Difference between revisions of "KDF11 CPUs"

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*[[KDF11-U CPU]] - M7133 - [[UNIBUS]] hex-width CPU used in the [[PDP-11/24]]
 
*[[KDF11-U CPU]] - M7133 - [[UNIBUS]] hex-width CPU used in the [[PDP-11/24]]
  
The basic [[clock]] µcycle is 300 nsec; simple [[register]]-register [[instruction]]s (e.g. MOV, ADD, etc) took 1.7 µseconds. Depending on the [[operand]] [[PDP-11 architecture#Operands|modes]] used in a particular instruction, and the [[main memory]] speed (with the [[asynchronous]] QBUS), that could add roughly 8.5 µseconds to that basic time. (The extra time is roughly linear in the number of [[memory cycle]]s, at 1.2 µseconds per cycle - PDP-11 instructions could add up to 6 additional memory cycles per instruction, above the 1 needed to [[fetch]] the basic instruction.)
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The basic [[clock]] µcycle is 300 nsec; simple [[register]]-register [[instruction]]s (e.g. MOV, ADD, etc) took 1.7 µseconds (1.2 µseconds on the KDF11-U). Depending on the [[operand]] [[PDP-11 architecture#Operands|modes]] used in a particular instruction, and the [[main memory]] speed (with the [[asynchronous]] QBUS), that could add up to roughly 8.5 µseconds (4.2 µseconds on the KDF11-U) to that basic time. (The extra time is roughly linear in the number of [[memory cycle]]s, at 1.2 µseconds (0.8 µseconds on the KDF11-U) per cycle - PDP-11 instructions could add up to 6 additional memory cycles per instruction, above the 1 needed to [[fetch]] the basic instruction.)
  
 
Like the [[LSI-11 CPUs|LSI-11]] models, as a cost-reduction measure they do not have a [[front panel]] to control them; instead, when the CPU is halted, specialized [[microcode]] used the main [[asynchronous serial line]] as a operating console. The command set is named Octal Debugging Technique ([[QBUS CPU ODT|ODT]]); there are commands to read and write [[main memory]], start the CPU, etc.
 
Like the [[LSI-11 CPUs|LSI-11]] models, as a cost-reduction measure they do not have a [[front panel]] to control them; instead, when the CPU is halted, specialized [[microcode]] used the main [[asynchronous serial line]] as a operating console. The command set is named Octal Debugging Technique ([[QBUS CPU ODT|ODT]]); there are commands to read and write [[main memory]], start the CPU, etc.

Revision as of 17:44, 17 November 2021

The KDF11 CPUs are single-board PDP-11 CPUs which all use the 'Fonz' F-11 chip set:

The basic clock µcycle is 300 nsec; simple register-register instructions (e.g. MOV, ADD, etc) took 1.7 µseconds (1.2 µseconds on the KDF11-U). Depending on the operand modes used in a particular instruction, and the main memory speed (with the asynchronous QBUS), that could add up to roughly 8.5 µseconds (4.2 µseconds on the KDF11-U) to that basic time. (The extra time is roughly linear in the number of memory cycles, at 1.2 µseconds (0.8 µseconds on the KDF11-U) per cycle - PDP-11 instructions could add up to 6 additional memory cycles per instruction, above the 1 needed to fetch the basic instruction.)

Like the LSI-11 models, as a cost-reduction measure they do not have a front panel to control them; instead, when the CPU is halted, specialized microcode used the main asynchronous serial line as a operating console. The command set is named Octal Debugging Technique (ODT); there are commands to read and write main memory, start the CPU, etc.

The main asynchronous serial interface is normally configured so that when the CPU is running, sending a break on the console serial line halts the CPU.

Floating point

All the KDF11 CPUs have two choices for floating point support (full PDP-11 FP11 floating point): a on-board single chip, the KEF11-A floating point chip, which implements floating point using microcode; and a higher-performance co-processor on a separate quad board, the FPF11 (M8188).

The FPF11 communicates with the KDF11 via a flat cable that plugs into the chip socket on the KDF11 where the KEF11-A is installed; is unusual that it can plug into either a QBUS or UNIBUS backplane, since it draws only power from the backplane - all signals come over the cable to the KDF11.

See also