Intel 21555 user manual Primary PCI Bus Arbitration, Secondary PCI Bus Arbitration

Arbitration

10.3Primary PCI Bus Arbitration

The 21555 implements primary PCI bus request and grant pins, p_req_l and p_gnt_l, that interface to an external primary bus arbiter. These pins are used when the 21555 wants to initiate a transaction on the primary PCI bus.

The 21555 asserts p_req_l when a posted write or delayed transaction is queued in upstream buffers. Signal

p_req_l remains asserted as long as the posted write and delayed transaction queues contain pending transactions; otherwise, p_req_l is deasserted two cycles after the address phase. However, when the 21555 keeps p_req_l asserted and the 21555 detects a target retry or target disconnect in response to an ongoing transaction, it deasserts p_req_l one cycle after detecting that p_stop_l is asserted before reattempting arbitration for that transaction. The signal p_req_l is deasserted for two clock cycles.

When a prefetchable read is ongoing on the primary bus when another delayed read is queued behind it, the 21555 delays the assertion of p_req_l. The assertion of p_req_1 is delayed until the 21555 is ensured that there is room in the read data queue for the second delayed read transaction.

When p_gnt_l is asserted when p_req_l is not asserted, the 21555 parks p_ad, p_cbe_l, and p_par by driving them to valid logic levels. The 64-bit extension signals are not parked. When the primary bus is parked at the 21555, and the 21555 has a transaction to initiate on the primary bus, it starts the transaction immediately as long as p_gnt_l was asserted during the previous clock cycle.

10.4Secondary PCI Bus Arbitration

The 21555 implements an internal secondary PCI bus arbiter supporting nine secondary bus masters, plus the 21555. The internal arbiter may be disabled and an external arbiter used for secondary bus arbitration.

The behavior of the 21555 secondary request is identical to the behavior of the 21555’s primary bus request.

10.4.1Secondary Bus Arbitration Using the Internal Arbiter

The 21555 enables the secondary bus arbiter when it detects pr_ad[7] high during reset. The 21555 has nine secondary bus request input pins, s_req_l[8:0], and nine secondary bus output grant pins, s_gnt_l[8:0], to support external secondary bus masters. The 21555 secondary bus request and grant signals are connected internally to the arbiter and are not brought out to external pins when the arbiter is enabled. The minimum latency between secondary bus request assertion and secondary bus grant assertion is two clock cycles.

The secondary arbiter supports a programmable two level rotating priority algorithm. Two groups of masters are assigned, a high priority group and a low priority group. The low priority group as a whole represents one entry in the high priority group. That is, when the high priority group consists of N masters, then in at least every N+1 transactions the highest priority is assigned to the low priority group. Priority rotates evenly among the low priority group. Therefore, members of the high priority group can be serviced N transactions out of N+1, while one member of the low priority group is serviced once every N+1 transactions.

Figure 25 is an example where four masters, including the 21555, are in the high priority group and six masters are in the low priority group.

When all requests are asserted, the highest priority rotate among the masters in the following fashion (high priority members in italics, low priority members in bold):

B, m0, m1, m2, m3, B, m0, m1, m2, m4, B, m0, m1, m2, m5, B, m0, m1, m2, m6, B, m0, m1,... etc.