Difference between revisions of "UNIBUS"

The UNIBUS (or Unibus - the capitalization style changed over time) was the earliest of two bus technologies used with PDP-11s manufactured by Digital Equipment Corporation; it was first seen in the PDP-11/20, in 1970. Later, early VAX systems from that company used the UNIBUS as an I/O bus.

It was the only bus in most PDP-11 systems, and thus supported several capabilities: the ability of the processor to read and write main memory, and device registers; and the ability for devices to do DMA transfers to memory, and interrupt the CPU.

It could exist on a cable (the original mode of operation), and later, within a backplane (in 'Small Peripheral Controller (SPC)' or 'Modified UNIBUS Device (MUD)' slots). Up to 20 nodes (devices) could be connected to a single UNIBUS segment; additional segments could be connected via a bus repeater.

The UNIBUS contained 16 data lines, and 18 address lines; the 18 address lines allowed the addressing of a maximum of 256 KBytes. Typically, the top 8 KBytes of address space was reserved for the registers of the memory mapped IO devices used in the PDP-11 architecture. (The limit of 18 address lines was to prove a severe handicap in the later phases of the UNIBUS' operational life.)

The bus was completely asynchronous, allowing a mixture of fast and slow devices. It allowed the overlapping of arbitration (selection of the next bus master) while the current bus master was still performing data transfers.

The design deliberately minimized the amount of redundant logic required in the system. For example, a system always contained more slave devices than master devices, so most of the complex logic required to implement asynchronous data transfers was forced into the relatively few master devices. For interrupts, only the interrupt-fielding processor needed to contain the complicated timing logic.

The end result was that most I/O controllers could be implemented with very simple logic; most of the critical logic was later implemented as a custom MSI IC.

Technical details

Two control lines (C0 and C1) allowed the selection of four different data transfer cycle types in normal master/slave cycles:

• DATI (Data In, a read)
• DATIP (Data In/Pause, the first portion of a Read-Modify-Write operation. A DATO or DATOB operation completes this.)
• DATO (Data Out, a word write)
• DATOB (Data Out/Byte, a byte write)

During an interrupt cycle, a fifth style of transfer was used to convey an interrupt vector from the interrupting device to the interrupt-fielding processor.

Lines

Among the UNIBUS signals are:

• BR4-BR7 - Bus (Interrupt) Requests at priorities 4 (lowest) through 7 (highest)
• BG4-BG7 - Bus (Interrupt) Grants at priorities 4 (lowest) through 7 (highest)
• NPR - Non Processor (DMA) Request
• NPG - Non Processor (DMA) Grant
• MSYNC - Master Sync
• SSYNC - Slave Sync
• BBSY - Bus Busy
• SACK - Selection Acknowledge
• PA, PB - Parity control
• C0, C1 - Cycle Control

Pinout

The UNIBUS was composed of 72 wires (2 connectors x 36 lines per connector), in its initial wide flat cable (BC11) instantiation. When not counting the power and ground lines, it is usually referred to as a 56 line bus.

The following table gives the pinout for the flat cable form; pins are identified in the standard DEC manner; there are two connectors, A and B; pins on the component side are 1, those on the solder side are 2. Pins are identified by the 'DEC alphabet', A-V, with G, I, O and Q dropped.

See Also

• Small Peripheral Controller
• Modified UNIBUS Device
• UNIBUS memories
• QBUS
• PDP-11
• VAX