Difference between revisions of "MSV11-J memory module"
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Although it can function in QBUS-only mode (but see the note below about the -JB and -JC versions), it is really intended for use with a PMI-capable [[Central Processing Unit|CPU]], such as the [[KDJ11-B CPU|KDJ11-B]]. In systems such as the [[PDP-11/83]], where the primary [[Input/output|I/O]] [[bus]] is the QBUS, the card 'speaks' PMI to the CPU, and QBUS to the devices. In the [[PDP-11/84]], the PMI is used for communication with both the CPU and the [[KTJ11-B UNIBUS adapter]]. | Although it can function in QBUS-only mode (but see the note below about the -JB and -JC versions), it is really intended for use with a PMI-capable [[Central Processing Unit|CPU]], such as the [[KDJ11-B CPU|KDJ11-B]]. In systems such as the [[PDP-11/83]], where the primary [[Input/output|I/O]] [[bus]] is the QBUS, the card 'speaks' PMI to the CPU, and QBUS to the devices. In the [[PDP-11/84]], the PMI is used for communication with both the CPU and the [[KTJ11-B UNIBUS adapter]]. | ||
− | The memory is arranged as 2 banks, each 16 data bits wide, with 6 additional bits for the ECC. One bank is used to hold [[word]]s at even locations, the other for those in odd | + | The memory is arranged as 2 banks, each 16 data bits wide, with 6 additional bits for the ECC. One bank is used to hold [[word]]s at even locations, the other for those in odd. A read cycle from the bus will start a read of both sides simultaneously, and so in PMI mode, the second word is already available once the first has been sent. |
On power-on, the system is frozen (via negation of the BPOK QBUS signal) while the memory is cleared, to prevent spurious ECC errors. For [[diagnostic]] purposes, the ECC can be disabled, and there are also means for the CPU to read/write the ECC bits directly. | On power-on, the system is frozen (via negation of the BPOK QBUS signal) while the memory is cleared, to prevent spurious ECC errors. For [[diagnostic]] purposes, the ECC can be disabled, and there are also means for the CPU to read/write the ECC bits directly. | ||
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The -JB and -JC are earlier versions which contain an error which prevents them working properly as QBUS memories (i.e. in the PDP-11/83); they are only usable in the PDP-11/84. | The -JB and -JC are earlier versions which contain an error which prevents them working properly as QBUS memories (i.e. in the PDP-11/83); they are only usable in the PDP-11/84. | ||
+ | |||
+ | ==Technical information== | ||
+ | |||
+ | As far as is known, there are no engineering drawings extant for the MSV11-J. However, some technical information has been gathered on the board, and it is made available here. | ||
+ | |||
+ | Unlike other [[Digital Equipment Corporation|DEC]] boards, this board does not contain the ''Exx'' identification numbers for chips on the board. The following scheme has therefore been devised, to idenify the DRAM chips in the bit to chip table below. | ||
+ | |||
+ | The DRAM chips are organized into four blocks; block 0 and 2 hold words in the even word-number bank, and 1 and 3 hold those in the odd word-number bank. With the component side of the board facing, and the metal insertion handle at the top, the pair of low-address blocks (0 and 1) are at the top of the card, and the optional pair of high-address blocks (2 and 3) are at the bottom. | ||
+ | |||
+ | The even word-numbered bank is on the right side (denoted with an 'R'), and the odd bank on the left ('L'). There are three columns on each side (denoted '0'-'2', with the '0' column at the left of each group). Each column contains 17 chips (denoted '0'-'16', with '0' at the top). Chips are identified as SCRr, where 'S' is the side ('L' or 'R'), C is tyhe column, and 'Rr' is the row. | ||
+ | |||
+ | {| class="wikitable" | ||
+ | ! Bit !! Block 0 !! Block 1 !! Block 2 !! Block 3 | ||
+ | |- | ||
+ | | 01 || R05 | ||
+ | |- | ||
+ | | 02 || R14 | ||
+ | |- | ||
+ | | 04 || R24 | ||
+ | |- | ||
+ | | 10 || R04 | ||
+ | |- | ||
+ | | 20 || R13 | ||
+ | |- | ||
+ | | 40 || R23 | ||
+ | |- | ||
+ | | 100 || R03 | ||
+ | |- | ||
+ | | 200 || R22 | ||
+ | |- | ||
+ | | 400 || R12 | ||
+ | |- | ||
+ | | 1000 || R02 | ||
+ | |- | ||
+ | | 2000 || R21 | ||
+ | |- | ||
+ | | 4000 || R11 | ||
+ | |- | ||
+ | | 10000 || R01 | ||
+ | |- | ||
+ | | 20000 || R20 | ||
+ | |- | ||
+ | | 40000 || R10 | ||
+ | |- | ||
+ | | 100000 || R00 | ||
+ | |- | ||
+ | | CBx || R25 | ||
+ | |- | ||
+ | | CB0 || R27 | ||
+ | |- | ||
+ | | CB1 || R26 | ||
+ | |- | ||
+ | | CB2 || R06 or R16 | ||
+ | |- | ||
+ | | CB4 || R06 or R16 | ||
+ | |- | ||
+ | | CB8 || R15 | ||
+ | |} | ||
+ | |||
+ | Note that not all the chips in this area are DRAM; for example, in block 1, L17, L27, L211, and L213 and up are not DRAM. | ||
==Markings== | ==Markings== | ||
Line 39: | Line 99: | ||
P/N 1213113 | P/N 1213113 | ||
− | + | M8637 | |
EC | EC | ||
+ | |||
ASICs on board are 21-24404-01 and 21-22772-01 | ASICs on board are 21-24404-01 and 21-22772-01 | ||
</pre> | </pre> | ||
{{PDP-11}} | {{PDP-11}} |
Revision as of 22:28, 5 July 2018
The MSV11-J (M8637) is a QBUS/PMI DRAM main memory card. As a PMI card, it uses the CD interconnect; it can therefore only be plugged into a Q/CD backplane. NOTE: Plugging an MSV11-J card into a regular Q/Q backplane will damage the MSV11-J.
It has ECC which automagically corrects single-bit errors (at a slight penalty in response time), and detects double-bit errors. It holds up to 2 Mbyes when fully populated with 256Kx1 DRAM chips, or 1 Mbyte when half-populated (the only partially-filled configuration supported). It supports block mode on both the QBUS and PMI.
Although it can function in QBUS-only mode (but see the note below about the -JB and -JC versions), it is really intended for use with a PMI-capable CPU, such as the KDJ11-B. In systems such as the PDP-11/83, where the primary I/O bus is the QBUS, the card 'speaks' PMI to the CPU, and QBUS to the devices. In the PDP-11/84, the PMI is used for communication with both the CPU and the KTJ11-B UNIBUS adapter.
The memory is arranged as 2 banks, each 16 data bits wide, with 6 additional bits for the ECC. One bank is used to hold words at even locations, the other for those in odd. A read cycle from the bus will start a read of both sides simultaneously, and so in PMI mode, the second word is already available once the first has been sent.
On power-on, the system is frozen (via negation of the BPOK QBUS signal) while the memory is cleared, to prevent spurious ECC errors. For diagnostic purposes, the ECC can be disabled, and there are also means for the CPU to read/write the ECC bits directly.
Four versions exist:
- MSV11-JB, 1 Mbyte
- MSV11-JC, 2 Mbyte
- MSV11-JD, 1 Mbyte
- MSV11-JE, 2 Mbyte
The -JB and -JC are earlier versions which contain an error which prevents them working properly as QBUS memories (i.e. in the PDP-11/83); they are only usable in the PDP-11/84.
Technical information
As far as is known, there are no engineering drawings extant for the MSV11-J. However, some technical information has been gathered on the board, and it is made available here.
Unlike other DEC boards, this board does not contain the Exx identification numbers for chips on the board. The following scheme has therefore been devised, to idenify the DRAM chips in the bit to chip table below.
The DRAM chips are organized into four blocks; block 0 and 2 hold words in the even word-number bank, and 1 and 3 hold those in the odd word-number bank. With the component side of the board facing, and the metal insertion handle at the top, the pair of low-address blocks (0 and 1) are at the top of the card, and the optional pair of high-address blocks (2 and 3) are at the bottom.
The even word-numbered bank is on the right side (denoted with an 'R'), and the odd bank on the left ('L'). There are three columns on each side (denoted '0'-'2', with the '0' column at the left of each group). Each column contains 17 chips (denoted '0'-'16', with '0' at the top). Chips are identified as SCRr, where 'S' is the side ('L' or 'R'), C is tyhe column, and 'Rr' is the row.
Bit | Block 0 | Block 1 | Block 2 | Block 3 |
---|---|---|---|---|
01 | R05 | |||
02 | R14 | |||
04 | R24 | |||
10 | R04 | |||
20 | R13 | |||
40 | R23 | |||
100 | R03 | |||
200 | R22 | |||
400 | R12 | |||
1000 | R02 | |||
2000 | R21 | |||
4000 | R11 | |||
10000 | R01 | |||
20000 | R20 | |||
40000 | R10 | |||
100000 | R00 | |||
CBx | R25 | |||
CB0 | R27 | |||
CB1 | R26 | |||
CB2 | R06 or R16 | |||
CB4 | R06 or R16 | |||
CB8 | R15 |
Note that not all the chips in this area are DRAM; for example, in block 1, L17, L27, L211, and L213 and up are not DRAM.
Markings
On the board M8637 Side 1 L1 50-15672-01 C1 Ga6618 2644711 2 MB Q,P-BUS MOS MEM LPWR TPB D.V0 On the metal frame P/N 1213113 M8637 EC ASICs on board are 21-24404-01 and 21-22772-01
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