Difference between revisions of "KE11-A Extended Arithmetic Element"
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− | The '''KE11-A Extended Arithmetic Element''' is an autonomous [[UNIBUS]] [[peripheral]] | + | The '''KE11-A Extended Arithmetic Element''' is an [[Extended Arithmetic Element]] implemented as autonomous [[UNIBUS]] [[peripheral]]; it can perform a variety of arithmetic or logical [[operator|operations]]: |
* multiplication | * multiplication | ||
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(The last is used for implementation of [[floating point]] in [[software]].) | (The last is used for implementation of [[floating point]] in [[software]].) | ||
− | It is implemented as several [[DEC card form factor|quad]] and dual [[printed circuit board|boards]], plugged into a custom four-slot [[system unit]] (details below). | + | It is implemented as several [[DEC card form factor|quad]] and dual [[printed circuit board|boards]], plugged into a custom four-slot [[system unit]] [[backplane]] (details below). |
The KE11-A was originally produced for use with the [[PDP-11/20]], whose [[KA11 CPU]] did not have multiply, divide, or multi-bit shift operations. As a UNIBUS peripheral, not integrated into the [[Central Processing Unit|CPU]], it was also usable with other models, e.g. the [[PDP-11/05]] and [[PDP-11/04]], which likewise did not implement multiplication in [[hardware]], etc. | The KE11-A was originally produced for use with the [[PDP-11/20]], whose [[KA11 CPU]] did not have multiply, divide, or multi-bit shift operations. As a UNIBUS peripheral, not integrated into the [[Central Processing Unit|CPU]], it was also usable with other models, e.g. the [[PDP-11/05]] and [[PDP-11/04]], which likewise did not implement multiplication in [[hardware]], etc. | ||
− | The KE11-A can be operated with an optional [[KM11-A Maintenance Set]] in order to diagnose faults. | + | The KE11-A can be operated with an optional [[KM11-A Maintenance Set]] (plugged into [[DEC edge connector contact identification|slot B02]]) in order to diagnose faults. |
It was replaced by the [[KE11-B Extended Arithmetic Element]], a [[program compatible]] re-implementation on a single hex card. | It was replaced by the [[KE11-B Extended Arithmetic Element]], a [[program compatible]] re-implementation on a single hex card. | ||
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* M827 Clock and States | * M827 Clock and States | ||
− | and a pair of M234 Register dual-height boards, plugged into the quad custom | + | and a pair of M234 Register dual-height boards, plugged into the quad custom backplane. |
===Board locations=== | ===Board locations=== | ||
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|} | |} | ||
− | + | ==See also== | |
+ | |||
+ | * [[KE11-B Extended Arithmetic Element]] | ||
+ | |||
+ | ==Further reading== | ||
+ | |||
+ | * ''KE11-A User's Guide'' (EK-KE11A-OP ?) | ||
+ | * ''KE11-A Technical Manual'' (EK-KE11A-TM ?) | ||
+ | |||
+ | ==External links== | ||
+ | |||
+ | * [http://www.bitsavers.org/pdf/dec/pdp11/handbooks/PDP1120_Handbook_1972.pdf pdp11/20-15-r20 processor handbook] - the operation of the KE11-A is covered in Chapter 8 (pp. 155-162 of the PDF) | ||
+ | * [http://bitsavers.org/pdf/dec/pdp11/1120/KE11-A_ExtendedArithElem.pdf KE11-A extended arithmetic element] (DEC-11-HKEA-D) | ||
+ | * [http://www.bitsavers.org/pdf/dec/unibus/KE11-A__Extended_Arithmetic_Element_Engineering_Drawings__Nov71.pdf KE11-A extended arithmetic element engineering drawings] | ||
[[Category: PDP-11s]] | [[Category: PDP-11s]] | ||
+ | [[Category: UNIBUS]] |
Latest revision as of 20:17, 2 July 2023
The KE11-A Extended Arithmetic Element is an Extended Arithmetic Element implemented as autonomous UNIBUS peripheral; it can perform a variety of arithmetic or logical operations:
- multiplication
- division
- multi-bit shifts
- logical shift
- arithmetic shift
- normalization
(The last is used for implementation of floating point in software.)
It is implemented as several quad and dual boards, plugged into a custom four-slot system unit backplane (details below).
The KE11-A was originally produced for use with the PDP-11/20, whose KA11 CPU did not have multiply, divide, or multi-bit shift operations. As a UNIBUS peripheral, not integrated into the CPU, it was also usable with other models, e.g. the PDP-11/05 and PDP-11/04, which likewise did not implement multiplication in hardware, etc.
The KE11-A can be operated with an optional KM11-A Maintenance Set (plugged into slot B02) in order to diagnose faults.
It was replaced by the KE11-B Extended Arithmetic Element, a program compatible re-implementation on a single hex card.
Contents
Registers
The device has a number of registers, which can be configured to sequential locations in the I/O page; most are words, but there are two byte registers. It is normally configured to addresses 777300-777316; a second KE11-A, if present, is configured to addresses 777320-777336. The operation to be performed is selected by the register which data is written to. Registers which hold results are readable, but many of the operation selection registers are write-only. In the register table (below), those which are read/write are shown in normal font; those which are read-only are in italics; those which are write-only in bold (these return '0' when read).
Register | Abbreviation | Address | Size |
---|---|---|---|
Divide | DIV | 777300 | W |
Accumulator | AC | 777302 | W |
Multiplier-Quotient | MQ | 777304 | W |
Multiply | MUL | 777306 | W |
Step Counter$ | SC | 777310 | B |
Status Register% | SR | 777311 | B |
Normalize | NOR | 777312 | W |
Logical Shift | LSH | 777314 | W |
Arithmetic Shift | ASH | 777316 | W |
$ The SC is read-only as an individual byte, but can written as a word together with the SR.
% The SR is read-only as an individual byte, but can written as a word together with the SC.
Division takes as one operand a 32-bit value held in the AC (high order) and MQ (low order); a remainder is left in the AC. Multiplication produces a 32-bit product in the AC (high order) and MQ (low order). Both arithmetic and logical shifts operate on a 32-bit value held in the AC (high order) and MQ (low order).
Status Register (SR)
Overflow XOR Negative | Negative | AC = -1 | AC = 0 | MQ = 0 | AC = MQ = 0 | AC = MQ15 | Carry |
07 | 06 | 05 | 04 | 03 | 02 | 01 | 00 |
Hardware
The KE11-A consists of 3 quad boards:
- M7210 Data Control
- M7211 Register Control
- M827 Clock and States
and a pair of M234 Register dual-height boards, plugged into the quad custom backplane.
Board locations
These are the board locations for the KE11-A (as seen from the board side of the backplane):
Connector | ||||||
---|---|---|---|---|---|---|
Slot | A | B | C | D | E | F |
1 | UNIBUS In | M7210 Data Control | ||||
2 | Unused | KM11-A | M234 Register (low byte) |
M234 Register (high byte) | ||
3 | G772 Power |
Reserved | M7211 Register Control | |||
4 | UNIBUS Out | M827 Clock & States |
See also
Further reading
- KE11-A User's Guide (EK-KE11A-OP ?)
- KE11-A Technical Manual (EK-KE11A-TM ?)
External links
- pdp11/20-15-r20 processor handbook - the operation of the KE11-A is covered in Chapter 8 (pp. 155-162 of the PDF)
- KE11-A extended arithmetic element (DEC-11-HKEA-D)
- KE11-A extended arithmetic element engineering drawings