Initialization and configuration, 21264/ev67 reset state machine major operations, Chapter 7, initialization and configuration, d – Compaq 21264 User Manual

Alpha 21264/EV67 Hardware Reference Manual

Initialization and Configuration

7–1

7

Initialization and Configuration

This chapter provides information on 21264/EV67-specific microprocessor system ini-
tialization and configuration. It is organized as follows:

•

Power-up reset flow

•

Fault reset flow

•

Energy star certification and sleep mode flow

•

Warm reset flow

•

Array initialization

•

Initialization mode processing

•

External interface initialization

•

Internal processor register (IPR) reset state

•

IEEE 1149.1 test port reset

•

Reset state machine state transitions

•

Phase-locked loop (PLL) functional description

Initialization is controlled by the reset state machine, which is responsible for four
major operations. Table 7–1 describes the four major operations.

7.1 Power-Up Reset Flow and the Reset_L and DCOK_H Pins

The 21264/EV67 reset sequence is triggered using the two input signals Reset_L and
DCOK_H in a sequence that is described in Section 7.1.1. After Reset_L is deasserted,
the following sequence of operations takes place:

Table 7–1 21264/EV67 Reset State Machine Major Operations

Operation

Function

Ramp up

Sequence the PLL input and output dividers (X

div

and Z

div

) to gradually raise the internal

GCLK frequency and generate time intervals for the PLL to re-establish lock.

BiST/SROM

Receive a synchronous transfer on the ClkFwdRst_H pin in order to start built-in self-test and
SROM load at a predictable GCLK cycle.

Clock forward
interface

Receive a synchronous transfer on the ClkFwdRst_H pin in order to initialize the clock for-
warding interface.

Ramp down

Sequence the PLL input and output dividers (X

div

and Z

div

) to gradually lower the internal

GCLK frequency during sleep mode.