Difference between revisions of "KA11 CPU"
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The first and last communicate with the machine's main bus, the [[UNIBUS]]. | The first and last communicate with the machine's main bus, the [[UNIBUS]]. | ||
| − | There is a 16x16 register file, of which half are used to hold the machine's [[PDP-11 architecture|general registers]]; two of the others are used for internal temporary registers (Temp and Source). A number of other internal registers (e.g. the Bus Address Register) are implemented separately, | + | There is a 16x16 register file, of which half are used to hold the machine's [[PDP-11 architecture|general registers]]; two of the others are used for internal temporary registers (Temp and Source). A number of other internal registers (e.g. the Instruction Register and Bus Address Register) are implemented separately, to make them always available. |
===State machine=== | ===State machine=== | ||
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* Service - perform special operations such as interrupts, traps, etc. | * Service - perform special operations such as interrupts, traps, etc. | ||
| − | Not all instructions pass through all 5 states, although all do pass through 'Fetch'. | + | Each major state contains a number of minor states, as needed to perform the operations of that state (e.g. perform a bus cycle to fetch a memory word). |
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| + | Not all instructions pass through all 5 states, although all do pass through 'Fetch'. 'Source' and 'Destination' are not entered if the [[PDP-11 architecture|mode]] for that operand is 'Register'; only 'full' double-operand instructions (i.e. those with mode bits in the source) will enter 'Source' state. | ||
==Implementation== | ==Implementation== | ||
Revision as of 13:52, 20 August 2016
The KA11 is the CPU of the PDP-11/20, the first PDP-11.
It was the only PDP-11 CPU which was not micro-programed (since the cheap ROMs which make micro-programming cost-effective in smaller machines were not available at the time it was designed).
Internal structure
The KA11 is basically divided into four main sections:
- Bus Interface
- Data Paths
- Registers
- Control
The first and last communicate with the machine's main bus, the UNIBUS.
There is a 16x16 register file, of which half are used to hold the machine's general registers; two of the others are used for internal temporary registers (Temp and Source). A number of other internal registers (e.g. the Instruction Register and Bus Address Register) are implemented separately, to make them always available.
State machine
As noted above, the KA11 does not have microcode; instead, it uses a state machine to control the operation of the CPU. There are 5 major states:
- Fetch - obtain and decode the instruction;
- Source - decode the source field of a double-operand instruction, fetch the data, and store it in a temporary;
- Destination - decode the destination field, and obtain the data;
- Execute - use the data obtained in previous states to perform the requested operation, including writing data back to the desination;
- Service - perform special operations such as interrupts, traps, etc.
Each major state contains a number of minor states, as needed to perform the operations of that state (e.g. perform a bus cycle to fetch a memory word).
Not all instructions pass through all 5 states, although all do pass through 'Fetch'. 'Source' and 'Destination' are not entered if the mode for that operand is 'Register'; only 'full' double-operand instructions (i.e. those with mode bits in the source) will enter 'Source' state.
Implementation
The KA11 was implemented as a set of extended length FLIP CHIPs; most of the circuuitry was on quad-height ones, but there were some duals, and a few singles.
They all plugged into a custom backplane, formed from three 4-slot backplane sections wired together into one monolithic unit.
The KA11 board set comprises:
| Board | Function |
|---|---|
| Single | |
| M823 | Codes Data |
| M825 | Power Failure and Control |
| Dual | |
| M224 (two instances) | Data Paths (8 bits; 2 latches, adder) |
| M225 | Registers (16 bits x 16) |
| M821 | Register Control |
| M822 | Flag Control |
| M824 | Priority |
| Quad | |
| M724 | Bus and Console Control |
| M725 | Bus Interface and IR |
| M726 | IR Decode |
| M727 | State Control |
| M728 | Timing and States |
| M820 | Data Path Control |
| v • d • e PDP-11 Computers and Peripherals |
|---|
| UNIBUS PDP-11s - PDP-11/20 • PDP-11/15 • PDP-11/35 • PDP-11/40 • PDP-11/45 • PDP-11/50 • PDP-11/55 • PDP-11/70 PDP-11/05 • PDP-11/10 • PDP-11/04 • PDP-11/34 • PDP-11/60 • PDP-11/44 • PDP-11/24 • PDP-11/84 • PDP-11/94 QBUS PDP-11s - PDP-11/03 • PDP-11/23 • PDP-11/23+ • MicroPDP-11/73 • MicroPDP-11/53 • MicroPDP-11/83 • MicroPDP-11/93 QBUS CPUs: LSI-11 • LSI-11/2 • KDF11-A • KDF11-B • KDJ11-A • KDJ11-B • KDJ11-D • KDJ11-E Buses: UNIBUS • UNIBUS map • SPC • MUD • EUB • QBUS • CD interconnect • PMI Also: PDP-11 architecture • PDP-11 Extended Instruction Set • FP11 floating point • PDP-11 Memory Management |
| UNIBUS CPUs: KA11 • KC11 • KB11-A • KB11-B • KB11-C • KB11-D • KD11-A • KD11-B • KD11-D • KD11-E • KD11-EA • KD11-K • KD11-Z • KDF11-U
Co-processors: FP11-A • FP11-B • FP11-C • FP11-E • FP11-F • KE44-A • FPF11 Chips: LSI-11 • KEV11-A • KEV11-B • KEV11-C • F-11 • KEF11-A • KTF11-A • T-11 • J-11 • FPJ11 CPU options: KE11-E • KE11-F • KJ11-A • KT11-C • KT11-D • KK11-A • KK11-B • KT24 • KTJ11-B Rare CPU options: KS11 Memory Protection and Relocation option • KT11-B Paging Option • KUV11 Writeable Control Store Front panels: KY11-A • KY11-D • KY11-J • KY11-LA • KY11-LB • KY11-P More on buses: UNIBUS and QBUS termination • Bus Arbitration on the Unibus and QBUS • CTI BUS PDT-11s - PDT-11/110 • PDT-11/130 • PDT-11/150 CTI PDP-11s - PRO-325 • PRO-350 • PRO-380 Other: FIS floating point • PDP-11 Commercial Instruction Set • PDP-11 stacks • PDP-11 family differences |
