MC68LC060RC66 Freescale Semiconductor, MC68LC060RC66 Datasheet - Page 306

MC68LC060RC66

Manufacturer Part Number

MC68LC060RC66

Description

IC MPU 32BIT 66MHZ 206-PGA

Manufacturer

Freescale Semiconductor

Datasheet

1.MC68060RC50.pdf (416 pages)

Specifications of MC68LC060RC66

Processor Type

M680x0 32-Bit

Speed

66MHz

Voltage

3.3V

Mounting Type

Surface Mount

Package / Case

206-PGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

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Instruction Execution Timing

nation operand can be routed to the sOEP before the actual “execution” of the pOEP instruc-

tion. The test succeeds in this example.

10.2 TIMING ASSUMPTIONS

For the timing data presented, the following assumptions are made:

10-10

1. The data presents the execution times for individual instructions and makes no as-

2. The OEP is loaded with the opword and all required extension words at the beginning

3. The OEP does not experience any sequence-related pipeline stalls. The most com-

as a base register for address calculation with no stall, or as an index register for

The MC68060 provides another change/use optimization for a commonly encountered

sumptions concerning the ability of the MC68060 to dispatch multiple instructions in a

given machine cycle. For sequences where instruction-pairs are dispatched, the exe-

cution time of the two instructions is defined by the execution time of the instruction in

the pOEP.

of each instruction execution. This implies that the OEP spends no time waiting for the

instruction fetch pipeline (IFP) to supply opwords and/or extensions.

mon example of this type of stall is a “change/use” register stall. This type of stall re-

sults from a register being modified by an instruction and a subsequent instruction

generating an address using the previously modified register. The second instruction

must stall in the OEP until the register is actually updated by the previous instruction.

For example:

address calculation with no stall, if Xi.l*{1,4}. If the index register used is Xi.l*2, Xi.l*8,

or Xi.w, then the previously described 3 cycle stall occurs.

construct—when an address register is loaded from memory and then used in an oper-

and address calculation, the OEP experiences a one cycle stall.

In this sequence, the second instruction is held for 2 clock cycles stalling for the first

instruction to complete the update of the d0 register. If consecutive instructions load

a register and then use that register as the base for an address calculation (An), a 2-

clock-cycle wait may be incurred. This represents the maximum change/use penalty

for a base register. The maximum change/use penalty for an index register (Xi) is 3

clock cycles (for Xi.l*2, Xi.l*8, and Xi.w). The change/use penalty for an index register

if Xi.l*1 or Xi.l*4 is 2 clock cycles.

Certain instructions have been optimized to ensure no change/use stall occurs on

subsequent instructions. The destination register of the following instructions is avail-

able for subsequent instructions:

muls.l #<data>,d0

mov.l (a0,d0.l*4),d1

lea

mov.l&imm,Rn

movq

clr.lDn,

any op(An)+

any op–(An)

M68060 USER’S MANUAL

MOTOROLA

MC68LC060RC66 Freescale Semiconductor, MC68LC060RC66 Datasheet - Page 306

MC68LC060RC66

Specifications of MC68LC060RC66

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