KT11-B Technical Manual

From Computer History Wiki
Revision as of 05:12, 9 September 2016 by Jnc (talk | contribs) (Add conventions, states)
Jump to: navigation, search

As a Special Systems Option, the KT11-B does not have the usual DEC Technical Manual. This page attempts to provide at least the high-level portions of such a manual.

Prints

The Engineering Drawings for the KT11-B (7605071) include the following logic prints:

Number Page Count Content
2 2 Address Bus and Control Logic
3 1 State Control Logic
4 1 SP Input Mux
5 2 Associative Memory Control
6 1 Scratch Pad and State Control Logic
7 3 Data Bus and Control Logic
8 1 Keys and Associative Memory
9 1 XP Option for KT11 Associative Memory Control
10 1 PGM Register
11 1 PGC Register
12 1 Timing Logic
13 1 Buffered Signals and Main Logic
14 1 Extended Associative Memory
15 1 KA11 to KT11 Interface
17 1 KT11-B Bus Connectors

Drawing Conventions

The drawings are somewhat easier to understand if the conventions used in the drawings are understood. Although no document lists them, they can be ascertained by study of the drawings.

Signal Names

Signal names in this drawing set usually start with 'Dxx', where 'xx' is the drawing number (given in the table above). Inverted (asserted low) signals are shown as '-XXX'. In signal names of the form 'XXX (yy)', 'yy' is a bit number (in standard PDP-11 order) in a register or bus.

The following specific signal names have the meaning given:

  • Signals of the form 'x.y' are states, with 'x' being the major state, and 'y' being the minor state

States

The KT11-B has a state composed of two parts, the 'X' or major part, and the 'Y' or minor part.

The X state counter is on print 12; it is composed of a 2-bit counter composed of a pair of D flops, with 4 AND gates with inverting inputs to create individual major state outputs, signals 'XSRx' (x = 0-3).

The Y state counter is an M826 Flip Chip, showm on print 8; its outputs are signals 'YSRx' (x = 0,1,3,7,15,14,12,8).

The two groups of signals are combined into signals for each individual major/minor state by NAND gates shown on drawing 12; inverters provide non-inverted forms.