 15 System|UC15 Unichannel]], which used a PDP-11 (usually a [[PDP-11/05]]) acting as a slave to the PDP-15; the RK11-E was plugged into the UNIBUS on the PDP-11. | ||
+ | |||
+ | It used the two [[UNIBUS parity]] lines for the two extra data bits on the 18-bit PDP-15. The two extra bits were not used by the PDP-11 or its memory, but went straight through the [[MX15-B Memory Multiplexer]], directly to the PDP-15's [[main memory]]. | ||
==RKV11-D== | ==RKV11-D== | ||
Line 25: | Line 53: | ||
The RKV11-D is a variant of the RK11-D for the QBUS (the others are all UNIBUS). | The RKV11-D is a variant of the RK11-D for the QBUS (the others are all UNIBUS). | ||
− | It uses three of the four cards of the RK11-D (M7254-6), along with a different custom | + | It uses three of the four quad cards of the RK11-D (M7254-6), along with a replacement fourth card (M7268), in a different custom 4 slot quad-high system unit backplane. The M7268 is connected via two pairs of [[flat cable]]s to two dual cards, one of which (M7269) plugs into a QBUS backplane slot, and the other (M993-YA) into the first RK05 drive. |
− | It is | + | It is program compatible with the RK11-D, except that it only supports [[Q16]] QBUS mode when writing data. The two extended memory bits in the CSR have no effect; they may be read and written, but are not connected to anything. |
==Device registers== | ==Device registers== | ||
Line 50: | Line 78: | ||
|Data Buffer Register || RKDB || 777416 | |Data Buffer Register || RKDB || 777416 | ||
|} | |} | ||
+ | |||
===777400: Drive Status Register (RKDS)=== | ===777400: Drive Status Register (RKDS)=== | ||
{{16bit-header}} | {{16bit-header}} | ||
− | | colspan=3 | Drive | + | | colspan=3 | Drive ID || DPL || RK05 || DRU || SIN || SCOK || DRY || R/W/S Ready || WPS || SC=CA || colspan=4 | Sector Counter |
− | {{ | + | {{16bitoctal-bitout}} |
+ | |||
+ | Note that in the '''''diagram''''' of this register in the 'peripherals handbook' (both 1975 and 1976 editions), bits 7 and 6 are labelled incorrectly; the ''table'' which lists the bits has them correctly. | ||
+ | |||
+ | (To confirm this, consult the RK11-D print set, M7254 page 3; the dual 4->1 muxes which fill this page are the source of the RKDS, RKER, etc registers.) | ||
+ | |||
+ | The name of bit 6 has changed slightly from the RK11-C to the -D ("Access Ready" to "R/W/S Ready"), but it seems to be basically the same functionality. | ||
===777402: Error Register (RKER)=== | ===777402: Error Register (RKER)=== | ||
Line 61: | Line 96: | ||
{{16bit-header}} | {{16bit-header}} | ||
| DRE || OVR || WLO || SKE || PGE || NXM || DLT || RTE || NXD || NXC || NXS || colspan=3 | || CSE || WCE | | DRE || OVR || WLO || SKE || PGE || NXM || DLT || RTE || NXD || NXC || NXS || colspan=3 | || CSE || WCE | ||
− | {{ | + | {{16bitoctal-bitout}} |
===777404: Control Status Register (RKCS)=== | ===777404: Control Status Register (RKCS)=== | ||
{{16bit-header}} | {{16bit-header}} | ||
| ERR || H.E. || SCP || M || IBA || FMT || R/WA || SSE || RDY || IDE || colspan=2 | EX. MEM || colspan=3 | FUNCTION || GO | | ERR || H.E. || SCP || M || IBA || FMT || R/WA || SSE || RDY || IDE || colspan=2 | EX. MEM || colspan=3 | FUNCTION || GO | ||
− | {{ | + | {{16bitoctal-bitout}} |
+ | |||
+ | Bit 9 is"Read/Write All" in the RK11-C, and unused in the -D; bit 12 is "Maint" in the -C, and unused in the -D. | ||
+ | |||
+ | {| class="wikitable" | ||
+ | ! Command !! Code || In CSR | ||
+ | |- | ||
+ | | Reset Controller || 0 || 0 | ||
+ | |- | ||
+ | | Write || 1 || 02 | ||
+ | |- | ||
+ | | Read || 2 || 04 | ||
+ | |- | ||
+ | | Write Check || 3 || 06 | ||
+ | |- | ||
+ | | Seek || 4 || 010 | ||
+ | |- | ||
+ | | Read Check || 5 || 012 | ||
+ | |- | ||
+ | | Reset Drive || 6 || 014 | ||
+ | |- | ||
+ | | Write Lock || 7 || 016 | ||
+ | |} | ||
===777406: Word Count Register (RKWC)=== | ===777406: Word Count Register (RKWC)=== | ||
{{16bit-header}} | {{16bit-header}} | ||
| colspan=16 | WC15 <---> WC00 | | colspan=16 | WC15 <---> WC00 | ||
− | {{ | + | {{16bitoctal-bitout}} |
===777410: Current Bus Address Register (RKBA)=== | ===777410: Current Bus Address Register (RKBA)=== | ||
{{16bit-header}} | {{16bit-header}} | ||
− | | colspan= | + | | colspan=15 | BA15 <---> BA01 || Unused |
− | {{ | + | {{16bitoctal-bitout}} |
===777412: Disk Address Register (RKDA)=== | ===777412: Disk Address Register (RKDA)=== | ||
{{16bit-header}} | {{16bit-header}} | ||
| colspan=3 | DRIVE SELECT || colspan=8 | CYLINDER ADDRESS || SUR || colspan=4 | SECTOR ADDRESS | | colspan=3 | DRIVE SELECT || colspan=8 | CYLINDER ADDRESS || SUR || colspan=4 | SECTOR ADDRESS | ||
− | {{ | + | {{16bitoctal-bitout}} |
===777414: Maintenance Register (RKMR)=== | ===777414: Maintenance Register (RKMR)=== | ||
{{16bit-header}} | {{16bit-header}} | ||
| M. RCP || M. RDP || M. SPS || M. ADA || M. LAI || colspan=3 | || M. DRY || M. R/W/S || colspan=2 | || colspan=4 | MAINT. SECTOR COUNTER | | M. RCP || M. RDP || M. SPS || M. ADA || M. LAI || colspan=3 | || M. DRY || M. R/W/S || colspan=2 | || colspan=4 | MAINT. SECTOR COUNTER | ||
− | {{ | + | {{16bitoctal-bitout}} |
+ | |||
+ | This register is not present in the RK11-D; it reads as 0, and writes to it are discarded. | ||
===777416: Data Buffer Register (RKDB)=== | ===777416: Data Buffer Register (RKDB)=== | ||
{{16bit-header}} | {{16bit-header}} | ||
| colspan=16 | DB15 <---> DB00 | | colspan=16 | DB15 <---> DB00 | ||
− | {{ | + | {{16bitoctal-bitout}} |
==PDP-11 bootstraps== | ==PDP-11 bootstraps== | ||
Line 97: | Line 156: | ||
===Disk 0=== | ===Disk 0=== | ||
− | |||
{| border=1 | {| border=1 | ||
! Address !! Data !! Mnemonic !! Description | ! Address !! Data !! Mnemonic !! Description | ||
|- style="background-color: #ccccdd;" | |- style="background-color: #ccccdd;" | ||
− | |1000||012700||MOV #177406,R0 ||Move | + | |1000||012700||MOV #177406,R0 ||Move the address of the Word Count register into R0 |
|- style="background-color: #ccccff;" | |- style="background-color: #ccccff;" | ||
|1002||177406|| || (constant) | |1002||177406|| || (constant) | ||
|- style="background-color: #ccccdd;" | |- style="background-color: #ccccdd;" | ||
− | |1004||012710||MOV #177400,(R0) ||Move | + | |1004||012710||MOV #177400,(R0) ||Move block size (negative) into Word Count register |
|- style="background-color: #ccccff;" | |- style="background-color: #ccccff;" | ||
|1006||177400|| || (constant) | |1006||177400|| || (constant) | ||
|- style="background-color: #ccccdd;" | |- style="background-color: #ccccdd;" | ||
− | |1010||012740||MOV #5,-( | + | |1010||012740||MOV #5,-(R0) ||Move 'Read Go' command into CSR |
|- style="background-color: #ccccff;" | |- style="background-color: #ccccff;" | ||
|1012||000005|| || (constant) | |1012||000005|| || (constant) | ||
|- style="background-color: #ccccdd;" | |- style="background-color: #ccccdd;" | ||
− | |1014||105710||TSTB (R0) ||Test | + | |1014||105710||TSTB (R0) ||Test for 'Done' bit in CSR |
|- style="background-color: #ccccff;" | |- style="background-color: #ccccff;" | ||
− | |1016||100376||BPL 1014 ||Jump backward if | + | |1016||100376||BPL 1014 ||Jump backward if not set |
|- style="background-color: #ccccdd;" | |- style="background-color: #ccccdd;" | ||
− | |1020||005007||CLR PC || | + | |1020||005007||CLR PC ||Start loaded bootstrap with jump to 0 |
|} | |} | ||
+ | |||
+ | Note that the INIT pulse caused by hitting the 'Start' button will clear the Bus Adddress register, so the loaded block will be placed at location 0. | ||
===Disk ''n''=== | ===Disk ''n''=== | ||
Line 180: | Line 240: | ||
</table> | </table> | ||
− | == | + | ==External links== |
− | [http:// | + | |
+ | * [http://www.bitsavers.org/www.computer.museum.uq.edu.au/pdf/DEC-11-HRKDA-B-D%20RK11D%20and%20RK11-E%20Moving%20Head%20Disk%20Drive%20Controller%20Manual.pdf RK11-D and RK11-E moving head disk drive controller manual] (DEC-11-HRKDA-B-D) | ||
+ | * [http://www.bitsavers.org/www.computer.museum.uq.edu.au/pdf/EK-RK11D-OP-001%20RK11-D%20and%20RK11-E%20Moving%20Head%20Disk%20Drive%20Controller%20User's%20Manual.pdf RK11-D and RK11-E moving head disk drive controller user's manual] (EK-RK11D-OP-001) | ||
+ | * [http://www.bitsavers.org/pdf/dec/unibus/EK-RK11D-MM-002.pdf RK11-D and RK11-E moving head disk drive controller manual] (EK-RK11D-MM-002) | ||
+ | * [http://www.bitsavers.org/pdf/dec/qbus/EK-RKV11-OP-001_RKV11-D_Disk_Drive_Controller_Users_Manual_Jul1977.pdf RKV11-D disk drive controller user's manual] (EK-RKV11-0P-001) | ||
+ | * [http://www.bitsavers.org/pdf/dec/unibus/RK11-D_RevP_Engineering_Drawings_Oct75.pdf RK11-D disk drive controller engineering drawings] (Rev P, 10-1975) | ||
+ | * [http://www.bitsavers.org/pdf/dec/unibus/RK11-D_RevR_Engineering_Drawings_Oct76.pdf RK11-D Engineering Drawings] (Rev R, 10-1976) | ||
+ | * [http://www.bitsavers.org/pdf/dec/unibus/RK11-D_ECOs.pdf RK11-D ECOs] | ||
− | + | ==Further reading== | |
− | + | * ''RKV11-D disk drive controller technical manual'' (not available online, but in fiche - EP-RKV11-TM-001) | |
+ | * ''RKV11-D Field Maintenance Print Set (MP00223)'' (not available online) | ||
− | [[Category:UNIBUS Storage Controllers]] | + | [[Category: UNIBUS Storage Controllers]] |
− | [[Category: | + | [[Category: QBUS Storage Controllers]] |
+ | [[Category: DEC Documentation Errors]] |
Revision as of 22:04, 13 September 2023
The RK11 and RKV11 series of controllers for the UNIBUS and QBUS are for the earlier RK moving-head magnetic disk drives (RK02-RK05), all based on the IBM 2315 drive and pack.
(The later RK06 and RK07, and their controller, the RK611, are a different and entirely incompatible drive and pack.)
There are several models of the RK11, which are basically identical in their programming interface; differences between them are discussed in the sections on the individual models (below).
The UNIBUS RK11's all connect to the RK drive(s) through a bus carried over a BC11A cable, the standard UNIBUS cable.
Contents
- 1 Early RK11 version
- 2 RK11-C
- 3 RK11-D
- 4 RK11-E
- 5 RKV11-D
- 6 Device registers
- 6.1 777400: Drive Status Register (RKDS)
- 6.2 777402: Error Register (RKER)
- 6.3 777404: Control Status Register (RKCS)
- 6.4 777406: Word Count Register (RKWC)
- 6.5 777410: Current Bus Address Register (RKBA)
- 6.6 777412: Disk Address Register (RKDA)
- 6.7 777414: Maintenance Register (RKMR)
- 6.8 777416: Data Buffer Register (RKDB)
- 7 PDP-11 bootstraps
- 8 External links
- 9 Further reading
Early RK11 version
Although the RK11-C (below) is the earliest documented version, there are a few clues which indicate that there was an earlier version (one for which no documentation remains).
First, there is an image of a DEC indicator panel (image here) which seems to be from a pre-RK11-C; it clearly seems to be an RK11 panel of some sort, but the pinout of the RK11-C indicator panel connector (engineering drawing "RK11-C Indicator Connectors: RK11-C-23") has differences with this one.
In particular, on the panel in the image, the lower right line of lights on the panel shows 3 bits of Major State; on the RK11-C prints (on connector B32) there are 5 individual bits (Postamble, Checksum, Data, Header, Preamble). To explore this further, on the "Major States" RK11-C drawing (RK11-C-04), in the upper left corner, there is a row of 6 flops, each labeled with one of those states (plus one for 'Idle'), arranged in a chain - the output of each driving an individual light. However, the 3 bits for 'Major State' on the display panel imply it is binary coded - likely implemented with a counter.
Also, the signal "COUNT MSR" (likely 'Major State Register') is exactly what one would expect to see if the major state had previously been held in a counter, not a string of flops. It makes no sense to expend the effort synthesize that signal (on the next page, RK11-C-05, "MSR Control") when the individual signals which go into it could have been used, as is, to clock each flop in the chain.
A reasonable guess, in light of these facts, is that in some previous version, a counter had been used, but had had a problem of some sort, and had therefore been replaced by the string of flops. (The reason is unknown, but perhaps it was a binary counter, not Gray code, and the decoding into states was producing glitches.)
A plausible scenario is that such an earlier version was produced in very small numbers - perhaps as prototypes, only internal to DEC. (If there had been problems discovered with glitches in the major state counter, they would not have wanted to release it as a product.) Or if it was released as a product, perhaps they were all recalled and replaced with RK11-C's.
In this regard, it is interesting to note the DEC Spare Module Handbook, lists only the RK11-C and -D, but does list the KT11-B, a rara avis indeed. This argues that the predecessor did not exist 'in the wild'.
RK11-C
Main article: RK11-C disk controller
Like many of the earlier large peripheral controllers for the PDP-11, the RK11-C was a large custom wire-wrapped backplane which bolts into the front or back of a 19 inch rack, such as an H960; into it were plugged about 40 small M-Series FLIP CHIPs.
The RK11-C supports up to 4 drives per device bus (it uses 4 different 'select' lines on the bus, one of which is asserted at a time), and has two device busses.
RK11-D
The RK11-D was a re-implementation of the RK11-C on four quad cards (M7254-7), which plugged into a custom-wired 4 slot hex-high system unit backplane, for a BA11 slide-out mounting box.
It was program compatible with the RK11-C, except that the RK11-D did not contain the Maintenance Register of the earlier controller. In the RK11-D, the bus location of the MR responds, but according to the engineering drawings, it reads as zero, and written data is ignored.
The RK11-D supports up to 8 drives per device bus (it uses 3 'select' lines on the bus, with the drive number encoded in binary), and has only one device bus.
The RK11-D also has a 6-word FIFO buffer between the disk and the bus (see sheet 7 of the M7256 engineering drawings). The original RK11-C had only one word of buffering, which was probably not enough, and likely the reason for the double-buffered RK11-C version.
RK11-E
The RK11-E (sometimes called the RK15) was a variant of the RK11-D which supported 18-bit data; it was used with the PDP-15. It used the same cards as the RK11-D, with a jumper selection for 18-bit operation, and a different clock crystal.
It was used with the UC15 Unichannel, which used a PDP-11 (usually a PDP-11/05) acting as a slave to the PDP-15; the RK11-E was plugged into the UNIBUS on the PDP-11.
It used the two UNIBUS parity lines for the two extra data bits on the 18-bit PDP-15. The two extra bits were not used by the PDP-11 or its memory, but went straight through the MX15-B Memory Multiplexer, directly to the PDP-15's main memory.
RKV11-D
The RKV11-D is a variant of the RK11-D for the QBUS (the others are all UNIBUS).
It uses three of the four quad cards of the RK11-D (M7254-6), along with a replacement fourth card (M7268), in a different custom 4 slot quad-high system unit backplane. The M7268 is connected via two pairs of flat cables to two dual cards, one of which (M7269) plugs into a QBUS backplane slot, and the other (M993-YA) into the first RK05 drive.
It is program compatible with the RK11-D, except that it only supports Q16 QBUS mode when writing data. The two extended memory bits in the CSR have no effect; they may be read and written, but are not connected to anything.
Device registers
Register | Abbreviation | Address |
---|---|---|
Drive Status Register | RKDS | 777400 |
Error Register | RKER | 777402 |
Control Status Register | RKCS | 777404 |
Word Count Register | RKWC | 777406 |
Current Bus Address Register | RKBA | 777410 |
Disk Address Register | RKDA | 777412 |
Maintenance Register | RKMR | 777414 |
Data Buffer Register | RKDB | 777416 |
777400: Drive Status Register (RKDS)
Drive ID | DPL | RK05 | DRU | SIN | SCOK | DRY | R/W/S Ready | WPS | SC=CA | Sector Counter | |||||
15 | 14 | 13 | 12 | 11 | 10 | 09 | 08 | 07 | 06 | 05 | 04 | 03 | 02 | 01 | 00 |
Note that in the diagram of this register in the 'peripherals handbook' (both 1975 and 1976 editions), bits 7 and 6 are labelled incorrectly; the table which lists the bits has them correctly.
(To confirm this, consult the RK11-D print set, M7254 page 3; the dual 4->1 muxes which fill this page are the source of the RKDS, RKER, etc registers.)
The name of bit 6 has changed slightly from the RK11-C to the -D ("Access Ready" to "R/W/S Ready"), but it seems to be basically the same functionality.
777402: Error Register (RKER)
DRE | OVR | WLO | SKE | PGE | NXM | DLT | RTE | NXD | NXC | NXS | CSE | WCE | |||
15 | 14 | 13 | 12 | 11 | 10 | 09 | 08 | 07 | 06 | 05 | 04 | 03 | 02 | 01 | 00 |
777404: Control Status Register (RKCS)
ERR | H.E. | SCP | M | IBA | FMT | R/WA | SSE | RDY | IDE | EX. MEM | FUNCTION | GO | |||
15 | 14 | 13 | 12 | 11 | 10 | 09 | 08 | 07 | 06 | 05 | 04 | 03 | 02 | 01 | 00 |
Bit 9 is"Read/Write All" in the RK11-C, and unused in the -D; bit 12 is "Maint" in the -C, and unused in the -D.
Command | Code | In CSR |
---|---|---|
Reset Controller | 0 | 0 |
Write | 1 | 02 |
Read | 2 | 04 |
Write Check | 3 | 06 |
Seek | 4 | 010 |
Read Check | 5 | 012 |
Reset Drive | 6 | 014 |
Write Lock | 7 | 016 |
777406: Word Count Register (RKWC)
WC15 <---> WC00 | |||||||||||||||
15 | 14 | 13 | 12 | 11 | 10 | 09 | 08 | 07 | 06 | 05 | 04 | 03 | 02 | 01 | 00 |
777410: Current Bus Address Register (RKBA)
BA15 <---> BA01 | Unused | ||||||||||||||
15 | 14 | 13 | 12 | 11 | 10 | 09 | 08 | 07 | 06 | 05 | 04 | 03 | 02 | 01 | 00 |
777412: Disk Address Register (RKDA)
DRIVE SELECT | CYLINDER ADDRESS | SUR | SECTOR ADDRESS | ||||||||||||
15 | 14 | 13 | 12 | 11 | 10 | 09 | 08 | 07 | 06 | 05 | 04 | 03 | 02 | 01 | 00 |
777414: Maintenance Register (RKMR)
M. RCP | M. RDP | M. SPS | M. ADA | M. LAI | M. DRY | M. R/W/S | MAINT. SECTOR COUNTER | ||||||||
15 | 14 | 13 | 12 | 11 | 10 | 09 | 08 | 07 | 06 | 05 | 04 | 03 | 02 | 01 | 00 |
This register is not present in the RK11-D; it reads as 0, and writes to it are discarded.
777416: Data Buffer Register (RKDB)
DB15 <---> DB00 | |||||||||||||||
15 | 14 | 13 | 12 | 11 | 10 | 09 | 08 | 07 | 06 | 05 | 04 | 03 | 02 | 01 | 00 |
PDP-11 bootstraps
Disk 0
Address | Data | Mnemonic | Description |
---|---|---|---|
1000 | 012700 | MOV #177406,R0 | Move the address of the Word Count register into R0 |
1002 | 177406 | (constant) | |
1004 | 012710 | MOV #177400,(R0) | Move block size (negative) into Word Count register |
1006 | 177400 | (constant) | |
1010 | 012740 | MOV #5,-(R0) | Move 'Read Go' command into CSR |
1012 | 000005 | (constant) | |
1014 | 105710 | TSTB (R0) | Test for 'Done' bit in CSR |
1016 | 100376 | BPL 1014 | Jump backward if not set |
1020 | 005007 | CLR PC | Start loaded bootstrap with jump to 0 |
Note that the INIT pulse caused by hitting the 'Start' button will clear the Bus Adddress register, so the loaded block will be placed at location 0.
Disk n
This bootstrap will boot from any disk in a daisy-chained multi-drive configuration. Memory location octal 1006 contains the unit number, as follows:
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External links
- RK11-D and RK11-E moving head disk drive controller manual (DEC-11-HRKDA-B-D)
- RK11-D and RK11-E moving head disk drive controller user's manual (EK-RK11D-OP-001)
- RK11-D and RK11-E moving head disk drive controller manual (EK-RK11D-MM-002)
- RKV11-D disk drive controller user's manual (EK-RKV11-0P-001)
- RK11-D disk drive controller engineering drawings (Rev P, 10-1975)
- RK11-D Engineering Drawings (Rev R, 10-1976)
- RK11-D ECOs
Further reading
- RKV11-D disk drive controller technical manual (not available online, but in fiche - EP-RKV11-TM-001)
- RKV11-D Field Maintenance Print Set (MP00223) (not available online)