AMD AMD-K6-2/450 Design Guide - Page 67

23913A/0-November 2000 Preliminary Information Embedded AMD-K6™ Processors BIOS Design Guide EPM 16-Byte I/O Block (Low-Power Versions Only) The EPM 16-byte I/O block contains one 4-byte field-Bus Divisor and Voltage ID Control (BVC)-for enabling, controlling, and monitoring the EPM features (see Figure 27). All accesses to the EPM 16-byte I/O block must be aligned dword accesses. Except for the EPM special bus cycle, valid accesses to the EPM 16-byte block do not generate I/O bus cycles, while non-aligned and non-dword accesses are passed to the I/O bus. 15 12 11 87 0 BVC Reserved Symbol Description BVC Bus Divisor and Voltage ID Control Bytes 11-8 Figure 27. EPM 16-Byte I/O Block (Low-Power Model D) Table 26 defines the function of the byte-field within the EPM 16-byte I/O block mapped by the EPMR. Table 26. EPM 16-Byte I/O Block Definition (Low-Power Model D) Byte Description R/W Function1 15-12 Reserved R All reserved bits are always read as 0. 11-8 Bus Divisor and Voltage ID Control (BVC) R/W The bit fields within the BVC bytes allow software to change the processor bus divisor and core voltage. 7-0 Reserved R All reserved bits are always read as 0. Notes: 1. All bits default to 0 when RESET is asserted. BVC Field Figure 28 on page 56 shows the format and Table 27 defines the function of each bit of the BVC field located within the 16-byte I/O block. Note: The EPM Stop Grant state is a low-power, clock-control state entered by writing a non-zero value to the SGTC field for altering the core voltage and frequency settings. Systeminitiated inquire (snoop) cycles are not supported and must be prevented during EPM Stop Grant clock control state. Model D Registers 55